Hypoglycemia and Alzheimer Disease Risk: The Possible Role of Dasiglucagon.

Alzheimer's disease (AD) is a progressive neurodegenerative disease characterized by memory impairment and cognitive dysfunctions. It has been shown that hypoglycemia can adversely affect AD neuropathology. It is well-known that chronic hyperglycemia in type 2 diabetes (T2D) is regarded as a potential risk factor for the development and progression of AD. However, the effect of recurrent hypoglycemia on the pathogenesis of AD was not deeply discussed, and how recurrent hypoglycemia affects AD at cellular and molecular levels was not intensely interpreted by the previous studies. The underlying mechanisms for hypoglycaemia-induced AD are diverse such as endothelial dysfunction, thrombosis, and neuronal injury that causing tau protein hyperphosphorylation and the accumulation of amyloid beta (Aß) in the brain neurons. Of note, the glucagon hormone, which controls blood glucose, can also regulate the cognitive functions. Glucagon increases blood glucose by antagonizing the metabolic effect of insulin. Therefore, glucagon, through attenuation of hypoglycemia, may prevent AD neuropathology. Glucagon/GLP-1 has been shown to promote synaptogenesis, hippocampal synaptic plasticity, and learning and memory, while attenuating amyloid and tau pathologies. Therefore, activation of glucagon receptors in the brain may reduce AD neuropathology. A recent glucagon receptor agonist dasiglucagon which used in the management of hypoglycemia may be effective in preventing hypoglycemia and AD neuropathology. This review aims to discuss the potential role of dasiglucagon in treating hypoglycemia in AD, and how this drug reduce AD neuropathology.

Pen-administered low-dose dasiglucagon vs usual care for prevention and treatment of non-severe hypoglycaemia in people with type 1 diabetes during free-living conditions: a Phase II, randomised, open-label, two-period crossover trial.

AIMS/HYPOTHESIS: Consumption of excess carbohydrates to manage hypoglycaemia can lead to rebound hyperglycaemia and promote weight gain. The objective of this trial was to evaluate the efficacy, safety and feasibility of pen-administered low-dose dasiglucagon for prevention and treatment of non-severe hypoglycaemia in people with type 1 diabetes during free-living conditions. METHODS: Twenty-four adults with insulin pump-treated type 1 diabetes (HbA1c ≤70 mmol/mol [8.5%]) completed a randomised, open-label, two-period crossover study with 2 week periods. During the usual care and dasiglucagon intervention (DASI) periods, participants managed impending and manifested episodes of hypoglycaemia with regular carbohydrate consumption or pen-administered low-dose (80 µg) s.c. dasiglucagon, respectively. Glycaemic control was evaluated using continuous glucose monitoring (Dexcom G6) and event registration of prevention and treatment episodes. RESULTS: Compared with usual care, the mean difference (95% CI) in the DASI period for time in (3.9-10.0 mmol/l) and below (<3.9 mmol/l) range was 2.4 %-points (-0.7, 5.5) and -0.5 %-points (-1.2, 0.2), respectively. In the DASI period, recovery rate (time from hypoglycaemia treatment to euglycaemia) was 44% (11, 87) faster while total daily carbohydrate intake was reduced by 11% (-18, -3). Dasiglucagon use was safe and well tolerated with mild nausea being the most frequent adverse effect. Among the participants, 96% (p<0.0001) were likely to include dasiglucagon in their future routine management of hypoglycaemia. CONCLUSIONS/INTERPRETATION: Use of low-dose dasiglucagon to prevent and treat non-severe hypoglycaemia during free-living conditions was safe, fast and efficacious while significantly reducing the total daily carbohydrate intake and yielding high treatment satisfaction. TRIAL REGISTRATION: ClinicalTrials.gov NCT04764968 FUNDING: The study was an investigator-initiated trial. Zealand Pharma supplied the investigational drug and device and provided financial support for the conduct of the trial.

Dasiglucagon: A Novel Ready-to-Use Treatment for Severe Hypoglycemia.

