rDNA insulin glargine U300 - a critical appraisal

Comparative clinical efficacy and safety of insulin glargine 300 U/ml (Toujeo) versus insulin glargine 100 U/ml in type 2 diabetes and type 1 diabetes: A systematic literature review and meta-analysis

AIM

To compare the clinical efficacy and safety of glargine-U100 (Lantus/Gla-100) with glargine-U300 (Toujeo/Gla-300) in adult patients with type 2 diabetes (T2D) and type 1 diabetes (T1D).

MATERIALS AND METHODS

A literature search on Gla-300/Gla-100 in diabetes management was conducted using the MEDLINE/Embase/Cochrane databases from inception to 10 January 2021. Eligible studies considered for inclusion were parallel-design, randomized controlled trials (RCTs). The Cochrane risk-of-bias tool was used to evaluate the quality of the included studies. The random-effects model was applied for interpretation of the results.

RESULTS

Of 5348 records screened, 592 were assessed for eligibility and 15 RCTs were considered for data extraction and meta-analysis (T2D [N = 10; n = 7082]; T1D [N = 5; n = 2222]). In patients with T1D, all safety parameters were comparable between Gla-100 and Gla-300. In T2D, statistically significant differences were observed in favour of Gla-300 over Gla-100 for nocturnal and total hypoglycaemia. For efficacy parameters, a statistically and clinically significant difference favouring Gla-100 in basal insulin dose requirement was observed for both T2D and T1D. Change in HbA1c showed a statistically but not clinically significant reduction with Gla-100 compared with Gla-300 in T1D. Statistically significant but clinically less relevant differences favoured Gla-300 for control of body weight in T1D and T2D and Gla-100 for fasting blood glucose in T2D.

CONCLUSIONS

Gla-100 and Gla-300 had comparable efficacy and safety profiles in both T1D and T2D populations. Gla-300 showed a lower risk of nocturnal and total hypoglycaemia, significant in insulin-experienced/exposed patients with T2D. Patients on Gla-300 required significantly more units of insulin daily than the Gla-100 group to achieve equivalent efficacy.

Optimal dose of tirzepatide for type 2 diabetes mellitus: A meta-analysis and trial sequential analysis

Objective

The purpose of this study is to evaluate the optimal dose of tirzepatide (TZP) for the treatment of type 2 diabetes mellitus (T2DM) by meta-analysis and trial sequential analysis (TSA).

Methods

Clinical trials of TZP for T2DM were obtained by searching 8 databases with a time limit from database creation to May 2022. Mean differences (MD) and 95% confidence intervals (95%CI) were used for continuous variables, and relative risk (RR) and 95%CI were used for dichotomous variables.

Results

Compared with TZP 5 mg, meta-analysis showed that TZP 10 mg significantly reduced glycosylated hemoglobin type A1c (HbA1c) (MD −0.24, 95%CI −0.31~-0.17, P < 0.00001), fasting serum glucose (FSG) (MD −5.82, 95%CI −8.35~-3.28, P < 0.00001) and weight (MD −2.47, 95%CI −2.95~-1.98, P < 0.00001), and TZP 15 mg significantly reduced HbA1c (MD −0.37, 95%CI −0.44~-0.29, P < 0.00001), FSG (MD −8.52, 95%CI −11.07~-5.98, P < 0.00001) and weight (MD −4.63, 95%CI −5.45~-3.81, P < 0.00001). Compared with TZP 10 mg, TZP 15 mg dramatically reduced HbA1c (MD −0.12, 95%CI −0.19~-0.05, P = 0.001), FSG (MD −2.73, 95%CI −5.29~-0.17, P = 0.04) and weight (MD −2.18, 95%CI −2.67~-1.70, P < 0.00001). The TSA indicated that the benefits observed in the current information set were conclusive, except for the FSG of “TZP 15 mg vs. TZP 10 mg”. In terms of safety endpoints, meta-analysis revealed that there was no significant difference in the serious adverse events (AEs), major adverse cardiovascular events-4 (MACE-4), cardiovascular death, hypertension, cancer and hypoglycemic of the three dose groups of TZP. Compared with TZP 5 mg, TZP 10 mg increased total adverse events (RR 1.06, 95%CI 1.01~1.11, P = 0.03) and gastrointestinal (GI) AEs (RR 1.17, 95%CI 1.03~1.33, P = 0.02), and TZP 15 mg increased total AEs (RR 1.10, 95%CI 1.05~1.15, P = 0.0001). There were no significant differences in total AEs and GI AEs for TZP 15 mg compared to TZP 10 mg. The TSA demonstrated that the total AEs of “TZP 15 mg vs. TZP 5 mg” were conclusive.

