Adults with obesity have a reduction in branched-chain amino acid (BCAA) levels following metabolic and bariatric surgery (MBS), which is hypothesized to contribute to the metabolic advantages of MBS. We examined this relationship in 62 youth 13-24 years old with severe obesity (47 female) over 12 months. Thirty had sleeve gastrectomy (SG) and 32 were non-surgical controls (NS). We measured fasting insulin, glucose, glycated hemoglobin (HbA1c), isoleucine, leucine, and valine concentrations, and post-prandial insulin and glucose, following a mixed meal tolerance test. Twenty-four-hour food recalls were collected. At baseline, groups did not differ in the intake or the serum levels of BCAAs, HbA1C, HOMA-IR, Matsuda index, insulinogenic index, or oral Disposition index (oDI). Over 12 months, SG vs. NS had greater reductions in serum BCAAs, and SG had significant reductions in BCAA intake. SG vs. NS had greater reductions in HbA1c and HOMA-IR, with increases in the Matsuda index and oDI. In SG, baseline leucine and total BCAA concentrations were negatively correlated with the baseline Matsuda index. Reductions in serum leucine were positively associated with the reductions in HOMA-IR over 12 months. These associations suggest a potential role of BCAA in regulating metabolic health. Reducing dietary intake and serum BCAA concentrations may reduce insulin resistance.
Abstract Disclosure: I. Becetti: None. M. Lauze: None. H. Lee: None. M. Bredella: None. M. Misra: None. V. Singhal: None. Introduction: Branched-chain amino acids (BCAAs), isoleucine, leucine and valine, have been linked to obesity, insulin resistance (IR) and risk for type 2 diabetes. Adults with obesity have a reduction in BCAA levels following metabolic and bariatric surgery (MBS), which may contribute to the modulation of metabolic advantages of MBS. We examine for the first time this relationship in youth with moderate-to-severe obesity who underwent sleeve gastrectomy (SG). Objective: To examine changes in dietary intake and serum BCAAs in youth with obesity one-year after SG, and their associations with changes in markers of IR. Methods: 53 youth 13-25 years old with severe obesity (41 females) were followed for a year; 25 had SG and 28 were non-surgical controls (NS). Subjects had fasting glucose and insulin levels and a 24-hour food recall. We assessed baseline and 12-month change within (Wilcoxon signed-rank test) and between (Student’s t-test/Wilcoxon Rank Sum test) groups, and associations between BCAAs and markers of IR (Spearman’s correlation). Results: SG and NS groups were similar for age, sex and race. SG had higher median body mass index (BMI) vs. NS at baseline [45.3 (42.1, 53.7) vs. 41.9 (38.4, 47.1) kg/m2; p=0.02]. At baseline, SG and NS did not differ for intake or serum levels of isoleucine, leucine, valine or total BCAAs. SG and NS groups also did not differ at baseline for glycated hemoglobin (HbA1C) or Homeostatic Model Assessment for Insulin Resistance (HOMA-IR, marker of IR). Over a year, SG vs. NS had greater reductions in BMI, serum isoleucine, leucine, valine and BCAAs (p≤0.02), and SG had significant within group reductions in intake of isoleucine, leucine, valine and BCAAs (p≤0.048). Further, SG vs. NS groups had greater reductions in HbA1c and HOMA-IR (p≤0.007). Serum BCAA levels were not associated with their dietary intake. Baseline HOMA-IR was positively associated with baseline serum levels of leucine (ρ=0.56, p=0.01). Over one year, decreases in HOMA-IR and HbA1c were positively associated with decreases in serum valine (ρ=0.60 and ρ=0.63, p=0.01 and p=0.007, respectively). Associations between changes in HOMA-IR and serum valine held after controlling for BMI (baseline and change) and dietary intake of valine. Conclusion: We demonstrate decreases in BCAA intake and serum levels one-year post-SG in youth with obesity. Associations between BCAAs and IR markers, even after controlling for BMI, suggest a potential role of BCAA in regulating metabolic health. Reducing serum levels of BCAAs may reduce IR. Presentation: Friday, June 16, 2023
Abstract Objective Mechanisms underlying metabolic improvement following metabolic and bariatric surgery (MBS) may provide insight into novel therapies. Vasopressin improves body composition and protects against hypoglycemia. Associations of copeptin, a stable cleavage product of vasopressin, with BMI and insulin resistance suggest an adaptive increase in vasopressin to counteract metabolic disruption. To our knowledge, no study has investigated copeptin before and after MBS in humans. This study's aim was to investigate copeptin changes following MBS and associations with metabolic parameters. Methods This was a 12‐month longitudinal study of 64 youth (78% female; mean age 18.7 [SD 2.8] y) with obesity (mean BMI 45.6 [SD 6.8] kg/m 2 ) undergoing MBS ( n = 34) or nonsurgical (NS) lifestyle management ( n = 30). Fasting copeptin, hemoglobin A1c (HbA1c), homeostatic model assessment for insulin resistance (HOMA‐IR), body composition, and resting energy expenditure (REE) were assessed. Results Over 12 months, copeptin increased more (time‐by‐treatment p = 0.017) whereas HbA1c and adiposity decreased more after MBS than NS ( ps ≤ 0.036). Copeptin changes correlated negatively with percentage fat mass and REE changes (rho ≤ −0.29; p s ≤ 0.025) in the whole group, and they correlated positively with HbA1c and HOMA‐IR (rho ≥ 0.41; false discovery rate–adjusted p = 0.05) and negatively with REE changes (rho = −0.55; false discovery rate–adjusted p = 0.036) in the MBS group. Conclusions Increases in copeptin after weight loss in MBS compared with NS were associated with lower REE and higher HbA1c/HOMA‐IR values. Vasopressin may contribute to MBS‐related metabolic modifications.
