Metformin

People with diabetes: modest evidence of lower cancer-specific mortality among people with diabetes treated with metformin

• 26% lower cancer-specific mortality, with most benefit for colorectal cancer, among people with cancer and diabetes treated with metformin compared to no metformin in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 21 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies⁸Lega IC, Shah PS et al. The effect of metformin on mortality following cancer among patients with diabetes. Cancer Epidemiology, Biomarkers & Prevention. 2014 Oct;23(10):1974-84.
• Lower cancer-specific mortality among people with both cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 28 observational studies⁹Zhang ZJ, Li S. The prognostic value of metformin for cancer patients with concurrent diabetes: a systematic review and meta-analysis. Diabetes, Obesity & Metabolism. 2014 Aug;16(8):707-10.
• 38% lower cancer-specific mortality among people with both diabetes and cancer treated with metformin compared to other glucose-lowering medications in a large meta-analysis of 20 observational studies¹⁰Yin M, Zhou J, Gorak EJ, Quddus F. Metformin is associated with survival benefit in cancer patients with concurrent type 2 diabetes: a systematic review and meta-analysis. Oncologist. 2013 Dec;18(12):1248-1255.

People with diabetes: no evidence of an effect on survival or tumor response among people with advanced or metastatic cancer (mostly with diabetes) treated with metformin in a combined analysis of studies

• No evidence of an effect on tumor response, progression-free survivalthe time during and after treatment of a disease that a patient lives without disease progression (worsening), or overall survival among people with advanced or metastatic cancer treated with metformin with systemic anticancer therapy compared to the anticancer therapy alone in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 9 RCTsrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹¹Kim HS, Kim JH, Jang HJ, Lee J. The addition of metformin to systemic anticancer therapy in advanced or metastatic cancers: a meta-analysis of randomized controlled trials. International Journal of Medical Sciences. 2020 Sep 12;17(16):2551-2560.

People without diabetes: no evidence of an effect on overall or progression-free survival among nondiabetic women with metastatic breast cancer treated with metformin in a combined analysis of studies

• No evidence of an effect on overall or progression-free survival among nondiabetic women with metastatic breast cancer treated with metformin compared to no metformin in a meta-analysis of 3 RCTs¹²Lusica PMM, Eugenio KPY, Sacdalan DBL, Jimeno CA. A systematic review and meta-analysis on the efficacy and safety of metformin as adjunctive therapy among women with metastatic breast cancer. Cancer Treatment and Research Communications. 2021;29:100457.

People with diabetes

Modest evidence of lower cancer-specific mortality among people with both bladder cancer and diabetes treated with metformin

• 22% lower cancer-specific mortality among people with bladder cancer and diabetes treated with metformin compared to no metformin in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 3 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies¹³Yao X, Liu H, Xu H. The impact of metformin use with survival outcomes in urologic cancers: a systematic review and meta-analysis. Biomed Research International. 2021 Oct 8;2021:5311828.

Modest evidence of better progression-free survival among people with both bladder cancer and diabetes treated with metformin

• Better progression-free survival and 43% lower cancer-specific mortality among people with both bladder cancer and diabetes treated with metformin compared to other people in a very large meta-analysis of 9 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies¹⁴Hu J, Chen JB et al. Association of metformin intake with bladder cancer risk and oncologic outcomes in type 2 diabetes mellitus patients: a systematic review and meta-analysis. Medicine (Baltimore). 2018 Jul;97(30):e11596.

People with diabetes

Modest evidence of better overall survival among people with glioma or glioblastoma and diabetes treated with metformin

Preliminary evidence of longer progression-free intervals among people with glioblastoma and diabetes receiving radiation therapy and also treated with metformin

• 25% lower progression-free mortality and 36% lower overall mortality among people with WHO grade 3 glioma (but not grade 4 as described above in Advanced cancer) and better progression-free survival among people with glioma and diabetes treated with metformin compared to no metformin in a very large observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods study¹⁵Seliger C, Luber C et al. Use of metformin and survival of patients with high-grade glioma. International Journal of Cancer. 2019 Jan;144(2):273-280.
• Better overall survival among people with glioblastoma and diabetes treated with metformin compared to other diabetes treatments in a mid-sized observational study¹⁶Welch MR, Grommes C. Retrospective analysis of the effects of steroid therapy and antidiabetic medication on survival in diabetic glioblastoma patients. CNS Oncology. 2013 May;2(3):237-46.
• Longer progression-free intervals after radiation therapy among people with glioblastoma and diabetes treated with metformin compared to no metformin in a mid-sized observational study¹⁷Adeberg S, Bernhardt D et al. Metformin influences progression in diabetic glioblastoma patients. Strahlentherapie und Onkologie. 2015 Dec;191(12):928-35.
• Better progression-free survival (metformin as diabetes monotherapy) and a weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward better progression-free survival (metformin in combination diabetes therapy), and a weak trend toward lower cancer-specific mortality among people with glioblastoma (almost all with diabetes) treated with metformin compared to no metformin or to no diabetes at baseline, but no evidence of an effect with metformin during radiotherapy, in a large observational analysis within an RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹⁸Seliger C, Genbrugge E et al; EORTC Brain Tumor Group. Use of metformin and outcome of patients with newly diagnosed glioblastoma: pooled analysis. International Journal of Cancer. 2020 Feb 1;146(3):803-809.

People with diabetes

Survival: modest evidence of better survival among people with breast cancer and diabetes treated with metformin

• 45% lower overall mortality among people with breast cancer and type 2 diabetes treated with metformin compared to no metformin in a meta-analysis of 11 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies¹⁹Tang GH, Satkunam M et al. Association of metformin with breast cancer incidence and mortality in patients with type ii diabetes: a GRADE-assessed systematic review and meta-analysis. Cancer Epidemiology, Biomarkers & Prevention. 2018 Jun;27(6):627-635.
• Slightly better cancer-specific survival and moderately better overall survival among people with both diabetes and breast cancer treated with metformin compared to no metformin in a meta-analysis of 11 observational studies²⁰Xu H, Chen K et al. Metformin use is associated with better survival of breast cancer patients with diabetes: a meta-analysis. The Oncologist. 2015 Nov;20(11):1236-44.
• A weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward lower overall mortality among people with breast cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 4 observational studies²¹Lega IC, Shah PS et al. The effect of metformin on mortality following cancer among patients with diabetes. Cancer Epidemiology, Biomarkers & Prevention. 2014 Oct;23(10):1974-84.
• No evidence of an effect on overall survival or cancer-specific survival among people with breast cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 3 observational studies²²Coyle C, Cafferty FH, Vale C, Langley RE. Metformin as an adjuvant treatment for cancer: a systematic review and meta-analysis. Annals of Oncology. 2016 Dec;27(12):2184-2195.
• Better overall survival among diabetic people with hormone-receptor positive but not negative breast cancer treated with metformin compared to no metformin in a mid-sized observational analysis from a larger RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects²³Sonnenblick A, Agbor-Tarh D et al. Impact of diabetes, insulin, and metformin use on the outcome of patients with human epidermal growth factor receptor 2-positive primary breast cancer: analysis from the ALTTO phase III randomized trial. Journal of Clinical Oncology. 2017 May 1;35(13):1421-1429.

Relapse: preliminary evidence of better relapse-free survival after exemestane treatment among women with diabetes and breast tumors with high insulin-like growth factor type 1 receptor (IGF‐1R) expression treated with metformin

• Better relapse-free survival after exemestane treatment among women with diabetes and breast tumors with high insulin-like growth factor type 1 receptor (IGF‐1R) expression but not low IGF‐1R expression treated with  metformin compared to exemestane alone in a very large RCT²⁴Engels CC, de Glas NA et al. The influence of insulin-like growth factor-1-receptor expression and endocrine treatment on clinical outcome of postmenopausal hormone receptor positive breast cancer patients: a Dutch TEAM substudy analysis. Molecular Oncology. 2016 Apr;10(4):509-16.

Metastases: weak evidence of lower risk of distant metastases among people with triple negative breast cancer and diabetes treated with metformin

• Weak trends toward lower risk of distant metastases among people with triple negative breast cancer and diabetes treated with adjuvanttreatment applied after initial treatment for cancer, especially to suppress secondary tumor formation chemotherapy and also treated with metformin compared to no metformin or compared to nondiabetic people in a large observational study²⁵Bayraktar S, Hernadez-Aya LF et al. Effect of metformin on survival outcomes in diabetic patients with triple receptor–negative breast cancer. Cancer. 2012;118(5):1202-1211.

Response: preliminary evidence of better response rates among people with breast cancer and diabetes treated with metformin

• Substantially higher rates of pathologic complete responsethe lack of any sign of cancer in biopsy samples taken after cancer treatment is completed among people with breast cancer and diabetes treated with metformin compared to no metformin, comparable or possibly better response rates compared to people without diabetes in a large observational study²⁶Jiralerspong S, Palla SL et al. Metformin and pathologic complete responses to neoadjuvant chemotherapy in diabetic patients with breast cancer. Journal of Clinical Oncology. 2009;27(20):3297-3302.

People without diabetes

No evidence of an effect on progression-free or overall survival among nondiabetic women with breast cancer treated with metformin in combined analyses of studies

• No evidence of an effect on overall or progression-free survival among nondiabetic people with breast cancer treated with metformin compared to placebo in a meta-analysis of 3 RCTs²⁷Wu Z, Qu B et al. The potential adjunctive benefit of adding metformin to standard treatment in inoperable cancer patients: a meta-analysis of randomized controlled trials. Annals of Translational Medicine. 2020 Nov;8(21):1404.
• No evidence of an effect on progression-free or overall survival among nondiabetic women with breast cancer treated with metformin compared to no metformin in a meta-analysis of 5 RCTs²⁸Wang Q, Ma X et al. Metformin and survival of women with breast cancer: a meta-analysis of randomized controlled trials. Journal of Clinical Pharmacy and Therapeutics. 2022 Mar;47(3):263-269.

Modest evidence of a lower marker of tumor proliferation among nondiabetic women with invasive breast cancer treated with metformin before surgery

• Lower markers of tumor proliferation (up-regulation of pAMPK, down-regulation of pAkt, and a drop in Ki-67) among nondiabetic women with operable invasive breast cancer treated with metformin before surgery compared to no metformin in an RCT²⁹Hadad SM, Coates P. Evidence for biological effects of metformin in operable breast cancer: biomarker analysis in a pre-operative window of opportunity randomized trial. Breast Cancer Research and Treatment. 2015 Feb;150(1):149-55.
• A lower marker of tumor proliferation (Ki-67) among nondiabetic women with operable invasive breast cancer treated with metformin before surgery compared to no metformin in a small RCT³⁰Hadad S, Iwamoto T et al. Evidence for biological effects of metformin in operable breast cancer: a pre-operative, window-of-opportunity, randomized trial. Breast Cancer Research and Treatment. 2011 Aug;128(3):783-94.
• A decrease in in a marker of proliferation (Ki-67) after tumor biopsy among nondiabetic women with breast cancer with higher insulin resistance (HOMA greater than 2.8), higher body mass index, higher waist/hip girth ratio, alcohol consumption, or a higher marker of inflammation (CRP) treated with 850 mg metformin twice per day compared to placebo in a mid-sized RCT³¹Bonanni B, Puntoni M et al. Dual effect of metformin on breast cancer proliferation in a randomized presurgical trial. Journal of Clinical Oncology. 2012 Jul 20;30(21):2593-600.

