1Division of Endocrinology and Metabolism, Department of Internal Medicine, Taichung Veterans General Hospital, Taichung, Taiwan.
2Department of Medicine, University of Malaya Medical Centre, Kuala Lumpur, Malaysia.
3Section of Endocrinology, Diabetes and Metabolism, Department of Medicine, University of Santo Tomas Hospital, Manila, Philippines.
4Department of Internal Medicine, Rajavithi Hospital, College of Medicine, Rangsit University, Bangkok, Thailand.
5Division of Endocrinology and Diabetes, The Medicity, Gurgaon, India.
6Department of Medicine and Therapeutics, The Chinese University of Hong Kong, Hong Kong.
7Department of Internal Medicine, Sanglah General Hospital, Faculty of Medicine, Udayana University, Bali, Indonesia.
8Department of Medicine, National University Health System, Singapore.
9The Hospital for Tropical Diseases, Ho Chi Minh City, Vietnam.
10Department of Endocrinology and Metabolism, Peking University People's Hospital, Peking, China.
11Department of Endocrinology and Metabolism, College of Medicine, The Catholic University of Korea, Seoul, Korea.
Copyright © 2020 Korean Diabetes Association
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
CONFLICTS OF INTEREST: The development of these expert recommendations was supported by an unrestricted educational grant from AstraZeneca Ltd, who had no influence on the content. All authors have read, approved, and take full responsibility for the accuracy of the content.
Wayne Huey-Herng Sheu has been advisor and/or speaker for AstraZeneca, Bayer HealthCare, Boehringer Ingelheim Pharmaceuticals, Daiichi-Sankyo, Eli Lilly and Company, Merck Sharp & Dohme, Mitsubishi Tanabe Pharma Corporation, Novartis Pharmaceuticals, Novo Nordisk, Pfizer, Sanofi, and Takeda Pharmaceutical Company.
Chan Siew Pheng has received honoraria as speaker and advisor for AstraZeneca, Boehringer Ingelheim, Eli Lilly, Janssen, Merck, Merck Sharp & Dohme, Novartis, Novo Nordisk, Sanofi, and Servier.
Bien J. Matawaran has received honoraria and CME grants from AstraZeneca, Boehringer Ingelheim, Eli Lilly, Merck, Multicare, Merck Sharp & Dohme, NatraPharm, Novartis, Novo Nordisk, Pfizer, Sanofi, Servier, and Torrent Pharma.
Chaicharn Deerochanawong has received honoraria as the speaker or advisor or research grants from AstraZeneca, Boehringer Ingelheim, Janssen, Bayer, Eli Lilly, Abbott, Novartis, Pfizer, Merck Sharp & Dohme, Novo Nordisk, Sanofi, and Takeda.
Ambrish Mithal has received honoraria as speaker and advisor from AstraZeneca, Abbott, Boehringer Ingelheim, Cipla, Dr. Reddy's, Eli Lilly, Glenmark, GlaxoSmithKline, Ipca Laboratories, Janssen, Lupin, Merck Sharp & Dohme, Novartis, Novo Nordisk, Pfizer, Sanofi, Serdia Servier, Sun Pharma, Torrent, Wockhardt and Zydus Nutrition.
Juliana Chan is the Chief Executive Officer (on probono basis) of Asia Diabetes Foundation, a charitable foundation established under The Chinese University of Hong Kong Foundation for developing the JADE Technology. She has received honoraria and traveling support for consultancy or giving lectures and her affiliated institutions have received research and educational grants from Amgen, Ascencia, AstraZeneca, Bayer, Bristol-Myers Squibb, Boehringer Ingelheim, Daiichi-Sankyo, Eli Lilly, GlaxoSmithKline, Medtronic, Merck Serono, Merck Sharp & Dohme, Novo Nordisk, Pfizer, and Sanofi. Ketut Suastika has received honoraria as a speaker or advisor from AstraZeneca, Boehringer Ingelheim, Merck Sharp & Dohme, Novo Nordisk, Sanofi, Merck, and Servier.
Chin Meng Khoo has received honoraria as a speaker or advisor from AstraZeneca, Boehringer Ingelheim, Novo Nordisk, and Sanofi.
Nguyen Huu Man has no disclosures.
Ji Linong is a member of the DISCOVER Scientific Committee and received support from AstraZeneca to attend DISCOVER planning and update meetings. He has also received honoraria from Eli Lilly, Bristol-Myers Squibb, Novartis, Novo Nordisk, Bayer, Merck Sharp & Dohme, Takeda, Sanofi, Roche, Boehringer Ingelheim, and AstraZeneca; research support from Roche, Sanofi, Merck Sharp & Dohme, AstraZeneca, Novartis, Eli Lilly, and Bristol-Myers Squibb.
Andrea Luk is a member of advisory boards for AstraZeneca, Boehringer Ingelheim, Sanofi, and Amgen. She has received research grants from Boehringer Ingelheim, Merck Sharp & Dohme, Sanofi, and Amgen; and travel grants from AstraZeneca, Boehringer Ingelheim, Merck Sharp & Dohme, Novartis, Novo Nordisk, and Sanofi.
Kun-Ho Yoon has received honoraria as a speaker or advisor from AstraZeneca, Boehringer Ingelheim, Eli Lilly, Hanmi Pharmaceutical, Merck Sharp & Dohme, Novo Nordisk, Sanofi, and Takeda; research support from AstraZeneca and Takeda.
Medical writing assistance was provided by Syed Abdul Haseeb (MS, CMPP) of MediTech Media, Asia Pacific, and was funded by AstraZeneca Ltd.