OBJECTIVE: To review dasiglucagon, a novel glucagon analogue approved by the Food and Drug Administration (FDA) for treatment of severe hypoglycemia in 2021. DATA SOURCES: A literature search using the PubMed database (current to March 2022) and ClinicalTrials.gov was conducted using the search term dasiglucagon. STUDY SELECTION AND DATA EXTRACTION: Relevant clinical data from English-language clinical trials were included. DATA SYNTHESIS: Dasiglucagon was studied in 3 clinical trials: 1 in patients aged 6 to 17 years and 2 in adults. In all 3 trials, dasiglucagon was found to provide clinically significant benefit in minutes to plasma glucose recovery compared with placebo (10 vs 40, P < 0.001; 10 vs 30, P < 0.001; 10 vs 35, P < 0.0001). Dasiglucagon was also comparable with reconstituted glucagon in plasma glucose recovery time measured from time of administration. The most common adverse events with dasiglucagon were nausea, vomiting, and headache; no serious safety events were observed. RELEVANCE TO PATIENT CARE AND CLINICAL PRACTICE: Dasiglucagon is a novel glucagon analogue that is safe and effective for the treatment of severe hypoglycemia, and it is the first to be stable in aqueous solution. This makes dasiglucagon one of only 3 currently available glucagon treatment options that does not require reconstitution prior to administration. CONCLUSIONS: Dasiglucagon offers safe and effective treatment for severe hypoglycemia in patients aged 6 years and older. The stability of dasiglucagon in aqueous solution provides an additional option for emergency glucagon treatment that does not require reconstitution prior to administration.

Dasiglucagon Effects on QTc in Healthy Volunteers: A Randomized, Placebo-Controlled, Dose-Escalation, Double-Blind Study.

Background: Dasiglucagon is a novel glucagon analog that is stable in aqueous formulation and approved for use in severe hypoglycemia. Concentration QTc analyses are critical for assessing risk of drug-induced QTc prolongation and potential for fatal cardiac arrhythmias such as torsades de pointes. Objective: The aim of this study was to determine whether dasiglucagon treatment resulted in any clinically relevant effect on cardiac repolarization in healthy volunteers. Methods: This double-blind, placebo-controlled, dose-escalation Phase I trial was conducted at a single center in Germany between November 2018 and June 2019. Sixty healthy volunteers aged 18 to 45 years were randomized within dose cohorts to receive intravenous dasiglucagon, intravenous placebo, or subcutaneous dasiglucagon. In the intravenous administration cohorts, doses ranged from 0.03 mg to 1.5 mg. The subcutaneous administration cohort received the approved 0.6 mg dose. In the intravenous administration cohorts, serial electrocardiograms were extracted from continuous Holter monitors at prespecified time points beginning the day before dosing and through 24 hours postdose. Heart rate, PR interval, and QRS duration were evaluated. Concentration-QT analyses corrected by Fridericia's formula (QTcF) were performed using both a linear mixed-effects and a maximum estimated effect (Emax) model. Results: At the doses studied, dasiglucagon did not have any clinically relevant effect on heart rate, PR interval, or QRS duration. A minor prolongation of the QTcF interval was observed without any clear dose or concentration dependency. Both the linear and Emax models predicted mean and 90% CIs of placebo-corrected change in QTcF remained below 10 ms (the threshold of regulatory concern), although the linear model did not fit the data well at low dasiglucagon plasma concentrations. In the Emax model, the Emax of dasiglucagon was 3.6 ms (90% CI, 1.23-5.95 ms), and the amount to produce half the effect of Emax) was 426.0 pmol/L (90% CI, -48.8 to 900.71 pmol/L). The treatment effect-specific intercept was -0.44 ms (90% CI, -2.37 to 1.49 ms). The most frequently observed treatment-emergent adverse events reported in the trial were gastrointestinal disorders such as nausea and vomiting. Conclusions: Dasiglucagon does not cause clinically relevant QTc prolongation in concentrations up to ≈30,000 pmol/L, a level 5-fold higher than the highest observed plasma concentrations in clinical trials investigating use of the approved 0.6 mg SC dose. ClinicalTrials.gov Identifier: NCT03735225; EudraCT identifier: 2018-002025-32. (Curr Ther Res Clin Exp. 2022; 83:XXX-XXX).

Dasiglucagon, a next-generation glucagon analogue, for treatment of severe hypoglycaemia via an autoinjector device: Results of a phase 3, randomized, double-blind trial.