Mixed groups of diabetic and nondiabetic people

Survival: no evidence of an effect on overall survival or cancer-specific survival among people with breast cancer (not specific to diabetes) treated with metformin in combined analyses of studies

• No evidence of an effect on progression-free or overall survival among people with breast cancer (not specific to diabetes) treated with chemotherapy and metformin compared to chemotherapy alone in a meta-analysis of 3 RCTs³²Lusica PMM, Eugenio KPY, Sacdalan DBL, Jimeno CA. A systematic review and meta-analysis on the efficacy and safety of metformin as adjunctive therapy among women with metastatic breast cancer. Cancer Treatment and Research Communications. 2021;29:100457.
• No evidence of an effect on progression-free or overall survival among people with breast cancer metastasis/recurrence (not specific to diabetes) treated with metformin compared to no metformin in a meta-analysis of 5 RCTs³³Morio K, Kurata Y, Kawaguchi-Sakita N, Shiroshita A, Kataoka Y. Efficacy of metformin in patients with breast cancer receiving chemotherapy or endocrine therapy: systematic review and meta-analysis. Annals of Pharmacotherapy. 2022 Mar;56(3):245-255.

Relapse: preliminary evidence of lower risk of relapse after exemestane treatment among people with postmenopausal hormone receptor positive breast cancer (likely with diabetes) treated with metformin

• Substantially lower risk of relapse after exemestane treatment among people with postmenopausal hormone receptor positive (HR+ve) breast cancer treated with metformin compared to examestane only in an observational analysis within a very large RCT; the researchers note that “it is plausible that the patients using metformin in this study are diabetics”³⁴Engels CC, de Glas NA et al. The influence of insulin-like growth factor-1-receptor expression and endocrine treatment on clinical outcome of postmenopausal hormone receptor positive breast cancer patients: a Dutch TEAM substudy analysis. Molecular Oncology. 2016 Apr;10(4):509-16.

Metastases: preliminary evidence of fewer cases of metastasis after chemotherapy and hormone therapy among nondiabetic women with breast cancer treated with metformin

• Fewer cases of metastasis after chemotherapy and 6 months of hormone therapy among nondiabetic women with breast cancer treated with 850 mg metformin twice daily compared to no metformin in a mid-sized RCT³⁵El-Haggar SM, El-Shitany NA, Mostafa MF, El-Bassiouny NA. Metformin may protect nondiabetic breast cancer women from metastasis. Clinical & Experimental Metastasis. 2016 Apr;33(4):339-57.

Proliferation

Modest evidence of lower markersa chemical or substance, such as certain proteins or genetic material, that are associated with the presence of cancer or a change in status or prognosis; these markers can be detected in blood, urine, or tissue. Tumor markers are not direct measures of clinical outcomes such as survival or metastasis, and if a therapy or treatment shows an impact only on tumor markers, we cannot surmise that it will affect survival. of tumor proliferation among nondiabetic people with breast cancer and higher insulin resistance treated with metformin; also see findings that women without elevated insulin resistance had worse outcomes when using metformin in Safety and precautions ›

• A lower marker of tumor proliferation (Ki-67) among nondiabetic women with breast cancer and with HOMA greater than 2.8 or one of several other markers of metabolic imbalance or inflammation treated with 850 mg metformin twice a day compared to placebo in a mid-sized RCT³⁶DeCensi A, Puntoni M et al. Differential effects of metformin on breast cancer proliferation according to markers of insulin resistance and tumor subtype in a randomized presurgical trial. Breast Cancer Research and Treatment. 2014 Nov;148(1):81-90.
• A weak trend toward  lower cancer proliferation among nondiabetic people with breast cancer with insulin resistance (HOMA index 2.8 or higher) treated with metformin for 4 weeks before surgery compared to placebo, with lower proliferation among people with insulin resistance (HOMA index 2.8 or higher) but higher proliferation among people without insulin resistance (HOMA index less than 2.8) in a small RCT³⁷Cazzaniga M, DeCensi A et al. The effect of metformin on apoptosis in a breast cancer presurgical trial. British Journal of Cancer. 2013 Nov 26;109(11):2792-7.

Modest evidence of a lower marker of proliferation among nondiabetic people with HER2-positive DCIS lesions, and especially ER-positive/HER2-positive DCIS, treated with metformin

• A lower marker of proliferation (Ki-67) among nondiabetic people with HER2-positive DCIS lesions, and especially ER-positive/HER2-positive DCIS, treated with 1,700 mg metformin once daily for 28 days before surgery compared to placebo in a mid-sized RCT³⁸DeCensi A, Puntoni M et al. Effect of metformin on breast ductal carcinoma in situ proliferation in a randomized presurgical trial. Cancer Prevention Research (Philadelphia). 2015 Oct;8(10):888-94.

Objective response rate: modest evidence of higher objective response rate among nondiabetic people with breast cancer treated with metformin

• Higher objective response rate among nondiabetic people with breast cancer treated with metformin compared to placebo in a meta-analysis of 3 RCTs³⁹Wu Z, Qu B et al. The potential adjunctive benefit of adding metformin to standard treatment in inoperable cancer patients: a meta-analysis of randomized controlled trials. Annals of Translational Medicine. 2020 Nov;8(21):1404.

People with diabetes: modest evidence of lower mortality, including cancer-specific mortality, among people with colorectal cancer and diabetes treated with metformin

• 20% lower cancer-specific mortality among people with colorectal cancer and diabetes treated with metformin compared to no metformin in meta-analysesa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 5 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies⁴⁰Wang Q, Shi M. Effect of metformin use on the risk and prognosis of colorectal cancer in diabetes mellitus: a meta-analysis. Anticancer Drugs. 2022 Feb 1;33(2):191-199.
• 35% lower cancer-specific mortality among people with colon cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 4 observational studies⁴¹Lega IC, Shah PS et al. The effect of metformin on mortality following cancer among patients with diabetes. Cancer Epidemiology, Biomarkers & Prevention. 2014 Oct;23(10):1974-84.
• A weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward lower cancer-specific mortality, with stronger effects among women, among people with type 2 diabetes and colorectal cancer treated with metformin compared to no metformin in a meta-analysis of 8 observational studies⁴²Wang Y, Xiao J, Zhao Y, Du S, Du J. Effect of metformin on the mortality of colorectal cancer patients with T2DM: meta-analysis of sex differences. International Journal of Colorectal Disease. 2020 May;35(5):827-835.
• Lower cancer-specific mortality among people with colorectal cancer and type 2 diabetes treated with metformin compared to no metformin in a meta-analysis of 10 observational studies⁴³Cheng Y, Chen Y et al. For colorectal cancer patients with type II diabetes, could metformin improve the survival rate? A meta-analysis. Clinics and Research in Hepatology and Gastroenterology. 2020 Feb;44(1):73-81.
• A weak trend toward lower cancer-specific mortality among people with colorectal cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 4 observational studies⁴⁴Meng F, Song L, Wang W. Metformin improves overall survival of colorectal cancer patients with diabetes: a meta-analysis. Journal of Diabetes Research. 2017;2017:5063239.
• Moderately lower cancer-specific mortality among people with colorectal cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 5 observational studies⁴⁵Du L, Wang M et al. Prognostic role of metformin intake in diabetic patients with colorectal cancer: an updated qualitative evidence of cohort studies. Oncotarget. 2017 Apr 18;8(16):26448-26459.
• 34% lower cancer-specific mortality during 41 months among people with colorectal cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 3 observational studies⁴⁶Mei ZB, Zhang ZJ et al. Survival benefits of metformin for colorectal cancer patients with diabetes: a systematic review and meta-analysis. PLoS One. 2014 Mar;9(3):e91818.
• A weak trend toward lower cancer-specific mortality among people with colorectal cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 8 observational studies⁴⁷Tian S, Lei HB, Liu YL, Chen Y, Dong WG. The association between metformin use and colorectal cancer survival among patients with diabetes mellitus: an updated meta-analysis. Chronic Diseases and Translational Medicine. 2017 Sep;3(3):169-175.
• 42% lower cancer-specific mortality among people with early stage colorectal cancer and diabetes treated with metformin compared to no metformin in meta-analyses of 2 observational studies⁴⁸Coyle C, Cafferty FH, Vale C, Langley RE. Metformin as an adjuvant treatment for cancer: a systematic review and meta-analysis. Annals of Oncology. 2016 Dec;27(12):2184-2195.

Preliminary evidence of substantially lower risk of metastasis and greater reductions in a tumor marker among people with colorectal cancer and diabetes treated with metformin

• Substantially lower risk of metastasis and greater reductions in a tumor marker (carcinoembryonic antigen, or CEA) among people with colorectal cancer and diabetes treated with metformin compared to no metformin in a mid-sized observational study⁴⁹Henderson D, Frieson D, Zuber J, Solomon SS. Metformin has positive therapeutic effects in colon cancer and lung cancer. American Journal of the Medical Sciences. 2017 Sep;354(3):246-251.

Mixed groups of people with and without diabetes: modest evidence of moderately lower cancer-specific mortality among people with diabetes and colorectal cancer, including metastatic cancer, treated with metformin

• Moderately lower cancer-specific mortality among people with diabetes and colorectal cancer, including metastatic cancer, treated with metformin compared to no metformin (not specific to diabetes) in a meta-analysis of 5 observational studies⁵⁰Ng CW, Jiang AA et al. Metformin and colorectal cancer: a systematic review, meta-analysis and meta-regression. International Journal of Colorectal Disease. 2020 Aug;35(8):1501-1512.

Gastrointestinal cancer as a whole: preliminary evidence of tumor suppression among nondiabetic people with gastrointestinal cancer (including colorectal, pancreatic, gastroesophageal, and bile duct cancers) treated with chemotherapy and metformin

• Higher AMPK activation (a metabolic tumor suppressor) among nondiabetic people with gastrointestinal cancer (including colorectal, pancreatic, gastroesophageal, and bile duct cancers) treated with chemotherapy and 500 mg metformin twice daily compared to chemotherapy alone in a small RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects⁵¹Godara A, Siddiqui NS, Hachem H, Martell RE, Saif WM. First prospective study evaluating effect of metformin (M) on disease control (DC) and activation of AMP-activated protein kinase (AMPKα) in patients (pts) with GI malignancies. Journal of Clinical Oncology. 2018 Feb;36(4): 264–264.

Esophageal cancer: no evidence of an effect on tumor proliferation among people with esophageal squamous cell carcinoma (not specific to diabetes) treated with metformin in a small study

• No evidence of an effect on tumor proliferation (Ki-67 and cleaved caspase-3 immunostaining) among nondiabetic people with esophageal squamous cell carcinoma treated with 250 mg metformin per day for an average of 10 days compared to placebo in a mid-sized RCT⁵²Wang S, Lin Y et al. Low-dose metformin reprograms the tumor immune microenvironment in human esophageal cancer: results of a phase II clinical trial. Clinical Cancer Research. 2020 Sep 15;26(18):4921-4932.

Liver cancer

People with diabetes: modest evidence of better survival among people with liver cancer and diabetes treated with metformin

• Substantially better overall survival at 1 year (3 studies), 3 years (4 studies), and 5 years (3 studies) after curative cancer therapies among people with hepatocellular carcinoma and type 2 diabetes treated with metformin compared to other antihyperglycemic agents in meta-analysesa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies⁵³Zhou J, Ke Y et al. Meta-analysis: the efficacy of metformin and other anti-hyperglycemic agents in prolonging the survival of hepatocellular carcinoma patients with type 2 diabetes. Annals of Hepatology. 2020 May-Jun;19(3):320-328.
• A weak trend toward lower overall mortality among people with liver cancer with diabetes treated with metformin compared to no metformin in a meta-analysis of 7 observational studies of high quality⁵⁴Ma SJ, Zheng YX, Zhou PC, Xiao YN, Tan HZ. Metformin use improves survival of diabetic liver cancer patients: systematic review and meta-analysis. Oncotarget. 2016 Oct 4;7(40):66202-66211.