Study | Design and population | Intervention | Effect on body weight | Effect on waist circumference |
---|---|---|---|---|
Monotherapy | ||||
Inagaki et al. (2013) [79] | Phase II, 12-wk randomized study; Japanese T2DM (n=383) | Canagliflozin (50, 100, 200, or 300 mg); placebo | −1.98 kg (50 mg); −2.51 kg (100 mg); −2.39 kg (200 mg); −3.19 kg (300 mg); −0.78 kg (placebo) | −1.59 cm (50 mg), −1.81 cm (100 mg), −1.83 cm (200 mg), −2.21 cm (300 mg); −0.59 cm (placebo) |
Inagaki et al. (2014) [73] | Phase III, 24-wk double-blind randomized study; Japanese T2DM (n=272) | Canagliflozin (100, 200 mg); placebo | −3.76% (100 mg), −4.02% (200 mg); −0.76% (placebo) | −2.21 cm (100 mg); −2.82 cm (200 mg); −1.03 cm (placebo) |
Kaku et al. (2013) [80] | Phase II, 12-wk randomized study; Japanese T2DM (n=279) | Dapagliflozin (1, 2.5, 5, or 10 mg/day); placebo | −1.25 kg (1 mg); −1.24 kg (2.5 mg); −2.06 kg (5 mg); −1.91 kg (10 mg); −0.05 (placebo) | - |
Ji et al. (2014) [74] | Phase III, 24-wk double-blind randomized study; drug-naïve Asian T2DM (n=393) | Dapagliflozin (5 or 10 mg); placebo | −1.64 kg (5 mg); −2.25 kg (10 mg); −0.27 kg (placebo) | −2.77 cm (5 mg); −2.20 cm (10 mg); −0.72 cm (placebo) |
Kaku et al. (2014) [81] | Phase III, 24-wk double-blind randomized study; Japanese T2DM (n=261) | Dapagliflozin (5 or 10 mg); placebo | −2.13 kg (5 mg); −2.22 kg (10 mg); −0.84 kg (placebo) | - |
Kadowaki et al. (2014) [82] | Phase II, 12-wk randomized study; Japanese T2DM (n=547) | Empagliflozin (5, 10, 25, or 50 mg); placebo | −2.5 kg (5 mg); −2.6 kg (10 mg); −2.9 kg (25 mg); −3.1 kg (50 mg); −0.9 kg (placebo) | −2.4 cm (5 mg); −2.3 cm (10 mg); −2.6 cm (25 mg); −2.6 cm (50 mg); −1.3 cm (placebo) |
Kadowaki et al. (2015) [75] | 40-wk extension study; Japanese T2DM (n=532) | Empagliflozin (10, 25 mg) | −3.1 kg (10 mg); −3.1 kg (25 mg) | −2.8 cm (10 mg); −2.8 cm (25 mg) |
Kashiwagi et al. (2014) [66] | Phase II, 12-wk randomized study; Japanese T2DM (n=361) | Ipragliflozin (12.5, 25, 50, or 100 mg/day); placebo | −1.46 kg (12.5 mg); −1.69 kg (25 mg); −1.81 kg (50 mg); −2.1 kg (100 mg); −0.39 kg (placebo) | - |
Kashiwagi et al. (2015) [83] | Phase III, 16-wk double-blind randomized study; Japanese T2DM (n=131) | Ipragliflozin (50 mg); placebo | −2.31 kg (50 mg); −1.03 kg (placebo) | −1.61 cm (50 mg); −0.41 cm (placebo) |
Seino et al. (2015) [67] | 52-wk open-label study; Japanese T2DM (n=299) | Luseogliflozin (2.5 mg, option to uptitrate to 5 mg) | 12 wk: −1.77 kg (2.5/5 mg) 24 wk: −1.91 kg (2.5/5 mg) 36 wk: −2.35 kg (2.5/5 mg) 52 wk: −2.68 kg (2.5/5 mg) | - |
Hirose et al. (2016) [84] | 8-wk open-label study (n=17) | Tofogliflozin (20 mg) | −1.1 kg (20 mg) | - |
Kaku et al. (2014) [65] | Phase II/III, 24-wk double-blind randomized study; Japanese T2DM (n=235) | Tofogliflozin (10, 20, or 40 mg); placebo | −2.23 kg (10 mg); −2.85 kg (20 mg); −2.97 kg (40 mg); −0.36 kg (placebo) | −2.42 cm (10 mg); −2.47 cm (20 mg); −2.27 cm (40 mg); 0.02 cm (placebo) |
Add-on to oral antidiabetic agents | ||||
Ji et al. (2015) [85] | Phase III, 18-wk double-blind randomized study; Asian T2DM (n=678) | Canagliflozin (100, 300 mg)+Met or SU+Met; placebo | −1.9 kg (100 mg); –2.1 kg (300 mg); –0.5 kg (placebo) | - |
Inagaki et al. (2015) [72] | 52-wk open-label randomized study; Japanese T2DM (n=1,299) | Canagliflozin (100, 200 mg); other GLDs | −4.42% (100 mg); −4.70% (200 mg); −2.94% (100 mg+SU); −3.51% (200 mg+SU); −3.97% (100 mg+glinide); −4.37% (200 mg+glinide); −4.03% (100 mg+α-GI); −4.98% (200 mg+α-GI); −4.42% (100 mg+BG); −5.54% (200 mg+BG); −3.37% (100 mg+TZD); −3.43% (200 mg+TZD); −4.00% (100 mg+DPP-4i); −4.37% (200 mg+DPP-4i) | −2.76 cm (100 mg); −3.34 cm (200 mg); −1.96 cm (100 mg+SU); −1.72 cm (200 mg+SU); −2.93 cm (100 mg+glinide); −3.24 cm (200 mg+glinide); −2.27 cm (100 mg+α-GI); −2.57 (200 mg+α-GI); −3.40 cm (100 mg+BG); −3.82 cm (200 mg+BG); −3.12 cm (100 mg+TZD); −2.64 cm (200 mg+TZD); −3.34 cm (100 mg+DPP-4i); −2.37 cm (200 mg+DPP-4i) |
Kadowaki et al. (2017) [86] | Phase III, 24-wk double-blind randomized study; Japanese T2DM (n=138) | Canagliflozin (100 mg); teneligliptin; placebo | −2.29 kg (100 mg+teneligliptin); −0.78 kg (placebo+teneligliptin) | - |