AIM: To confirm the efficacy and safety of dasiglucagon when administered via an autoinjector device. MATERIALS AND METHODS: In this double-blind trial, 45 participants with type 1 diabetes were randomized 3:1 to receive a single subcutaneous dose of dasiglucagon 0.6 mg or placebo following controlled induction of hypoglycaemia. The primary endpoint was time to plasma glucose recovery, defined as a plasma glucose increase of 20 mg/dL or higher from baseline without rescue intravenous glucose. RESULTS: Median (95% CI) observed time to recovery was 10.0 (8.0; 12.0) minutes for dasiglucagon and 35.0 (20.0; -) minutes for placebo (P < .001). Plasma glucose recovery was achieved within 15 minutes by 88% of participants receiving dasiglucagon versus none receiving placebo (P < .01). Site of injection (buttock or deltoid) was not shown to have any effect on time to recovery (P = .84). No serious adverse events occurred. As expected for glucagon treatment, nausea and vomiting were common adverse events in dasiglucagon-treated participants. CONCLUSIONS: Dasiglucagon provided rapid reversal of hypoglycaemia in adults with type 1 diabetes. Dasiglucagon administration was well tolerated. The aqueous formulation of dasiglucagon in a ready-to-use autoinjector device that can be carried at room temperature may provide a reliable treatment for severe hypoglycaemia.

Dasiglucagon: an effective medicine for severe hypoglycemia.

PURPOSE: Patients with type 1 diabetes mellitus (T1DM) receiving insulin therapy commonly suffer from insulin-mediated hypoglycemia and require glucagon for glycemic control to achieve normal plasma glucose (PG) levels. Severe hypoglycemia will endanger the life of patients and require intervention. Stable glucagon analog dasiglucagon was approved for the treatment of patients with severe hypoglycemia and is administered via Zegalogue autoinjector/Zegalogue prefilled syringe. The main purpose of this review article is to review the basic properties and clinical effects of dasiglucagon. METHOD: We search related literature on CNKI, Web of Science and PubMed by keywords dasiglucagon, hypoglycemia, type 1 diabetes, glucagon. Carry out a careful review of the included literature. Dasiglucagon information on clinicaltrials.gov and https://www.fda.gov/ has been adopted. RESULTS AND CONCLUSION: Dasiglucagon is a novel peptide analog of human glucagon, which can effectively rescue insulin-induced severe hypoglycemia in patients with T1DM and rapidly increase glycemic levels in a small dose under normal and hypoglycemic conditions. It has been proven that dasiglucagon has definite stability and solubility in aqueous formulations. Dasiglucagon has a higher absorption rate and longer plasma elimination half-life than traditional reconstituted glucagon. In three randomized, double-blind, placebo-controlled trials in children aged 6 to 17 years and adults with T1DM the median time to glycemic recovery in 10 min after dasiglucagon administration was significantly faster than placebo and 99% of patients recovered within 15 min after subcutaneous injection of dasiglucagon in the key phase 3 clinical trial. The most common adverse reactions in these phase 3 trials were vomiting, nausea, diarrhea, headache, and injection site pain.

New Fast Acting Glucagon for Recovery from Hypoglycemia, a Life-Threatening Situation: Nasal Powder and Injected Stable Solutions.

The goal of diabetes care is to achieve and maintain good glycemic control over time, so as to prevent or delay the development of micro- and macrovascular complications in type 1 (T1D) and type 2 diabetes (T2D). However, numerous barriers hinder the achievement of this goal, first of all the frequent episodes of hypoglycemia typical in patients treated with insulin as T1D patients, or sulphonylureas as T2D patients. The prevention strategy and treatment of hypoglycemia are important for the well-being of patients with diabetes. Hypoglycemia is strongly associated with an increased risk of cardiovascular disease in diabetic patients, due probably to the release of inflammatory markers and prothrombotic effects triggered by hypoglycemia. Treatment of hypoglycemia is traditionally based on administration of carbohydrates or of glucagon via intramuscular (IM) or subcutaneous injection (SC). The injection of traditional glucagon is cumbersome, such that glucagon is an under-utilized drug. In 1983, it was shown for the first time that intranasal (IN) glucagon increases blood glucose levels in healthy volunteers, and in 1989-1992 that IN glucagon is similar to IM glucagon in resolving hypoglycemia in normal volunteers and in patients with diabetes, both adults and children. IN glucagon was developed in 2010 and continued in 2015; in 2019 IN glucagon obtained approval in the US, Canada, and Europe for severe hypoglycemia in children and adults. In the 2010s, two ready-to-use injectable formulations, a stable non-aqueous glucagon solution and the glucagon analog dasiglucagon, were developed, showing an efficacy similar to traditional glucagon, and approved in the US in 2020 and in 2021, respectively, for severe hypoglycemia in adults and in children. Fast-acting glucagon (nasal administration and injected solutions) appears to represent a major breakthrough in the treatment of severe hypoglycemia in insulin-treated patients with diabetes, both adults and children. It is anticipated that the availability of fast-acting glucagon will expand the use of glucagon, improve overall metabolic control, and prevent hypoglycemia-related complications, in particular cardiovascular complications and cognitive impairment.