People without diabetes: see evidence of higher mortality among nondiabetic people with liver cancer treated with metformin in Safety and precautions ›

Stomach cancer: weak evidence of lower mortality among people with stomach cancer and type 2 diabetes treated with metformin

• A weak trend toward lower cancer-specific mortality among people with stomach (gastric) cancer and type 2 diabetes treated with metformin compared to no metformin in a pooled analysis of 3 observational studies⁵⁵Shuai Y, Li C, Zhou X. The effect of metformin on gastric cancer in patients with type 2 diabetes: a systematic review and meta-analysis. Clinical & Translational Oncology. 2020 Sep;22(9):1580-1590.

Cervical cancer: no evidence of an effect on progression-free survival and cancer-specific survival among women with stage 1–4 cervical cancer treated with metformin compared to people not treated with metformin, whether with diabetes or not

• No evidence of an effect on progression-free survival and cancer-specific survival among women with stage 1–4 cervical cancer treated with metformin (almost exclusively diabetic and more likely to be older, hypertensive, and dyslipidemic) compared to people not treated with metformin, whether diabetic or not, in a mid-sized observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods study;⁵⁶Takiuchi T, Machida H et al. Association of metformin use and survival outcome in women with cervical cancer. International Journal of Gynecological Cancer. 2017 Sep;27(7):1455-1463.

Endometrial cancer

People with diabetes: modest evidence of lower mortality among people with endometrial cancer and diabetes treated with metformin

• Moderately better progression-free survival (PFS) among people with endometrial cancer and diabetes treated with metformin compared to no metformin in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 8 observational studies; PFS among people treated with metformin was comparable to people with endometrial cancer without diabetes⁵⁷Gong H, Chen Y, Zhou D. Prognostic significance of metformin treatment in endometrial cancer: a meta-analysis. Die Pharmazie. 2020 Aug 1;75(8):401-406.
• 37% lower overall mortality among people with endometrial cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 6 observational studies⁵⁸Tang YL, Zhu LY et al. Metformin use is associated with reduced incidence and improved survival of endometrial cancer: a meta-analysis. Biomed Research International. 2017;2017:5905384.
• 50% lower mortality among women with endometrial cancer and type 2 diabetes treated with metformin compared to no metformin in meta-analyses of 3 observational studies⁵⁹Perez-Lopez FR, Pasupuleti V et al. Systematic review and meta-analysis of the effect of metformin treatment on overall mortality rates in women with endometrial cancer and type 2 diabetes mellitus. Maturitas. 2017 Jul;101:6-11.
• 53% lower overall mortality among women with endometrial cancer and diabetes treated with metformin compared to no metformin in meta-analyses of 3 observational studies⁶⁰Chu D, Wu J et al. Effect of metformin use on the risk and prognosis of endometrial cancer: a systematic review and meta-analysis. BMC Cancer. 2018 Apr 18;18(1):438.
• 41% lower overall mortality among people with endometrial cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 3 observational studies⁶¹Meireles CG, Pereira SA et al. Effects of metformin on endometrial cancer: systematic review and meta-analysis. Gynecologic Oncology. 2017 Oct;147(1):167-180.
• 46% lower overall mortality among people with endometrial cancer and diabetes treated with metformin compared to no metformin in meta-analyses of 9 observational studies⁶²Guo J, Xu K, An M, Zhao Y. Metformin and endometrial cancer survival: a quantitative synthesis of observational studies. Oncotarget. 2017 Aug 2;8(39):66169-66177.
• 52% lower overall mortality (7 studies) and better progression-free survival (2 studies) among people with endometrial cancer and diabetes treated with metformin compared to no metformin in meta-analyses of observational studies⁶³Xie W, Li T et al. Metformin use and survival outcomes in endometrial cancer: a systematic review and meta-analysis. Oncotarget. 2017 Aug 22;8(42):73079-73086.

People without diabetes: insufficient evidence of an effect on tumor progression or response among mostly nondiabetic people with endometrial cancer treated with metformin

• A weak trend toward higher complete response rates among mostly nondiabetic people with atypical endometrial hyperplasia (AEH) or endometrioid endometrial cancer, with higher response rates among people with AEH, treated with megestrol acetate plus metformin compared to megestrol acetate alone in a mid-sized RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects⁶⁴Yang BY, Gulinazi Y et alJ. Metformin plus megestrol acetate compared with megestrol acetate alone as fertility-sparing treatment in patients with atypical endometrial hyperplasia and well-differentiated endometrial cancer: a randomised controlled trial. BJOG. 2020 Jun;127(7):848-857.
• No evidence of an effect on markers of tumor progression among women with atypical hyperplasia or endometrioid endometrial cancer (not specific to diabetes) treated with metformin for 1 to 5 weeks before surgery compared to placebo in a small RCT⁶⁵Kitson SJ, Maskell Z et al. Pre-surgical metformin in uterine malignancy (PREMIUM): a multi-center, randomized double-blind, placebo-controlled phase III trial. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research. 2019 Apr 15;25(8):2424-2432.
• No evidence of an effect on complete response among mostly nondiabetic women with atypical hyperplasia/endometrial intraepithelial neoplasia or early-stage endometrioid carcinoma treated with progestin therapy combined with metformin compared to progestin alone in a small observational study⁶⁶Acosta-Torres S, Murdock T et al. The addition of metformin to progestin therapy in the fertility-sparing treatment of women with atypical hyperplasia/endometrial intraepithelial neoplasia or endometrial cancer: little impact on response and low live-birth rates. Gynecologic Oncology. 2020 May;157(2):348-356.

Preliminary evidence of a lower marker of proliferation (Ki-67) among nondiabetic people with operable endometrial cancer treated with metformin

• A lower marker of proliferation (Ki-67) among nondiabetic people with operable endometrial cancer treated with metformin compared to no metformin in 2 small controlled trialsa study design in which people are assigned to either an experimental group or a control group to compare the outcomes from different treatment; assignment is not random, and so this is not as strong a study design as a randomized controlled trial, but still stronger than an uncontrolled trial⁶⁷Laskov I, Drudi L et al. Anti-diabetic doses of metformin decrease proliferation markers in tumors of patients with endometrial cancer. Gynecologic Oncology. 2014 Sep;134(3):607-14; Sivalingam VN, Kitson S et al. Measuring the biological effect of presurgical metformin treatment in endometrial cancer. British Journal of Cancer. 2016 Feb 2;114(3):281-9.

Mixed groups of diabetic and nondiabetic people

Modest evidence of lower risk of relapse among reproductive-aged women with atypical endometrial hyperplasia or early endometrial cancer (not specific to diabetes) treated with metformin

Insufficient evidence of tumor response among people with endometrial cancer (not specific to diabetes) treated with metformin

• No evidence of an effect on complete response or partial response rates after treatment with fertility-sparing therapy with megestrol acetate among people with endometrial cancer (not specific to diabetes) treated with metformin compared to no metformin in a meta-analysis of a subset of 6 RCTs⁶⁸Prodromidou A, Lekka S, Fotiou A, Psomiadou V, Iavazzo C. The evolving role of targeted metformin administration for the prevention and treatment of endometrial cancer: a systematic review and meta-analysis of randomized controlled trials. Journal of Gynecology Obstetrics and Human Reproduction. 2021 Nov;50(9):102164.
• No evidence of an effect on a markera chemical or substance, such as certain proteins or genetic material, that are associated with the presence of cancer or a change in status or prognosis; these markers can be detected in blood, urine, or tissue. Tumor markers are not direct measures of clinical outcomes such as survival or metastasis, and if a therapy or treatment shows an impact only on tumor markers, we cannot surmise that it will affect survival. of tumor proliferation (Ki-67) after treatment among people with endometrial cancer (not specific to diabetes) treated with metformin compared to no metformin before surgery in a meta-analysis of a subset of 6 RCTs⁶⁹Prodromidou A, Lekka S, Fotiou A, Psomiadou V, Iavazzo C. The evolving role of targeted metformin administration for the prevention and treatment of endometrial cancer: a systematic review and meta-analysis of randomized controlled trials. Journal of Gynecology Obstetrics and Human Reproduction. 2021 Nov;50(9):102164.

People with diabetes: modest evidence of better survival among people with head and neck cancer and diabetes treated with metformin

• 71% higher survival among people with head and neck cancer and diabetes treated with metformin compared to no metformin in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 2 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies⁷⁰Saka Herrán C, Jané-Salas E, Estrugo Devesa A, López-López J. Protective effects of metformin, statins and anti-inflammatory drugs on head and neck cancer: a systematic review. Oral Oncology. 2018 Oct;85:68-81.
• No evidence of an effectoverall, one or more studies did not demonstrate that a treatment or intervention led to an expected outcome; this does not always mean that there is no effect in clinical practice, but that the studies may have been underpowered (too few participants) or poorly designed. Larger, well-designed studies provide more confidence in making assessments on disease-specific or overall survival among people with head and neck squamous carcinoma and type 2 diabetes treated with metformin compared to no metformin in a mid-sized observational study⁷¹Lee DJ, McMullen CP et alP. Impact of metformin on disease control and survival in patients with head and neck cancer: a retrospective cohort study. Journal of Otolaryngology—Head & Neck Surgery. 2019 Jul 25;48(1):34.
• Lower cancer-specific mortality among diabetic people with head and neck cancer treated with metformin compared to no metformin in a mid-sized observational study⁷²Stokes WA, Eguchi M et al. Survival impact and toxicity of metformin in head and neck cancer: An analysis of the SEER-Medicare dataset. Oral Oncology. 2018 Sep;84:12-19.
• Lower cancer-specific mortality among people with diabetes and head and neck cancer treated with metformin compared to no metformin in a subgroup analysis of a mid-sized observational study⁷³Kwon M, Roh JL et al. Effect of metformin on progression of head and neck cancers, occurrence of second primary cancers, and cause-specific survival. Oncologist. 2015 May;20(5):546-53.
• Better overall survival, less advanced tumors at diagnosis, and more favorable prognoses among diabetic people with laryngeal squamous cell carcinoma treated with metformin compared to no metformin in a mid-sized observational study⁷⁴Sandulache VC, Hamblin JS et al. Association between metformin use and improved survival in patients with laryngeal squamous cell carcinoma. Head & Neck. 2014 Jul;36(7):1039-43.
• Lower overall mortality, especially late-stage mortality, and lower rate of metastases among diabetic people with hypopharyngeal cancer treated with metformin compared to no metformin in a mid-sized observational study⁷⁵Tsou YA, Chang WD et al. The effect of metformin use on hypopharyngeal squamous cell carcinoma in diabetes mellitus patients. BMC Cancer. 2019 Aug 30;19(1):862.

Mixed groups of diabetic and nondiabetic people

No evidence of an effect on survival or tumor proliferation among people with head and neck cancer (not specific to diabetes) treated with metformin in a several studies

• Lower overall mortality during 2 years after diagnosis among people under age 60 with head and neck cancer treated with metformin compared to people not treated with metformin (not specific to diabetes), but no evidence of an effect among older people or after 2 years in a large observational study⁷⁶Alcusky M, Keith SW et al. Metformin exposure and survival in head and neck cancer: a large population-based cohort study. Journal of Clinical Pharmacy and Therapeutics. 2019 Aug;44(4):588-594.
• No evidence of an effect on cancer-specific or overall mortality among people with head and neck squamous cell carcinoma treated with metformin compared to no metformin (not specific to diabetics) in a large observational study⁷⁷Quimby AE, Lebo NL et al. Does metformin usage improve survival in head and neck squamous cell carcinoma? A population-based study. Journal of Otolaryngology—Head & Neck Surgery. 2018 Dec 4;47(1):74.
• Higher cell death (apoptosis) and markers of improved cell metabolism and function (stromal caveolin‐1 and B‐galactosidase), but no evidence of an effect on a markera chemical or substance, such as certain proteins or genetic material, that are associated with the presence of cancer or a change in status or prognosis; these markers can be detected in blood, urine, or tissue. Tumor markers are not direct measures of clinical outcomes such as survival or metastasis, and if a therapy or treatment shows an impact only on tumor markers, we cannot surmise that it will affect survival. of tumor proliferation (ki-67) among people with newly diagnosed head and neck squamous cell carcinoma (not specific to diabetes) treated with 2,000 mg metformin per day for 9 or more days before surgery compared to baseline in a small uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design⁷⁸Curry J, Johnson J et al. Metformin effects on head and neck squamous carcinoma microenvironment: Window of opportunity trial. Laryngoscope. 2017 Aug;127(8):1808-1815.

