Psychological variables in the self-regulation of diabetes mellitus

Gillespie, Christopher R.

January 1989

No description available.

610

Implementing a Glycemic Management Protocol with Surgical Patients

Masterson, Lisa M.

01 May 2021

No description available.

Nursing

Surgical site infection

stress hyperglycemia

glucose management

surgery

healthcare-acquired infections

Glucose and Lipid Metabolism during Pregnancy and Lactation in Rats : Role of Undercarboxylated Osteocalcin

Pandey, Aparamita

January 2016

Energy homeostasis is an important physiological mechanism essential for balancingenergy flow through the living systems by managing overall metabolism in the body. Thus, energy homeostasis is under a tight control by means of extremely well-regulated energy metabolism. One of the most common metabolic disorders that occur following disruption in energy homeostasis mechanisms is obesity. Obese individuals develop insulin resistance in the peripheral tissues (fat and muscle) and may also include non-alcoholic fatty liver disease. Insulin resistance is the primary factor responsible for the development of type 2 diabetes mellitus (T2D). Towards control and management of T2D condition, insulin, drugs that regulate the insulin sensitivity and drugs that regulate glucose metabolism are widely used. Repeated insulin administration is painful, expensive and requires constant glucose monitoring while other drugs have various limitations and side effects. Therefore, there is wide scope development of new anti-diabetic molecules for effective management of T2D. Studies related to energy metabolism are necessary to understand the cause of such disorders and improve existing methods to manage metabolic abnormalities. Animal models to understand such metabolic disorders have been developed by chemical treatments and genetic modifications, but diet-induced obese (DIO) animal models appear to be the better among all the models reported. DIO animal models are known to most closely mimic the physiological situation. Apart from the experimental model system studies have been conducted under physiological conditions to gain knowledge on possible mechanisms behind energy balance maintained and established during extreme situations such as pregnancy and lactation. To support fetal growth and milk synthesis several metabolic adjustments occur during pregnancy and lactation without the major disruption in the maternal energy homeostasis. In the present study, to gain knowledge on the mother’s body glucose, lipid management and insulin responses throughout the gestation and lactation periods analyses were carried out during at different stages of pregnancy and lactation in rats. It was observed that during pregnancy, the dam developed insulin resistance in peripheral tissues with decreased activation of insulin pathway and reduced glucose utilization while the liver remained unaffected. Although, as soon as the lactation began, peripheral tissue such as muscle developed increased insulin sensitivity associated with increased expression of glucose transporter gene and higher glucose metabolism. The reversal of insulin response in the muscle tissue observed during lactation appears to be a suitable model system for understanding the process by which the body undergoes a transition from insulin resistant state to sensitive state under a physiological condition. Interestingly, early lactation period is known to have much lower levels of insulin available to act upon peripheral tissues. Factors involved in this transition could be potential therapeutic agents for control of T2D, since during early stages of T2D muscle appears to be the first metabolic organ to exhibit resistance to insulin. The undercarboxylated osteocalcin (UNOC) has been reported to function as anti-diabetic molecule. UNOC is released from skeletal system during bone turnover, especially due to resorption process. Experiments were carried out to examine the role of UNOC during the transition from insulin resistant state of pregnancy to sensitive state of lactation period. It was observed that UNOC levels were lower during pregnancy, but increased during early lactation (day 3 to 6 of lactation). The increased UNOC levels seen during early lactation was higher than the levels observed in non-pregnant, non-lactating (NPNL) rats and the UNOC levels decreased following removal of pups immediately after parturition. It was noted that altering UNOC levels during early lactation altered the insulin response of the whole body and muscle transporter-4 expression (glut4) of lactating rats. A significant increase in bone turnover was also observed during lactation compared to NPNL and pregnant rats. The data suggest that increased bone turnover leads to increased UNOC levels in blood during lactation. Estrogen is known as bone protector molecule which acts via its receptors, estrogen receptor α and β (ERα and β). It was reported that ERβ is a dominant regulator of estrogen signaling when both the receptors of estrogen i.e. ERα and ERβ coexist in the target tissue and estrogen levels are relatively higher. Compared to NPNL rats estrogen levels have shown to be higher during late pregnancy and lower during early lactation. It was observed that liver and adipose tissues largely express ERα, but the muscle showed expression of both the receptors in NPNL rats indicating that muscle is the metabolic tissue that may be modulated by both the receptors. It has been reported that ERβ suppresses ERα action on glut4 transcription in the myocytes. It is possible that the altered ERs ratio modulates glut4 expression during late pregnancy and early lactation. The receptor expression ratio data indicated that muscle is an ERβ dominant during late pregnancy, while it is ERα dominant during early lactation. Further, alteration in UNOC levels during early lactation changed ERs ratio but not sufficient enough to alter the ER dominance, indicating lack of effect of UNOC on ER dominance during early lactation. Experiments were conducted to alter insulin sensitivity during early lactation to extrapolate physiological findings to a pathological condition of the DIO model by feeding rats with high-fat diet (HFD). During early lactation, HFD dams had lower insulin response, lower circulatory UNOC level and lower UNOC receptor (GPRC6A) expression in the muscle. Gene expression of muscle glut4 was lower in HFD rats and the tissue remained ERα dominant indicating no role of HFD on ERs ratio in muscle during early lactation. UNOC has been found to have negative effect on lipid accumulation. During pregnancy, lipid accumulation is one of the first events essential for proper fetal development. Since UNOC levels were suppressed during pregnancy, experiments were carried out to examine relevance of UNOC suppression on lipid accumulation during early pregnancy. For this purpose, pharmacological approaches were utilized to alter UNOC levels during early pregnancy. It was observed that the transient elevation of UNOC levels caused decrease in maternal fat depots without changing circulatory triacylglyceride (TAG) levels. In experiments that decreased UNOC levels in NPNL state to mimic lower levels of UNOC present during early pregnancy, it was found fat storage was higher and TG was found to be lowered in the circulation. These results indicate that UNOC can cause a reduction in fat accumulation and TG levels but UNOC effects on TG levels, was not observed during pregnancy. The data taken together suggest that suppression of UNOC is required for better fat deposition in the mother’s body. Although, some studies have indicated an insulin response transition occurring during pregnancy to lactation, but the factors involved in this transition have not been reported. This report discusses about the factors such as UNOC and ERs and their involvement in the transition process. UNOC role has been studied in genetically modified models and in metabolic disorders such as obesity model system and evidence for physiological role of UNOC would further support its candidature as anti-diabetic molecule. The present research work is the first report to detail relevance of UNOC in physiological conditions such as pregnancy and lactation for glucose and lipid management.

