Novel Developments in Sodium-glucose Co-transporter 2 Inhibitor for Adjuvant Therapy for Adult Type 1 Diabetics

doi:10.12114/j.issn.1007-9572.2020.00.595

Abstract

Abstract: Type 1 diabetes mellitus （T1DM） seriously endangers people's health and life.On the whole，insulin hypoglycemic therapy achieves low rate of meeting the target glucose level，and long-term use of insulin may lead to frequent hypoglycemia，increased body weight，and elevated blood pressure，further increasing the risk of cardiovascular events.Studies have shown that sodium-glucose co-transporter 2（SGLT2） inhibitor，a novel glucose-lowering drug，can be used as an adjuvant therapy for adult T1DM diabetics，which may reduce insulin dosage and blood glucose without increasing the risk of severe hypoglycemia.However，it has also been reported that SGLT2 inhibitors can increase the risk of diabetic ketoacidosis（DKA）.Therefore，finding out the balance between the benefits and risks of SGLT2 inhibitors for T1DM adults is the key to clinical research.This paper summarized recently achieved important research results regarding SGLT2 inhibitors for adult T1DM，with a detailed review of benefits and risks of SGLT2 inhibitors，offering a reference to related clinical application and research.

Key words: Diabetes mellitus, type 1；Sodium-glucose co-transporter 2 inhibitors；Adult；Efficacy；Review

摘要： 1型糖尿病（T1DM）严重危害人们的健康和生命，但其经胰岛素降糖治疗后血糖达标率普遍偏低。长期使用胰岛素可导致频发低血糖、体质量增加和血压上升，进一步增加T1DM患者心血管事件发生风险。有研究显示新型降糖药物钠-葡萄糖转运体2（SGLT2）抑制剂辅助胰岛素治疗成年人T1DM可在减少胰岛素用量的同时进一步降低血糖，且不增加严重低血糖发生风险；但也有研究报道SGLT2抑制剂可增加成年T1DM患者糖尿病酮症酸中毒（DKA）发生风险。因此找到SGLT2抑制剂用于成年人T1DM的获益与风险的平衡点是临床研究的关键。本文汇总了近几年更新的关于SGLT2抑制剂用于成年人T1DM治疗的重要研究结果，对SGLT2抑制剂辅助胰岛素治疗成年人T1DM的获益与风险进行综述，以期为临床应用和未来研究提供参考。

关键词: 糖尿病, 1型, 钠-葡萄糖转运体2抑制剂, 成年人, 有效性, 综述

ZHANG Yu,LIAO Xiaoyang,ZHAO Qian, et al. Novel Developments in Sodium-glucose Co-transporter 2 Inhibitor for Adjuvant Therapy for Adult Type 1 Diabetics　[J]. Chinese General Practice, 2021, 24(6): 753-758. DOI: 10.12114/j.issn.1007-9572.2020.00.595.
张瑜,廖晓阳,赵茜等. 钠-葡萄糖转运体2抑制剂辅助治疗成年人1型糖尿病的研究进展[J]. 中国全科医学, 2021, 24(6): 753-758. DOI: 10.12114/j.issn.1007-9572.2020.00.595.

