Insulin Dose Research Articles

Prone positioning is associated with increased insulin requirements in mechanically ventilated patients with COVID-19

AbstractStress hyperglycaemia is common in critical illness. We have previously observed that increasing severity of respiratory failure in patients with severe COVID-19 is associated with increased insulin demand. Given previously reported direct effects of hypoxia on insulin action, we reasoned that rapid improvements in oxygenation following prone positioning may improve insulin sensitivity and increase risk of hypoglycaemia. A retrospective multi-centre service evaluation comparing blood glucose and insulin administration in patients with COVID-19 pneumonitis receiving prone mechanical ventilation, comparing the 16 h pre-prone and 16 h post-prone time periods. 155 patients were included in this analysis. Oxygenation improved significantly following prone positioning (change in SpO2/FIO2 per hour prone: 3.01 ± 0.14, P < 0.0001). Glycaemic control was similar during the supine and prone study periods, and there were no hypoglycaemic events in the prone study period. Prone positioning was associated with an unexpected modest but significant increase in insulin requirements (mean difference in total insulin dose (IU): 8.32 ± 2.14, P < 0.001) that was robust to several sensitivity analyses, and could not be explained by changes in carbohydrate intake. We did not observe an increased rate of hypoglycaemia during prone ventilation and the adequacy of glycaemic control was comparable during the supine and prone study periods. Unexpectedly, prone ventilation was associated with an increase in insulin requirements despite significant improvement in hypoxaemia. Our findings support the safety of prone ventilation with respect to glycaemic control and identify a novel relationship between ventilation position and insulin requirements in critical illness.

Safety of a Novel Continuous Glucose Monitoring–Informed Insulin Bolus Calculator Mobile Application for People With Type 1 or Type 2 Diabetes

BACKGROUND Managing bolus insulin dosing can be a significant burden for people with diabetes, many of whom have limited numeracy skills. Insulin bolus calculators (IBCs) may improve glycemia as well as treatment satisfaction. OBJECTIVE The purpose of this study was to demonstrate the safety of a novel, continuous glucose monitoring (CGM)-informed IBC mobile device app that applies trend arrow adjustments to bolus insulin dose recommendations. RESEARCH DESIGN AND METHODS This clinical trial was an open-label, industry-sponsored single-arm study conducted at two sites. Fifty-four participants with type 1 or type 2 diabetes were enrolled and used the IBC app on their mobile device for 30 days. Study participants were adults who were already using CGM and dosing bolus insulin. The analysis examined both noninferiority and superiority of time in range (TIR) during the study period compared with baseline. Other important end points included hypoglycemia, glucose variability, nocturnal and diurnal TIR, and diabetes distress. The per-protocol (PP) group was defined as participants who used the IBC >30 times during the study. RESULTS Mean TIR improved by 3.8% (95% CI 0.7–6.9%) from 69.2 to 73.0% (P = 0.017) in the PP group. This TIR corresponds to a mean of 0.9 more hours per day spent in range, and the improvement was driven by those with type 2 diabetes. There was no increase in measures of hypoglycemia or diabetes distress. Exploratory analysis revealed a reduction in measures of glucose variability. In addition, individuals with type 1 diabetes had greater improvements in diurnal TIR than in nocturnal TIR. CONCLUSION A CGM-informed IBC app that applies trend arrow adjustments to bolus insulin dose recommendations improved TIR without increasing hypoglycemia or diabetes distress in individuals with type 1 or type 2 diabetes.

Identifying the Relationship Between CGM Time in Range and Basal Insulin Adherence in People With Type 2 Diabetes

Background: The study aimed to determine the relationship between basal insulin adherence and glycemic control evaluated by time in range (TIR) in people with insulin-treated type 2 diabetes (T2D), using data from both continuous glucose monitors (CGM) and connected insulin pens. Furthermore, the study aimed to determine the best basal insulin adherence metric. Methods: CGM data and basal insulin data were collected from 106 insulin-treated people (aged ≥18 years) with T2D. Three different adherence metrics were employed (dose deviation, dose deviation ≤20%, and a traditional metric) and a three-step methodology was used to measure insulin adherence level. The coefficient of determination (R2), based on a univariate linear regression analysis, was used to determine the relationship between each adherence metric and TIR. Results: A statistically significant relationship was observed between TIR and adherence quantified as the dose deviation ≤20% metric (R2 = 0.67, P = .006). Neither the relationship between the dose deviation metric and TIR (R2 = 0.43, P = .08) nor the relationship between the traditional metric and TIR (R2 = 0.35, P =.23) was found to be statistically significant. Conclusions: Our study indicates a relationship between basal insulin adherence and TIR in people with insulin-treated T2D. This seems to underscore the role of basal insulin adherence for optimal glycemic outcomes and utilizing TIR as a clinical marker. Furthermore, the results suggest that the magnitude of deviation from the recommended basal insulin dose impacts glycemic control, indicating dose deviation ≤20% as a more accurate metric for quantifying adherence.