Glucose Management in Pregnant Rats

Glucose Metabolism in Pregnant Rats

Glucose Management in Lactating Rats

Glucose Metabolism in Lactating Rats

Undercarboxylated Osteocalcin

Glucose transporter-4 Expression

Insulin Sensitivity

Lipid Metabolism in Rats

Biochemistry

Similarity Determination and Case Retrieval in an Intelligent Decision Support System for Diabetes Management

Walker, Donald

January 2007

No description available.

artificial intelligence

AI

case-based reasoning

CBR

decision support

medical decision support

diabetes

glucose management

similarity determination

case retrieval

healthcare

Best Practices for Glucose Management Using a Computer-Based Glucose Management

Jackson-Cenales, Oteka

01 January 2017

The prevalence of diabetes mellitus (DM) continues to be a global concern among health care practitioners. Without collaboration and interventions, this chronic disease, which poses a significant financial burden for health care institutions, will continue to be problematic. Promoting the use of glycemic control measures among diabetic patients is an intervention, which has the potential to reduce diabetic complications and improve outcomes. The purpose of this doctoral project was to explore available evidence through a systematic review of the best practices for glucose management. The chronic care model served as the theoretical framework. The evidence based practice question was, What is the current evidence supporting the utilization of a computer-based glucose management system (CBGMS) for inpatient diabetic adults in acute and critical care settings? A systematic review was conducted, yielding 532 studies in which 3 of the studies related to CBGMSs published from 2008 to 2017 were critically appraised. The John Hopkins Nursing Evidence Appraisal Tool with specific inclusion and exclusion criteria was utilized. Participants were adult patients (aged 18 and over) with DM in inpatient care settings who were English speaking. Interventions included the traditional paper-based sliding scale regimen versus the utilization of a CBGMS. Outcome measures included decreased length of stay, reduced cost, and glucose optimization. A conclusion was the implementation of a CBGMS has the potential to improve patient outcomes with additional research that exhibits overall benefits and implement into practice. Thus, implementation of a CBGMS can lead to positive social change by aiding in a change in practice that will ultimately ameliorate patient health outcomes.