Kadowaki et al. (2018) [87] | 52-wk open-label study; Japanese T2DM (n=153) | Canagliflozin (100 mg); teneligliptin | −2.86 kg (100 mg+teneligliptin) | - |
Harashima et al. (2018) [68] | Phase IV, 52-wk open-label; Japanese T2DM (n=71) | Canagliflozin (100 mg); liraglutide | −3.29 kg (100 mg+liraglutide) | −3.39 cm (100 mg+liraglutide) |
Kaku et al. (2014) [81] | Phase III, 52-wk open-label study; Japanese T2DM (n=728) | Dapagliflozin (5 mg, option to uptitrate to 10 mg); other GLDs | −2.6 kg (monotherapy); −2.1 kg (combination therapy) | −2.1 cm (monotherapy); −2.0 cm (combination therapy) |
Yang et al. (2016) [78] | Phase III, 24-wk randomized doubleblind study; Asian T2DM (n=444) | Dapagliflozin (5, 10 mg); Met; placebo | −1.8 kg (5 mg+Met); −2.6 kg (10 mg+Met); −0.7 kg (placebo+Met) | −1.96 cm (5 mg+Met); −2.15 cm (10 mg+Met); −0.39 cm (placebo+Met) |
Araki et al. (2015) [88] | Phase III, 52-wk randomized study; Japanese T2DM (n=1,160) | Empagliflozin (10, 25 mg); other GLDs | SU: −2.3 kg (10 mg+SU); −2.8 kg (25 mg+SU) BG: −3.9 kg (10 mg+BG); −3.4 kg (25 mg+BG) TZD: −2.6 kg (10 mg+TZD); −2.8 kg (25 mg+TZD) α-GI: −3.8 kg (10 mg+α-GI); −3.4 kg (25 mg+α-GI) DPP-4i: −2.9 kg (10 mg+DPP-4i); −2.8 kg (25 mg+DPP-4i) Glinide: −2.6 kg (10 mg+glinide); −3.1 kg (25 mg+glinide) | - |
Kashiwagi et al. (2015) [89] | Phase III, 24-wk randomized study; Japanese T2DM (n=168) | Ipragliflozin (50 mg); Met; placebo | −2.33 kg (50 mg+Met); −0.63 kg (placebo+Met) | −2.39 cm (50 mg+Met); −0.48 cm (placebo+Met) |
Lu et al. (2016) [76] | Phase III, 24-wk randomized doubleblind study; Asian T2DM (n=171) | Ipragliflozin (50 mg); Met; placebo | −2.93 kg (50 mg+Met); −1.70 kg (placebo+Met) | −1.72 cm (50 mg+Met); −0.85 cm (placebo+Met) |
Kashiwagi et al. (2015) [90] | Phase III, 24-wk randomized doubleblind study; Japanese T2DM (n=152) | Ipragliflozin (50 mg); pioglitazone; placebo | −2.29 kg (50 mg+pioglitazone); 0.51 kg (placebo+pioglitazone) | −1.82 cm (50 mg+pioglitazone); 0.14 cm (placebo+pioglitazone) |
Kashiwagi et al. (2015) [91] | Phase III, 24-wk randomized doubleblind study; Japanese T2DM (n=243) | Ipragliflozin (50, 100 mg); SU; placebo | −2.33 kg (50 mg+SU); −0.88 kg (placebo+SU) | −1.61 cm (50 mg+SU); −0.87 cm (placebo+SU) |
Seino et al. (2018) [69] | 52-wk, open-label study; Japanese T2DM (n=76) | Luseogliflozin (2.5 mg, option to uptitrate to 5 mg); liraglutide | 12 wk: −1.65 kg (2.5/5 mg+GLP-RA) 12 wk: −2.52 kg (2.5/5 mg+GLP-RA) 36 wk: −2.86 kg (2.5/5 mg+GLP-RA) 52 wk: −2.71 kg (2.5/5 mg+GLP-RA) | 12 wk: −1.39 cm (2.5/5 mg+GLP-RA) 12 wk: −2.63 cm (2.5/5 mg+GLP-RA) 36 wk: −3.09 cm (2.5/5 mg+GLP-RA) 52 wk: −2.86 cm (2.5/5 mg+GLP-RA) |
Ikeda et al. (2015) [92] | Phase II, 12-wk randomized, doubleblind study (n=398) | Tofogliflozin (2.5, 5, 10, 20, or 40 mg); Met; placebo | −1.56 kg (2.5 mg+Met); −1.85 kg (5 mg+Met); −2.24 kg (10 mg+Met); −2.55 kg (20 mg+Met); −2.82 kg (40 mg+Met); −0.74 kg (placebo+Met) | - |
Add-on to insulin | ||||
Inagaki et al. (2016) [93] | Phase IV, 16-wk double-blind randomized study; Japanese T2DM (n=146) | Canagliflozin (100 mg); insulin; placebo | −1.49 kg (100 mg+insulin); 0.15 kg (placebo+insulin) | - |
Inagaki et al. (2018) [94] | Phase IV, 52-wk (16-wk double-blind randomized placebocontrolled study+36wk open-label extension); Japanese T2DM (n=146) | Canagliflozin (100 mg); insulin; placebo | −0.99 kg (placebo+insulin → 100 mg+insulin); −1.52 kg (100 mg+insulin → 100 mg+insulin) | - |
Araki et al. (2016) [70] | Phase IV, 16-wk double-blind randomized placebo-controlled study; Japanese T2DM (n=182) | Dapagliflozin (5 mg); insulin; placebo | −0.55 kg (5 mg+insulin); 0.66 kg (placebo+insulin) | Placebo-corrected mean reduction: −1.00 cm |
Araki et al. (2017) [71] | 36-wk open-label extension of Araki et al. 2016 [70] (n=175) | Dapagliflozin (5 mg); insulin | −1.5 kg (5 mg+insulin → 5 mg+insulin); −1.37 kg (placebo+insulin → 100 mg+insulin) | −1.4 cm (5 mg+insulin → 5 mg+insulin); −0.9 cm (placebo+insulin → 100 mg+insulin) |