The intelligent diabetes telemonitoring using decision support to treat patients on insulin therapy (DiaTRUST) trial: study protocol for a randomized controlled trial

BackgroundDiabetes affects 10.5% of adults globally, with type 2 diabetes accounting for 90–95% of cases. Achieving optimal glycemic control is crucial yet challenging, particularly with insulin therapy, where 30–50% of patients fail to meet treatment targets. Telemedicine can improve diabetes management but generates vast amounts of data, burdening healthcare professionals. Integrating clinical decision support tools into telemonitoring systems may enhance care efficiency and glycemic control.MethodsThe trial is a multicenter 3-month, three-arm, open-label, randomized controlled trial. The trial aims to enroll 51 participants with type 2 diabetes on insulin therapy. Participants will be divided with a 3:1:1 ratio into telemonitoring with decision support, telemonitoring without decision support, and usual care groups. The study employs connected insulin pens, continuous glucose monitors (CGMs), and activity trackers to enable telemonitoring. Outcomes measured include CGM time in range, HbA1c, hypo- and hyperglycemia incidents, total daily insulin dose, body weight, treatment satisfaction, and adherence.DiscussionTelemonitoring with decision support has the potential to revolutionize diabetes management by offering personalized treatment suggestions, thereby reducing the burden on healthcare professionals, and improving patient outcomes. This study will provide valuable insights into the effectiveness of such an approach in achieving glycemic control in people with type 2 diabetes on insulin therapy. By evaluating both clinical outcomes and patient and healthcare professionals’ satisfaction, the study aims to contribute to the development of efficient, scalable telehealth solutions for diabetes care.Trial registrationClinicalTrials.gov NCT06185296. Registered on December 14, 2023.

Effects of atmospheric pressure change during flight on insulin pump delivery and glycaemic control of pilots with insulin-treated diabetes: an in vitro simulation and a retrospective observational real-world study.

Glycaemic control and clinical outcomes in diabetes are improved by continuous subcutaneous insulin infusion (CSII). Atmospheric pressure changes during flights may affect insulin delivery from pumps and cause unintended metabolic consequences, including hypoglycaemia, in people with type 1 diabetes. The present report evaluates both hypobaric flight simulation and real-world data in pilots using insulin pumps while flying. In the flight simulation part of this study, an in vitro study of insulin pumps was conducted in a hypobaric chamber, de-pressurised to 550 mmHg to mimic the atmospheric pressure changes in airliner cabins during commercial flights. Insulin delivery rates and bubble formation were recorded for standard flight protocol. Insulin infusion sets, without pumps, were tested in a simulated rapid decompression scenario. The real-world observational study was a 7.5-year retrospective cohort study in which pre- and in-flight self-monitored blood glucose (SMBG) values were monitored in pilots with insulin-treated diabetes. Commercial and private pilots granted a medical certificate to fly within the European Union Aviation Safety Agency approved protocol and receiving insulin either by pump or multiple daily injections (MDI) were included. In the flight simulation study, full cartridges over-delivered 0.60 U of insulin during a 20 min ascent and under-delivered by 0.51 U during descent compared with ground-level performance. During emergency rapid decompression, 5.6 U of excess insulin was delivered. In the real-world study, seven pilots using CSII recorded 4656 SMBG values during 2345 h of flying across 1081 flights. Only 33 (0.7%) values were outside an acceptable safe range (5.0-15.0 mmol/l [90-270 mg/dl]). No clinically significant fall in the median SMBG concentration was observed after aircraft ascent and no in-flight SMBG values were within the hypoglycaemic range (<4.0 mmol/l [<72 mg/dl]). Compared with pilots receiving MDI therapy, pilots using CSII recorded more SMBG values within the acceptable range (99.3% vs 97.5%), fewer values in the low red range (0.02% vs 0.1%), fewer in-flight out-of-range values (0.2% vs 1.3%) and maintained stricter glycaemic control during flight. Ambient pressure reduction during simulated flights results in bubble formation and expansion within insulin cartridges. This causes unintended delivery of small insulin doses independent of pre-determined delivery rates and represents the maximum amount of insulin that could be delivered and retracted. However, in vivo, pilots using CSII in-flight did not experience a fall in blood glucose or episodes of hypoglycaemia during these atmospheric pressure changes and the use of insulin pumps can be endorsed in view of their clinical benefits.