People with diabetes

Preliminary evidence of lower risk of mortality among people with kidney cancer and diabetes treated with metformin

• 38% lower cancer-specific mortality among people with kidney cancer and diabetes treated with metformin compared to no metformin in a very large meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 8 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies⁷⁹Li Y, Hu L, Xia Q, Yuan Y, Mi Y. The impact of metformin use on survival in kidney cancer patients with diabetes: a meta-analysis. International Urology and Nephrology. 2017 Jun;49(6):975-981.
• A weak trend toward better overall survival among people with kidney cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 6 observational studies⁸⁰Nayan M, Punjani N et al. Metformin use and kidney cancer survival outcomes: a systematic review and meta-analysis. American Journal of Clinical Oncology. 2019 Mar;42(3):275-284.

Modest evidence of lower risk of progression among people with kidney cancer and diabetes treated with metformin

• 20% lower risk of progression and a weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward lower overall mortality, but no evidence of an effect on cancer-specific mortality among people with kidney cancer and diabetes treated with metformin compared to no metformin in meta-analyses of 4 observational studies⁸¹Yao X, Liu H, Xu H. The impact of metformin use with survival outcomes in urologic cancers: a systematic review and meta-analysis. Biomed Research International. 2021 Oct 8;2021:5311828.

• Substantially lower risk of therapeutic failure or early relapse among nondiabetic people with acute lymphoblastic leukemia with high ABCB1 gene expression treated with chemotherapy and 850 mg oral metformin every 8 hours compared to chemotherapy alone in a mid-sized RCT; high ABCB1 gene expression is associated with a poor prognosis⁸²Ramos-Peñafiel C, Olarte-Carrillo I et al. Effect of metformin on the survival of patients with ALL who express high levels of the ABCB1 drug resistance gene. Journal of Translational Medicine. 2018 Sep 3;16(1):245.
• 56% lower risk of relapse and apparently higher incidence of complete remission (81.3% vs 70%), but no evidence of an effect on overall survival, among people with de novo acute lymphoblastic leukemia (not specific to diabetes) treated with chemotherapy plus 850 mg metformin 3 times a day compared to chemotherapy alone in a small RCT⁸³Ramos-Peñafiel CO, Martínez-Murillo C et al. Metformina adicionada a la quimioterapia contra la leucemia linfoblástica aguda [Effect of metformin addition to an acute lymphoblastic leukemia chemotherapy treatment]. Revista Medica del Instituto Mexicano del Seguro Social. 2014 May-Jun;52(3):270-5.

People with diabetes

Survival: modest evidence of lower mortality among people with type 2 diabetes and lung cancer treated with metformin

• 35% lower cancer-specific mortality among people with type 2 diabetes and lung cancer treated with metformin compared to no metformin in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 10 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies⁸⁴Xiao K, Liu F et al. The effect of metformin on lung cancer risk and survival in patients with type 2 diabetes mellitus: a meta-analysis. Journal of Clinical Pharmacy and Therapeutics. 2020 Aug;45(4):783-792.
• 10% lower overall mortality among people with type 2 diabetes and lung cancer treated with metformin compared to no metformin in a meta-analysis of 6 observational studies⁸⁵Tian RH, Zhang YG et al. Effects of metformin on survival outcomes of lung cancer patients with type 2 diabetes mellitus: a meta-analysis. Clinical & Translational Oncology. 2016 Jun;18(6):641-9.
• 25% lower mortality among people with lung cancer and type 2 diabetes treated with metformin compared to no metformin in a meta-analysis of 10 observational studies⁸⁶Zeng S, Gan HX, Xu JX, Liu JY. Metformin improves survival in lung cancer patients with type 2 diabetes mellitus: a meta-analysis. Medicina Clinica (Barcelona). 2019 Apr 18;152(8):291-297.
• 23% lower overall mortality  among people with lung cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 15 observational studies⁸⁷Xin WX, Fang L et al. Effect of hypoglycemic agents on survival outcomes of lung cancer patients with diabetes mellitus: a meta-analysis. Medicine (Baltimore). 2018 Mar;97(9):e0035.
• 27% lower mortality and longer progression-free survival among people with lung cancer and diabetes receiving epidermal growth factor receptor-tyrosine kinase inhibitor (EGFR-TKIs) therapy and treated with metformin compared to no metformin in a large observational study⁸⁸Hung MS, Chuang MC, Tsai YH, Yang YH. Metformin improves survival in lung cancer patients receiving EGFR-TKIs therapy. European Respiratory Journal. 2018;52(suppl62):2856.
• 21% lower cancer-specific mortality (6 studies), better progression-free survival (4 studies), and a weak trend toward better overall survival (13 studies) among people with lung cancer and diabetes treated with metformin compared to no metformin in meta-analyses of observational studies⁸⁹Zhong S, Wu Y, Yan X, Tang J, Zhao J. Metformin use and survival of lung cancer patients: meta-analysis findings. Indian Journal of Cancer. 2017 Jan-Mar;54(1):63-67.
• No evidence of an effectoverall, one or more studies did not demonstrate that a treatment or intervention led to an expected outcome; this does not always mean that there is no effect in clinical practice, but that the studies may have been underpowered (too few participants) or poorly designed. Larger, well-designed studies provide more confidence in making assessments on cancer-specific mortality among people with lung cancer and type 2 diabetes treated with metformin, either before or after a cancer diagnosis, compared to no metformin in a mis-sized analysis in a large observational study⁹⁰McMenamin ÚC, Cardwell CR, Hughes CM, Murray LM. Metformin use and survival from lung cancer: a population-based cohort study. Lung Cancer. 2016 Apr;94:35-9.

Metastasis: no evidence of an effect on risk of metastasis among people with lung cancer and diabetes treated with metformin in a preliminary study

• No evidence of an effect on risk of metastasis among people with lung cancer and diabetes treated with metformin compared to no metformin in a mid-sized observational study⁹¹Henderson D, Frieson D, Zuber J, Solomon SS. Metformin has positive therapeutic effects in colon cancer and lung cancer. American Journal of the Medical Science. 2017 Sep;354(3):246-251.

People without diabetes or mixed groups of diabetic and nondiabetic people

Survival

No evidence of an effect on overall survival or progression-free survival among people with lung cancer (not specific to diabetes) treated with metformin in combined analyses of studies

Preliminary evidence of lower risk of progression and mortality among people with tumors with higher glucose metabolism treated with metformin

Also see evidence of worse outcomes in Safety and precautions ›

• No evidence of an effect on overall or progression-free survival among nondiabetic people with lung cancer treated with metformin compared to placebo in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 4 RCTsrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects⁹²Wu Z, Qu B et al. The potential adjunctive benefit of adding metformin to standard treatment in inoperable cancer patients: a meta-analysis of randomized controlled trials. Annals of Translational Medicine. 2020 Nov;8(21):1404.
• No evidence of an effect on risk of progression or mortality overall among people with lung cancer (not specific to diabetes), although lower risk of progression and mortality among the subset of people with tumors with higher glucose metabolism, treated with chemotherapy plus 1000 mg metformin twice daily compared to chemotherapy alone in a mid-sized RCT⁹³Lee Y, Joo J et al. Randomized phase II study of platinum-based chemotherapy plus controlled diet with or without metformin in patients with advanced non-small cell lung cancer. Lung Cancer. 2021 Jan;151:8-15.

Objective response rate: modest evidence of higher objective response rate among nondiabetic people with lung cancer treated with metformin

• Higher objective response rate among nondiabetic people with lung cancer treated with metformin compared to placebo in a meta-analysis of 4 RCTs⁹⁴Wu Z, Qu B et al. The potential adjunctive benefit of adding metformin to standard treatment in inoperable cancer patients: a meta-analysis of randomized controlled trials. Annals of Translational Medicine. 2020 Nov;8(21):1404.

People with diabetes

Weak evidence of better survival among people with diffuse large B-cell lymphoma with diabetes treated with metformin

• Longer progression-free survivalthe time during and after treatment of a disease that a patient lives without disease progression (worsening) and a weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward longer survival after standard chemo-immunotherapy among people with diffuse large B-cell lymphoma with diabetes treated with metformin compared to no metformin among people either with or without diabetes in a mid-sized observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods study⁹⁵Singh A, Gu J, Yanamadala V, Czuczman MS, Hernandez-Ilizaliturri FJ. Metformin lowers the mitochondrial potential of lymphoma cells and its use during front-line rituximab-based chemo-immunotherapy improves the clinical outcome of diffuse large B-cell lymphoma. Blood. 2013 Nov;122(21):1825-1825.

No evidence of an effect on response rate or survival among people with diffuse large B-cell lymphoma treated with metformin in a preliminary study

• No evidence of an effect on response rates, progression-free survival, or overall survival after bendamustine and rituximab therapy among people with follicular lymphoma and diabetes treated with metformin compared to no metformin among people either with or without diabetes in a small observational study;⁹⁶Hicks AM, Singh A et al. Therapeutic effects of metformin in follicular lymphoma (FL) treated with rituximab in combination with bendamustine. Blood. 2017 Dec;130(suppl1):5152–5152. only 20 people in this study were treated for diabetes, 12 with metformin and 8 with other glucose-lowering agents—very possibly too few people to allow a meaningful analysis of results

People without diabetes: no evidence of objective response among nondiabetic people with melanoma treated with metformin in small studies

• No evidence of an effect on objective response, time to progression, or overall survival among nondiabetic people with melanoma treated with both dacarbazine and 850 mg oral metformin 2 times a day compared to dacarbazine alone in a small RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects⁹⁷Novik AV, Protsenko SA et al. Melatonin and metformin failed to modify the effect of dacarbazine in melanoma. Oncologist. 2021 May;26(5):364-e734.

Mixed groups of diabetic and nondiabetic people

Modest evidence of higher melanoma-specific survival among people with melanoma and diabetes treated with metformin

• Higher melanoma-specific survival among people with melanoma and diabetes treated with metformin compared to nondiabetic people in a large observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods study⁹⁸Urbonas V, Rutenberge J et al. The impact of metformin on survival in patients with melanoma-national cohort study. Annals of Epidemiology. 2020 Dec;52:23-25.

No evidence of objective response among people with melanoma (not specific to diabetes) treated with metformin in a small study

• No evidence of objective response among people with metastatic melanoma (not specific to diabetes) who progressed after a first line of chemotherapy or BRAF inhibitor and were not eligible or did not respond to ipilimumab and who were treated with 1000 mg metformin 3 times daily in a small uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design⁹⁹Montaudié H, Cerezo M et al. Metformin monotherapy in melanoma: a pilot, open-label, prospective, and multicentric study indicates no benefit. Pigment Cell & Melanoma Research. 2017 May;30(3):378-380.

