Differences in segmental fat accumulation patterns by sex and ethnicity: An international approach.

Excess fat on the body impacts obesity-related co-morbidity risk; however, the location of fat stores affects the severity of these risks. The purpose of this study was to examine segmental fat accumulation patterns by sex and ethnicity using international datasets. An amalgamated and cross-calibrated dataset of dual x-ray absorptiometry (DXA)-measured variables compiled segmental mass for bone mineral content (BMC), lean mass (LM), and fat mass (FM) for each participant; percentage of segment fat (PSF) was calculated as PSFsegment = (FMsegment/(BMCsegment + LMsegment + FMsegment)) × 100. A total of 30 587 adults (N = 16 490 females) from 13 datasets were included. A regression model was used to examine differences in regional fat mass and PSF. All populations followed the same segmental fat mass accumulation in the ascending order with statistical significance (arms < legs < trunk), except for Hispanic/Latinx males (arms < [legs = trunk]). Relative fat accumulation patterns differed between those with greater PSF in the appendages (Arab, Mexican, Asian, Black, American Caucasian, European Caucasian, and Australasian Caucasian females; Black males) and those with greater PSF in the trunk (Mexican, Asian, American Caucasian, European Caucasian, and Australasian Caucasian males). Greater absolute and relative fat accumulation in the trunk could place males of most ethnicities in this study at a higher risk of visceral fat deposition and associated co-morbidities.

Innate Immunity in Autoimmune Thyroid Disease during Pregnancy.

Autoimmune thyroid disease (AITD) is the most common organ-specific autoimmune disorder clinically presented as Hashimoto thyroiditis (HT) and Graves' disease (GD). The pathogenesis of AITD is caused by an inappropriate immune response related to genetic, non-genetic, and environmental factors. Pregnancy is one of the factors that have a great influence on the function of the thyroid gland because of the increased metabolic demand and the effects of hormones related to pregnancy. During pregnancy, an adaptation of the maternal immune system occurs, especially of the innate immune system engaged in maintaining adaptive immunity in the tolerant state, preventing the rejection of the fetus. Pregnancy-related hormonal changes (estrogen, progesterone, hCG) may modulate the activity of innate immune cells, potentially worsening the course of AITD during pregnancy. This especially applies to NK cells, which are associated with exacerbation of HD and GD. On the other hand, previous thyroid disorders can affect fertility and cause adverse outcomes of pregnancy, such as placental abruption, spontaneous abortion, and premature delivery. Additionally, it can cause fetal growth retardation and may contribute to impaired neuropsychological development of the fetus. Therefore, maintaining the thyroid equilibrium in women of reproductive age and in pregnant women is of the highest importance.

Effectiveness and Safety of iGlarLixi in People with Type 2 Diabetes in Adriatic Region Countries: ENSURE-ADR, a Real-World Study.

INTRODUCTION: The efficacy of iGlarLixi, a fixed-ratio combination of basal insulin glargine 100 units/mL (iGlar) and the short-acting GLP-1 RA lixisenatide (Lixi), was established in people with type 2 diabetes (T2D) who were advancing therapy from oral antidiabetic drugs (OADs) and basal insulin (BI). This retrospective study aimed to evaluate the effectiveness and safety of iGlarLixi using real-world data from people with T2D in the Adriatic region countries. METHODS: This was a non-interventional, retrospective, multicenter, cohort study with the collection of pre-existing data at iGlarLixi initiation and after 6 months of treatment in real-world clinical and ambulatory settings. The primary outcome was the change in glycated hemoglobin (HbA1c) at 6 months after iGlarLixi initiation. Key secondary outcomes included the proportion of people achieving HbA1c < 7.0%, the effect of iGlarLixi on fasting plasma glucose (FPG), body weight and body mass index (BMI). RESULTS: In this study, 262 participants (130 in Bosnia and Herzegovina, 72 in Croatia and 60 in Slovenia) initiated treatment with iGlarLixi. The participants had a mean ± SD age of 66.2 ± 7.9 years and the majority were women (58.0%). The mean baseline HbA1c was 8.9 ± 1.7% and the mean body weight was 94.3 ± 18.0 kg. After 6 months of treatment, the reduction in the mean HbA1c was statistically significant (1.11 ± 1.61%, 95% confidence internal [CI] 0.92, 1.31; p < 0.001), and the proportion of participants who achieved HbA1c < 7.0% had significantly increased from baseline (8.0-26.0%, p < 0.001). The change in mean FPG (mmol/L) levels was significant (2.7 ± 4.4 [95% CI 2.1, 3.2; p < 0.001]). The mean ± SD body weight and BMI were significantly reduced by 2.9 ± 4.3 kg (95% CI 2.3, 3.4; p < 0.001) and 1.3 ± 4.4 kg/m2 (95% CI 0.7, 1.8; p < 0.001), respectively. Two serious hypoglycemia episodes and one adverse gastrointestinal effect (nausea) were registered. CONCLUSIONS: This real-world study demonstrated the effectiveness of iGlarLixi for improving glycemic control and decreasing body weight in people with T2D who need to advance therapy from OADs or insulin.

