|Year : 2018 | Volume
| Issue : 5 | Page : 689-695
A review on cardiovascular outcome studies of dipeptidyl peptidase-4 inhibitors
Maneesha Khalse, Amit Bhargava
Department of Medical Affairs, Lupin Ltd., Mumbai, Maharashtra, India
|Date of Web Publication||18-Sep-2018|
Laxmi Towers C Wing, 5th Floor, Bandra Kurla Complex, Mumbai - 400 051, Maharashtra
Source of Support: None, Conflict of Interest: None
| Abstract|| |
The U.S. Food and Drug Administration issued a guidance for pharmaceutical industry defining preapproval and postapproval requirements for the demonstration of cardiovascular (CV) safety for all new medications developed for glycemic management in type 2 diabetes. However, results published from the studies of dipeptidyl peptidase-4 (DPP-4) inhibitors are conflicting with regard to different CV endpoints. Upcoming CV outcome studies perhaps will be able to provide additional insights related to diabetes management and help to provide the answers to some of these concerns. This article provides a brief overview regarding how various CV safety evidence of DPP-4 inhibitor evolved over time that highlights possible implication in clinical practice and translates them into effective diabetes management.
Keywords: Cardiovascular outcome, cardiovascular safety, diabetes, dipeptidyl peptidase-4 inhibitors
|How to cite this article:|
Khalse M, Bhargava A. A review on cardiovascular outcome studies of dipeptidyl peptidase-4 inhibitors. Indian J Endocr Metab 2018;22:689-95
|How to cite this URL:|
Khalse M, Bhargava A. A review on cardiovascular outcome studies of dipeptidyl peptidase-4 inhibitors. Indian J Endocr Metab [serial online] 2018 [cited 2020 Feb 29];22:689-95. Available from: http://www.ijem.in/text.asp?2018/22/5/689/241475
| Introduction|| |
The progressive rise in the incidence of type 2 diabetes mellitus (T2DM) in the last few decades, which is on verge of becoming a pandemic disorder in Indian populations, is attributed to several reasons such as the aging of population, rapid urbanization resulting in sedentariness, physical inactivity, and consequently, greater occurrence of obesity. Presence of chronic complication and comorbidities attributes to large proportion of medical costs for type 2 diabetes.
Patients with type 2 diabetes have a two-fold to six-fold higher incidence of cardiovascular disease (CVD) than nondiabetic population, making CVD as a leading cause of death in such patients. Therefore, the primary aim of glycemic control is focused on to prevent death and morbidity due to CVD and microvascular diseases. Extensive data, however, suggest that role of intensive glycemic control on reducing cardiovascular (CV) complications in patients with type 2 diabetes is debatable, though one large randomized study reported its beneficial effect on microvascular complication in newly diagnosed patients with T2DM after 10 years posttrial follow-up. In contradict, randomized interventional data exist to suggest an actual increased risk of CV mortality when overly stringent strategies are employed in high-risk T2DM patients.
Following a meta-analysis conducted on 42 trials to examine the effect of Rosiglitazone, Nissen and Wolski  reported that there is an association between an increased risk of myocardial infarction (MI) and death from CV causes in subjects with diabetes on Rosiglitazone. This initiated a series of discussion on the need to more closely evaluate antidiabetic therapies from a CV perspective. These concerns over the ambiguity related to the CV profile of antidiabetic agents  lead regulatory agencies in both Europe and the United States to issue a directive [FDA, 2008; CHMP, 2012) to ascertain CV safety of new antidiabetic medications and to confer to an acceptable level of CV safety in patients.,
The earlier antidiabetic agents such as biguanides, sulfonylureas (SU), thiazolidinediones have not been tried for CV safety in large outcome trials. Metformin did show a reduction in CV events when analyzed in an inadequately powered subgroup with a small number of patients in the UKPDS (The UK Prospective Diabetes Study) trial ; thus, at present, limited evidence to prove that existing antidiabetic agent is cardioprotective.
| Previous Evidence on CV Safety of Dipeptidyl Peptidase-4 Inhibitors|| |
Dipeptidyl peptidase-4 (DPP-4) inhibitors emerged as new class of antidiabetic agents that mediate their glucose-lowering effect through the incretin pathway and soon they achieved a place in the treatment paradigm of type 2 diabetes management as second-line oral medications according to American Diabetes Association (ADA) 2016 guidelines. Currently available DPP-4 inhibitors in India are sitagliptin (US approved 2006), vildagliptin (EU approved 2007), saxagliptin (US approved 2009), linagliptin (US approved 2011), gemigliptin (Director General of Health Services (DCGI) approved 2015), and teneligliptin (DCGI approved 2015).