Yang et al. (2018) [95] | Phase III, 24-wk randomized doubleblind study; Asian T2DM (n=272) | Dapagliflozin (10 mg); insulin; placebo | −1.00 kg (10 mg+insulin); 0.37 kg (placebo+insulin) | −0.70 cm (10 mg+insulin); 0.00 cm (placebo+insulin) |
Ishihara et al. (2016) [96] | Phase IV, 16-wk double-blind randomized placebo-controlled study; Japanese T2DM (n=262) | Ipragliflozin (50 mg); insulin; placebo | −1.09 kg (10 mg+insulin); −0.05 kg (placebo+insulin) | −1.36 cm (10 mg+insulin); −0.84 cm (placebo+insulin) |
Seino et al. (2018) [77] | Phase IV, 52-wk (16-wk double-blind randomized placebo-controlled study+36-wk openlabel extension); Japanese T2DM (n=233) | Luseogliflozin (2.5 mg); insulin; placebo | −1.32 kg (2.5 mg+insulin); −0.05 kg (placebo+insulin) | −1.16 cm (2.5 mg+insulin); 0.04 cm (placebo+insulin) |
Terauchi et al. (2017) [97] | Phase IV, 16-wk double-blind randomized placebo-controlled study; Japanese T2DM (n=211) | Tofogliflozin (20 mg); insulin; placebo | −1.34 kg (20 mg+insulin); 0.03 kg (placebo+insulin) | - |
Terauchi et al. (2018) [98] | 36-wk open-label extension of Terauchi et al. (2017) [97] (n=210) | Tofogliflozin (20 mg); insulin | −1.52 kg (20 mg+insulin → 20 mg+insulin); −2.13 kg (placebo+insulin → 20 mg+insulin) | - |
Suzuki et al. (2016) [99] | 24-wk randomized active-controlled study; Japanese T2DM (n=53) | Tofogliflozin (20 mg); insulin; insulin glargine | 0.6 kg (insulin); −2.9 kg (20 mg+insulin); −3.4 kg (20 mg+insulin glargine) | - |
Pooled analyses | ||||
John et al. (2016) [100] | Pooled data from four 26-wk placebo-controlled studies (n=2,313) and a 104-wk active-controlled study (n=1,450) in T2DM patients in hot climate countries | Canagliflozin (100, 300 mg); placebo; glim+Met; canagliflozin (100, 300 mg)+Met | Placebo-controlled trials Hot climate subset: −1.9 kg (100 mg); −2.4 (300 mg); −0.3 kg (placebo) Other climate subset: −2.8 kg (100 mg); −3.4 kg (300 mg); −0.7 kg (placebo) Active-controlled trials Hot climate subset: −2.6 kg (100 mg+Met); −2.8 (300 mg+Met); +1.3 (glim+Met) Other climate subset: −3.9 kg (100 mg+Met); −3.9 (300 mg+Met); 0.6 (glim+Met) | - |
Yang et al. (2017) [101] | Pooled data from eight Phase IIb/III double-blind placebo-controlled trials of up to 24 wk (n=1,453) | Dapagliflozin (5, 10 mg); placebo | −1.9 kg (5 mg); −2.4 kg (10 mg); −0.6 kg (placebo) | - |
Yoon et al. (2016) [102] | Pooled data from four Phase III trials up to 24 wk (n=1,326) | Empagliflozin (10, 25 mg); placebo, other GLDs | Pooled data: −1.6 kg (10 mg); −1.8 kg (10 mg) Monotherapy: −1.7 kg (10 mg); −2.1 kg (25 mg) Met: −1.4 kg (10 mg+Met); −1.5 kg (10 mg+Met) Met+SU: −1.5 kg (10 mg+Met+SU); −1.9 kg (10 mg+Met+SU) Pioglitazone: −2.0 kg (10 mg+pioglitazone); −1.7 kg (10 mg+pioglitazone) | |
Prasanna Kumar et al. (2016) [103] | Pooled subgroup analysis of patients enrolled from India (n=124) in four randomized Phase III trials | Canagliflozin (100, 300 mg); placebo; other GLDs | Overall population: −2.6 (100 mg); −3.3 (300 mg) Indian subgroup: −1.7 (100 mg); −2.2 (300 mg) | |
Seino et al. (2015) [104] | Pooled analysis of two 52-wk studies; Japanese T2DM (n=708) | Luseogliflozin (2.5 mg); other GLDs | SU: −2.23 kg (2.5 mg+SU) BG: −2.86 kg (2.5 mg+BG) DPP-4i: −1.96 kg (2.5 mg+DPP-4i) TZD: −2.32 kg (2.5 mg+TZD) Glinide: −2.88 kg (2.5 mg+glinide) α-GI: −2.80 kg (2.5 mg+α-GI) SU+placebo (24 wk): 0.16 kg (placebo+SU) | |
Post-marketing study | ||||
Utsunomiya et al. (2017) [105] | 1-yr prospective, observational, postmarketing study (n=1,424) | Tofogliflozin | −1.18 kg (4 wk); −1.81 kg (12 wk); −2.01 kg (24 wk); −1.72 kg (36 wk); −2.55 (52 wk) | |
Nakamura et al. (2018) [106] | 24-mo post-marketing surveillance study (n=8,757) | Ipragliflozin | −1.32 kg (1 mo); −2.16 kg (3 mo); −2.45 kg (6 mo); −2.81 kg (12 mo); −3.11 (24 mo) |
SGLT-2, sodium glucose cotransporter-2; T2DM, type 2 diabetes mellitus; GLD, glucose-lowering drug; SU, sulfonylurea; α-GI, alpha glucosidase inhibitor; BG, biguanide; TZD, thiazolidinedione; DPP-4i, dipeptidyl peptidase-4 inhibitor; Met, metformin; GLP-RA, glucagon-like peptide-1 receptor agonist; glim, glimepiride.