People with diabetes: modest evidence of lower mortality and higher progression-free survival among people with ovarian cancer and diabetes treated with metformin

• 28% lower mortality among people with ovarian cancer and diabetes treated with metformin compared to diabetic women who did not use metformin in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 9 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies¹⁰⁰Guo M, Shang X, Guo D. Metformin use and mortality in women with ovarian cancer: an updated meta-analysis. International Journal of Clinical Practice. 2022 Feb 28;2022:9592969.
• 45% lower mortality among people with ovarian cancer and diabetes treated with metformin compared to other hypoglycemic drugs in a meta-analysis of 7 observational studies¹⁰¹Shi J, Liu B, Wang H, Zhang T, Yang L. Association of metformin use with ovarian cancer incidence and prognosis: a systematic review and meta-analysis. International Journal of Gynecological Cancer. 2019 Jan;29(1):140-146.
• 49% lower overall mortality and substantially higher progression-free survival among people with ovarian cancer with diabetes treated with metformin compared to no metformin after cancer diagnosis in a meta-analysis of 3 observational studies of high quality¹⁰²Gong TT, Wu QJ et al. Observational studies on the association between post-diagnostic metformin use and survival in ovarian cancer: a systematic review and meta-analysis. Frontiers in Oncology. 2019 May 29;9:458.
• Longer progression-free survival and overall survival among diabetic people with ovarian cancer treated with metformin compared to no metformin in a mid-sized observational study¹⁰³Wang S-B, Lei KJ et al. Continuous use of metformin can improve survival in type 2 diabetic patients with ovarian cancer. A retrospective study. Medicine. 2017;96.
• No evidence of an effect on overall survival among diabetic women with ovarian cancer treated with metformin compared to no metformin in a small observational study¹⁰⁴Clayton L, Keene S et al. Assessing metformin use and ovarian cancer survival from electronic medical records. Cancer Epidemiology, Biomarkers & Prevention. 2016;25.
• Substantially longer median overall survival among diabetic people with ovarian cancer treated with metformin compared to no metformin in a small observational study¹⁰⁵Simonelli C, Bertolotti M  et al. Effect of metformin on recurrence-free survival and overall survival in diabetic patients affected by advanced ovarian cancer. Journal of Clinical Oncology 2013;31.
• Substantially better progression-free and overall survival at 5 years among people with diabetes treated with metformin compared to no metformin in a small observational study¹⁰⁶Romero IL, McCormick A et al. Relationship of type II diabetes and metformin use to ovarian cancer progression, survival, and chemosensitivity. Obstetrics and Gynecology. 2012 Jan;119(1):61-7.

People without diabetes or mixed groups of diabetic and nondiabetic people: insufficient (conflicting) evidence of an effect on survival or progression among people with ovarian cancer (not specific to diabetes) treated with metformin

• 29% lower overall mortality and substantially better progression-free survival among women with ovarian cancer with diabetes treated with metformin compared to no metformin, whether among people with diabetes or not, in a meta-analysis of 8 observational studies¹⁰⁷Lu MZ, Li DY, Wang XF. Effect of metformin use on the risk and prognosis of ovarian cancer: an updated systematic review and meta-analysis. Panminerva Medica. 2019 Jul 8.
• A weak trend toward lower overall mortality (4 studies) and substantially better progression-free survival (4 studies) among people with ovarian cancer, irrespective of diabetes status, treated with metformin compared to no metformin after cancer diagnosis in meta-analyses of observational studies of high quality¹⁰⁸Gong TT, Wu QJ et al. Observational studies on the association between post-diagnostic metformin use and survival in ovarian cancer: a systematic review and meta-analysis. Frontiers in Oncology. 2019 May 29;9:458.
• No evidence of an effect on overall survival among people with ovarian cancer (not specific to diabetes) treated with metformin compared to no metformin in a meta-analysis of 6 observational studies¹⁰⁹Wang Y, Liu X et al. No effect of metformin on ovarian cancer survival: a systematic review and meta-analysis of cohort studies. Current Pharmaceutical Design. 2019;25(23):2595-2601.
• No evidence of an effect on progression-free survival among nondiabetic people with epithelial ovarian cancer treated with paclitaxel plus carboplatin plus metformin compared to paclitaxel plus carboplatin alone in a small RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹¹⁰Zheng Y, Zhu J, Zhang H, Liu Y, Sun H. Metformin plus first-line chemotherapy versus chemotherapy alone in the treatment of epithelial ovarian cancer: a prospective open-label pilot trial. Cancer Chemotherapy and Pharmacology. 2019 Dec;84(6):1349-1357.
• 59.3% relapse-free survival at 18 months, a 2.4-fold decrease in cancer stem-like cells (ALDH+CD133+), and increased tumor cell sensitivity to cisplatin ex vivo after treatment with chemotherapy and debulking surgery among nondiabetic people with advanced-stage epithelial ovarian cancer treated with metformin—results better than historical controls—in a small uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹¹¹Brown JR, Chan D et al. Phase II clinical trial of metformin as a cancer stem cell-targeting agent in ovarian cancer. JCI Insight. 2020 Jun 4;5(11):e133247.
• A lower markera chemical or substance, such as certain proteins or genetic material, that are associated with the presence of cancer or a change in status or prognosis; these markers can be detected in blood, urine, or tissue. Tumor markers are not direct measures of clinical outcomes such as survival or metastasis, and if a therapy or treatment shows an impact only on tumor markers, we cannot surmise that it will affect survival. of tumor proliferation (Ki-67) among nondiabetic people with endometrial cancer treated with 1500-2250 mg metformin per day for 4 to 6 weeks before surgery compared to baseline in a small uncontrolled trial¹¹²Mitsuhashi A, Kiyokawa T, Sato Y, Shozu M. Effects of metformin on endometrial cancer cell growth in vivo: a preoperative prospective trial. Cancer. 2014 Oct 1;120(19):2986-95.

People with diabetes: modest evidence of lower mortality among people with pancreatic cancer and diabetes treated with metformin

• 17% lower mortality among people with pancreatic cancer and diabetes, although not among people with advanced cancer or among people receiving only chemotherapy for cancer, treated with metformin compared to no metformin in a large meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 21 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies¹¹³Shi YQ, Zhou XC et al. Relationships are between metformin use and survival in pancreatic cancer patients concurrent with diabetes: a systematic review and meta-analysis. Medicine (Baltimore). 2020 Sep 11;99(37):e21687.
• 16% lower mortality among people with pancreatic cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 10 observational studies¹¹⁴Zhou PT, Li B et al. Metformin is associated with survival benefit in pancreatic cancer patients with diabetes: a systematic review and meta-analysis. Oncotarget. 2017 Apr 11;8(15):25242-25250.
• 12% lower overall mortality among people with pancreatic cancer (mostly with diabetes), although not among people with advanced cancer nor among people receiving only chemotherapy for cancer, treated with metformin compared to no metformin, in a large meta-analysis of 17 observational studies¹¹⁵Wan G, Sun X et al. Survival benefit of metformin adjuvant treatment for pancreatic cancer patients: a systematic review and meta-analysis. Cellular Physiology and Biochemistry. 2018;49(3):837-847.
• 23% lower overall mortality among people with pancreatic cancer and  diabetes treated with metformin compared to no metformin in a meta-analysis of 6 observational studies and 1 RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹¹⁶Jian-Yu E, Graber JM et al. Effect of metformin and statin use on survival in pancreatic cancer patients: a systematic literature review and meta-analysis. Current Medicinal Chemistry. 2018;25(22):2595-2607.
• 14% lower mortality among people with pancreatic cancer, with stronger effects in 9 observational studies involving mostly people with diabetes compared to no evidence of an effect in 2 RCTs with mixed diabetic and nondiabetic patients, and stronger effects among people with resection or with locally advanced tumors but not among people with metastatic tumors, treated with metformin compared to no metformin in a meta-analysis¹¹⁷Li X, Li T, Liu Z, Gou S, Wang C. The effect of metformin on survival of patients with pancreatic cancer: a meta-analysis. Scientific Reports. 2017 Jul 19;7(1):5825.

People without diabetes: no evidence of an effect on overall or progression-free survival or on objective response rate among nondiabetic people with pancreatic cancer treated with metformin in a combined analysis of studies

• No evidence of an effect on overall or progression-free survival or on objective response rate among nondiabetic people with pancreatic cancer treated with metformin compared to placebo in a meta-analysis of 2 RCTs¹¹⁸Wu Z, Qu B et al. The potential adjunctive benefit of adding metformin to standard treatment in inoperable cancer patients: a meta-analysis of randomized controlled trials. Annals of Translational Medicine. 2020 Nov;8(21):1404.

People with diabetes: modest evidence of lower mortality among people with prostate cancer and diabetes treated with metformin

• 26% lower cancer-specific mortality among people with prostate cancer and diabetes treated with metformin compared to no metformin, with greater overall survival mostly among people receiving radical radiotherapy and not among those treated with radical prostatectomy and androgen deprivation therapy in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 4 observationala type of study in which individuals are observed or certain outcomes are measured, but no attempt is made to affect the outcome (for example, no treatment is given); an example is a study that records people’s diets, but doesn’t try to alter their diets, and looks for patterns of disease or other outcomes related to different foods studies¹¹⁹Yao X, Liu H, Xu H. The impact of metformin use with survival outcomes in urologic cancers: a systematic review and meta-analysis. Biomed Research International. 2021 Oct 8;2021:5311828.
• 34% lower overall mortality (6 studies) and a weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward lower cancer-specific mortality (6 studies specific to diabetes, 1 of which involved combined use of metformin and statins) among people with prostate cancer and diabetes treated with metformin compared to no metformin in a very large meta-analysis of 13 observational studies¹²⁰Xiao Y, Zheng L et al. The impact of metformin use on survival in prostate cancer: a systematic review and meta-analysis. Oncotarget. 2017 Oct 31;8(59):100449-100458.
• A weak trend toward lower overall mortality among people with prostate cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 4 observational studies¹²¹Lega IC, Shah PS et al. The effect of metformin on mortality following cancer among patients with diabetes. Cancer Epidemiology, Biomarkers & Prevention. 2014 Oct;23(10):1974-84.
• 19% lower cancer-specific mortality among people with prostate cancer and diabetes treated with metformin compared to no metformin in meta-analyses of 2 observational studies¹²²Raval AD, Thakker D et al. Impact of metformin on clinical outcomes among men with prostate cancer: a systematic review and meta-analysis. Prostate Cancer and Prostatic Diseases. 2015 Jun;18(2):110-21.
• Lower overall mortality but not cancer-specific mortality among people with prostate cancer (adjusted for diabetes) treated with metformin compared to no metformin in a meta-analysis of 9 observational studies, with a smaller effect seen in studies with less risk of immortal time bias¹²³Stopsack KH, Ziehr DR, Rider JR, Giovannucci EL. Metformin and prostate cancer mortality: a meta-analysis. Cancer Causes and Control. 2016 Jan;27(1):105-13.
• 42% lower cancer-specific mortality among people with early stage prostate cancer and diabetes treated with metformin compared to no metformin, with greater effects among people receiving radical radiotherapy, in a meta-analysis of 3 observational studies¹²⁴Coyle C, Cafferty FH, Vale C, Langley RE. Metformin as an adjuvant treatment for cancer: a systematic review and meta-analysis. Annals of Oncology. 2016 Dec;27(12):2184-2195.
• No evidence of an effect on cancer-specific mortality among people with prostate cancer and diabetes treated with metformin compared to no metformin in a meta-analysis of 3 observational studies¹²⁵He K, Hu H et al. The effect of metformin therapy on incidence and prognosis in prostate cancer: a systematic review and meta-analysis. Scientific Reports. 2019 Feb 18;9(1):2218.
• No evidence of an effect on cancer-specific mortality (4 studies) and a weak trend toward lower risk of metastases (3 studies) among people with prostate cancer (mostly with diabetes) treated with metformin compared to no metformin in meta-analyses of observational studies¹²⁶Raval AD, Thakker D et al. Impact of metformin on clinical outcomes among men with prostate cancer: a systematic review and meta-analysis. Prostate Cancer and Prostatic Diseases. 2015 Jun;18(2):110-21.

People without diabetes or mixed groups of diabetic and nondiabetic people: No apparent effect on disease progression during abiraterone treatment among people with prostate cancer treated with metformin

• No apparent effect on disease progression during abiraterone treatment among people with prostate cancer treated with 1000 mg metformin twice daily in uninterrupted 4-week cycles in a small uncontrolled studya study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹²⁷Mark M, Klingbiel D et al. Impact of addition of metformin to abiraterone in metastatic castration-resistant prostate cancer patients with disease progressing while receiving abiraterone treatment (MetAb-Pro): phase 2 pilot study. Clinical Genitourinary Cancer. 2019 Apr;17(2):e323-e328.