acute care setting

critical care setting

traditional insulin sliding scale

Type 1 diabetes

Type 2 diabetes

Nursing

Comparaison des dispositifs de délivrance automatisée d’insuline commerciaux et « faits-maison » en termes de contrôle glycémique, de sécurité et de qualité de vie chez des adultes vivant avec le diabète de type 1

Lebbar, Maha

07 1900

Objectif : Comparer les dispositifs de délivrance automatisée d’insuline open-source (DDAI-OS) et les DDAI commerciaux hybrides sur le contrôle glycémique, la qualité de vie rapportée, et la sécurité chez des adultes avec diabète de type 1 (DT1). Méthodes : Étude prospective, observationnelle, de non-infériorité, comparative et en vie réelle, incluant 78 adultes canadiens avec un DT1 et utilisant un DDAI ≥ 3 mois. Quatre semaines de mesure continue du glucose ont permis d’évaluer le % temps passé dans la cible de glucose (%TIR, 3,9-10,0 mmol/L). Les indicateurs de qualité de vie ont été évalués par des échelles de mesure validées. Les mesures de sécurité sont le temps passé en hypoglycémie, la survenue d’hypoglycémie sévère ou d’acido-cétose et les problèmes techniques. Résultats : Les participants du groupe DDAI-OS étaient non inférieurs au groupe DDAI commercial sur le %TIR (78,3% [SD 11,0] vs. 71,2% [SD 10,9], différence moyenne 7,2% [95% CI 1,9% à 12,5%], p<0.001), même après ajustement sur plusieurs facteurs confondants. Le groupe DDAI-OS a passé plus de temps en hypoglycémie (<3,9 mmol/L) (3,9% [SD 3,1] vs. 1,8% [SD 1,3], p<0.001) et a rapporté moins de peur de l’hypoglycémie. Aucun épisode d’hypoglycémie sévère ou d’acido-cétose n’a été rapporté, avec un nombre de problèmes techniques similaires entre les deux groupes. Conclusion : Les DDAI-OS hybrides sont sécuritaires et non inférieurs aux DDAI commerciaux hybrides en termes de %TIR chez des adultes vivant avec un DT1 dans des conditions de vie réelle. Nos résultats soutiennent que les DDAI-OS peuvent être considérés pour la gestion du DT1. / Background: Comparison between unregulated open-source (OS) automated insulin delivery (AID) systems and commercial AID (C-AID) systems remains scarce. Objective: Compare both AID systems regarding glucose management, patient-reported outcomes (PROs), and safety among adults with type 1 diabetes (T1D) in real-life conditions. Design: Prospective, observational, non-inferiority, comparative, real-world study. Setting: On-site (a diabetes clinic in Montreal) and online (a T1D registry and social media platforms) across Canada. Participants: 78 adults with T1D, having used an AID system for ≥ 3 months, and living in Canada (26 OS-AID and 52 C-AID users). Measurements: 4-week’s data from a blinded continuous glucose monitor were used to assess effectiveness (primary outcome: 24h time in range % [TIR%], with a non-inferiority margin of 5%). Other outcomes included PRO measures using validated scales. Safety outcomes included time spent in hypoglycemia, severe hypoglycemia, diabetic ketoacidosis (DKA), and technical issues. Results: OS-AIDs were non-inferior to C-AIDs regarding 24h TIR% (78.3% [SD 11.0] vs. 71.2% [SD 10.9], mean difference 7.2% [95% CI 1.9% to 12.5%], p<0.001), even after adjusting for various confounding factors. OS-AIDs spent more time in hypoglycemia (<3.9 mmol/L) than C-AIDs (3.9% [SD 3.1] vs. 1.8% [SD 1.3], p<0.001) and reported less fear of hypoglycemia. No severe hypoglycemia or DKA was reported in either group, with a similar occurrence rate of technical issues between groups. Conclusion: OS-AIDs are safe and non-inferior to C-AIDs for TIR% among adults with T1D in real-world settings. Our findings support that both OS-AID and C-AID systems can be considered for T1D management.

Gestion du glucose

Open-source

Boucle fermée hybride

Diabète de type 1

Type 1 diabetes

Automated insulin delivery system

Glucose management

Patient-reported outcome measures

Medicine / Médecine (UMI : 0564)