Dasiglucagon for the Treatment of Congenital Hyperinsulinism: A Randomized Phase 3 Trial in Infants and Children.

CONTEXT: Congenital hyperinsulinism (CHI) is characterized by dysregulated insulin secretion causing hypoglycemia and consequent brain damage. Dasiglucagon is a glucagon analogue under investigation to treat CHI. OBJECTIVE: To evaluate the efficacy and safety of dasiglucagon delivered via continuous subcutaneous infusion to children with CHI and persistent hypoglycemia as add-on to standard of care (SoC). METHODS: In this open-label trial, patients were randomized 1:1 to SoC or SoC + dasiglucagon (10-70 µg/h) for 4 weeks. In the following 4 weeks, all patients received dasiglucagon + SoC. Hypoglycemia was assessed by self-monitored plasma glucose (SMPG) and blinded continuous glucose monitoring (CGM). Primary endpoint was average number of SMPG-detected hypoglycemia episodes/week (SMPG <3.9 mmol/L) during Weeks 2 to 4. RESULTS: Thirty-two patients (0.6-10.9 years) were randomly assigned to dasiglucagon + SoC (n = 16) or SoC (n = 16). The rate of SMPG-detected hypoglycemia decreased from baseline in both groups, but with no statistically significant difference during Weeks 2 to 4 (event rate ratio: 0.85 [0.54; 1.36], P = .5028). However, dasiglucagon administration resulted in a 43% reduction in CGM-detected hypoglycemia (<3.9 mmol/L) vs SoC alone during Weeks 2 to 4 (post hoc analysis; event rate ratio: 0.57 [0.39; 0.83], P = .0029). Dasiglucagon enabled reductions (of 37% to 61%) in all other measures of hypoglycemia assessed by CGM vs SoC alone including extent and percent time in hypoglycemia (post hoc analyses). Dasiglucagon appeared safe and well tolerated. Skin and gastrointestinal events were more frequent with dasiglucagon + SoC than SoC only. CONCLUSION: Clinically meaningful reductions in all CGM-recorded measures of hypoglycemia support using dasiglucagon as a potential treatment for CHI.

Clinical efficacy and safety of dasiglucagon in severe hypoglycemia associated with patients of type 1 diabetes mellitus: a systematic review and meta-analysis.

BACKGROUND AND AIMS: This study was carried out to analyze the clinical safety and efficacy of dasiglucagon for the treatment of severe hypoglycemia in patients with type 1 diabetes mellitus (T1DM). METHODS: We searched PubMed, Cochrane Library, Embase, and ClinicalTrials.gov for randomized controlled trials (RCTs) investigating the safety and efficacy of dasiglucagon in the treatment of hypoglycemia in patients with T1DM. Furthermore, time required for the recovery of blood glucose or to elevate blood glucose levels ≥20.0 mg/dL from baseline was analyzed. The data was analyzed in version 5.4 of review manager 5 (RevMan). RESULTS: We included five published RCTs with a total of 347 patients . Dasiglucagon was significantly better at reducing the recovery time of blood glucose or increasing blood glucose levels 20.0 mg/dL from baseline compared to glucagon [pooled mean difference (PMD): 1.08%, 95% confidence interval (CI): 1.96 to 0.21, p = 0.02] and placebo (PMD: - 23.30%, 95% CI: 23.97 to 22.63, p < 0.00001). Overall, the safety outcome results of dasiglucagon were comparable with the native glucagon. CONCLUSIONS: Dasiglucagon appears to be a promising human glucagon analog peptide for the safe and effective treatment of severe hypoglycemia in T1DM.