Associated benefits with the use of DPP-4 inhibitors such as weight neutrality and negligible incidence of severe hypoglycemia events make these agents preferred choice in diabetes treatment. Additionally, cardioprotective actions suggested by experimental and preliminary studies on several surrogate endpoints provided confidence to generate more data on CV effects of antidiabetic agents in patients with type 2 diabetes.
Post hoc analyses of phase II and III controlled trials showed no CV harm with gliptins compared with placebo or other antihyperglycemic agents, and possibly indicated a CV protective effect. U.S. Food and Drug Administration (USFDA) guidance for risk assessment of associated CVDs with antidiabetic agents urged to develop an analytical system that comprised adjudicated and nonadjudicated CV outcomes from pooled data of phase II and III trials. It was also proposed that the trials should be designed to facilitate further prospective independent adjudication in the randomized trials to strengthen validity as well. In view of these recommendations, CV safety was evaluated through the examination of reports of CV adverse events in phase II and III trials but that mostly lacked a formal event adjudication process. Majority of these studies are retrospective adjudication and have certain limitations such as post hoc nature, primary endpoints selected, or noninclusion of high-risk population for CV events, no identified randomization procedure, and no extensive study period, to name some [Table 1].
A meta-analysis by Patil et al. (2012) comprising 18 randomized trials (n = 8544) where patients were randomized to DPP-4 inhibitors (n = 4998) and other antidiabetic agents such as metformin, SU, and/or placebo (n = 3546) showed that DPP-4 inhibitors were not only linked with lower risk of developing CV event [risk ratio (RR) 0.48, 95% confidence interval (CI) 0.31–0.75, P < 0.001] but also have reduced risk of causing nonfatal MI or acute coronary syndrome (RR 0.40, 95% CI 0.18–0.88, P < 0.02) compared to placebo or other oral hypoglycemic agents.
In another meta-analysis (2013), 70 randomized controlled trials (n = 41,959) with DPP-4 inhibitors versus other comparators (oral hypoglycemic agents, insulin, or both) were analyzed and revealed a statistically significant lower incidence of major CV events overall with DPP-4 inhibitors (0.71 [0.59; 0.86], P = 0.01).
In a systematic review and meta-analysis to evaluate the CV safety of gliptins, 50 trials enrolling 55,141 participants were included with mean follow-up of 45.3 weeks. DPP-4 inhibitors compared with all comparators (placebo and active) showed no difference in all-cause mortality and CV mortality but signaled toward increase in heart failure outcome (RR = 1.16, 95% CI 1.01–1.33, P = 0.04).
With all these reports, it was quite evident that DPP-4 inhibitors, unlikely to their predecessor antidiabetic agents, have an advantage of being overall cardiac safe while improving the glycemic profile in a diabetic patient.
| Current Status on Cardiovascular Safety of DPP-4 Inhibitors|| |
Based on postapproval commitment under the new guidance, in addition to prelaunch meta-analysis, the antidiabetic agents including gliptins are conducting the postlaunch trials with the objective of establishing CV safety trials such as Saxagliptin Assessment of Vascular Outcomes Recorded in Patients with Diabetes Mellitus – Thrombolysis in Myocardial Infarction (SAVOR-TIMI 53), Examination of CV Outcomes with Alogliptin versus Standard of Care (EXAMINE), Effect of Sitagliptin on Cardiovascular Outcomes in Type 2 Diabetes (TECOS), CARdiovascular Outcome Trial of LINAgliptin Versus Glimepiride in Type 2 Diabetes (CAROLINA), and CARdiovascular Safety & Clinical outcoME with LINAgliptin (CARMELINA). Among these, EXAMINE, SAVOR-TIMI 53, and TECOS studies are completed, while CAROLINA and CARMELINA are still underway. These trials will address some of the limitations of previously conducted meta-analyses, i.e., they incorporate prospective blinded adjudication of CV events, inclusion of patients at increased risk for CV events (e.g., advanced age, preexisting CVD, specific CV risk factors, renal disease), and long treatment duration. Similar to the meta-analyses, the primary major adverse cardiac event (MACE) endpoint includes CV death, nonfatal MI, and nonfatal stroke; the linagliptin and sitagliptin studies also include hospitalization for unstable angina as a part of primary MACE endpoint and CARMELINA has a renal endpoint. These trials are expected to provide a comprehensive, unequivocal profile of extent of cardiac risk involved with respective antidiabetic agents.