Oxytocin (OXT), an anorexigenic hormone, is also bone anabolic. Further, OXT administration results in increases in lean mass (LM) in adults with sarcopenic obesity. We examine, for the first time, associations of OXT with body composition and bone endpoints in 25 youth 13-25 years old with severe obesity who underwent sleeve gastrectomy (SG) and 27 non-surgical controls (NS). Forty participants were female. Subjects underwent fasting blood tests for serum OXT and DXA for areal bone mineral density (aBMD) and body composition. At baseline, SG vs. NS had higher median body mass index (BMI) but did not differ for age or OXT levels. Over 12 months, SG vs. NS had greater reductions in BMI, LM, and fat mass (FM). OXT decreased in SG vs. NS 12 months post-SG. While baseline OXT predicted a 12-month BMI change in SG, decreases in OXT levels 12 months post-SG were not associated with decreases in weight or BMI. In SG, decreases in OXT were positively associated with decreases in LM but not with decreases in FM or aBMD. Loss of LM, a strong predictor of BMD, after bariatric surgery may reduce functional and muscular capacity. OXT pathways may be targeted to prevent LM loss following SG.
This study aimed to assess the differential effects of first-generation (FGA) and second-generation antipsychotics (SGA) on the prevalence of risk factors for metabolic syndrome among mentally ill patients in Qatar. We also wanted to check if there is proper adherence with the guidelines for prescribing antipsychotics and the monitoring of metabolic effects in this population. We collected the available retrospective data (socio-demographic, psychiatric, anthropometric, and metabolic measures) from the records of 439 patients maintained on antipsychotics. The majority were males, married, employed, having a psychotic disorder, and receiving SGA. Patients on SGA showed more obesity, higher BP, and more elevated triglycerides compared to those on FGA. The prevalence of the abnormal metabolic measures was high in this sample, but those on SGA showed a significantly higher prevalence of abnormal body mass index and BP. Obesity and hypertension were common in patients maintained on antipsychotics, especially those on SGA. Polypharmacy was common, and many metabolic measures were not monitored properly in those maintained on antipsychotics. More prospective studies with guided monitoring of the patients' clinical status and metabolic changes are needed to serve better this population of patients.
Abstract The Milestones were initiated by the Accreditation Council for Graduate Medical Education (ACGME) to provide a framework for monitoring a trainee’s progression throughout residency/fellowship. The Milestones describe stepwise skill progression through six core domains of clinical competency: Patient Care, Medical Knowledge, Interpersonal and Communication Skills, Practice-based Learning and Improvement, Professionalism, and Systems-based Practice. Since their introduction in 2013, several barriers to implementation have emerged. Thus, the ACGME launched the Milestones 2.0 project to develop updated specialty-specific milestones. The Pediatric Endocrinology Milestones 2.0 project aimed to improve upon Milestones 1.0 by addressing common limitations, providing resources for faculty to easily incorporate milestones into their assessment of trainees, and adding sub-competencies in health disparities, patient safety, and physician well-being. This paper reviews the development of the Pediatric Endocrinology Milestones 2.0 including the major changes from Milestones 1.0, development of the Supplemental Guide, and how Milestones 2.0 can be applied at the program level. Although use of the Milestones are required only for ACGME programs, the tools provided in Milestones 2.0 are applicable to fellowship programs worldwide.