SGLT-2, sodium glucose cotransporter-2; T2DM, type 2 diabetes mellitus; BMI, body mass index; CV, cardiovascular; CVD, cardiovascular disease; CHD, coronary heart disease; NAFLD, non-alcoholic fatty liver disease; GLD, glucose-lowering drug; WC, waist circumference; HRQoL, health-related quality of life.
SGLT2 Inhibitors as Add-On Therapy to Metformin for People with Type 2 Diabetes: A Review of Placebo-Controlled Trials in Asian versus Non-Asian Patients
Study | Design and population | Intervention | Effect on body weight | Effect on waist circumference |
---|---|---|---|---|
Monotherapy | ||||
Inagaki et al. (2013) [ | Phase II, 12-wk randomized study; Japanese T2DM (n=383) | Canagliflozin (50, 100, 200, or 300 mg); placebo | −1.98 kg (50 mg); −2.51 kg (100 mg); −2.39 kg (200 mg); −3.19 kg (300 mg); −0.78 kg (placebo) | −1.59 cm (50 mg), −1.81 cm (100 mg), −1.83 cm (200 mg), −2.21 cm (300 mg); −0.59 cm (placebo) |
Inagaki et al. (2014) [ | Phase III, 24-wk double-blind randomized study; Japanese T2DM (n=272) | Canagliflozin (100, 200 mg); placebo | −3.76% (100 mg), −4.02% (200 mg); −0.76% (placebo) | −2.21 cm (100 mg); −2.82 cm (200 mg); −1.03 cm (placebo) |
Kaku et al. (2013) [ | Phase II, 12-wk randomized study; Japanese T2DM (n=279) | Dapagliflozin (1, 2.5, 5, or 10 mg/day); placebo | −1.25 kg (1 mg); −1.24 kg (2.5 mg); −2.06 kg (5 mg); −1.91 kg (10 mg); −0.05 (placebo) | - |
Ji et al. (2014) [ | Phase III, 24-wk double-blind randomized study; drug-naïve Asian T2DM (n=393) | Dapagliflozin (5 or 10 mg); placebo | −1.64 kg (5 mg); −2.25 kg (10 mg); −0.27 kg (placebo) | −2.77 cm (5 mg); −2.20 cm (10 mg); −0.72 cm (placebo) |
Kaku et al. (2014) [ | Phase III, 24-wk double-blind randomized study; Japanese T2DM (n=261) | Dapagliflozin (5 or 10 mg); placebo | −2.13 kg (5 mg); −2.22 kg (10 mg); −0.84 kg (placebo) | - |
Kadowaki et al. (2014) [ | Phase II, 12-wk randomized study; Japanese T2DM (n=547) | Empagliflozin (5, 10, 25, or 50 mg); placebo | −2.5 kg (5 mg); −2.6 kg (10 mg); −2.9 kg (25 mg); −3.1 kg (50 mg); −0.9 kg (placebo) | −2.4 cm (5 mg); −2.3 cm (10 mg); −2.6 cm (25 mg); −2.6 cm (50 mg); −1.3 cm (placebo) |
Kadowaki et al. (2015) [ | 40-wk extension study; Japanese T2DM (n=532) | Empagliflozin (10, 25 mg) | −3.1 kg (10 mg); −3.1 kg (25 mg) | −2.8 cm (10 mg); −2.8 cm (25 mg) |
Kashiwagi et al. (2014) [ | Phase II, 12-wk randomized study; Japanese T2DM (n=361) | Ipragliflozin (12.5, 25, 50, or 100 mg/day); placebo | −1.46 kg (12.5 mg); −1.69 kg (25 mg); −1.81 kg (50 mg); −2.1 kg (100 mg); −0.39 kg (placebo) | - |
Kashiwagi et al. (2015) [ | Phase III, 16-wk double-blind randomized study; Japanese T2DM (n=131) | Ipragliflozin (50 mg); placebo | −2.31 kg (50 mg); −1.03 kg (placebo) | −1.61 cm (50 mg); −0.41 cm (placebo) |
Seino et al. (2015) [ | 52-wk open-label study; Japanese T2DM (n=299) | Luseogliflozin (2.5 mg, option to uptitrate to 5 mg) | 12 wk: −1.77 kg (2.5/5 mg) 24 wk: −1.91 kg (2.5/5 mg) 36 wk: −2.35 kg (2.5/5 mg) 52 wk: −2.68 kg (2.5/5 mg) | - |
Hirose et al. (2016) [ | 8-wk open-label study (n=17) | Tofogliflozin (20 mg) | −1.1 kg (20 mg) | - |
Kaku et al. (2014) [ | Phase II/III, 24-wk double-blind randomized study; Japanese T2DM (n=235) | Tofogliflozin (10, 20, or 40 mg); placebo | −2.23 kg (10 mg); −2.85 kg (20 mg); −2.97 kg (40 mg); −0.36 kg (placebo) | −2.42 cm (10 mg); −2.47 cm (20 mg); −2.27 cm (40 mg); 0.02 cm (placebo) |
Add-on to oral antidiabetic agents | ||||
Ji et al. (2015) [ | Phase III, 18-wk double-blind randomized study; Asian T2DM (n=678) | Canagliflozin (100, 300 mg)+Met or SU+Met; placebo | −1.9 kg (100 mg); –2.1 kg (300 mg); –0.5 kg (placebo) | - |