Zyflamend with metformin: weak evidence of lower PSA levels in a man with recurrent castration-resistant prostate cancer and increasing PSA levels treated with conventional care and metformin

• Dramatically lower PSA levels in a man with recurrent castration-resistant prostate cancer and increasing PSA levels after radical prostatectomy, salvage radiation therapy, and bilateral orchiectomy treated with Zyflamend and metformin for 6 months in a case studya descriptive and exploratory analysis of a person, group, or event regarding changes observed over time; because changes due to treatment are not compared to similar changes over time without treatment, a case study is considered a weak study design¹²⁸Bilen MA, Lin SH et al. Maintenance therapy containing metformin and/or Zyflamend for advanced prostate cancer: a case series. Case Reports in Oncological Medicine. 2015;2015:471861.

Metformin with chemotherapy: weak evidence of disease control among people with metastatic colorectal cancer previously treated with oral metformin plus chemotherapy

• Disease control at 8 weeks among 22% of people with progressing metastatic colorectal cancer previously treated with 5-fluorouracil (5-FU), irinotecan, oxaliplatin, and an anti-epidermal growth factor receptor (if the tumor was RAS wild type) subsequently treated with 850 mg oral metformin continuously 2 times a day plus 5-FU 425 mg/m2 and leucovorin 50 mg intravenously weekly in a small uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹²⁹Miranda VC, Braghiroli MI et al. Phase 2 trial of metformin combined with 5-fluorouracil in patients with refractory metastatic colorectal cancer. Clinical Colorectal Cancer. 2016 Dec;15(4):321-328.e1.
• Disease control and stable disease at week 12 in more than half of people with metastatic colorectal cancer who had previously progressed on fluropyrimidine, oxaliplatin, irinotecan, and anti-EGFR antibody (if KRAS wild type) subsequently treated with irinotecan and metformin in a small uncontrolled trial¹³⁰Bragagnoli A, Araujo R et al. Final results of a phase II of metformin plus irinotecan for refractory colorectal cancer. Journal of Clinical Oncology. 2018;36(15_suppl):e15527-e15527.

People with cancer but without diabetes: good evidence of lower body weight among nondiabetic people with cancer treated with metformin

• Lower levels of obesity among people with breast cancer (not specific to diabetes) treated with metformin compared to controls in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 10 RCTsrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹³¹Zhang ZJ, Yuan J, Bi Y, Wang C, Liu Y. The effect of metformin on biomarkers and survivals for breast cancer—a systematic review and meta-analysis of randomized clinical trials. Pharmacological Research. 2019 Mar;141:551-555.
• A greater decrease in body mass index after surgery and (neo)adjuvant chemotherapy (if given) among nondiabetic people with breast cancer treated with 850 mg oral metformin twice a day compared to placebo for 6 months in a mid-sized RCT¹³²Goodwin PJ, Parulekar WR et al. Effect of metformin vs placebo on weight and metabolic factors in NCIC CTG MA.32. Journal of the National Cancer Institute. 2015 Mar 4;107(3):djv006.
• More weight loss among nondiabetic people with breast or colorectal cancer treated with 850 mg metformin twice a day for 12 weeks compared to controls in a mid-sized RCT¹³³Meyerhardt JA, Irwin ML et al. Multicenter, randomized phase II trial of physical activity (PA), metformin (Met), or the combination on metabolic biomarkers in stage I-III colorectal (CRC) and breast cancer (BC) survivors. Journal of Clinical Oncology. 2017 May;35(15):10059-10059.
• No evidence of an effectoverall, one or more studies did not demonstrate that a treatment or intervention led to an expected outcome; this does not always mean that there is no effect in clinical practice, but that the studies may have been underpowered (too few participants) or poorly designed. Larger, well-designed studies provide more confidence in making assessments. on body weight among mostly nondiabetic women with atypical hyperplasia or endometrioid endometrial cancer treated with metformin for 1 to 5 weeks before surgery compared to placebo in a small RCT¹³⁴Kitson SJ, Maskell Z et al. Pre-surgical metformin in uterine malignancy (PREMIUM): a multi-center, randomized double-blind, placebo-controlled phase III trial. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research. 2019 Apr 15;25(8):2424-2432.

People with cancer but mixed groups of diabetic and nondiabetic people: good evidence of lower body weight among people with cancer (not specific to diabetes) treated with metformin for longer than 1 to 5 weeks

• Lower body mass index among people with breast cancer receiving metformin as treatment for diabetes, with larger effects when metformin was used for more than 4 weeks, compared to no metformin (not specific to diabetes) in a meta-analysis of 9 RCTs¹³⁵Rahmani J, Manzari N et al. The effect of metformin on biomarkers associated with breast cancer outcomes: a systematic review, meta-analysis, and dose–response of randomized clinical trials. Clinical & Translational Oncology. 2020 Jan;22(1):37-49.
• Greater reductions in body weight and waist circumference during tamoxifen treatment among postmenopausal women with hormone receptor-positive breast cancer (not specific to diabetes) treated with 850 mg metformin twice a day for 52 weeks compared to placeboa pill, medicine, or procedure—thought to be both harmless and ineffective—prescribed for the psychological benefit to the patient or as a sham treatment in a study to allow a comparison to a therapy of interest in a mid-sized RCT¹³⁶Davis SR, Robinson PJ et al. The benefits of adding metformin to tamoxifen to protect the endometrium—a randomized placebo-controlled trial. Clinical Endocrinology (Oxford). 2018 Nov;89(5):605-612.

People without cancer or diabetes: preliminary evidence of lower body weight among nondiabetic people with endometrial hyperplasia without atypia treated with metformin

• Lower body weight among nondiabetic people with endometrial hyperplasia without atypia treated with levonorgestrel intrauterine system and 500 mg metformin twice daily compared to baseline in an uncontrolled analysisan analysis in which a therapy is used, but without a comparison group against which to judge outcomes within a small RCT¹³⁷Ravi RD, Kalra et al. A randomized clinical trial of levonorgestrel intrauterine system with or without metformin for treatment of endometrial hyperplasia without atypia in Indian women. Asian Pacific Journal of Cancer Prevention. 2021 Mar 1;22(3):983-989.

People without cancer with metabolic imbalances: modest evidence of lower body weight and waist circumference among people with metabolic imbalances other than diabetes treated with metformin

• Lower body weight among people with polycystic ovary syndrome (not specific to diabetes) treated with 1000 mg metformin per day for at least 25.5 weeks compared to controls in a meta-analysis of 28 RCTs¹³⁸Chen X, He S, Wang D. Effects of metformin on body weight in polycystic ovary syndrome patients: model-based meta-analysis. Expert Reviews in Clinical Pharmacology. 2021 Jan;14(1):121-130.
• Lower body weight (BMI) and waist circumference at 6 months among people with impaired glucose tolerance treated with 1500 mg metformin per day compared to baseline, but no decrease among people treated with 500 mg, 250 mg, or no metformin in a mid-sized RCT¹³⁹Zhao X, Li Y et al. Effects of different doses of metformin treatment for 6 months on aberrant crypt foci in Chinese patients with impaired glucose tolerance. European Journal of Cancer Prevention. 2015 Jan;24(1):27-36.
• A decrease in waist circumference and waist-to-hip ratio, and a weak trend toward lower non-dense breast volume, among overweight/obese premenopausal women with components of metabolic syndrome treated with 850 mg metformin twice a day compared to placebo for 12 months in a mid-sized RCT¹⁴⁰Tapia E, Villa-Guillen DE et al. A randomized controlled trial of metformin in women with components of metabolic syndrome: intervention feasibility and effects on adiposity and breast density. Breast Cancer Research and Treatment. 2021 Nov;190(1):69-78.
• Decreased body mass index (BMI) among nondiabetic overweight/obese premenopausal women treated with lifestyle interventions for diet and exercise plus metformin compared to lifestyle interventions alone for a year in a mid-sized RCT¹⁴¹Leng W, Pu D et al. Effect of metformin on breast density in overweight/obese premenopausal women. Diabetes, Metabolic Syndrome and Obesity: Targets and Therapy. 2021 Nov 3;14:4423-4432.
• Decreases in body weight at 6 months among overweight or obese people with cancer treated with metformin compared to self-directed weight loss in a mid-sized RCT¹⁴²Yeh HC, Maruthur NM et al. Effects of behavioral weight loss and metformin on igfs in cancer survivors: a randomized trial. Journal of Clinical Endocrinology and Metabolism. 2021 Sep 27;106(10):e4179-e4191.

Blood cancers: preliminary evidence of lower blood glucose after a meal but not while fasting among people with blood cancers without diabetes or prediabetes at baseline treated with metformin

• A lower rate of steroid-induced high 2-hour postprandial glucose (hyperglycemia) during high-dose prednisone treatment, but no evidence of an effect on fasting glucose, among people with blood cancers without diabetes or prediabetes at baseline treated with 850 mg metformin twice daily compared to standard care in a small RCT¹⁴³Ochola LA, Nyamu DG, Guantai EM, Weru IW. Metformin’s effectiveness in preventing prednisone-induced hyperglycemia in hematological cancers. Journal of Oncology Pharmacy Practice. 2020 Jun;26(4):823-834.

Breast and gynecological cancers

Good evidence of lower levels of blood sugar among nondiabetic people with breast or endometrial cancer treated with metformin

Insufficient (conflicting) evidence of an effect on insulin resistance among nondiabetic people with breast, endometrial, or ovarian cancer treated with metformin

• Lower fasting blood sugar (6 studies), a weak trend toward lower insulin levels (6 studies), and no evidence of an effect on insulin resistance (HOMA-IR, 4 studies) among nondiabetic women with operable breast or endometrial cancer or primary breast cancer treated with metformin compared to no metformin in meta-analysesa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of RCTs¹⁴⁴Farkhondeh T, Amirabadizadeh A et al. Impact of metformin on cancer biomarkers in non-diabetic cancer patients: a systematic review and meta-analysis of clinical trials. Current Oncology. 2021 Apr 6;28(2):1412-1423.
• Better markers of blood glucose and insulin resistance (HOMA-IR) among people with breast cancer, mostly without diabetes, treated with metformin compared to controls in a meta-analysis of 10 RCTs¹⁴⁵Zhang ZJ, Yuan J, Bi Y, Wang C, Liu Y. The effect of metformin on biomarkers and survivals for breast cancer—a systematic review and meta-analysis of randomized clinical trials. Pharmacological Research. 2019 Mar;141:551-555.
• No evidence of an effect on insulin signaling pathways among mostly nondiabetic women with atypical hyperplasia or endometrioid endometrial cancer treated with metformin for 1 to 5 weeks before surgery compared to placeboa pill, medicine, or procedure—thought to be both harmless and ineffective—prescribed for the psychological benefit to the patient or as a sham treatment in a study to allow a comparison to a therapy of interest in a small RCT¹⁴⁶Kitson SJ, Maskell Z et al. Pre-surgical metformin in uterine malignancy (PREMIUM): a multi-center, randomized double-blind, placebo-controlled phase III trial. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research. 2019 Apr 15;25(8):2424-2432.

Preliminary evidence of lower insulin levels among nondiabetic or mixed diabetic and nondiabetic groups of people with breast or endometrial cancer treated with metformin

• Lower insulin levels among nondiabetic people with breast or colorectal cancer treated with 850 mg metformin twice a day for 12 weeks compared to controls in a mid-sized RCT¹⁴⁷Meyerhardt JA, Irwin ML et al. Multicenter, randomized phase II trial of physical activity (PA), metformin (Met), or the combination on metabolic biomarkers in stage I-III colorectal (CRC) and breast cancer (BC) survivors. Journal of Clinical Oncology. 2017 May;35(15):10059-10059.
• Lower insulin, glucose, and IGF-1 among people with endometrial cancer (not specific to diabetes) treated with 1500-2250 mg metformin per day for 4 to 6 weeks before surgery compared to baseline in a small uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹⁴⁸Mitsuhashi A, Kiyokawa T, Sato Y, Shozu M. Effects of metformin on endometrial cancer cell growth in vivo: a preoperative prospective trial. Cancer. 2014 Oct 1;120(19):2986-95.

