Clinical characteristics of non-obese children with type 2 diabetes mellitus without involvement of β-cell autoimmunity

Glucose and lipid metabolic aberrations in preterm and low birth weight infants: Associations with lifestyle-related diseases

The concept of the developmental origins of health and disease is well established. Prenatal undernutrition, resulting from a mismatch between pre- and postnatal environments, leads to permanent changes in body composition, function, and metabolism. These changes contribute to the development of lifestyle-related diseases such as type 2 diabetes mellitus and hyperlipidemia later in life. The future risk of lifestyle-related diseases in preterm and low-birth-weight infants is closely related to a thrifty phenotype. This phenotype is characterized by an advantageous ability to survive in a low-energy environment, resulting in reduced growth potential and muscle mass. Small size and low muscle mass lead to a decrease in basal metabolism, making it easier to accumulate excess energy as body fat. This differs fundamentally from the typical clinical presentation of obesity, which occurs in a state of energy excess. Our research focuses on two main areas: (1) investigating the increase in insulin resistance due to growth patterns and persistent reduction in lean body mass in preterm and low-birth-weight infants, and (2) studying the development of subcutaneous adipose tissue during the neonatal and infant periods, along with its associated metabolic and hormonal factors. In this review, we provide detailed insights into the mechanism by which sustained decrease in lean body mass and the development of lipid/fatty acid metabolism and adipose tissue during the fetal and neonatal periods may impact the onset of lifestyle-related diseases later in life.

ISPAD Clinical Practice Consensus Guidelines 2024: Type 2 Diabetes in Children and Adolescents

Youth-onset type 2 diabetes (T2D) results from genetic, environmental, and metabolic causes that differ among individuals and populations. This chapter builds on the 2022 ISPAD guidelines and summarizes recent advances in the management of T2D in children and adolescents. Updates include diagnostic algorithm for youth with new onset T2D, algorithms and tables for treatment, management, and assessment of comorbidities and complications and recommendations on recently approved pharmacologic therapies for the treatment of youth-onset T2D and management strategies. Youth-onset type 2 diabetes (T2D) results from genetic, environmental, and metabolic causes that differ among individuals and populations. This chapter builds on the 2022 ISPAD guidelines and summarizes recent advances in the management of T2D in children and adolescents. Updates include diagnostic algorithm for youth with new onset T2D, algorithms and tables for treatment, management, and assessment of comorbidities and complications and recommendations on recently approved pharmacologic therapies for the treatment of youth-onset T2D and management strategies.

Efficacy of Human Recombinant Growth Hormone in Females of a Non-Obese Hyperglycemic Mouse Model after Birth with Low Birth Weight

We examined whether the administration of growth hormone (GH) improves insulin resistance in females of a non-obese hyperglycemic mouse model after birth with low birth weight (LBW), given that GH is known to increase muscle mass. The intrauterine Ischemia group underwent uterine artery occlusion for 15 min on day 16.5 of gestation. At 4 weeks of age, female mice in the Ischemia group were divided into the GH-treated (Ischemia-GH) and non-GH-treated (Ischemia) groups. At 8 weeks of age, the glucose metabolism, muscle pathology, and metabolome of liver were assessed. The insulin resistance index improved in the Ischemia-GH group compared with the Ischemia group (p = 0.034). The percentage of type 1 muscle fibers was higher in the Ischemia-GH group than the Ischemia group (p < 0.001); the muscle fiber type was altered by GH. In the liver, oxidative stress factors were reduced, and ATP production was increased in the Ischemia-GH group compared to the Ischemia group (p = 0.014), indicating the improved mitochondrial function of liver. GH administration is effective in improving insulin resistance by increasing the content of type 1 muscle fibers and improving mitochondrial function of liver in our non-obese hyperglycemic mouse model after birth with LBW.

Clinical characteristics in children with maturity-onset diabetes of the young detected by urine glucose screening at schools in the Tokyo Metropolitan Area

This study aimed to examine the clinical characteristics of young children diagnosed with maturity-onset diabetes (MODY) using urine glucose screening at schools. The study participants were 70 non-obese children who were clinically diagnosed with type 2 diabetes through urine glucose screening at schools in Tokyo between 1974 and 2020. Of these children, 55 underwent genetic testing, and 21 were finally diagnosed with MODY: MODY2 in eight, MODY3 in eight, MODY1 in four and MODY5 in one. A family history of diabetes was found in 76.2% of the patients. Fasting plasma glucose levels did not differ between the different MODY subtypes, while patients with MODY 3, 1, and 5 had significantly higher levels of glycosylated hemoglobin and 2-hour glucose in an oral glucose tolerance test than those with MODY2. In contrast, most patients exhibit mild insulin resistance and sustained β-cell function. In the initial treatment, all patients with MODY2 were well controlled with diet and exercise, whereas the majority of those with MODY3, 1, and 5 required pharmacological treatment within one month of diagnosis. In conclusion, urine glucose screening in schools appears to be one of the best opportunities for early detection of the disease and providing appropriate treatment to patients.