Efficacy and Safety of Sotagliflozin in Patients with Type 1 Diabetes and CKD.

This analysis evaluated the efficacy and safety of sotagliflozin, a dual SGLT1&2 inhibitor, added to insulin in patients with type 1 diabetes and chronic kidney disease (CKD). We used data from the 52-week pooled inTandem1&2 trials and the 24-week inTandem3 trial to assess the effects of sotagliflozin (200mg [inTandem 1&2 only] or 400mg daily) versus placebo on glycated hemoglobin (HbA1c; primary endpoint), body weight, systolic blood pressure (BP), insulin dose, and safety endpoints including adjudicated severe hypoglycemia and diabetic ketoacidosis (DKA), stratified by CKD. CKD was identified in 237/1575 of inTandem1&2 participants and 228/1402 of inTandem3 participants. At week-24, significant, placebo-adjusted reductions in HbA1c were observed - inTandem1&2: Non-CKD subgroup (sotagliflozin 200mg: -0.4%, 95% CI -0.4 to -0.3; 400mg: -0.4%, 95% CI -0.5 to -0.3) and CKD subgroup (sotagliflozin 200mg: -0.4%, 95% CI -0.6 to -0.1; 400mg: -0.3%, 95% CI -0.5 to -0.1). For systolic BP, there was a significant reduction at week-24 with sotagliflozin in the non-CKD subgroup but no effect in the CKD subgroup in inTandem1&2. At week-52, the incidence of severe hypoglycemia was lower with sotagliflozin (7% on 200 mg and 4% on 400 mg) compared to placebo (17%) in the CKD subgroup of inTandem1&2, whereas the incidence of severe hypoglycemia was 5-6% across non-CKD subgroups. The incidence of adjudicated DKA at week-52 was 1%, 5%, and 3% for placebo, 200 mg, and 400 mg in the CKD subgroup compared to 0%, 3%, and 4% in the non-CKD subgroup. Results were generally similar in inTandem3 except systolic BP was significantly reduced with sotagliflozin versus placebo in CKD and non-CKD subgroups. In participants with type 1 diabetes and CKD, sotagliflozin treatment had similar HbA1c, body weight, and systolic BP lowering effects as in participants with type 1 diabetes without CKD. Additionaly, sotagliflozin was associated with a lower to neutral risk of severe hypoglycemia and did not significantly increase the risk of DKA among a small number of DKA events.

Automated insulin delivery systems in elderly patients with brittle type 2 diabetes

PurposeGeriatric diabetes is complicated by the frailty of this population, and hypoglycemia with insulin is not uncommon in these patients. Automated Insulin Delivery (AID) systems may provide better glycemic control in elderly patients with brittle type 2 diabetes. MethodsThirty-four patients (≥ 60 years) including cancer patients with brittle diabetes were switched to an AID system from multiple-dose insulin (MDI) treatment. HbA1c level, weight, total daily insulin requirement, and C-peptide, creatinine, and lipids were followed for at least six months. ResultsThere were 34 patients (14 male, 41.2 %) with a median age of 67 (IQR 63.0–75.5). Six patients (17.6 %) were on chemotherapy and/or steroids (Ch/S). The patients’ initial median HbA1c % was 9.3 (IQR 7.6–11.0), c-peptide level was 0.9 (IQR 0.5–2.2) ng/mL, and median total daily insulin dose was 41 IU (IQR 32–53).Six months after the patients were switched to an AID system their HbA1c % decreased to 7.1 (IQR 6.5–8.1), p < 0.001 and c-peptide increased to 1.21 (IQR 0.2–1.7) ng/mL, p = 0.878. Total insulin dose decreased with AID systems [32 IU (IQR 23.9–37.8)), p < 0.001].There was a decrease in median HbA1c % in patients on Ch/S [8.7 (IQR 7.0–11.5) to 6.9 (IQR 6.3–9.2)] however it didn’t reach statistical significance p = 0.225. Total insulin dose also decreased without statistical significance [33 IU (IQR 41–28) to 28 (IQR 23–35), p = 0.173].The mean time in range (TIR) percent of the patients with AID systems were as follows; <54 mg/dL was 0.5 %, 56–70 mg/dL was 1.3 %, 70–180 mg/dL was 64.8 %, >180 mg/dL was 26.7 % and > 250 mg/dL was 6.7 %. ConclusionAlthough AID systems are tested mostly in young type 1 patients our results show that elderly patients with brittle type 2 diabetes also benefit from an AID system. Even in very frail patients such as cancer patients, improvement can be seen.