SAVOR-TIMI 53 was the first CV outcome study for DPP-4 inhibitors to be published after implementation of USFDA regulatory mandate (2008) for CV safety assessment of glucose lowering agents in patients with T2DM. The study reported that saxagliptin did not increase or decrease the rate of ischemic events compared to placebo arm. It was associated with significantly improved glycemic control and reduced the development and progression of microalbuminuria. Another interesting finding was higher hypoglycemic events in saxagliptin group compared to the placebo.
Moreover, the risk of secondary event such as hospitalization due to heart failure (hHF) was augmented irrespective of age category, being highest among patients with elevated levels of NT-pro-brain natriuretic peptide (NT-pro-BNP), previous heart failure, or chronic kidney disease (glomerular filtration rate <60 ml/min). An independent review was presented as oral presentation at EASD 2013 by Dr. Naveed Sattar from University of Glasgow, where it was pointed out that the baseline blood levels of NT-pro-BNP were significantly higher in this subgroup (333 pg/ml). Also, 13% of the patients had been diagnosed with heart failure at baseline. It is therefore required to be further analyzed if only seen in patients with heart failure.
The result of EXAMINE trial showed that the rates of major composite events were not increased with alogliptin as compared with placebo in a follow-up to 40 months. Alogliptin neither increased CV morbidity or mortality, nor worsened preexisting heart failure, including in those patients with a very recent acute coronary syndrome, after a median duration treatment of 18 months. In the primary analysis of the study, only nonsignificant increase in heart failure was detected but when subjects were subgrouped according to prior congestive heart failure (CHF), the patients with absence of prior CHF had a significant increase in the risk of CHF. In addition, assessment of NT-pro-BNP concentration from baseline to 6 months did not reveal any significant changes. The incidences of acute and chronic pancreatitis were similar in the two groups; no cases were fatal. There were no reports of pancreatic cancer.
Results of TECOS trial were no different from other published CV outcome studies of gliptins with regard to primary composite endpoints demonstrating noninferiority of sitagliptin to placebo in terms if risk of four-point MACE outcome, with no increased risk of hHF. As far as increased risk of pancreatitis and pancreatic cancer with incretin-based therapies is concerned, no causal link between incretin-based drugs and these events has been established to date.
Vildagliptin in Ventricular Dysfunction Diabetes study reported that diabetic patients with heart failure receiving vildagliptin showed no adverse effect on ejection fraction compared to placebo. Though the primary endpoint indicated that vildagliptin did not have an unfavorable effect on left ventricular ejection fraction, there was in fact, an increase in left ventricular end-diastolic volume (P = 0.007) and a 14% decrease in BNP in the vildagliptin group, suggesting that the increased left ventricular (LV) volumes observed did not result in increased LV wall stress.
Interventional, randomized, single-blind clinical trial TOPLEVEL (Teneligliptin on the progressive left ventricular diastolic dysfunction with T2DM study) is underway to assess long-term CV effect of teneligliptin in approximately 1000 patients with T2DM and expected to be completed in 2019. When teneligliptin was used in various clinical studies as monotherapy or combination therapy with duration ranging from 4 weeks to 1 year, none of these trials have reported any drug-related CV adverse effects. However, one randomized, double-blind study observed a significant QT/QTc prolongation with 160 mg dose of teneligliptin in 240 healthy adult subjects. It is advisable to exercise the caution in patients with diabetic patients with concurrent diseases such as arrhythmia and ischemia, and patients co-administered with drugs known for QT prolongation such as class IA or class III antiarrhythmic drugs.