References

［1］ABED E，LABARBERA B，DVORAK J，et al．Prevalence of dyslipidemia and factors affecting dyslipidemia in young adults with type 1 diabetes：evaluation of statin prescribing［J］．J Pediatr Endocrinol Metab，2019，32（4）：327-334．DOI：10.1515/jpem-2018-0383.
［2］BEBU I，BRAFFETT B H，ORCHARD T J，et al．Mediation of the effect of glycemia on the risk of CVD outcomes in type 1 diabetes：the DCCT/EDIC study［J］．Diabetes Care，2019，42（7）：1284-1289．DOI：10.2337/dc18-1613.
［3］HUSSEIN Z，KAMARUDDIN N A，CHAN S P，et al．Hypoglycemia awareness among insulin-treated patients with diabetes in Malaysia：a cohort subanalysis of the HAT study［J］．Diabetes Res Clin Pract，2017，133：40-49．DOI：10.1016/j.diabres.2017.08.007.
［4］MALKANI S，KOTWAL A.Frequency and predictors of self-reported hypoglycemia in insulin-treated diabetes［J］．J Diabetes Res，2017，2017：7425925．DOI：10.1155/2017/7425925.
［5］EMRAL R，TETIKER T，SAHIN I，et al．An international survey on hypoglycemia among insulin-treated typeⅠ and typeⅡ diabetes patients：Turkey cohort of the non-interventional IO HAT study［J］．BMC Endocr Disord，2018，18（1）：9．DOI：10.1186/s12902-018-0238-2.
［6］PURNELL J Q，HOKANSON J E，MARCOVINA S M，et al．Effect of excessive weight gain with intensive therapy of type 1 diabetes on lipid levels and blood pressure：results from the DCCT.Diabetes Control and Complications Trial［J］．JAMA，1998，280（2）：140-146．DOI：10.1001/jama.280.2.140.
［7］ZINMAN B，MARSO S P，CHRISTIANSEN E，et al．Hypoglycemia，cardiovascular outcomes，and death：the LEADER experience［J］．Diabetes Care，2018，41（8）：1783-1791．DOI：10.2337/dc17-2677.
［8］BAYONA CEBADA A，NATTERO-CHÁVEZ L，ALONSO DÍAZ S，et al．Efficacy and safety of SGLT2 inhibitors in type 1 diabetes after the introduction of an off-label use protocol for clinical practice［J］．Diabetes Technol Ther，2020，22（3）：208-215．DOI：10.1089/dia.2019.0316.
［9］TAYLOR S I，BLAU J E，ROTHER K I，et al．SGLT2 inhibitors as adjunctive therapy for type 1 diabetes：balancing benefits and risks［J］．Lancet Diabetes Endocrinol，2019，7（12）：949-958．DOI：10.1016/S2213-8587（19）30154-8.
［10］SIEBEL S，GALDERISI A，PATEL N S，et al．Reversal of ketosis in type 1 diabetes is not adversely affected by SGLT2 inhibitor therapy［J］．Diabetes Technol Ther，2019，21（3）：101-104．DOI：10.1089/dia.2018.0356.
［11］PHILIPS J C，PAQUOT N，SCHEEN A J.Potential role of SGLT2 inhibitors in the management of type 1 diabetes［J］．Rev Med Suisse，2019，15（659）：1426-1430.
［12］GAN M J，ALBANESE-O'NEILL A，HALLER M J.Type 1 diabetes：current concepts in epidemiology，pathophysiology，clinical care，and research［J］．Curr Probl Pediatr Adolesc Health Care，2012，42（10）：269-291．DOI：10.1016/j.cppeds.2012.07.002.
［13］BUI ANHT V，PHAM P V.Concise review：hematopoietic stem cell transplantation to treat insulin-dependent diabetes mellitus［J］．Prog Stem Cell，2017，4（2）：217-226．DOI：10.15419/psc.v4i2.381.
［14］NATHAN D M，DCCT/EDIC Research Group.The diabetes control and complications trial/epidemiology of diabetes interventions and complications study at 30 years：overview［J］．Diabetes Care，2014，37（1）：9-16．DOI：10.2337/dc13-2112.
［15］FOSTER N C，BECK R W，MILLER K M，et al．State of type 1 diabetes management and outcomes from the T1D exchange in 2016-2018［J］．Diabetes Technol Ther，2019，21（2）：66-72．DOI：10.1089/dia.2018.0384.