Duration of morning hyperinsulinemia determines hepatic glucose uptake and glycogen storage later in the day.

The second-meal phenomenon refers to the improvement in glucose tolerance seen following a second identical meal. We previously showed that 4 h of morning hyperinsulinemia, but not hyperglycemia, enhanced hepatic glucose uptake (HGU) and glycogen storage during an afternoon hyperinsulinemic-hyperglycemic (HIHG) clamp. Our current aim was to determine if the duration or pattern of morning hyperinsulinemia is important for the afternoon response to a HIHG clamp. To determine this, the same total amount of insulin was administered either over 2 h in the first (Ins2h-A) or second (Ins2h-B) half of the morning or over the entire 4 h (Ins4h) of the morning. In the 4-h afternoon period, all three groups had 4x-basal insulin, 2x-basal glycemia, and portal glucose infusion to expose the liver to the primary postprandial regulators of hepatic glucose metabolism. During the afternoon clamp, there was a marked increase in HGU and hepatic glycogen synthesis in the Ins4h group compared with the Ins2h-A and Ins2h-B groups, despite matched hepatic glucose loads and total insulin infusion rates. Thus, the longer duration (Ins4h) of lower hyperinsulinemia in the morning seems to be the key to much greater liver glucose uptake during the afternoon clamp.NEW & NOTEWORTHY Morning insulin exposure primes the liver for increased hepatic glucose uptake and glycogen storage during a subsequent hyperinsulinemic-hyperglycemic clamp. This study addressed whether the pattern and/or duration of insulin delivery in the morning influences insulin's ensuing priming effect. We found that despite receiving equal total doses of insulin in the morning, a prolonged, lower rate of morning insulin delivery improved afternoon liver glucose metabolism more effectively than a shorter, higher rate of delivery.

Prolonged exposure to insulin might cause epigenetic alteration leading to insulin resistance.

Glucose homeostasis is maintained by insulin. Insulin resistance is caused by multiple factors including hereditary factors and diet. The molecular mechanism underlying insulin resistance (IR) is not completely understood. Hyperinsulinemia often precedes insulin resistance and Type 2 diabetes. We had previously shown that prolonged exposure of insulin-responsive cells to insulin in the absence of high levels of glucose led to insulin resistance. In the present study, we show that the underlying cause for the impaired insulin signalling is the defective PI3K/AKT pathway. The observed insulin resistance is likely due to epigenetic alterations, as it can be maintained for several generations even when insulin is not provided, and epigenetic modifiers can reverse it. We also show that liver cell line (BRL-3A) developed impaired insulin signalling upon prolonged exposure to insulin in the absence of high levels of glucose. Transcriptomic analysis of the insulin-sensitive and resistance cells uncover altered signalling networks involved in chromatin remodelling, Rho GTPases, and ubiquitination. Furthermore, trimethylation of histone H3 at lysine 4 (H3K4me3) is increased in insulin-resistant cells. We extended these studies to mice, and show that mice injected with low doses of insulin when fasting develop insulin resistance with impaired glucose tolerance and increased HOMA-IR index. Altogether, these findings suggest that dysregulated synthesis of insulin in the absence of glucose stimulus could lead to epigenetic alterations that may ultimately result in insulin resistance.

“If-then”-scenarios in the care of pregnant women with diabetes in socially vulnerable positions