Omarigliptin is a once-weekly oral agent approved for the treatment of patients with T2DM in Japan (2015) and USA (2016). A randomized, double-blind study including 4202 patients with T2DM and established CVD was conducted to assess CV safety. In this study, there was no increase in the risk of MACE or hHF with omarigliptin and was generally well tolerated. Incidences of adverse events related to alanine aminotransferase (ALT) was found to be significantly increased at Week 54, which prompted a detailed assessment of adverse events, but later no imbalance in these parameters were observed.
A brief description of each major CV outcome trials is provided in [Figure 1].
|Figure 1: Study design and inclusion criteria of ongoing major CV outcome studies of DPP-4 inhibitor|
Click here to view
| Current Evidence Related to Occurrence of Heart Failure of DPP-4|| |
One recent observational study  was conducted to compare a risk of hospitalization for CVDs between gliptins with glimepiride using database of Korean National Health Insurance Service of 19,951 in cohort. This study reported that risk of hospitalization for CVDs was found to be decreased among patients with a history of visit for CVDs in the DPP-4 inhibitors versus glimepiride group.
Similarly, one real world data  using a US insurance claims database, including 218,556 patients, investigated the comparative safety of DPP-4 inhibitors with other agents and saxagliptin and sitagliptin for the first time. There was no association between treatment with a DPP-4 inhibitors and rate of hHF relative to SU for patients with baseline CVD and treatment with saxagliptin relative to sitagliptin.
Another study reviewed pooled data  from five trials and 12 observation studies, of which one cohort and nested case–control study showed that there is nonsignificant increased risk of hospital admission of heart failure in sitagliptin group compared to no use.
Likewise, in a meta-analysis of 94 trials, 31 treatments with DPP-4 inhibitors did not affect CV mortality and incidence of stroke. Interestingly though, the risk of myocardial infarction was reduced with DPP-4 inhibitors in the short, but not in the long term (duration of treatment ≥29 weeks).
Finally, updated meta-analyses of individual DPP-4 inhibitors also support that neither vildagliptin (RR 0.82; 95% CI 0.61–1.11) nor linagliptin (HR 0.78; 95% CI 0.55–1.12) are associated with an increased risk for a composite outcome of adjudicated MACE relative to comparators. Moreover, the event rates for new onset of HF or hospitalization for its aggravation were relatively low (0.4%) and similar in both vildagliptin and its comparator groups.
A recent assessment on the results of the EXAMINE trial  points out that the rate of HF was increased in patients on alogliptin who had no previous history of this disorder [hazards ratio (HR) 1.76; 95% CI 1.07–2.90; P = 0.026].
While one analysis of pooled data from 20 clinical trials comprising over 9000 patients with T2DM confirmed that the saxagliptin arm was not associated with an increased risk for ischemic events, other trials reported an increased rate of hHF. The risk of HF hospitalization was augmented irrespective of age category, being highest among patients with elevated levels of natriuretic peptides, previous HF, or chronic kidney disease.
| What are the Concerns With CV Safety Data of DPP-4 Inhibitors?|| |
Existing CV outcome data are derived as a part of regulatory requirement with inclusion of high risk or established CVD patients with diabetes. However, what is the clinical impact of gliptins on CV risk factors if introduced in newly diagnosed diabetes patients with less advanced comorbid condition in a long-term duration trial is still inconclusive. As far as CV safety of new-generation SU is concerned, there is no adequately powered formal head-to-head study to provide the definitive evidence. All of the CV outcome trials conducted on DPP-4 inhibitors to date are placebo-controlled added on standard of care therapy. Thus, it is difficult to address the clinically relevant question of whether a DPP-4 inhibitor is a more suitable second-line therapy than Sus, which are one of the most widely used glucose lowering agents in diabetes management.
Multiple CV variables included in the major outcome studies appears to be heterogeneous and differing characteristics of the study population, which poses a major challenge to data interpretation [Table 2]. Finally, most of the trials were not long enough to comply with the FDA recommendations regarding CV outcomes.
|Table 2: Baseline characteristic of study population in CV safety studies of DPP-4 inhibitors,,,,|
Click here to view
Several explanations have been hypothesized regarding discrepancies related to observation of hHF. Off-target effects of DPP-4 inhibition on substrates such as neuropeptide Y and substance P are linked to undesirable effects. In SAVOR-TIMI 53, additional patients with established CVD recruited later during the study and increased rate of hypoglycemic events in saxagliptin arm are few explanations suggested for increased rate of hHF.