Treatment strategy for children and adolescents with type 2 diabetes-based on ISPAD Clinical Practice Consensus Guidelines 2022

The principles of treatment for children and adolescents with type 2 diabetes include dietary and exercise management. For dietary management, a relatively modest dietary regimen with an appropriate energy source composition is recommended. Moderate- to vigorous-intensity aerobic activity is recommended for at least 60 min/d. Family members are encouraged to modify their lifestyles. Some patients fail to improve hyperglycemia through dietary and exercise management and eventually require pharmacological treatment. If the patient is metabolically stable (HbA1c level < 8.5% [69 mmol/mol]), metformin is the first-line treatment of first choice. In a case with ketosis or HbA1c of more than 8.5% (69 mmol/mol), insulin will be required initially with once daily basal insulin (0.25-0.5 units/kg). The goal of the initial treatment is to attain an HbA1c level < 7.0% (53 mmol/mol). If the glycemic goal is not attained, the addition of a second agent should be considered. However, the use of antihyperglycemic drugs in pediatric patients is limited in most countries. Therefore, the efficacy and safety of these drugs used in adult patients, including GLP-1 receptor agonists and SGLT2 inhibitors, should be evaluated in pediatric patients worldwide.

The Prevalence of Obesity Among Children With Type 2 Diabetes: A Systematic Review and Meta-analysis

Importance

The childhood obesity epidemic is presumed to drive pediatric type 2 diabetes (T2D); however, the global scale of obesity in children with T2D is unknown.

Objectives

To evaluate the global prevalence of obesity in pediatric T2D, examine the association of sex and race with obesity risk, and assess the association of obesity with glycemic control and dyslipidemia.

Data Sources

MEDLINE, Embase, CINAHL, Cochrane Library, and Web of Science were searched from database inception to June 16, 2022.

Study Selection

Observational studies with at least 10 participants reporting the prevalence of obesity in patients with pediatric T2D were included.

Data Extraction and Synthesis

Following the Meta-analysis of Observational Studies in Epidemiology reporting guideline, 2 independent reviewers in teams performed data extraction and risk of bias and level of evidence analyses. The meta-analysis was conducted using a random-effects model.

Main Outcomes and Measures

The primary outcomes included the pooled prevalence rates of obesity in children with T2D. The secondary outcomes assessed pooled prevalence rates by sex and race and associations between obesity and glycemic control and dyslipidemia.

Results

Of 57 articles included in the systematic review, 53 articles, with 8942 participants, were included in the meta-analysis. The overall prevalence of obesity among pediatric patients with T2D was 75.27% (95% CI, 70.47%-79.78%), and the prevalence of obesity at diabetes diagnosis among 4688 participants was 77.24% (95% CI, 70.55%-83.34%). While male participants had higher odds of obesity than female participants (odds ratio, 2.10; 95% CI, 1.33-3.31), Asian participants had the lowest prevalence of obesity (64.50%; 95% CI, 53.28%-74.99%), and White participants had the highest prevalence of obesity (89.86%; 95% CI, 71.50%-99.74%) compared with other racial groups. High heterogeneity across studies and varying degrees of glycemic control and dyslipidemia were noted.

Conclusions and Relevance

The findings of this systematic review and meta-analysis suggest that obesity is not a universal phenotype in children with T2D. Further studies are needed to consider the role of obesity and other mechanisms in diabetes genesis in this population.

Maturity-onset diabetes of the young (MODY): current perspectives on diagnosis and treatment

Maturity-onset diabetes of the young (MODY) is characterized by autosomal dominant inheritance, onset before 25 years of age, absence of β-cell autoimmunity, and sustained pancreatic β-cell function. To date, mutations have been identified in at least 14 different genes, including six genes encoding proteins that, respectively, correspond to MODY subtypes 1-6: hepatocyte nuclear factor (HNF) 4α (HNF4α), glucokinase (GCK), HNF1α (HNF1 α), pancreatic and duodenal homeobox 1 (PDX1), HNF1β (HNF1 β), and neurogenic differentiation 1 (NEUROD1). Diagnostic tools based on currently available genetic tests can facilitate the correct diagnosis and appropriate treatment of patients with MODY. Candidates for genetic testing include nonobese subjects with hyperglycemia, no evidence of β-cell autoimmunity, sustained β-cell function, and a strong family history of similar-type diabetes among first-degree relatives. Moreover, identification of the MODY subtype is important, given the subtype-related differences in the age of onset, clinical course and progression, type of hyperglycemia, and response to treatment. This review discusses the current perspectives on the diagnosis and treatment of MODY, particularly with regard to the six major subtypes (MODY 1-6).