Abstract Background Pregnant women with diabetes in socially vulnerable positions face a multiplicity of medical, social, and psychological risks during pregnancy and birth and are susceptible to health inequities. This presentation explores the tentative nature of care provided to these women. Methods We base our findings on ethnographic fieldwork among health professionals at an obstetric outpatient clinic in Denmark. Results The unpredictability of diabetes during pregnancy calls for a flexible approach to treatment, placing significant demands on health professionals, pregnant women, and their partners and their ability to adjust to new scenarios. Our initial findings underscore that care is not static; it is dynamically adjusted to meet the medical, social, and psychological needs of the women. The adjustments in care encompass the negotiation and monitoring of insulin dosages, fetal weight, appointment frequencies, and additional consultations and impromptu phone consultations to follow up. An example of the tentativeness in care could be that if there is a sudden decrease in insulin requirements close to the due date then the birth might be induced. Beyond medical monitoring and treatment, the care extends to social initiatives that the health professionals must coordinate with various municipalities, depending on where the pregnant women live. This could include a joint meeting after the delivery between the woman, her partner, a health professional from the obstetric ward, and a social worker from the municipality. Often, this meeting is mentioned during consultations and intersectional meetings before the birth but is not formally arranged. Instead, it is tentative - if the pregnant woman would like a meeting upon discharge, then the health professional will set up a meeting. Conclusions Medical, social, and psychological care practices for women with diabetes in socially vulnerable positions are replete with “if-then” scenarios. Key messages • Care for pregnant women with diabetes in socially vulnerable positions is characterized by its fluidity and flexibility adjusting to the interplay of medical, social, and psychological needs. • The “if-then” scenarios that characterize the care for pregnant women with diabetes in socially vulnerable positions put high demands on the ability to adapt and adjust continuously.

Switching from Premixed Insulin to Insulin Degludec/Insulin Aspart for the Management of Type 2 Diabetes Mellitus: Implications of a Real-World Study on Insulin Degludec Dosing.

When switching from premixed insulin to insulin degludec/aspart (IDegAsp), IDegAsp usually starts at the same dose as the premixed insulin according to limited clinical experience or at a dose according to clinician discretion. The dose of insulin degludec used in the real world after switching has been poorly investigated. A retrospective analysis was conducted on patients with type 2 diabetes who switched from premixed insulin to IDegAsp from October 2016 to December 2023. Repeated measures analysis of variance was used to compare changes in insulin dose, glycated hemoglobin (HbA1c), fasting blood glucose (FBG), and postprandial blood glucose (PBG) before and after switching. Sixty-six patients with prior low-ratio premixed insulin and 22 with prior mid-ratio premixed insulin were included. Among the low-ratio insulin users, the total daily dose of insulin degludec (IDeg) decreased by 21.43% and 19.05% at 3 and 6months, respectively, after switching, compared with prior basal insulin dose (both p < 0.001). Conversely, among mid-ratio insulin users, the IDeg daily dose increased by 10.71% and 32.14% at 3 and 6months, respectively, after switching, compared with prior basal insulin dose (both p < 0.001). In all patients, HbA1c levels decreased by 0.70%, FBG decreased by 1.00mmol/l, and PBG decreased by 1.61mmol/l after 6months of switching (all p < 0.05); the total daily insulin dose and injection frequency significantly decreased after switching (both p < 0.05); age and disease duration did not affect IDegAsp effects on HbA1c reduction. In the setting of transition to IDegAsp from premixed insulin, the dose of basal insulin in the premixed formulation can be a valuable reference for adjusting insulin degludec dose. IDegAsp is superior to premixed insulin in blood glucose control with reduced total daily dose and injection frequency. IDegAsp could be the best choice for the management of diabetes in elderly patients.

Novel Protocol for the Use of Advanced Hybrid Closed-Loop System in Adolescents Engaged in Contact Sports.

Managing exercise remains challenging for adolescent athletes with type 1 diabetes (T1D), especially in contact sports. Even the use of hybrid closed loops can cause problems due to the need to disconnect the pump during some training or competitions. This study evaluated the efficacy of a novel protocol for the use of an Advanced Hybrid Closed-Loop System in adolescent football players with T1D during a sports camp. Eleven boys aged 14.9 years (25-75th percentile: 14-15.5), with a diabetes duration of 5.7 years (5.2-7) and regular training schedules in junior football leagues, participated in the study. They started AHCL (MiniMed780G, Medtronic) therapy a month before a week-long sports camp and were observed during the sports camp and the preceding week. Daily camp activities included two 1.5-hour training sessions. Protocol included a 90-minute temporary target of 150 mg/dL before and insulin pump disconnection during training. Physical activity was tracked using wGT3X-BT Actigraph monitors. The camp provided conditions of demanding physical activity (6.6[6-6.9] hours/day of moderate-to-vigorous intensity). After starting AHCL, the average participant time spent in the target glucose range (70-180mg/dL) was 79.34±8.46%, and no significant change was observed during the camp (mean difference +0.79±8.24%, p=0.7581). Median glucose levels dropped by 10.91±12.08mg/dL (p=0.0134), and time in the tight target range increased by 11.41±11.60% (p=0.0008) without increasing the time below range (&lt;70mg/dL) or glycemic variability. During the camp, daily insulin dose and basal/bolus ratio remained comparable with baseline, but the relative amount of automated bolus insulin decreased by 14.24±4.65% (p&lt;0.0001). The predefined regimen, including a temporary target before and disconnection of AHCL during football training, was safe and may provide satisfactory glucose control in active adolescents with T1D. This protocol could be adapted for use in other intensive contact sports.