Inagaki et al. (2015) [ | 52-wk open-label randomized study; Japanese T2DM (n=1,299) | Canagliflozin (100, 200 mg); other GLDs | −4.42% (100 mg); −4.70% (200 mg); −2.94% (100 mg+SU); −3.51% (200 mg+SU); −3.97% (100 mg+glinide); −4.37% (200 mg+glinide); −4.03% (100 mg+α-GI); −4.98% (200 mg+α-GI); −4.42% (100 mg+BG); −5.54% (200 mg+BG); −3.37% (100 mg+TZD); −3.43% (200 mg+TZD); −4.00% (100 mg+DPP-4i); −4.37% (200 mg+DPP-4i) | −2.76 cm (100 mg); −3.34 cm (200 mg); −1.96 cm (100 mg+SU); −1.72 cm (200 mg+SU); −2.93 cm (100 mg+glinide); −3.24 cm (200 mg+glinide); −2.27 cm (100 mg+α-GI); −2.57 (200 mg+α-GI); −3.40 cm (100 mg+BG); −3.82 cm (200 mg+BG); −3.12 cm (100 mg+TZD); −2.64 cm (200 mg+TZD); −3.34 cm (100 mg+DPP-4i); −2.37 cm (200 mg+DPP-4i) |
Kadowaki et al. (2017) [ | Phase III, 24-wk double-blind randomized study; Japanese T2DM (n=138) | Canagliflozin (100 mg); teneligliptin; placebo | −2.29 kg (100 mg+teneligliptin); −0.78 kg (placebo+teneligliptin) | - |
Kadowaki et al. (2018) [ | 52-wk open-label study; Japanese T2DM (n=153) | Canagliflozin (100 mg); teneligliptin | −2.86 kg (100 mg+teneligliptin) | - |
Harashima et al. (2018) [ | Phase IV, 52-wk open-label; Japanese T2DM (n=71) | Canagliflozin (100 mg); liraglutide | −3.29 kg (100 mg+liraglutide) | −3.39 cm (100 mg+liraglutide) |
Kaku et al. (2014) [ | Phase III, 52-wk open-label study; Japanese T2DM (n=728) | Dapagliflozin (5 mg, option to uptitrate to 10 mg); other GLDs | −2.6 kg (monotherapy); −2.1 kg (combination therapy) | −2.1 cm (monotherapy); −2.0 cm (combination therapy) |
Yang et al. (2016) [ | Phase III, 24-wk randomized doubleblind study; Asian T2DM (n=444) | Dapagliflozin (5, 10 mg); Met; placebo | −1.8 kg (5 mg+Met); −2.6 kg (10 mg+Met); −0.7 kg (placebo+Met) | −1.96 cm (5 mg+Met); −2.15 cm (10 mg+Met); −0.39 cm (placebo+Met) |
Araki et al. (2015) [ | Phase III, 52-wk randomized study; Japanese T2DM (n=1,160) | Empagliflozin (10, 25 mg); other GLDs | SU: −2.3 kg (10 mg+SU); −2.8 kg (25 mg+SU) BG: −3.9 kg (10 mg+BG); −3.4 kg (25 mg+BG) TZD: −2.6 kg (10 mg+TZD); −2.8 kg (25 mg+TZD) α-GI: −3.8 kg (10 mg+α-GI); −3.4 kg (25 mg+α-GI) DPP-4i: −2.9 kg (10 mg+DPP-4i); −2.8 kg (25 mg+DPP-4i) Glinide: −2.6 kg (10 mg+glinide); −3.1 kg (25 mg+glinide) | - |
Kashiwagi et al. (2015) [ | Phase III, 24-wk randomized study; Japanese T2DM (n=168) | Ipragliflozin (50 mg); Met; placebo | −2.33 kg (50 mg+Met); −0.63 kg (placebo+Met) | −2.39 cm (50 mg+Met); −0.48 cm (placebo+Met) |
Lu et al. (2016) [ | Phase III, 24-wk randomized doubleblind study; Asian T2DM (n=171) | Ipragliflozin (50 mg); Met; placebo | −2.93 kg (50 mg+Met); −1.70 kg (placebo+Met) | −1.72 cm (50 mg+Met); −0.85 cm (placebo+Met) |
Kashiwagi et al. (2015) [ | Phase III, 24-wk randomized doubleblind study; Japanese T2DM (n=152) | Ipragliflozin (50 mg); pioglitazone; placebo | −2.29 kg (50 mg+pioglitazone); 0.51 kg (placebo+pioglitazone) | −1.82 cm (50 mg+pioglitazone); 0.14 cm (placebo+pioglitazone) |
Kashiwagi et al. (2015) [ | Phase III, 24-wk randomized doubleblind study; Japanese T2DM (n=243) | Ipragliflozin (50, 100 mg); SU; placebo | −2.33 kg (50 mg+SU); −0.88 kg (placebo+SU) | −1.61 cm (50 mg+SU); −0.87 cm (placebo+SU) |
Seino et al. (2018) [ | 52-wk, open-label study; Japanese T2DM (n=76) | Luseogliflozin (2.5 mg, option to uptitrate to 5 mg); liraglutide | 12 wk: −1.65 kg (2.5/5 mg+GLP-RA) 12 wk: −2.52 kg (2.5/5 mg+GLP-RA) 36 wk: −2.86 kg (2.5/5 mg+GLP-RA) 52 wk: −2.71 kg (2.5/5 mg+GLP-RA) | 12 wk: −1.39 cm (2.5/5 mg+GLP-RA) 12 wk: −2.63 cm (2.5/5 mg+GLP-RA) 36 wk: −3.09 cm (2.5/5 mg+GLP-RA) 52 wk: −2.86 cm (2.5/5 mg+GLP-RA) |
Ikeda et al. (2015) [ | Phase II, 12-wk randomized, doubleblind study (n=398) | Tofogliflozin (2.5, 5, 10, 20, or 40 mg); Met; placebo | −1.56 kg (2.5 mg+Met); −1.85 kg (5 mg+Met); −2.24 kg (10 mg+Met); −2.55 kg (20 mg+Met); −2.82 kg (40 mg+Met); −0.74 kg (placebo+Met) | - |
Add-on to insulin | ||||