THE IMPACT OF TOTAL PHYSICAL ACTIVITY ON MICROVASCULAR COMPLICATIONS IN TYPE 1 DIABETES MELLITUS PATIENTS.

The incidence of diabetes is increasing worldwide, emphasizing an emerging need for blood glucose control optimization to prevent the development of chronic complications and improve the quality of life. This retrospective cohort study aimed to investigate the effects of total physical activity on microvascular diabetic complication development in patients with type 1 diabetes mellitus (T1DM). The study included 71 T1DM patients, average age 41 years and HbA1c 7.78%. Most patients (82.1%) reported having hypoglycemia, while the minority of patients developed microvascular complications, mostly nonproliferative retinopathy (17.7%). All subjects included in the study were moderately or vigorously physically active. No association was observed between total physical activity and regulation of glycemia, hypoglycemic incidents, or development of microvascular complications. Until sufficient data from prospective studies become available, our data support the findings of no negative effect of higher intensity physical activity on the development of microvascular complications in T1DM patients.

Effect of timing of levothyroxine administration on the treatment of hypothyroidism: a three-period crossover randomized study.

AIM: Hypothyroidism is a common clinical problem that is successfully treated with hormone substitutes in the form of levothyroxine (LT4). LT4 is a drug with a narrow therapeutic index and is usually administered by strict rules, standardly at least half an hour before breakfast. The aim of this study was to investigate a possible effect of different timings of administration on thyroid function status and lipid profile. METHODS: The study included patients with the diagnosis of primary hypothyroidism, which were using a stable dose of levothyroxine. They were randomized into three different groups regarding the timing of LT4 administration in a crossover fashion. Each timing regimen lasted for at least 8 weeks; timing regimen A-half an hour before breakfast; timing regimen B-an hour before the main meal of the day; timing regimen C-at bedtime (minimally 2 h after dinner). The hormones (TSH, fT3, fT4) and lipid profile (triglycerides, HDL-, LDL-, and total cholesterol) were measured before the study, at the beginning of every timing regimen and at the end of the study. RESULTS: Altogether, 84 patients finished the study. Different timings of LT4 administration were non-inferior in comparison to the standard one and between each other. Median differences in TSH level between baseline and timing regimens were: baseline vs. A = -0.017 95% C.I. (-0.400-0.192); baseline vs. B = -0.325 95% C.I. (-0.562-0.023); baseline vs. C = -0.260 95% C.I. (-0.475-0.000). There were no statistically significant differences in either TSH, fT4, or fT3 when compared between all three timing regimens of LT4 administration and the baseline. There were no statistically significant differences in any of the lipid profile parameters (triglycerides, HDL-, LDL-, and total cholesterol) when compared between all three timing regimens of LT4 administration and the baseline. CONCLUSION: The three investigated timing regimens of LT4 administration were equally efficient and offer additional options regarding the treatment individualization.