MiR-375: it could be a general biomarker of metabolic changes and inflammation in type 1 diabetes patients and their siblings.

Type 1 diabetes (T1D) is a chronic autoimmune illness that results in loss of pancreatic beta cells and insulin insufficiency. MicroRNAs (miRNAs) are linked to immune system functions contributing to the pathophysiology of T1D, miRNA-375 is significantly expressed in the human pancreas and its circulatory levels might correspond to beta cell alterations. Pancreatic islet cell antibodies (ICA) and Glutamic acid decarboxylase antibodies (GADA) have roles in autoimmune pathogenesis and are predictive markers of T1D. The aim of this work was to detect serum level changes of miRNA-375, ICA, and GADA in T1D patients, and their siblings compared to healthy controls and correlate them with T1D biochemical parameters. The study included 66 T1D patients (32 males and 34 females; age range 3-18 years), 22 patients' siblings (13 males and 9 females; age range 4-17 years), and 23 healthy controls (7 males and 16 females; age range 4-17 years). MiRNA-375 levels were measured using quantitative reverse transcription polymerase chain reaction (RT-qPCR), while ICA and GADA levels were measured using enzyme-linked immunosorbent assay (ELISA). Data analysis was done utilizing SPSS-17 software. MiR-375 levels were downregulated in T1D patients and further decreased in their siblings when compared to healthy controls. Furthermore, miR-375 exhibited inverse correlations with HbA1c levels but no correlations with Total Insulin Dose, disease duration, or autoantibodies (GADA & ICA). Our study indicates that miR-375 is significantly downregulated in children with T1D and their siblings, suggesting its potential role as a biomarker for beta-cell function and glycemic control.

Factors affecting time to recovery from diabetic ketoacidosis in adult diabetic patients in Alexandria Main University Hospital

BackgroundDiabetic ketoacidosis (DKA) is a life-threatening condition as a complication of diabetes and represents a significant healthcare global burden. The current study goal was to determine factors affecting time to recovery from DKA in Alexandria Main University Hospital.Patients and methodsOne hundred fifty patients who had been admitted with DKA were included in this study. All patients were managed with hospitalization for IV fluids, continuous intravenous insulin infusion, electrolyte correction, as well as detection and treatment of the predisposing factor until the full resolution of DKA.ResultsMales contributed to 58.7% of the total patients in this study with a mean age of 32.16 ± 15.06 years. DKA mean time of resolution was 18.76 ± 14.07 h. The majority of patients were with T1DM (86%), while T2DM were 14%. Missed insulin dose was the leading precipitating factor (60.7%) followed by infections (38.7%). There was a statistically significant relationship between DKA resolution time with age, time of presentation, type of diabetes, initial pH, initial serum K+ level, initial HCO3− level, initial anion gap, initial base excess, and initial RBS (p value < 0.001).ConclusionDelayed time of resolution from DKA was associated with initial lower pH, initial lower HCO3− level, initial lower base excess level, initial higher anion gap level, type 2 diabetes mellitus, patients on pre-mixed insulin regimen, old patients, delayed time for seeking medical care, and abnormal serum K+ level.

GLP-1 Receptor Agonists in Overweight and Obese Individuals With Type 1 Diabetes Using an Automated Insulin Delivery Device: A Real-World Study.

Automated insulin delivery (AID) systems have improved glycemic control in individuals with type 1 diabetes (T1D) but overweight and increased cardiovascular risk remain a challenge. Glucagon-like peptide-1 receptor agonists (GLP-1 RAs) are associated with improved cardiometabolic profile but are currently not approved for the treatment of T1D. Individuals with T1D at Steno Diabetes Center Copenhagen, Denmark, treated with AID and off-label GLP-1 RA for at least six months between January 2017 and May 2024 were included in a retrospective chart review study. Nineteen individuals with (median [range]) age 42 (24-60) years were included. At GLP-1 RA initiation, hemoglobin A1c (HbA1c) was 7.3% (6.1%-8.7%), HbA1c 56 (43-72) mmol/mol, body weight 91.5 (78.0-115.0) kg, and body mass index 35.4 (27.0-42.0) kg/m2. Time in range was 74% (29%-82%), time above range 25% (18%-71%) while time below range was 1% (0%-5%). After six months of treatment, body weight changed -11% (-22% to -3%; P = .001) and total daily insulin dose changed -15.1 (-32.5 to -8.2) IU (P = .004). There were no significant changes in HbA1c or other glucose measures. One person developed ketoacidosis caused by infusion set failure, but none reported severe hypoglycemia. Glucagon-like peptide-1 receptor agonist as add-on therapy for six months in individuals with obesity and AID-treated T1D led to considerable weight loss and a reduction in insulin dose.