［16］BECK R W，MILLER K M，FOSTER N C.The T1D exchange clinic network and registry：10 years of enlightenment on the state of type 1 diabetes in the United States［J］．Diabetes Technol Ther，2019，21（6）：310-312．DOI：10.1089/dia.2019.0129.
［17］陈冬梅.成都地区成人1型糖尿病患者治疗方案的选择及血糖达标率［J］．临床医学研究与实践，2019，4（6）：195-196．DOI：10.19347/j.cnki.2096-1413.201906079.
［18］EL HAGE L，KASHYAP S R，RAO P.Use of SGLT-2 inhibitors in patients with type 1 diabetes mellitus［J］．J Prim Care Community Health，2019，10：2150132719895188．DOI：10.1177/2150132719895188.
［19］FERRANNINI E，SOLINI A.SGLT2 inhibition in diabetes mellitus：rationale and clinical prospects［J］．Nat Rev Endocrinol，2012，8（8）：495-502．DOI：10.1038/nrendo.2011.243.
［20］EPSTEIN B，ROSENWASSER R，SUTTON D，et al．SGLT-2 inhibitors and their potential in the treatment of diabetes［J］．Diabetes Metab Syndr Obes：Targets Ther，2013，6：453-467．DOI：10.2147/dmso.s34416.
［21］MUDALIAR S，ARMSTRONG D A，MAVIAN A A，et al．Remogliflozin etabonate，a selective inhibitor of the sodium-glucose transporter 2，improves serum glucose profiles in type 1 diabetes［J］．Diabetes Care，2012，35（11）：2198-2200．DOI：10.2337/dc12-0508.
［22］HENRY R R，THAKKAR P，TONG C，et al．Efficacy and safety of canagliflozin，a sodium-glucose cotransporter 2 inhibitor，as add-on to insulin in patients with type 1 diabetes［J］．Diabetes Care，2015，38（12）：2258-2265．DOI：10.2337/dc15-1730.
［23］PERKINS B A，CHERNEY D Z，PARTRIDGE H，et al．Sodium-glucose cotransporter 2 inhibition and glycemic control in type 1 diabetes：results of an 8-week open-label proof-of-concept trial［J］．Diabetes Care，2014，37（5）：1480-1483．DOI：10.2337/dc13-2338.
［24］RODBARD H W，PETERS A L，SLEE A，et al．The effect of canagliflozin，a sodium glucose cotransporter 2 inhibitor，on glycemic end points assessed by continuous glucose monitoring and patient-reported outcomes among people with type 1 diabetes［J］．Diabetes Care，2017，40（2）：171-180．DOI：10.2337/dc16-1353.
［25］ROSENSTOCK J，MARQUARD J，LAFFEL L M，et al．Empagliflozin as adjunctive to insulin therapy in type 1 diabetes：the EASE trials［J］．Diabetes Care，2018，41（12）：2560-2569．DOI：10.2337/dc18-1749.
［26］MATHIEU C，DANDONA P，GILLARD P，et al．Efficacy and safety of dapagliflozin in patients with inadequately controlled type 1 diabetes （the DEPICT-2 study）：24-week results from a randomized controlled trial［J］．Diabetes Care，2018，41（9）：1938-1946．DOI：10.2337/dc18-0623.
［27］DANDONA P，MATHIEU C，PHILLIP M，et al．Efficacy and safety of dapagliflozin in patients with inadequately controlled type 1 diabetes （DEPICT-1）：24 week results from a multicentre，double-blind，phase 3，randomised controlled trial［J］．Lancet Diabetes Endocrinol，2017，5（11）：864-876．DOI：10.1016/S2213-8587（17）30308-X.
［28］HENRY R R，ROSENSTOCK J，EDELMAN S，et al．Exploring the potential of the SGLT2 inhibitor dapagliflozin in type 1 diabetes：a randomized，double-blind，placebo-controlled pilot study［J］．Diabetes Care，2015，38（3）：412-419．DOI：10.2337/dc13-2955.
［29］ARAKI E，WATADA H，UCHIGATA Y，et al．Efficacy and safety of dapagliflozin in Japanese patients with inadequately controlled type 1 diabetes （DEPICT-5）：52-week results from a randomized，open-label，phase Ⅲ clinical trial［J］．Diabetes Obes Metab，2020，22（4）：540-548．DOI：10.1111/dom.13922.