Conclusions

TZP 15 mg >TZP 10 mg > TZP 5 mg in terms of lowering glycemia and reducing weight. TZP 5 mg > TZP 10 mg = TZP 15 mg in terms of safety. On this basis, we recommend TZP 5 mg as the first-choice dose for patients with T2DM to minimize AEs while reducing glycemia and weight. If patients cannot effectively control their glycemia after taking TZP 5 mg, it is recommended to take TZP 15 mg directly to achieve the best effect of glycemic reduction. However, most of the included studies have the background of basic medication, the independent efficacy and safety of different doses of TZP still need to be tested.

Systematic review registration

Unique Identifier: CRD42022341966.

A glorious past, dynamic present and a promising future: Insulin at 100

It has been 100 years since insulin was discovered. Insulin therapy remains the cornerstone for the management of diabetes. Advances in human physiology, pathology, molecular biology, biotechnology, biomedical engineering and devices have added tremendously to the journey of one of the greatest discoveries of modern medicine. Epidemiology of diabetes has gone through a major shift in a century; many oral drugs have been introduced for the management of type 2 diabetes; glucose monitoring has also gone through a sea change with the availability of novel parameters like continuous glucose monitoring, as has insulin delivery, with the availability of insulin pumps and the artificial pancreas. In this article, we look into historical facts, challenges, limitations and future developments of insulin therapy.

Efficacy and Safety of LY2963016 Insulin Glargine in Chinese Patients with Type 1 Diabetes Previously Treated with Insulin Glargine (Lantus®): a Post Hoc Analysis of a Randomized, Open-Label, Phase 3 Trial

INTRODUCTION

LY2963016 insulin glargine (LY IGlar), a biosimilar of Lantus® insulin glargine (IGlar), demonstrated comparable efficacy and safety versus the reference product in Chinese patients with type 1 diabetes mellitus (T1DM) in the randomized, phase III ABES trial. This post hoc analysis aimed to provide the first evidence for switching from IGlar to LY IGlar in Chinese patients with T1DM.

METHODS

This analysis included 210/272 patients with T1DM (77.2%) from the ABES trial who were receiving IGlar at screening. We compared antihyperglycemic efficacy, safety, and immunogenicity in patients randomized to LY IGlar (n = 104) versus those who continued to receive IGlar (n = 106).

RESULTS

There was no significant difference between groups in least-squares mean (LSMean) change in HbA1c from baseline to 24 weeks (LY IGlar - 0.10%, IGlar - 0.08%; LSMean difference [95% confidence interval] - 0.02% [- 0.24, 0.19]). At 24 weeks (last observation carried forward), a similar proportion of patients in each group achieved glycated hemoglobin less than 7.0% (LY IGlar 26.5%, IGlar 32.1%; P = 0.447) and 6.5% or less (LY IGlar 16.7%, IGlar 20.8%; P = 0.482). There were no significant differences between groups in LSMean of self-monitored blood glucose values, or total or basal insulin dose at 24 weeks. Patients in the LY IGlar and IGlar groups had a similar incidence of total hypoglycemia (blood glucose level 70 mg/dL or less, 91.4% vs. 92.5%) and treatment-emergent adverse events (AEs; 75.0% vs. 67.0%), and a low and similar incidence of serious AEs, injection site AEs, and allergic AEs. Similar proportions of patients in the LY IGlar and IGlar groups had treatment-emergent antibody responses (LY IGlar 27.2%, IGlar 28.3%) and detectable insulin antibodies (LY IGlar 52.4%, IGlar 53.8%).

CONCLUSION

In Chinese patients with T1DM previously treated with IGlar, switching to LY IGlar for 24 weeks resulted in similar efficacy and safety outcomes as remaining on IGlar therapy.

CLINICAL TRIAL REGISTRATION

NCT03338023.