Interestingly, the excess in hHF was observed only in the first months of the study, in some but not all subgroups considered (e.g., age, duration of disease, baseline HbA1c) and not in patients with a prior history of HF., The authors concluded that these inconceivable findings can be result of chance alone as a false positive result of multiple subgroup testing. Also, they state that these findings cannot be extrapolated to other drugs in the same class. Interaction with ACE inhibitors cannot be ruled out due to unclear mechanism but may relate to blockade of the peptides substance P and/or neuropeptide Y with DPP-4 inhibitors.
| Clinical Implications of CV Outcome Trials in Future Practice|| |
The goal of a CV outcomes trial is to provide the evidence regarding safety and/or efficacy for regulatory and commercial acceptance. These insights can be used to tailor a treatment regimen according to a patient's disease characteristics and coexisting risk factor that will achieve optimal glycemic control with no adverse CV effect. The results from major CV safety studies not only provide some reassurance about the use of gliptins but also raise questions about the overall benefit of the drug class to suggest an alteration of the current risk/benefit profile of these agents. In a view of clinical finding of increase in the risk of hHF with saxagliptin and alogliptin in patients with existing heart or kidney disease, FDA recommended to add new information of potential increased risk of HF to labels of saxagliptin or alogliptin (2016). The definition of “higher CV risk” needs careful consideration and varies markedly between CV safety studies  [see [Table 2]. The fact that most patients had severe CVD and were in an advanced stage of diabetes together with the short follow-up period and risk factor control are possible explanations for lack of demonstration of CVD benefit and the failure to demonstrate clear clinical advantage, if any.
| What is Expected from Upcoming CVOT Trials?|| |
CARMELINA  is unique in being the first single study to investigate both the CV and the renal safety of linagliptin prospectively to show the CV risk of glucose-lowering medicines. This trial is going beyond the FDA mandatory requirements by powering to measure CV endpoints and to measure a renal endpoint.
CAROLINA, another CV outcome trial with linagliptin, incorporated all requirements mandated by FDA in outcome trials. The study includes more than 6000 patients with early T2DM and evidence of CVD or at high CV risk in 43 countries at more than 670 sites globally. These two trials will provide a definitive answer on CV safety profile of linagliptin. Moreover, inconsistent observations from retrospective trials on SUs indicated CV safety concerns will be addressed perhaps with relevant insights on CV safety of SUs in long-term therapy with comparison to DPP-4 inhibitor in patients predominantly on metformin (88.4% on metformin monotherapy). This would be the first in kind head-to-head comparison between a SU and a gliptin in high CV risk patients. Additionally, it would be helpful to clarify on various factors associated with increased rate of HF exacerbations in high-risk patients seen in previous trials. The study is expected to complete by March 2019. Further, substudies are planned to obtain additional insights in prevention of accelerated cognitive decline, glycemic variability, beta cell function, and latent autoimmune diabetes of adults.
Another important study addressing this knowledge gap is a National Institutional Health, USA sponsored GRADE (Glycemia Reduction Approaches in Diabetes: A Comparative Effectiveness) study. The GRADE trial is a pragmatic, parallel-group, unmasked clinical trial that will enroll 5000 patients who have been recently diagnosed with T2DM followed by a mean observation period of nearly 5 years. It is designed to provide a comprehensive comparative effectiveness study that will help to determine how to treat diabetes patients.
Because of complexity involved and variations in population of these CV outcome trials, recently a steering committee of the Academy for Cardiovascular Risk, Outcomes and Safety studies developed an information tool to provide resources for guidance, communication, and interpretation of clinical data that are aligned to the needs of treating physicians involved in the management of patients with T2DM.
| Conclusion|| |
Based on current evidence to date, dedicated CV studies suggest a neutral effect of DPP-4 inhibitors on CV outcomes in patients with high risk or established CVD in diabetes, while the safety profile of linagliptin will be further illuminated through completion of relevant long-term studies. However, no robust conclusions can be drawn between individual DPP-4 inhibitors due to lack of head-to-head trials. An ongoing prospective study based on the comparison of linagliptin and glimepiride (CAROLINA) will provide further information on this issue. CV outcome studies appear to evolve in a major way from being a mere FDA regulatory requirement for CV safety assessment to informative trials that will help clinicians to derive some conclusive evidence related to diabetes treatment paradigm.