Clinical characteristics in Japanese children with nonobese type 2 diabetes

It is well known that the incidence of youth-onset type 2 diabetes is increasing worldwide. On the other hand, most studies have shown that the majority of youth-onset type 2 diabetes occurs in obese individuals, generally with a body mass index (BMI) greater than the 90th or 95th centile for sex- and age-matched children and adolescents. However, we identified some Japanese children with nonobese type 2 diabetes and BMI less than 90th centile by a urine glucose screening program at schools in the Tokyo Metropolitan Area. According to the results obtained from the screening, clinical characteristics of patients with nonobese type 2 diabetes seemed to be different from those in obese type 2 diabetes. Nonobese patients tended to show lower insulin secretion abilities and milder, but evident, insulin resistance from the time of diagnosis. Female, low birth weight (small for gestational age), and genetic background, not related to β-cell-associated autoimmunity, may play a role in development of nonobese type 2 diabetes. In addition, nonobese patients tend to progress earlier to pharmacological treatment including oral hypoglycemic drugs and insulin. Further studies are needed to confirm to these findings and clarify the pathophysiology of children with nonobese type 2 diabetes.

Pediatric Type 2 Diabetes in Japan: Similarities and Differences from Type 2 Diabetes in Other Pediatric Populations

PURPOSE OF REVIEW

To review clinical characteristics of pediatric type 2 diabetes in Japan.

RECENT FINDINGS

It is well recognized that Asian populations, particularly the Japanese, have a higher incidence of childhood type 2 diabetes. Of note, most Asian populations show a higher incidence of pediatric type 2 diabetes than that of type 1 diabetes. However, a current report in the USA demonstrated a dramatic increase in the incidence of young people with type 2 diabetes in recent years. The USA could have a much higher incidence of type 2 diabetes than Japan, possibly due to environmental and behavioral factors. The clinical features of Japanese young people with type 2 diabetes might have some differences from type 2 diabetes in other pediatric populations. Japanese children with type 2 diabetes are likely to be thinner than Caucasian children. Approximately 10-15% Japanese patients with type 2 diabetes exhibit normal weight with milder insulin resistance and substantial insulin secretion failure. Autoimmunity is not associated with the etiology of type 2 diabetes. Some genetic background and environmental factors, different from those in Caucasians, could play a role in the development of type 2 diabetes in Japanese children. Considering these characteristics, we must consider adequate therapy and management for young people with type 2 diabetes.

New insights into the pharmacological treatment of pediatric patients with type 2 diabetes

The principal treatment for children and adolescents with type 2 diabetes is dietary and exercise management. However, the blood glucose levels of some patients receiving this treatment fail to improve; thus, pharmacological treatment is eventually required. The pathophysiology of type 2 diabetes in pediatric patients appears to be similar to that in adults; thus, the range of antidiabetic drugs used in adults is likely to be effective in pediatric patients as well. However, in the majority of countries, including Japan, only metformin, glimepiride, and insulin have been approved for use in pediatric patients. Indeed, the evidence for the usefulness of antidiabetic drugs other than metformin and insulin in children and adolescents is limited at this time. Therefore, the efficacy and safety of various antidiabetic drugs, including DPP-4 inhibitors, GLP-1 receptor agonists, and SGLT2 inhibitors, which are used in adult patients, should be evaluated in the pediatric population in a large number of centers worldwide. In addition, it is critical that researchers and clinicians establish treatment guidelines for children and adolescents with type 2 diabetes in all racial groups worldwide.

Development of an alternative non-obese non-genetic rat model of type 2 diabetes using caffeine and streptozotocin

BACKGROUND

The aim of the present study was to develop an alternative non-obese non-genetic rat model of type 2 diabetes (T2D).

METHODS

Six-week-old male SD rats were randomly divided into six groups, namely: Normal Control (NC), Diabetic Control (DBC), Caffeine 5mg/kg BW+STZ (CAF5), Caffeine 10mg/kg BW+STZ (CAF10), Caffeine 20mg/kg BW+STZ (CAF20) and Caffeine 40mg/kg BW+STZ (CAF40) and were fed a normal rat pellet diet and drinking water ad libitum throughout the experimental period. After a one week acclimatization period, diabetes was induced in the animals in DBC and all CAF groups with an injection (i.p.) of the respective dosages of caffeine (mg/kg BW) 15min before the injection of STZ (65mg/kg BW) when normal saline was injected to the DBC group instead of caffeine. The NC group received normal saline and buffer instead of caffeine and STZ, respectively. One week after the STZ injection, animals with non-fasting blood glucose>300mg/dl were considered as diabetic. Three weeks after the STZ injection, the animals in the CAF5 and CAF10 groups were eliminated from the study due to the severity of diabetes and the experiment was continued with the remainder groups for a 13 weeks period.

RESULTS AND CONCLUSION

The data of food and fluid intake, body weight, blood glucose, glucose tolerance test, HOMA-IR, HOMA-beta, serum insulin, fructosamine, lipid profile and organ specific enzymes, anti-diabetic drug response tests, and pancreatic histopathology suggest that CAF20 group can be a better alternative non-genetic model of non-obese T2D.