Inagaki et al. (2016) [ | Phase IV, 16-wk double-blind randomized study; Japanese T2DM (n=146) | Canagliflozin (100 mg); insulin; placebo | −1.49 kg (100 mg+insulin); 0.15 kg (placebo+insulin) | - |
Inagaki et al. (2018) [ | Phase IV, 52-wk (16-wk double-blind randomized placebocontrolled study+36wk open-label extension); Japanese T2DM (n=146) | Canagliflozin (100 mg); insulin; placebo | −0.99 kg (placebo+insulin → 100 mg+insulin); −1.52 kg (100 mg+insulin → 100 mg+insulin) | - |
Araki et al. (2016) [ | Phase IV, 16-wk double-blind randomized placebo-controlled study; Japanese T2DM (n=182) | Dapagliflozin (5 mg); insulin; placebo | −0.55 kg (5 mg+insulin); 0.66 kg (placebo+insulin) | Placebo-corrected mean reduction: −1.00 cm |
Araki et al. (2017) [ | 36-wk open-label extension of Araki et al. 2016 [ | Dapagliflozin (5 mg); insulin | −1.5 kg (5 mg+insulin → 5 mg+insulin); −1.37 kg (placebo+insulin → 100 mg+insulin) | −1.4 cm (5 mg+insulin → 5 mg+insulin); −0.9 cm (placebo+insulin → 100 mg+insulin) |
Yang et al. (2018) [ | Phase III, 24-wk randomized doubleblind study; Asian T2DM (n=272) | Dapagliflozin (10 mg); insulin; placebo | −1.00 kg (10 mg+insulin); 0.37 kg (placebo+insulin) | −0.70 cm (10 mg+insulin); 0.00 cm (placebo+insulin) |
Ishihara et al. (2016) [ | Phase IV, 16-wk double-blind randomized placebo-controlled study; Japanese T2DM (n=262) | Ipragliflozin (50 mg); insulin; placebo | −1.09 kg (10 mg+insulin); −0.05 kg (placebo+insulin) | −1.36 cm (10 mg+insulin); −0.84 cm (placebo+insulin) |
Seino et al. (2018) [ | Phase IV, 52-wk (16-wk double-blind randomized placebo-controlled study+36-wk openlabel extension); Japanese T2DM (n=233) | Luseogliflozin (2.5 mg); insulin; placebo | −1.32 kg (2.5 mg+insulin); −0.05 kg (placebo+insulin) | −1.16 cm (2.5 mg+insulin); 0.04 cm (placebo+insulin) |
Terauchi et al. (2017) [ | Phase IV, 16-wk double-blind randomized placebo-controlled study; Japanese T2DM (n=211) | Tofogliflozin (20 mg); insulin; placebo | −1.34 kg (20 mg+insulin); 0.03 kg (placebo+insulin) | - |
Terauchi et al. (2018) [ | 36-wk open-label extension of Terauchi et al. (2017) [ | Tofogliflozin (20 mg); insulin | −1.52 kg (20 mg+insulin → 20 mg+insulin); −2.13 kg (placebo+insulin → 20 mg+insulin) | - |
Suzuki et al. (2016) [ | 24-wk randomized active-controlled study; Japanese T2DM (n=53) | Tofogliflozin (20 mg); insulin; insulin glargine | 0.6 kg (insulin); −2.9 kg (20 mg+insulin); −3.4 kg (20 mg+insulin glargine) | - |
Pooled analyses | ||||
John et al. (2016) [ | Pooled data from four 26-wk placebo-controlled studies (n=2,313) and a 104-wk active-controlled study (n=1,450) in T2DM patients in hot climate countries | Canagliflozin (100, 300 mg); placebo; glim+Met; canagliflozin (100, 300 mg)+Met | Placebo-controlled trials Hot climate subset: −1.9 kg (100 mg); −2.4 (300 mg); −0.3 kg (placebo) Other climate subset: −2.8 kg (100 mg); −3.4 kg (300 mg); −0.7 kg (placebo) Active-controlled trials Hot climate subset: −2.6 kg (100 mg+Met); −2.8 (300 mg+Met); +1.3 (glim+Met) Other climate subset: −3.9 kg (100 mg+Met); −3.9 (300 mg+Met); 0.6 (glim+Met) | - |
Yang et al. (2017) [ | Pooled data from eight Phase IIb/III double-blind placebo-controlled trials of up to 24 wk (n=1,453) | Dapagliflozin (5, 10 mg); placebo | −1.9 kg (5 mg); −2.4 kg (10 mg); −0.6 kg (placebo) | - |
Yoon et al. (2016) [ | Pooled data from four Phase III trials up to 24 wk (n=1,326) | Empagliflozin (10, 25 mg); placebo, other GLDs | Pooled data: −1.6 kg (10 mg); −1.8 kg (10 mg) Monotherapy: −1.7 kg (10 mg); −2.1 kg (25 mg) Met: −1.4 kg (10 mg+Met); −1.5 kg (10 mg+Met) Met+SU: −1.5 kg (10 mg+Met+SU); −1.9 kg (10 mg+Met+SU) Pioglitazone: −2.0 kg (10 mg+pioglitazone); −1.7 kg (10 mg+pioglitazone) | |