Financial support and sponsorship
Conflicts of Interest
Dr. Maneesha Khalse and Dr. Amit Bhargava are salaried employees of Lupin Limited Pharmaceutical Company, Mumbai, Maharashtra, India.
| References|| |
International Diabetes Federation, IDF Diabetes Atlas. 6th
ed. IDF, Brussels; 2013.
Kannel WB, McGee DL. Diabetes and cardiovascular disease. The Framingham study. JAMA 1979;241:2035-8.
Holman RR, Paul SK, Bethel MA, Matthews DR, Neil HA. 10-year follow-up of intensive glucose control in type 2 diabetes. N Engl J Med 2008;359:1577.
Action to Control Cardiovascular Risk in Diabetes Study Group, Gerstein HC, Miller ME, Byington RP, Goff DC Jr, Bigger JT, et al.
Effects of intensive glucose lowering in type 2 diabetes. N Engl J Med 2008;358:2545-59.
Nissen SE, Wolski K. Effect of rosiglitazone on the risk of myocardial infarction and death from cardiovascular causes. N Engl J Med 2007;356:2457-71.
Matthews D, Tsapas A. Four decades of uncertainty: Landmark trials in glycaemic control and cardiovascular outcome in type 2 diabetes. Diab Vasc Dis Res 2008;5:216-8.
FDA Guidance for Industry. Diabestes mellitus – Evaluating cardiovascular risk in new antidiabetic therapies to treat type 2 diabetes. Washington DC: US Food and Drug Administration; 2008.
CHMP (Committee for Medicinal Products for Human Use) Guideline on clinical investigation of medicinal products in the treatment or prevention of diabetes mellitus. CPMP/EWP/1080/00 Rev. 1. London: European Medicines Agency; 2012.
UK Prospective Diabetes Study (UKPDS) Group. Effect of intensive blood-glucose control with metformin on complications in overweight patients with type 2 diabetes (UKPDS 34). The Lancet 1998;352:854-65.
American Diabetes Association. Standards of medical care in diabetes—2016 abridged for primary care providers. Clin Diabetes 2016;34:3.
Hocher B, Reichetzeder C, Alter ML. Renal and cardiac effects of DPP-4 inhibitors—from preclinical development to clinical research. Kidney Blood Pressure Res 2012;36:65-84.
Williams-Herman D, Engel SS, Round E, Johnson J, Golm GT, Guo H, et al
. Safety and tolerability of sitagliptin in clinical studies: A pooled analysis of data from 10,246 patients with type 2 diabetes. BMC Endocr Disord 2010;10:7.
Schweizer A, Dejager S, Foley JE, Couturier A, Ligueros-Saylan M, Kothny W. Assessing the cardio-cerebrovascular safety of vildagliptin: Meta-analysis of adjudicated events from a large Phase III type 2 diabetes population. Diabetes Obes Metab 2010;12:485-94.
Frederich R, Alexander JH, Fiedorek FT, Donovan M, Berglind N, Harris S, et al
. A systematic assessment of cardiovascular outcomes in the saxagliptin drug development program for type 2 diabetes. Postgrad Med 2010;122:16-27.
White WB, Pratley R, Fleck P, Munsaka M, Hisada M, Wilson C, et al
. Cardiovascular safety of the dipeptidyl peptidase-4 inhibitor alogliptin in type 2 diabetes mellitus. Diabetes Obes Metab 2013;15:668-73.
Johansen OE, Neubacher D, von Eynatten M, Patel S, Woerle HJ. Cardiovascular safety with linagliptin in patients with type 2 diabetes mellitus: A pre-specified, prospective, and adjudicated meta-analysis of a phase 3 programme. Cardiovasc Diabetol 2012;11:3. PubMed PMID: 22234149.
Patil HR, Al Badarin FJ, Al Shami HA, Bhatti SK, Lavie CJ, Bell DS, et al.
Meta-analysis of effect of dipeptidyl peptidase-4 inhibitors on cardiovascular risk in type 2 diabetes mellitus. Am J Cardiol 2012;110:826-33. PubMed PMID: 22703861.