Colorectal cancer: preliminary evidence of lower insulin levels among nondiabetic people with colorectal cancer treated with metformin

• Lower insulin levels among nondiabetic people with breast or colorectal cancer treated with 850 mg metformin twice a day for 12 weeks compared to controls in a mid-sized RCT¹⁴⁹Meyerhardt JA, Irwin ML et al. Multicenter, randomized phase II trial of physical activity (PA), metformin (Met), or the combination on metabolic biomarkers in stage I-III colorectal (CRC) and breast cancer (BC) survivors. Journal of Clinical Oncology. 2017 May;35(15):10059-10059.

Prostate cancer: no evidence of an effect on a marker of glycemic control among men with normal glycemia and locally advanced prostate cancer treated with metformin in a small study

• No evidence of an effect on a marker of glycemic control (HbA1c) among men with normal glycemia and locally advanced prostate cancer receiving radical radiotherapy and androgen deprivation therapy treated with 500 mg oral metformin 3 times a day compared to placebo in a small RCT¹⁵⁰Usmani N, Ghosh S et al. Metformin for prevention of anthropometric & metabolic complications of androgen deprivation therapy in prostate cancer patients receiving radical radiotherapy: a phase ii randomized controlled trial. International Journal of Radiation Oncology, Biology, Physics. 2022 Jul 27:S0360-3016(22)00747-7.

People without cancer or diabetes: preliminary evidence of lower levels of insulin or insulin resistance among people without cancer or diabetes treated with metformin

• A weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward lower levels of insulin and insulin resistance (HOMA-IR) among people with Barrett’s esophagus and no history of diabetes treated with increasing doses of metformin to 2000 mg/day by week 4 compared to placebo in a small RCT¹⁵¹Chak A, Buttar NS et al; Cancer Prevention Network. Metformin does not reduce markers of cell proliferation in esophageal tissues of patients with Barrett’s esophagus. Clinical Gastroenterology and Hepatology. 2015 Apr;13(4):665-72.e1-4.

People without cancer but with metabolic imbalances: preliminary evidence of lower levels of insulin, insulin resistance, and/or blood sugar among overweight or obese people or with impaired glucose tolerance or insulin resistance treated with metformin

• Lower markers of insulin resistance (HOMA-IR levels) among people with thyroid nodules and insulin resistance treated with metformin compared to no metformin in a review of 4 clinical studies of low quality¹⁵²He X, Wu D et al. Role of metformin in the treatment of patients with thyroid nodules and insulin resistance: a systematic review and meta-analysis. Thyroid. 2019 Mar;29(3):359-367.
• Lower fasting plasma glucose, insulin resistance (HOMA-IR index), and 2-hour plasma glucose levels at 6 months among people with impaired glucose tolerance treated with 1500 mg metformin per day compared to baseline, but no decrease among people treated with 500 mg, 250 mg, or no metformin in a mid-sized RCT¹⁵³Zhao X, Li Y et al. Effects of different doses of metformin treatment for 6 months on aberrant crypt foci in Chinese patients with impaired glucose tolerance. European Journal of Cancer Prevention. 2015 Jan;24(1):27-36.
• Decreased fasting insulin, fasting plasma glucose, and HOMA-IR among nondiabetic overweight or obese premenopausal women treated with lifestyle interventions for diet and exercise plus metformin compared to lifestyle interventions alone for a year in a mid-sized RCT¹⁵⁴Leng W, Pu D et al. Effect of metformin on breast density in overweight/obese premenopausal women. Diabetes, Metabolic Syndrome and Obesity: Targets and Therapy. 2021 Nov 3;14:4423-4432.

Sex hormones: good evidence of lower levels of many sex hormones among mostly nondiabetic people with cancer treated with metformin

• Lower levels of sex hormones (testosterone, bioavailable testosterone, free testosterone, free androgen index, estradiol, and bioavailable estradiol) and sex hormone-binding globulin among nondiabetic people with breast cancer  treated with metformin compared to controls in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 10 RCTsrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹⁵⁵Zhang ZJ, Yuan J, Bi Y, Wang C, Liu Y. The effect of metformin on biomarkers and survivals for breast cancer—a systematic review and meta-analysis of randomized clinical trials. Pharmacological Research. 2019 Mar;141:551-555.
• Lower testosterone level and free androgen index among nondiabetic people with breast cancer treated with 500 mg metformin 3 times a day compared to 2 times a day for 5 months in a small RCT¹⁵⁶Campagnoli C, Pasanisi P et al. Effect of different doses of metformin on serum testosterone and insulin in non-diabetic women with breast cancer: a randomized study. Clinical Breast Cancer. 2012 Jun;12(3):175-82.
• Cessation of menstruation (amenorrhea) among nondiabetic people with endometrial hyperplasia without atypia treated with levonorgestrel intrauterine system and 500 mg metformin twice daily compared to levonorgestrel intrauterine system alone in a small RCT¹⁵⁷Ravi RD, Kalra et al. A randomized clinical trial of levonorgestrel intrauterine system with or without metformin for treatment of endometrial hyperplasia without atypia in Indian women. Asian Pacific Journal of Cancer Prevention. 2021 Mar 1;22(3):983-989.
• A greater decrease in estradiol but no evidence of an effectoverall, one or more studies did not demonstrate that a treatment or intervention led to an expected outcome; this does not always mean that there is no effect in clinical practice, but that the studies may have been underpowered (too few participants) or poorly designed. Larger, well-designed studies provide more confidence in making assessments. on sex hormone-binding globulin or bioavailable testosterone among nondiabetic postmenopausal women with hormone receptor-negative breast cancer not receiving endocrine treatment treated with metformin compared to placeboa pill, medicine, or procedure—thought to be both harmless and ineffective—prescribed for the psychological benefit to the patient or as a sham treatment in a study to allow a comparison to a therapy of interest in a mid-sized RCT¹⁵⁸Pimentel I, Chen BE et al. The effect of metformin vs placebo on sex hormones in Canadian Cancer Trials Group MA.32. Journal of the National Cancer Institute. 2021 Feb 1;113(2):192-198.
• Greater reduction of free testosterone and estradiol and a weak trend toward a reduction of estrone, but no evidence of an effect on androstenedione among nondiabetic people with breast cancer treated with 1500 mg metformin compared to 1000 mg per day for 5 months in a small RCT¹⁵⁹Campagnoli C, Berrino F et al. Metformin decreases circulating androgen and estrogen levels in nondiabetic women with breast cancer. Clinical Breast Cancer. 2013 Dec;13(6):433-8.

Higher circulating levels of both estrogens and testosterone have been linked to higher risk of breast cancer among postmenopausal women¹⁶⁰Hankinson SE, Eliassen AH. Endogenous estrogen, testosterone and progesterone levels in relation to breast cancer risk. Journal of Steroid Biochemistry and Molecular Biology. 2007 Aug-Sep;106(1-5):24-30.

Metabolism hormones

Modest evidence of lower markers of insulin-like growth factors among people with cancer treated with metformin

• Lower markers of insulin-like growth factors (IGF-1 and IGF-1:IGFBP3 molar ratio) at 3 months among overweight or obese people with cancer treated with metformin compared to self-directed weight loss in a mid-sized RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects, and the decrease remained at 6 months only among obese but not overweight people; no difference in groups was seen at 12 months¹⁶¹Yeh HC, Maruthur NM et al. Effects of behavioral weight loss and metformin on igfs in cancer survivors: a randomized trial. Journal of Clinical Endocrinology and Metabolism. 2021 Sep 27;106(10):e4179-e4191.
• Smaller increase of IGF-1 and maintained IGF binding protein (IGFBP-1) among people with epithelial ovarian cancer without diabetes treated with paclitaxel plus carboplatin plus metformin compared to paclitaxel plus carboplatin alone in a small RCT¹⁶²Zheng Y, Zhu J, Zhang H, Liu Y, Sun H. Metformin plus first-line chemotherapy versus chemotherapy alone in the treatment of epithelial ovarian cancer: a prospective open-label pilot trial. Cancer Chemotherapy and Pharmacology. 2019 Dec;84(6):1349-1357.
• Lower plasma concentrations of IGF-1 among women with endometrial cancer treated with metformin compared to no metformin in a small controlled triala study design in which people are assigned to either an experimental group or a control group to compare the outcomes from different treatment; assignment is not random, and so this is not as strong a study design as a randomized controlled trial, but still stronger than an uncontrolled trial¹⁶³Cai D, Sun H et al. Insulin-like growth factor 1/mammalian target of rapamycin and amp-activated protein kinase signaling involved in the effects of metformin in the human endometrial cancer. International Journal of Gynecological Cancer. 2016 Nov;26(9):1667-1672.
• Lower IGF-1 among people with endometrial cancer (not specific to diabetes) treated with 1500-2250 mg metformin per day for 4 to 6 weeks before surgery compared to baseline in a small uncontrolled trial¹⁶⁴Mitsuhashi A, Kiyokawa T, Sato Y, Shozu M. Effects of metformin on endometrial cancer cell growth in vivo: a preoperative prospective trial. Cancer. 2014 Oct 1;120(19):2986-95.

Preliminary evidence of lower IGF-1 levels among nondiabetic people with major depressive disorder treated with metformin

• Lower IGF-1 among nondiabetic people with major depressive disorder treated with 20 mg fluoxetine once daily plus 1000 mg metformin once daily for 12 weeks compared to fluoxetine alone in a small RCT¹⁶⁵Abdallah MS, Mosalam EM et al. The antidiabetic metformin as an adjunct to antidepressants in patients with major depressive disorder: a proof-of-concept, randomized, double-blind, placebo-controlled trial. Neurotherapeutics. 2020 Oct;17(4):1897-1906.

Modest evidence of higher levels of adiponectin—protective against insulin resistance/diabetes and atherosclerosis—among women with polycystic ovary syndrome (not specific to cancer) treated with metformin

• Higher levels of adiponectin among women with polycystic ovary syndrome (not specific to diabetes) treated with metformin compared to no metformin in a meta-analysis of 11 controlled trialsa study design in which people are assigned to either an experimental group or a control group to compare the outcomes from different treatment; assignment is not random, and so this is not as strong a study design as a randomized controlled trial, but still stronger than an uncontrolled trial¹⁶⁶Duan X, Zhou M, Zhou G, Zhu Q, Li W. Effect of metformin on adiponectin in PCOS: a meta-analysis and a systematic review. European Journal of Obstetrics, Gynecology, and Reproductive Biology. 2021 Dec;267:61-67.