Glucose-sensitive insulin with attenuation of hypoglycaemia

The risk of inducing hypoglycaemia (low blood glucose) constitutes the main challenge associated with insulin therapy for diabetes1,2. Insulin doses must be adjusted to ensure that blood glucose values are within the normal range, but matching insulin doses to fluctuating glucose levels is difficult because even a slightly higher insulin dose than needed can lead to a hypoglycaemic incidence, which can be anything from uncomfortable to life-threatening. It has therefore been a long-standing goal to engineer a glucose-sensitive insulin that can auto-adjust its bioactivity in a reversible manner according to ambient glucose levels to ultimately achieve better glycaemic control while lowering the risk of hypoglycaemia3. Here we report the design and properties of NNC2215, an insulin conjugate with bioactivity that is reversibly responsive to a glucose range relevant for diabetes, as demonstrated in vitro and in vivo. NNC2215 was engineered by conjugating a glucose-binding macrocycle4 and a glucoside to insulin, thereby introducing a switch that can open and close in response to glucose and thereby equilibrate insulin between active and less-active conformations. The insulin receptor affinity for NNC2215 increased 3.2-fold when the glucose concentration was increased from 3 to 20 mM. In animal studies, the glucose-sensitive bioactivity of NNC2215 was demonstrated to lead to protection against hypoglycaemia while partially covering glucose excursions.

One-Year Effect of Elexacaftor/Tezacaftor/Ivacaftor Therapy on HbA1c Levels and Insulin Requirement in Patients with Insulin-Dependent Cystic Fibrosis-Related Diabetes: A Retrospective Observational Study.

The impact of ETI therapy on pulmonary function and nutritional status has been widely studied; the literature on the possible outcomes on glycemic control and insulin requirement in patients affected by CFRD is controversial. The main objective of our study was to evaluate HbA1c levels in patients with cystic fibrosis-related diabetes (CFRD) after one year of therapy with elexacaftor/tezacaftor/ivacaftor (ETI). The secondary objective was to study the changes in the total daily insulin dose (TDD), pulmonary function and metabolism in this population. A retrospective single-center observational study was conducted at the Regional Cystic Fibrosis Centre and Diabetology Centre of IRCCS Istituto Giannina Gaslini. The observation period was divided into four different time points: initiation (T0), 3 months (T3mo), 6 months (T6mo) and 12 months (T12mo) of ETI therapy. Demographic and clinical data were collected. The results were then stratified by genotype (homozygous or heterozygous F508del). Twenty-eight patients with CFRD undergoing insulin therapy were included. TDD (IU) significantly decreased at T3mo and T6mo, but not at T12mo, whereas HbA1c decreased significantly at all three times. The number of hospitalizations and pulmonary exacerbations decreased significantly. We demonstrated both improvement in glycemic control (by means of HbA1c) and insulin requirement in insulin-dependent CFRD patients after one year of ETI treatment.

Immunotherapy-Based Strategies for Treatment of Type 1 Diabetes.

Type 1 diabetes (T1D) is more than an insulin-deficiency disease-it is an autoimmune disease, and the field is moving towards adopting disease-modifying immunotherapy as part of clinical care during T1D development. Recent successful immunotherapies as well as therapies that missed the mark are reviewed. T cell-directed therapies may allow for the greatest preservation of β cell function but also come with more side effects. Anti-cytokine therapies are very promising but likely need chronic administration. Antigen-specific therapies while safe have not produced meaningful results. Most successful trials have been conducted in adolescents and adults with stage 3 T1D (clinical T1D) with preserved C-peptide (up to 60% more compared to placebo) demonstrated 1-2 years post treatment. HbA1c and total insulin dose are less likely to be significantly different between treated and placebo groups because most participants in studies are meeting glycemic targets and because of the heterogeneous nature of these measures. In the prevention space (delaying progression from stage 2 to stage 3 T1D) the outcome is more discrete, and a T cell-directed therapy, teplizumab, has received FDA approval. Even negative studies with promising mechanistic and safety profiles have added value. What is clear, a single administration or short course of an immunotherapy is unlikely to provide sustained freedom from exogenous insulin.