Monami M, Ahren B, Dicembrini I, Mannucci E. Dipeptidyl peptidase-4 inhibitors and cardiovascular risk: A meta-analysis of randomized clinical trials. Diabetes Obes Metab 2013;15:112-20.
Wu S, Hooper I, Skiba M, Krum H. Dipeptidyl peptidase-4 inhibitors and cardiovascular outcomes: meta-analysis of randomized clinical trials with 55,141 participants. Cardiovasc Ther 2014;32:147-58.
Scirica BM, Bhatt DL, Braunwald E, Steg PG, Davidson J, Hirshberg B, et al
. Saxagliptin and cardiovascular outcomes in patients with type 2 diabetes mellitus. N Engl J Med 2013;369:1317-26.
White WB, Bakris GL, Bergenstal RM, Cannon CP, Cushman WC, Fleck P, et al
. EXamination of cArdiovascular outcoMes with alogliptIN versus standard of carE in patients with type 2 diabetes mellitus and acute coronary syndrome (EXAMINE): A cardiovascular safety study of the dipeptidyl peptidase 4 inhibitor alogliptin in patients with type 2 diabetes with acute coronary syndrome. Am Heart J 2011;162:620-6.
Green JB, Bethel MA, Paul SK, Ring A, Kaufman KD, Shapiro DR, et al
. Rationale, design, and organization of a randomized, controlled Trial Evaluating Cardiovascular Outcomes with Sitagliptin (TECOS) in patients with type 2 diabetes and established cardiovascular disease. Am Heart J 2013;166:983-9.
McMurray J. The Vildagliptin in Ventricular Dysfunction Diabetes (VIVIDD) trial. Lisbon, Portugal, May 25–28, 2013:99. Presented at the Heart Failure Congress. 2013.
Patel DK, Sharma RT, Patel HA, Barkate HV. Teneligliptin: A review on cardio-renal safety. Int J Basic Clin Pharmacol 2016;5:229-34.
Gantz I, Chen M, Suryawanshi S, Ntabadde C, Shah S, O'Neill EA, et al
. A randomized, placebo-controlled study of the cardiovascular safety of the once-weekly DPP-4 inhibitor omarigliptin in patients with type 2 diabetes mellitus. Cardiovasc Diabetol 2017;16:112.
Chin HJ, Nam JH, Lee EK, Shin JY. Comparative safety for cardiovascular outcomes of DPP-4 inhibitors versus glimepiride in patients with type 2 diabetes: A retrospective cohort study. Medicine 2017;96.
Fu AZ, Johnston SS, Ghannam A, Tsai K, Cappell K, Fowler R, et al
. Association between hospitalization for heart failure and dipeptidyl peptidase 4 inhibitors in patients with type 2 diabetes: An observational study. Diabetes Care 2016;39:726-34.
Li L, Li S, Deng K, Liu J, Vandvik PO, Zhao P, et al
. Dipeptidyl peptidase-4 inhibitors and risk of heart failure in type 2 diabetes: systematic review and meta-analysis of randomised and observational studies. BMJ 2016;352:i610.
Savarese G, Perrone-Filardi P, D'Amore C, Vitale C, Trimarco B, Pani L, et al
. Cardiovascular effects of dipeptidyl peptidase-4 inhibitors in diabetic patients: A meta-analysis. Int J Cardiol 2015;181:239-44.
McInnes G, Evans M, Del Prato S, Stumvoll M, Schweizer A, Lukashevich V, et al
. Cardiovascular and heart failure safety profile of vildagliptin: A meta-analysis of 17000 patients. Diabetes Obes Metab 2015;17:1085-92.
Rosenstock J, Marx N, Neubacher D, Seck T, Patel S, Woerle HJ, et al
. Cardiovascular safety of linagliptin in type 2 diabetes: a comprehensive patient-level pooled analysis of prospectively adjudicated cardiovascular events. Cardiovasc Diabetol 2015;14:57.
Zannad F, Cannon CP, Cushman WC, Bakris GL, Menon V, Perez AT, et al.
; EXAMINE Investigators. Heart failure and mortality outcomes in patients with type 2 diabetes taking alogliptin versus placebo in EXAMINE: A multicentre, randomised, double-blind trial. Lancet 2015;385:2067-76.