A Comparative Study of Dasiglucagon Ready-to-Use Autoinjector and Glucagon Emergency Kit During Rescue from Simulated Severe Hypoglycemia.

Background: Severe hypoglycemic episodes are life-threatening events demanding rapid administration of glucagon by a caregiver or bystander. The glucagon analog dasiglucagon is stable in aqueous formulation and therefore suitable for delivery in a ready-to-use autoinjector, potentially increasing speed and ease of use compared with standard glucagon emergency kits (GEKs). Methods: In an open label, randomized, crossover, comparative device handling study, trained caregivers and untrained bystanders administered the dasiglucagon autoinjector or Eli Lilly GEK to manikins in a simulated emergency hypoglycemia situation. Results: In total, 54 participants were randomized (18 patient-caregiver pairs and 18 bystanders). Overall, 94% of trained caregivers were able to administer the dasiglucagon autoinjector successfully within 15 min, compared with 56% for the GEK (P < 0.05). A greater proportion of trained caregivers and untrained bystanders successfully prepared and administered the dasiglucagon autoinjector within 2 min compared with the GEK (P < 0.005 and P < 0.05, respectively). Time to successful completion was also significantly faster with the dasiglucagon autoinjector than with the GEK (P < 0.005 for both groups). Most study participants preferred the dasiglucagon autoinjector over the GEK (94%, P < 0.001) and rated it as easier (90%, P < 0.001) and less stressful to use (94%, P < 0.001) than the GEK. Conclusion: Dasiglucagon autoinjector was more rapidly and reliably administered, and users reported greater ease of use and usage satisfaction than with the GEK. Thus, dasiglucagon autoinjector has the potential to improve speed and ease of treatment in severe hypoglycemic events, providing a better usage experience for rescuing individuals and enabling faster recovery for patients.

Dasiglucagon for treating severe hypoglycemia in patients with diabetes.

INTRODUCTION: Diabetic patients are prone to hypoglycemia when treated with insulin. Dasiglucagon is a water-soluble and ready-to-use glucagon analog developed for treating hypoglycemia in patients with diabetes. AREAS COVERED: A comprehensive literature search was conducted in PubMed. Key search terms included dasiglucagon and hypoglycemia. The pharmacological characteristics, clinical evidence, and place in therapy of dasiglucagon were reviewed. EXPERT OPINION: Dasiglucagon is a glucagon analog that is stable in water-soluble formulation. It can increase plasma glucose in a dose-dependent manner. Clinical studies have shown that dasiglucagon rapidly and effectively improved insulin-induced hypoglycemia in patients with diabetes. Dasiglucagon was well tolerated and the common adverse events included nausea and vomiting.

Use of glucagon in severe hypoglycemia is scarce in most countries, and has not been expanded by new ready-to-use glucagons.

Glucagon (traditional kits for intramuscular administration, Glucagon and Glucagen), although recommended as a remedy for severe hypoglycemia (SH), has been reported to be under-utilized, likely because of technical problems. The aims of this study were to evaluate the use of glucagon in persons with type 1 diabetes in several countries, and to investigate if the availability of new ready-to-use glucagons (Baqsimi, Gvoke, Zegalogue, years 2019 to 2021) has expanded the overall use of glucagon. The source of data was IQVIA-MIDAS (units of glucagon sold), while data on persons with type 1 diabetes in countries were derived from IDF Diabetes Atlas. The use of glucagon has been steady from 2014 to 2019, with a small but significant increase from 2019 to 2021, paradoxically only in countries where new ready-to-use glucagons were not available. The use of glucagon has always been ten fold greater in countries where new ready-to-use glucagons became available than in the other countries (population 108,000,000 vs 28,100,000, 480,291 vs 182,018 persons with type 1 diabetes). A significant correlation was observed in all years between units of glucagon and persons with type 1 diabetes. Availability of new ready-to-use glucagons was associated with a small increase of sales, due only to new ready-to-use glucagons themselves. The use of glucagon (any type) remains low, approximately 1/10 of persons with type 1 diabetes. We conclude that use of glucagon is scarce in most countries, and so far has not been expanded by new ready-to-use glucagons such as the ones considered in this study.