Modest evidence of lower levels of leptin—a hormone that suppresses appetite—among people with cancer treated with metformin

• Lower levels of leptin* among people with breast cancer receiving metformin as treatment for diabetes compared to no metformin in a meta-analysis of 9 RCTs¹⁶⁷Rahmani J, Manzari N et al. The effect of metformin on biomarkers associated with breast cancer outcomes: a systematic review, meta-analysis, and dose–response of randomized clinical trials. Clinical & Translational Oncology. 2020 Jan;22(1):37-49.
• A greater decrease in leptin after surgery and (neo)adjuvanttherapy used before a main treatment, such as chemotherapy, radiation therapy, and hormone therapy before surgery chemotherapy (if given) among nondiabetic people with breast cancer treated with 850 mg oral metformin twice a day compared to placebo for 6 months in a mid-sized RCT¹⁶⁸Goodwin PJ, Parulekar WR et al. Effect of metformin vs placebo on weight and metabolic factors in NCIC CTG MA.32. Journal of the National Cancer Institute. 2015 Mar 4;107(3):djv006.
• Lower leptin levels* among nondiabetic people with endometrial cancer treated with 1500-2250 mg metformin per day for 4 to 6 weeks before surgery compared to baseline in a small uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹⁶⁹Mitsuhashi A, Kiyokawa T, Sato Y, Shozu M. Effects of metformin on endometrial cancer cell growth in vivo: a preoperative prospective trial. Cancer. 2014 Oct 1;120(19):2986-95.
• A weak trendan apparent change due to a therapy, close to but not achieving full statistical significance (this is the CancerChoices definition; other researchers and studies may define this differently toward lower leptin levels* among nondiabetic people with breast or colorectal cancer treated with 850 mg metformin twice a day for 12 weeks compared to controls in a mid-sized RCT¹⁷⁰Meyerhardt JA, Irwin ML et al. Multicenter, randomized phase II trial of physical activity (PA), metformin (Met), or the combination on metabolic biomarkers in stage I-III colorectal (CRC) and breast cancer (BC) survivors. Journal of Clinical Oncology. 2017 May;35(15):10059-10059.

*Under normal conditions, leptin increases after eating to signal to the body that hunger has been satisfied and suppress appetite. However, in a condition called leptin resistance, even though the leptin levels rise, the brain doesn’t receive or respond to its signals to suppress appetite. The brain senses that the body is still hungry, leading to a cycle of overeating and continuing high levels of leptin, which is linked to obesity. Chronic high leptin levels may affect factors that promote cancer, such as estrogen signaling in breast cancer.¹⁷¹Leptin and Leptin Resistance: Everything You Need to Know. Healthline. Viewed September 7, 2022; You and Your Hormones. Leptin. Society for Endocrinology. March 2018. Viewed September 7, 2022.

Preliminary evidence of lower levels of thyroid stimulating hormone among people with thyroid nodules and insulin resistance treated with metformin

• Lower levels of thyroid stimulating hormone (TSH) among people with thyroid nodules and insulin resistance treated with metformin compared to no metformin in a review of 4 clinical studies of low quality¹⁷²He X, Wu D et al. Role of metformin in the treatment of patients with thyroid nodules and insulin resistance: a systematic review and meta-analysis. Thyroid. 2019 Mar;29(3):359-367.

• Higher markers of immune activation in the tumor immune microenvironment among people with esophageal squamous cell carcinoma (not specific to diabetes) treated with 250 mg metformin per day compared to baseline in a mid-sized uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹⁷³Wang S, Lin Y et al. Low-dose metformin reprograms the tumor immune microenvironment in human esophageal cancer: results of a phase II clinical trial. Clinical Cancer Research. 2020 Sep 15;26(18):4921-4932.
• Higher markers of immune function (FOXP3+ and CD8+ immune cell infiltrates) among people with head and neck squamous cell carcinoma (not specific to diabetes) treated with 2000 mg metformin per day for at least 9 days before surgical resection compared to baseline in a small uncontrolled trial¹⁷⁴Amin D, Richa T et al. Metformin effects on FOXP3+ and CD8+ T cell infiltrates of head and neck squamous cell carcinoma. Laryngoscope. 2020 Sep;130(9):E490-E498.

People with cancer, not specific to diabetes: good evidence of lower or more balanced markers of inflammation among people with cancer (not specific to diabetes) treated with metformin

• Better markers of inflammation among people with breast cancer (not specific to diabetes) treated with metformin compared to controls in a meta-analysisa statistical analysis that combines the results of two or more research studies; the results of smaller research studies addressing the same or similar questions can be analyzed as though they are one bigger, more powerful study of 10 RCTsrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹⁷⁵Zhang ZJ, Yuan J, Bi Y, Wang C, Liu Y. The effect of metformin on biomarkers and survivals for breast cancer—a systematic review and meta-analysis of randomized clinical trials. Pharmacological Research. 2019 Mar;141:551-555.
• A lower marker of inflammation (CRP) among people with breast cancer receiving metformin as treatment for diabetes compared to no metformin in a meta-analysis of 9 RCTs¹⁷⁶Rahmani J, Manzari N et al. The effect of metformin on biomarkers associated with breast cancer outcomes: a systematic review, meta-analysis, and dose–response of randomized clinical trials. Clinical & Translational Oncology. 2020 Jan;22(1):37-49.
• A greater decrease in a marker of inflammation (CRP) after surgery and (neo)adjuvanttherapy used before a main treatment, such as chemotherapy, radiation therapy, and hormone therapy before surgery chemotherapy (if given) among nondiabetic people with breast cancer treated with 850 mg oral metformin twice a day compared to placeboa pill, medicine, or procedure—thought to be both harmless and ineffective—prescribed for the psychological benefit to the patient or as a sham treatment in a study to allow a comparison to a therapy of interest for 6 months in a mid-sized RCT¹⁷⁷Goodwin PJ, Parulekar WR et al. Effect of metformin vs placebo on weight and metabolic factors in NCIC CTG MA.32. Journal of the National Cancer Institute. 2015 Mar 4;107(3):djv006.
• Lower levels of some markers of inflammation among people with stage 1–3 breast or colorectal cancer treated with metformin compared to controls in a mid-sized RCT¹⁷⁸Brown JC, Zhang S et al. Effect of exercise or metformin on biomarkers of inflammation in breast and colorectal cancer: a randomized trial. Cancer Prevention Research (Phila). 2020 Dec;13(12):1055-1062.

People without cancer and not specific to diabetes

Modest evidence of lower markers of inflammation among people with polycystic ovary syndrome (not specific to diabetes) treated with metformin

• Lower levels of markers of inflammation (TNF-α and CRP) among women with polycystic ovary syndrome (not specific to diabetes) treated with metformin compared to no metformin in a meta-analysis of 11 controlled trialsa study design in which people are assigned to either an experimental group or a control group to compare the outcomes from different treatment; assignment is not random, and so this is not as strong a study design as a randomized controlled trial, but still stronger than an uncontrolled trial¹⁷⁹Duan X, Zhou M, Zhou G, Zhu Q, Li W. Effect of metformin on adiponectin in PCOS: a meta-analysis and a systematic review. European Journal of Obstet Gynecol Reprod Biol. 2021 Dec;267:61-67.

People without cancer or diabetes

Preliminary evidence of lower markers of inflammation among nondiabetic people with major depressive disorder treated with metformin

• Lower markers of inflammation among nondiabetic people with major depressive disorder treated with 20 mg fluoxetine once daily plus 1000 mg metformin once daily for 12 weeks compared to fluoxetine alone in a small RCT¹⁸⁰Abdallah MS, Mosalam EM et al. The antidiabetic metformin as an adjunct to antidepressants in patients with major depressive disorder: a proof-of-concept, randomized, double-blind, placebo-controlled trial. Neurotherapeutics. 2020 Oct;17(4):1897-1906.

Preliminary evidence of lower markers of oxidative stress during FOLFOX-4 regimen among people with colorectal cancer (not specific to diabetes) treated with metformin

• Lower markers of oxidative stress during 12 cycles of FOLFOX-4 regimen among people with colorectal cancer (not specific to diabetes) treated with 500 mg metformin 3 times per day compared to no metformin in a small RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹⁸¹El-Fatatry BM, Ibrahim OM, Hussien FZ, Mostafa TM. Role of metformin in oxaliplatin-induced peripheral neuropathy in patients with stage III colorectal cancer: randomized, controlled study. International Journal of Colorectal Disease. 2018 Dec;33(12):1675-1683.

Preliminary evidence of a lower marker of oxidation among nondiabetic people with major depressive disorder treated with metformin

• A lower marker of oxidation among nondiabetic people with major depressive disorder treated with 20 mg fluoxetine once daily plus 1000 mg metformin once daily for 12 weeks compared to fluoxetine alone in a small RCT¹⁸²Abdallah MS, Mosalam EM et al. The antidiabetic metformin as an adjunct to antidepressants in patients with major depressive disorder: a proof-of-concept, randomized, double-blind, placebo-controlled trial. Neurotherapeutics. 2020 Oct;17(4):1897-1906.

• Changes in the composition of the microbiome, including beneficial increases in butyrate at 6 but not 12 months, among overweight or obese adults without medication-treated diabetes with solid tumor cancers treated with metformin compared to no metformin in a mid-sized RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹⁸³Mueller NT, Differding MK et al. Metformin affects gut microbiome composition and function and circulating short-chain fatty acids: a randomized trial. Diabetes Care. 2021 Jul;44(7):1462-1471.

Metformin and lifestyle changes

People with diabetes or metabolic imbalances: weak evidence of lower body weight, waist circumference, blood sugar, and insulin resistance, as well as changes in thyroid hormone levels among people newly diagnosed with insulin resistance or diabetes participating in a diet and exercise intervention and treated with metformin

• Lower body weight (BMI), waist circumference, insulin resistance, and thyroid-stimulating hormone, and higher levels of free triiodothyroninea thyroid hormone that plays vital roles in the body’s metabolic rate, heart and digestive functions, muscle control, brain development and function, and the maintenance of bones, but no evidence of an effectoverall, one or more studies did not demonstrate that a treatment or intervention led to an expected outcome; this does not always mean that there is no effect in clinical practice, but that the studies may have been underpowered (too few participants) or poorly designed. Larger, well-designed studies provide more confidence in making assessments. on free thyroxinea thyroid hormone that increases the rate of chemical reactions in cells and helps control growth and development (tetra-iodothyronine) among people newly diagnosed with insulin resistance following a standard diet and exercise program and treated with 1,700 mg metformin per day for 6 months compared to baseline in a mid-sized uncontrolled triala study in which a therapy is used, but without a comparison group against which to judge outcomes; an uncontrolled trial is considered a weak study design¹⁸⁴Anil C, Kut A et al. Metformin decreases thyroid volume and nodule size in subjects with insulin resistance: a preliminary study. Medical Principles and Practice. 2016;25(3):233-6.
• Lower markers of blood glucose (HbA1c and methylglyoxal) and weak trends toward lower fasting glucose and body weight (BMI) among people newly diagnosed with type 2 diabetes treated with metformin increasing to 1000-2000 mg per day for 24 weeks and participating in monthly group and individual lifestyle counseling sessions providing specific calorie intake and exercise goals compared to baseline in a small uncontrolled trial¹⁸⁵Kender Z, Fleming T et al. Effect of metformin on methylglyoxal metabolism in patients with type 2 diabetes. Experimental and Clinical Endocrinology & Diabetes. 2014 May;122(5):316-9.

People without diabetes: preliminary evidence of weight loss and lower insulin and leptin levels among nondiabetic people participating in physical activity and treated with metformin

• More weight loss, lower insulin and leptin levels among nondiabetic people with breast or colorectal cancer participating in physical activity and treated with 850 mg metformin twice a day for 12 weeks compared to controls in a mid-sized RCTrandomized controlled trial, a study design in which people are randomly assigned to either an experimental group or a control group to compare the outcomes from different treatments; an RCT is considered a strong design for determining a therapy’s effects¹⁸⁶Meyerhardt JA, Irwin ML et al. Multicenter, randomized phase II trial of physical activity (PA), metformin (Met), or the combination on metabolic biomarkers in stage I-III colorectal (CRC) and breast cancer (BC) survivors. Journal of Clinical Oncology. 2017 May;35(15):10059-10059.
• Lower levels of some markers of inflammation among nondiabetic people with stage 1–3 breast or colorectal cancer participating in exercise and treated with metformin compared to controls in a mid-sized RCT¹⁸⁷Brown JC, Zhang S et al. Effect of exercise or metformin on biomarkers of inflammation in breast and colorectal cancer: a randomized trial. Cancer Prevention Research (Phila). 2020 Dec;13(12):1055-1062.