Prasanna Kumar et al. (2016) [ | Pooled subgroup analysis of patients enrolled from India (n=124) in four randomized Phase III trials | Canagliflozin (100, 300 mg); placebo; other GLDs | Overall population: −2.6 (100 mg); −3.3 (300 mg) Indian subgroup: −1.7 (100 mg); −2.2 (300 mg) | |
Seino et al. (2015) [ | Pooled analysis of two 52-wk studies; Japanese T2DM (n=708) | Luseogliflozin (2.5 mg); other GLDs | SU: −2.23 kg (2.5 mg+SU) BG: −2.86 kg (2.5 mg+BG) DPP-4i: −1.96 kg (2.5 mg+DPP-4i) TZD: −2.32 kg (2.5 mg+TZD) Glinide: −2.88 kg (2.5 mg+glinide) α-GI: −2.80 kg (2.5 mg+α-GI) SU+placebo (24 wk): 0.16 kg (placebo+SU) | |
Post-marketing study | ||||
Utsunomiya et al. (2017) [ | 1-yr prospective, observational, postmarketing study (n=1,424) | Tofogliflozin | −1.18 kg (4 wk); −1.81 kg (12 wk); −2.01 kg (24 wk); −1.72 kg (36 wk); −2.55 (52 wk) | |
Nakamura et al. (2018) [ | 24-mo post-marketing surveillance study (n=8,757) | Ipragliflozin | −1.32 kg (1 mo); −2.16 kg (3 mo); −2.45 kg (6 mo); −2.81 kg (12 mo); −3.11 (24 mo) |
Clinical recommendations |
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Overweight/obesity burden and associated complications in Asian patients with T2DM |
• Overweight/obesity is a major driver of the increasing prevalence of T2DM in Asia, and most of the patients with T2DM are overweight/ obese. |
• Asian populations have higher abdominal adiposity for any given BMI compared with their Caucasian counterparts. |
• Visceral or abdominal adiposity is strongly associated with risk of adverse CV outcomes and has been shown to be superior to BMI in predicting CVD risk. |
• Overweight/obesity in patients with T2DM independently increases the risk of hypertension, dyslipidemia, and CHD; it is also associated with other complications such as ectopic fat deposition (e.g., NAFLD). |
Weight loss as an essential management goal in overweight/obese patients with T2DM |
• Weight loss is an important management goal in patients with T2DM, who are overweight/obese. |
• Lifestyle modification (diet, physical activity, and behavioral therapy) designed to achieve and maintain weight loss should be prescribed for patients with T2DM who are overweight/obese. |
• Limited glucose-lowering pharmacological therapies are available that promote weight loss in T2DM. |
• In overweight/obese patients with T2DM, use of glucose-lowering medications that promote weight loss or are weight neutral is recommended. |
∘ Use of medications that are associated with weight gain should be minimized in overweight/obese patients with T2DM. |
Role of SGLT-2 inhibitors in the management of Asian patients with T2DM and abdominal obesity |
• SGLT-2 inhibitor is recommended to promote weight loss and reduction in visceral adiposity in Asian patients with T2DM and abdominal obesity. |
• SGLT-2 inhibitors promote weight loss in Asian patients with T2DM as monotherapy or in combination with other GLDs. |
∘ More than two-thirds of SGLT-2 inhibitor-induced weight loss is attributable to a reduction in body fat mass. |
• SGLT-2 inhibitor treatment reduces WC (a measure of abdominal or visceral adiposity) and ectopic fat deposition in non-adipose tissues, and improves adipose tissue function, HRQoL, and patient-reported treatment satisfaction. |
SGLT-2, sodium glucose cotransporter-2; T2DM, type 2 diabetes mellitus; GLD, glucose-lowering drug; SU, sulfonylurea; α-GI, alpha glucosidase inhibitor; BG, biguanide; TZD, thiazolidinedione; DPP-4i, dipeptidyl peptidase-4 inhibitor; Met, metformin; GLP-RA, glucagon-like peptide-1 receptor agonist; glim, glimepiride.
SGLT-2, sodium glucose cotransporter-2; T2DM, type 2 diabetes mellitus; BMI, body mass index; CV, cardiovascular; CVD, cardiovascular disease; CHD, coronary heart disease; NAFLD, non-alcoholic fatty liver disease; GLD, glucose-lowering drug; WC, waist circumference; HRQoL, health-related quality of life.