2021 FDA TIDES (Peptides and Oligonucleotides) Harvest.

From the medical, pharmaceutical, and social perspectives, 2021 has been a year dominated by the COVID-19 pandemic. However, despite this global health crisis, the pharmaceutical industry has continued its endeavors, and 2021 could be considered an excellent year in terms of the drugs accepted by the US Food and Drug Administration (FDA). Thus, during this year, the FDA has approved 50 novel drugs, of which 36 are new chemical entities and 14 biologics. It has also authorized 10 TIDES (8 peptides, 2 oligonucleotides), in addition to 2 antibody-drug conjugates (ADCs) whose structures contain peptides. Thus, TIDES have accounted for about 24% of the approvals in the various drug categories. Importantly, this percentage has surpassed the figure in 2020 (10%), thus reflecting the remarkable success of TIDES. In this review, the approved TIDE-based drugs are analyzed on the basis of their chemical structure, medical target, mode of action, administration route, and adverse effects.

Immunogenicity of the Novel Glucagon Analogue Dasiglucagon: Results of a Dedicated Immunogenicity Trial in Type 1 Diabetes.

Dasiglucagon is a next-generation glucagon analogue that is stable in aqueous formulation. This dedicated immunogenicity trial to support use as rescue treatment for severe hypoglycemia was conducted to evaluate the immunogenicity of repeated subcutaneous doses of dasiglucagon in subjects with type 1 diabetes. A total of 112 subjects were randomized 1:1 to receive three subcutaneous weekly doses of either 0.6 mg dasiglucagon or 1.0 mg recombinant glucagon (GlucaGen®) according to a double-blind parallel-group trial design. Subjects were followed for 15 weeks, with a multitiered testing approach planned for assessment of antidrug antibody (ADA) formation. For the primary immunogenicity endpoint, the overall ADA incidence was zero, as no subject demonstrated any treatment-induced or treatment-boosted ADA response at any time point in this trial involving three consecutive weekly doses of trial drug. No injection site reactions were reported for subjects receiving dasiglucagon. There were no unexpected safety findings for the trial.

Evaluating dasiglucagon as a treatment option for hypoglycemia in diabetes.

INTRODUCTION: Hypoglycemia in diabetes is a common and unresolved complication during diabetes therapy, even life-threatening. Effective and convenient treatment for rescuing severe diabetic hypoglycemia and maintaining euglycemia is in high demand to reduce hypoglycemia-related morbidity and mortality. Dasiglucagon is a novel glucagon analog for diabetic hypoglycemia therapy. AREAS COVERED: This review summarizes the reported studies associated with the pharmacokinetics, pharmacodynamics, safety, and tolerability characteristics, as well as clinical application of dasiglucagon for managing diabetic hypoglycemia. EXPERT OPINION: Dasiglucagon has demonstrated established solubility and stability in an aqueous formulation. Pharmacokinetics studies have shown dasiglucagon to exhibit higher absorption and a longer plasma elimination half-life than traditional reconstituted glucagon. Pharmacodynamic studies have shown that a full dose of 0.6 mg dasiglucagon could efficiently raise blood glucose level (BGL) by ≥20 mg/dL (9-10 min) from baseline following insulin-induced severe hypoglycemia in patients with type 1 diabetes, as well as rapidly increase BGL with small doses under euglycaemic and hypoglycemic conditions. Dasiglucagon is safe and well tolerated with the main adverse effects being nausea and vomiting. Collectively, dasiglucagon may be a promising candidate for severe diabetic hypoglycemic rescue and a continuous glycemic control in diabetic patients.

American Diabetes Association - 77th Scientific Sessions (June 9-13, 2017 - San Diego, California, USA).

The 77th American Diabetes Association (ADA) Sci-entific Sessions took place in San Diego, California. The meeting brought together scientists and professionals from a wide range of disciplines in the field of diabetes and provided a platform for networking, allowing experts and researchers to share ideas and learn about the significant advances in diabetes research, treatment and care. Over the course of the 5 days, participants received exclusive access to more than 2,500 original research presentations.