Iqbal N, Parker A, Frederich R, Donovan M, Hirshberg B. Assessment of the cardiovascular safety of saxagliptin in patients with type 2 diabetes mellitus: Pooled analysis of 20 clinical trials. Cardiovasc Diabetol 2014;13:33.
Leiter LA, Teoh H, Braunwald E, Mosenzon O, Cahn A, Kumar KP, et al
. Efficacy and safety of saxagliptin in older participants in the SAVOR-TIMI 53 trial. Diabetes Care 2015;38:1145-53.
Scirica BM, Braunwald E, Raz I, Cavender MA, Morrow DA, Jarolim P, et al.
SAVOR-TIMI 53 Steering Committee and Investigators. Heart failure, saxagliptin, and diabetes mellitus: observations from the SAVOR-TIMI 53 randomized trial. Circulation 2014;130:1579-88.
Rosenstock J, Marx N, Kahn SE, Zinman B, Kastelein JJ, Lachin JM, et al
. Cardiovascular outcome trials in type 2 diabetes and the sulphonylurea controversy: Rationale for the active-comparator CAROLINA trial. Diab Vasc Dis Res 2013;10:289-301.
Costante R, Stefanucci A, Carradori S, Novellino E, Mollica A. DPP-4 inhibitors: A patent review (2012–2014). Expert Opin Ther Pat 2015;25:209-36.
Ghosal S, Sinha B. Gliptins and cardiovascular outcomes: A comparative and critical analysis after TECOS. J Diabetes Res 2016;2016.
Krum H, Skiba M, Wu S, Hopper I. Heart failure and dipeptidyl peptidase-4 inhibitors. Eur J Heart Fail 2014;16:603-7.
Singh AK, Singh R. Recent cardiovascular outcome trials of antidiabetic drugs: A comparative analysis. Indian J Endocrinol Metab 2017;21:4.
Mannucci E, Mosenzon O, Avogaro A. Analyses of results from cardiovascular safety trials with DPP-4 inhibitors: Cardiovascular outcomes, predefined safety outcomes, and pooled analysis and meta-analysis. Diabetes Care 2016;39:S196-204.
CArdiovascular Safety & Renal Microvascular outcomE study with LINAgliptin (CARMELINA). Clinical Trial Protocol (1218.22). 5 February 2013 [Online].
Cardiovascular Outcome Study of Linagliptin Versus Glimepiride in Patients with Type 2 Diabetes [ClinicalTrials.gov identifier NCT01243424]. US National Institutes of Health, ClinicalTrials.gov [Online].
Biessels GJ, Janssen J, van den Berg E, Zinman B, Espeland MA, Mattheus M, et al
. Rationale and design of the CAROLINA®-cognition substudy: A randomised controlled trial on cognitive outcomes of linagliptin versus glimepiride in patients with type 2 diabetes mellitus. BMC Neurol 2018;18:7.
A comparative effectiveness study of major glycemia-lowering medications for treatment of type 2 diabetes (GRADE). ClinicalTrials.gov Identifier: NCT01794143.
Available at Academy for Cardiovascular Risks, Outcomes and Safety Studies in Type 2 Diabetes (T2D), 2017; https://www.across-t2d.com
[Table 1], [Table 2]
|This article has been cited by|
||Dynamics of switching, adherence, and persistence of dipeptidyl peptidase-4 inhibitors use: a nationwide cohort study
| ||Richard Ofori-Asenso,Jenni Ilomaki,Ken Lee Chin,Mohsen Mazidi,Ella Zomer,J. Simon Bell,Dianna J. Magliano,Danny Liew |
| ||Diabetes Research and Clinical Practice. 2019; : 107909 |
|[Pubmed] | [DOI]|
||Discovery of a Natural-Product-Derived Preclinical Candidate for Once-Weekly Treatment of Type 2 Diabetes
| ||Shiliang Li,Chun Qin,Shichao Cui,Hongling Xu,Fangshu Wu,Jiawei Wang,Mingbo Su,Xiaoyu Fang,Dan Li,Qian Jiao,Ming Zhang,Chunmei Xia,Lili Zhu,Rui Wang,Jia Li,Hualiang Jiang,Zhenjiang Zhao,Jing-Ya Li,Honglin Li |
| ||Journal of Medicinal Chemistry. 2019; |
|[Pubmed] | [DOI]|