Glargine-300: An updated literature review on randomized controlled trials and real-world studies

Despite the availability of a variety of insulins, rates of insulinisation and the acceptance of insulin therapy is suboptimal in real-world clinical settings. Patient and physician concerns with hypoglycaemia and weight gain are the two key issues that serve to impede appropriate insulinisation in patients with diabetes. Recently introduced second-generation basal insulin analogues [for e.g., insulin glargine 300 U/mL (Gla-300) and insulin degludec] are designed to have improved pharmacokinetic profiles with an intention to deliver steady insulin levels over a longer period. Several randomised controlled and real-world studies have proven the resultant advantages of second-generations insulin analogues in lowering intra-individual variability in plasma insulin levels, flexibility in dosing, a sustained glucose-lowering effect, and decreasing the risk of hypoglycaemia. Gla-300 is one of the newer second-generation basal insulin analogues to have been approved for both type 1 and 2 diabetes. In this article, we review the currently available clinical and real-world data of Gla-300.

Ultra-long-acting insulins: A review of efficacy, safety, and implications for practice

BACKGROUND AND PURPOSE

In the past decade, there has been much advancement in oral antidiabetic agents, but few changes in insulin therapy. With the addition of the ultra-long-acting insulins, insulin glargine U300 (IGlar 300) and insulin degludec (IDeg 100 and IDeg 200), it is important to understand key aspects in the agents' clinical properties, efficacy, safety, dosing, packaging, and place in therapy.

METHODS

A literature review was conducted using PubMed database and was limited to English, full-text articles published from January 2000 to January 2018. The following search terms were used: insulin glargine 300, insulin degludec, Toujeo, Tresiba, and ultra-long-acting insulin.

CONCLUSIONS

These agents are longer acting with sustained insulin coverage as compared with other basal insulins while having a low potential for hypoglycemia. Efficacy and safety profiles are quite good, and potential for weight gain was similar to IGlar 100.

IMPLICATIONS FOR PRACTICE

Depending on the patient's needs, these newer agents may offer some advantages. Insulin glargine U300 and IDeg 200 are concentrated, allowing for administration of large doses by less volume, thereby theoretically improving absorption. For patients needing flexible dosing, IDeg may be beneficial. The ultra-long-acting agents may also be useful if it is suspected that the basal insulin is not lasting the entire day.

Insulin-like growth factor 1 receptor activation promotes mammary gland tumor development by increasing glycolysis and promoting biomass production

Background

The insulin-like growth factor 1 (IGF1) signaling axis plays a major role in tumorigenesis. In a previous experiment, we chronically treated mice with several agonists of the IGF1 receptor (IGF1R). We found that chronic treatment with insulin analogues with high affinity towards the IGF1R (IGF1 and X10) decreased the mammary gland tumor latency time in a p53^R270H/+WAPCre mouse model. Frequent injections with insulin analogues that only mildly activated the IGF1R in vivo (glargine and insulin) did not significantly decrease the tumor latency time in this mouse model.

Methods

Here, we performed next-generation RNA sequencing (40 million, 100 bp reads) on 50 mammary gland tumors to unravel the underlying mechanisms of IGF1R-promoted tumorigenesis. Mutational profiling of the individual tumors was performed to screen for treatment-specific mutations. The transcriptomic data were used to construct a support vector machine (SVM) classifier so that the phenotypic characteristics of tumors exposed to the different insulin analogue treatments could be predicted. For translational purposes, we ran the same classifiers on transcriptomic (micro-array) data of insulin analogue-exposed human breast cancer cell lines. Genome-scale metabolic modeling was performed with iMAT.

Results

We found that chronic X10 and IGF1 treatment resulted in tumors with an increased and sustained proliferative and invasive transcriptomic profile. Furthermore, a Warburg-like effect with increased glycolysis was observed in tumors of the X10/IGF1 groups and, to a lesser extent, also in glargine-induced tumors. A metabolic flux analysis revealed that this enhanced glycolysis programming in X10/IGF1 tumors was associated with increased biomass production programs. Although none of the treatments induced genetic instability or enhanced mutagenesis, mutations in Ezh2 and Hras were enriched in X10/IGF1 treatment tumors.

Conclusions

Overall, these data suggest that the decreased mammary gland tumor latency time caused by chronic IGF1R activation is related to modulation of tumor progression rather than increased tumor initiation.

Electronic supplementary material

The online version of this article (doi:10.1186/s13058-017-0802-0) contains supplementary material, which is available to authorized users.