Food Insecurity and Diabetes Insulin Adherence Among Older Adults

Older adults in the United States continue to be impacted by food insecurity. Diabetes is on the rise in older adults and insulin therapy is often recommended as treatment. However, less is known about the relationship between food insecurity and insulin adherence among older adults. The current study utilized secondary data analysis methods to examine the 2021 National Health Interview Survey to explore the relationship between food insecurity and insulin adherence among adults aged 55 and older who are living with diabetes. Results of multivariable logistic regression suggest that participants experiencing food insecurity were more likely to take less insulin than needed and delay buying insulin in the past 12 months compared to participants who were food secure. Homeownership was inversely associated with taking less insulin than needed. Higher income-to-poverty ratio was also inversely associated with skipping insulin doses, taking less insulin than needed, and delaying the purchase of insulin. Our results showed that other racialized/ethnic groups (i.e., American Indian, Alaskan Native, Asian, biracial, and multiracial persons) compared to White were less likely to skip an insulin dose and take less insulin than needed. Suggesting food insecurity should be considered when insulin therapy is recommended for older adults with diabetes.

Type 1 diabetes mellitus; ovarian reserve; anti-Müllerian hormone; ovarian function

BACKGROUND: Prolonged course of diabetes mellitus often leads to the development of vascular complications, insufficiency of ovarian function. The occurrence of diabetes mellitus in women before pregnancy (pregestational diabetes mellitus) it can have various adverse consequences for the mother, fetus, child and the course of pregnancy. Pregnancy planning in women with pregestational diabetes significantly improves the outcomes of pregnancy and childbirth. AIM: The aim of this study was to analyze gonadotropic and ovarian function parameters in patients with type 1 diabetes mellitus depending on the age of onset, duration and compensation level of the disease. MATERIALS AND METHODS: The patients included into this clinical prospective study were divided into two groups. The main group consisted of 216 patients with type 1 diabetes mellitus aged 18 to 39 years (mean age: 27.1 ± 3.1 years). The control group consisted of 30 healthy women of reproductive age. Chemiluminescent immunoassay was used to determine blood serum levels of anti-Müllerian hormone, follicle-stimulating hormone, luteinizing hormone, prolactin, estradiol, testosterone, free testosterone, and sex hormone-binding globulin from day 2 to day 5 of the menstrual cycle. Serum progesterone levels were measured on days 20–23 of the menstrual cycle for three consecutive cycles. Glycated hemoglobin levels were also studied in the blood serum of patients with type 1 diabetes mellitus. All the patients underwent pelvic ultrasound examination to assess the cohort of antral follicles and ovarian volume. RESULTS: The average age of menarche in patients with type 1 diabetes mellitus who developed the disease at the age of under 10 years was 14.2 ± 1.2 years. This was higher than in the group of girls with the onset of the disease over the age of 10 years (13.5 ± 1.2 years) and in women of the control group (11.9 ± 1.1 years). When assessing the ovarian reserve in patients with type 1 diabetes mellitus, we found a decrease in anti-Müllerian hormone level and antral follicle count in the group of women with disease onset at the age of under 10 years. We did not find differences in the ovarian reserve parameters in patients depending on disease duration. Normogonadotropic normoprolactinemic ovarian insufficiency was detected in 154 (71.3%) of 216 patients, while the rest 62 (28.7%) women had an ovulatory menstrual cycle. In patients with anovulation, luteal phase deficiency and ovulatory menstrual cycle, we found no differences between the age of development of type 1 diabetes mellitus, its duration, glycated hemoglobin levels, total daily insulin dose and insulin dose per kilogram of body mass. In patients receiving intensive insulin therapy with continuous subcutaneous insulin infusion, glycated hemoglobin level was lower than in those receiving multiple dose insulin injection therapy. CONCLUSIONS: The average age of menarche in patients with type 1 diabetes mellitus is higher than in healthy women. The ovarian reserve parameters in patients with early onset of the disease, before 10 years of age, are lower than in patients who developed type 1 diabetes mellitus after 10 years of age. Duration of pregnancy planning period depends on compensation level of the disease and lasts from six to 12 months. This requires the doctor and patient to prepare for the implementation of reproductive tasks as early as possible, especially in patients whose disease onset occurred in pre-pubertal period.