［30］RODBARD D.Continuous glucose monitoring：a review of recent studies demonstrating improved glycemic outcomes［J］．Diabetes Technol Ther，2017，19（S3）：S25-37．DOI：10.1089/dia.2017.0035.
［31］FAMULLA S，PIEBER T R，EILBRACHT J，et al.Glucose exposure and variability with empagliflozin as adjunct to insulin in patients with type 1 diabetes: continuous glucose monitoring data from a 4-week, randomized, placebo-controlled trial（EASE-1）［J］．Diabetes Technology & Therapeutics，2017，19（1）：49-60.DOI：10.1089/dia.2016.0261.
［32］MATHIEU C，DANDONA P，PHILLIP M，et al．Glucose variables in type 1 diabetes studies with dapagliflozin：pooled analysis of continuous glucose monitoring data from DEPICT-1 and -2［J］．Diabetes Care，2019，42（6）：1081-1087．DOI：10.2337/dc18-1983.
［33］ZINMAN B，WANNER C，LACHIN J M，et al．Empagliflozin，cardiovascular outcomes，and mortality in type 2 diabetes［J］．N Engl J Med，2015，373（22）：2117-2128．DOI：10.1056/nejmoa1504720.
［34］NEAL B，PERKOVIC V，MAHAFFEY K W，et al．Canagliflozin and cardiovascular and renal events in type 2 diabetes［J］．N Engl J Med，2017，377（7）：644-657．DOI：10.1056/NEJMoa1611925.
［35］PERKOVIC V，JARDINE M J，NEAL B，et al．Canagliflozin and renal outcomes in type 2 diabetes and nephropathy［J］．N Engl J Med，2019，380（24）：2295-2306．DOI：10.1056/NEJMoa1811744.
［36］WIVIOTT S D，RAZ I，BONACA M P，et al．Dapagliflozin and cardiovascular outcomes in type 2 diabetes［J］．N Engl J Med，2019，380（4）：347-357．DOI：10.1056/NEJMoa1812389.
［37］VAN RAALTE D H，BJORNSTAD P，PERSSON F，et al．The impact of sotagliflozin on renal function，albuminuria，blood pressure，and hematocrit in adults with type 1 diabetes［J］．Diabetes Care，2019，42（10）：1921-1929．DOI：10.2337/dc19-0937.
［38］YAMADA T，SHOJIMA N，NOMA H，et al．Sodium-glucose co-transporter-2 inhibitors as add-on therapy to insulin for type 1 diabetes mellitus：systematic review and meta-analysis of randomized controlled trials［J］．Diabetes Obes Metab，2018，20（7）：1755-1761．DOI：10.1111/dom.13260.
［39］KAKU K，ISAKA H，SAKATANI T，et al．Efficacy and safety of ipragliflozin add-on therapy to insulin in Japanese patients with type 1 diabetes mellitus：a randomized，double-blind，phase 3 trial［J］．Diabetes Obes Metab，2019，21（10）：2284-2293．DOI：10.1111/dom.13807.
［40］KUHADIYA N D，GHANIM H，MEHTA A，et al．Dapagliflozin as additional treatment to liraglutide and insulin in patients with type 1 diabetes［J］．J Clin Endocrinol Metab，2016，101（9）：3506-3515．DOI：10.1210/jc.2016-1451.
［41］PETERS A L，HENRY R R，THAKKAR P，et al．Diabetic ketoacidosis with canagliflozin，a sodium-glucose cotransporter 2 inhibitor，in patients with type 1 diabetes［J］．Diabetes Care，2016，39（4）：532-538．DOI：10.2337/dc15-1995.
［42］HENRY R R，DANDONA P，PETTUS J，et al．Dapagliflozin in patients with type 1 diabetes：a post hoc analysis of the effect of insulin dose adjustments on 24-hour continuously monitored mean glucose and fasting β-hydroxybutyrate levels in a phaseⅡa pilot study［J］．Diabetes Obes Metab，2017，19（6）：814-821．DOI：10.1111/dom.12882.
［43］HAMPP C，SWAIN R S，HORGAN C，et al．Use of sodium-glucose cotransporter 2 inhibitors in patients with type 1 diabetes and rates of diabetic ketoacidosis［J］．Diabetes Care，2019，43（1）：dc191481．DOI：10.2337/dc19-1481 .

[1]	LI Dianjiang, PAN Enchun, SUN Zhongming, WEN Jinbo, WANG Miaomiao, WU Ming, SHEN Chong. The Current Status and Influencing Factors of Clinical Inertia in Type 2 Diabetes Patients in Community [J]. Chinese General Practice, 2023, 26(34): 4296-4301.
[2]	LIN Kai, YAO Mi, CHEN Zhang, JI Xinxin, LIN Runqi, CHEN Yongsong, Sim MOIRA. Conceptual Framework and Responding Approach of Treatment Burden of Type 2 Diabetes: a Video Recording-based Analysis [J]. Chinese General Practice, 2023, 26(34): 4302-4307.
[3]	YANG Hui, HU Ruwei, LIU Ruqing, LU Junfeng, WU Jinglan. Relationship between Community Health Service Experience and Glycemic Control Outcomes in Patients with Diabetes Mellitus [J]. Chinese General Practice, 2023, 26(34): 4290-4295.
[4]	ZHANG Juan, LI Haifen, LI Xiaoman, YAO Miao, MA Huizhen, MA Qiang. Construction of Recurrence Risk Prediction Model for Diabetic Foot Ulcer on the Basis of Logistic Regression, Support Vector Machine and BP Neural Network Model [J]. Chinese General Practice, 2023, 26(32): 4013-4019.
[5]	CHENG Jingwei, QIAO Junjun, YIN Zhen, HU Junpeng, WANG Qinghe, LIU Yangqing, WANG Yanfang. Interpretation of ISPAD Clinical Practice Consensus Guidelines 2022: Exercise in Children and Adolescents with Diabetes [J]. Chinese General Practice, 2023, 26(30): 3719-3724.
[6]	ZHOU Xiaoqi, LIU Xinhui, ZHANG Wei, LI Changfeng, YAN Yaqiong. Association of Alanine Transaminase and Aspartate Aminotransferase/Alanine Transaminase Ratio with Type 2 Diabetes and Metabolic Syndrome in the Elderly [J]. Chinese General Practice, 2023, 26(29): 3645-3649.
[7]	ZHAO Xiaohua, DU Lin, GAO Shengnan, JIANG Ziyun. Multiple Deep Muscle Abscesses in Type 2 Diabetes in the Elderly: Report of One Case and Literature Review [J]. Chinese General Practice, 2023, 26(29): 3715-3718.
[8]	LUO Dan, XU Jingjing, WANG Yubing, LI Mingzi, FORBES Angus. Development and Preliminary Practice of Resilience-oriented Structured Treatment and Educational Program for Adolescents with Type 1 Diabetes [J]. Chinese General Practice, 2023, 26(27): 3423-3429.
[9]	DONG Yanan, JIANG Xiaorui, WANG Kai, ZONG Chuanchong, LIN Guodong, LI Xiangqing, LIN Chunxiao, CHI Juntao. The Effect of Modified Tibial Transverse Transport Technique in the Treatment of Wagner Grade Ⅲ and Ⅳ Diabetic Foot Patients [J]. Chinese General Practice, 2023, 26(27): 3411-3416.
[10]	LU Zuowei, CAO Hongwei, LIU Tao, ZHANG Nana, CHEN Yanyan, SHI Qinli, LIU Xiangyang, WANG Qiong, LAI Jingbo, LI Xiaomiao. Development and Validation of a Risk Prediction Model for the Progression from Microalbuminuria to Macroalbuminuria in Patients with Type 2 Diabetes Mellitus [J]. Chinese General Practice, 2023, 26(26): 3259-3268.
[11]	GU Yunjie, SONG Jing, YIN Jun. Clinical Study on Low-carbon Diet for Endogenous-insulin-deficient Diabetes Patients [J]. Chinese General Practice, 2023, 26(26): 3308-3313.
[12]	KONG Dexian, XING Yuling, SUN Wenwen, ZHANG Zhimin, ZHOU Fei, MA Huijuan. Correlation between Estimated Glucose Disposal Rate and Metabolism-associated Fatty Liver Disease in Type 2 Diabetes [J]. Chinese General Practice, 2023, 26(26): 3252-3258.
[13]	CHEN Lunwen, ZHOU Yang, YAN Guodong, SHEN Yi, SUN Chen, CAI Wanli, CHU Minjie, XIAO Jing. Risk of Malignant Tumor in Patients with Type 2 Diabetes: a Prospective Population-based Study [J]. Chinese General Practice, 2023, 26(26): 3238-3245.
[14]	FEI Sijie, ZHANG Qiang, LIU Fangfang, BAI Lu, SUN Caihong, XIN Caifeng. Correlation between Glycated Hemoglobin Variability and New-onset Atrial Fibrillation in Type 2 Diabetes Patients Combined with Heart Failure with Preserved Ejection Fraction [J]. Chinese General Practice, 2023, 26(26): 3246-3251.
[15]	HE Rong, ZHANG Li, LI Peng, ZHANG Xiaoling, ZHANG Guo, ZANG Yiran, WU Shouling, SUN Lixia. Immediate Effects of Aerobic Exercise on Arterial Stiffness in a Male Population with Different Blood Glucose Levels [J]. Chinese General Practice, 2023, 26(24): 2997-3004.