Context Alterations in gut microbiota relate to the metabolic syndrome, but have not been examined in at-risk obese youth with polycystic ovary syndrome (PCOS). Objective Compare the composition and diversity of the gut microbiota and associations with metabolic and hormonal measures between 2 groups of female adolescents with equal obesity with or without PCOS. Design Prospective, case-control cross-sectional study. Setting Tertiary-care center. Participants A total of 58 obese female adolescents (n = 37 with PCOS; 16.1 ± 0.3 years of age; body mass index [BMI] 98.5th percentile) and (n = 21 without PCOS; 14.5 ± 0.4 years of age; BMI 98.7th percentile). Outcomes Bacterial diversity, percent relative abundance (%RA), and correlations with hormonal and metabolic measures. Results Participants with PCOS had decreased α-diversity compared with the non-PCOS group (Shannon diversity P = 0.045 and evenness P = 0.0052). β-diversity, reflecting overall microbial composition, differed between groups (P < 0.001). PCOS had higher %RA of phyla Actinobacteria (P = 0.027), lower Bacteroidetes (P = 0.004), and similar Firmicutes and Proteobacteria. PCOS had lower %RA of families Bacteroidaceae (P < 0.001) and Porphyromonadaceae (P = 0.024) and higher Streptococcaceae (P = 0.047). Lower bacterial α-diversity was strongly associated with higher testosterone concentrations. Several individual taxa correlated with testosterone and metabolic measures within PCOS and across the entire cohort. Receiver operative curve analysis showed 6 taxa for which the %RA related to PCOS status and lower Bacteroidaceae conferred a 4.4-fold likelihood ratio for PCOS. Conclusion Alterations in the gut microbiota exist in obese adolescents with PCOS versus obese adolescents without PCOS and these changes relate to markers of metabolic disease and testosterone. Further work is needed to determine if microbiota changes are reflective of, or influencing, hormonal metabolism.
Objective Hepatic steatosis (HS) is common in adolescents with obesity and polycystic ovary syndrome (PCOS). Gut microbiota are altered in adults with obesity, HS, and PCOS, which may worsen metabolic outcomes, but similar data is lacking in youth. Methods Thirty-four adolescents with PCOS and obesity underwent stool and fasting blood collection, oral glucose tolerance testing, and MRI for hepatic fat fraction (HFF). Fecal bacteria were profiled by high-throughput 16S rRNA gene sequencing. Results 50% had HS (N = 17, age 16.2±1.5 years, BMI 38±7 kg/m2, HFF 9.8[6.5, 20.7]%) and 50% did not (N = 17, age 15.8±2.2 years, BMI 35±4 kg/m2, HFF 3.8[2.6, 4.4]%). The groups showed no difference in bacterial α-diversity (richness p = 0.202; evenness p = 0.087; and diversity p = 0.069) or global difference in microbiota (β-diversity). Those with HS had lower % relative abundance (%RA) of Bacteroidetes (p = 0.013), Bacteroidaceae (p = 0.009), Porphyromonadaceae (p = 0.011), and Ruminococcaceae (p = 0.008), and higher Firmicutes:Bacteroidetes (F:B) ratio (47.8% vs. 4.3%, p = 0.018) and Streptococcaceae (p = 0.034). Bacterial taxa including phyla F:B ratio, Bacteroidetes, and family Bacteroidaceae, Ruminococcaceae and Porphyromonadaceae correlated with metabolic markers. Conclusions Obese adolescents with PCOS and HS have differences in composition of gut microbiota, which correlate with metabolic markers, suggesting a modifying role of gut microbiota in HS and PCOS.
Objectives: Pediatric-onset T2D is twice as common in girls vs. boys and is tightly linked with puberty and obesity. Alterations in gut microbiota, specifically the Firmicutes:Bacteroidetes ratio (F:B), may be associated with insulin sensitivity (Si) and may play a role in the pathophysiology of T2D. We aimed to evaluate associations between gut microbiome composition and Si and insulin secretion in obese prepubertal (PP) vs. late-pubertal (LP) girls. Methods: Obese PP (N=9, age 8.5 ±0.8 year, BMIz 2.0±0.5) and LP (Tanner 4-5, N=9, age 13.0±2.0 year, BMIz 2.0±0.5) obese girls underwent stool collection and intravenous glucose tolerance testing after an overnight fast. High-throughput sequencing of the bacterial 16S rRNA gene V3-V4 region was used to profile fecal bacterial communities. Bergman's minimal model was used to estimate Si and insulin secretion (acute insulin response to glucose, AIRg) and disposition index (DI). T-tests assessed group differences in Si, AIRg and DI. Spearman’s correlation examined relationships between microbiota relative abundance (%RA) and Si, AIRg and DI. Results: PP vs. LP girls had significantly higher Si (8.0±1.0 vs. 2.0±0.5 x10-4/min-1/μIU/ml, p<0.001) and DI (3,525 ± 636 vs. 1,687 ± 385 x10-4/min-1, p=0.03). AIRg was not different between PP and LP girls (568 ± 132 vs. 840 ± 174 μIU/ml, p=0.23). F:B ratio related to insulin secretion and DI, (r=-0.32, p=0.20; r=-0.39, p=0.11) but not Si. At the genus level, Si was correlated to Ruminococus and Lachnospira %RA (r=0.53, p=0.02; r=0.50, p=0.036). AIRg was correlated to Peptostreptococcaceae %RA (r=-0.48, p=0.045). DI was correlated with Prevotella and Bifidobacterium %RA (r=0.57, p=0.01; R=- 0.54, p=0.02). Conclusion: These pilot study results suggest possible relationships among the gut microbiome, glucose metabolism, and puberty in girls at risk for T2D that merit further exploration. Disclosure B. Jobira: None. D.N. Frank: None. L. Pyle: None. S. Gross: None. D. Ir: None. W. Pendleton: None. C.E. Robertson: None. K.J. Nadeau: None. M.M. Kelsey: None. Funding University of Colorado Center for Women’s Health; National Institutes of Health/Colorado Clinical Translational Science Award (UL1TR002535)
Background: Viral infections are a well-recognized cause of subacute thyroiditis (SAT), but other etiologies are occasionally seen. Here we present a case of SAT in a patient receiving chronic tumor necrosis factor inhibitor (TNF-i) therapy. Serum thyroglobulin (Tg) levels in healthy individuals have been reported and range 1.40-29.2ng/mL in males and 1.50-38.5ng/mL. There are no known serum Tg levels of reference in SAT. Clinical Case: A 43-year-old woman with a history of psoriasis treated with adalimumab presented to her primary care physician (PCP) 2 months after her mother had noticed the patient’s new goiter. Patient recalled upper respiratory infection symptoms lasting 1.5 weeks, and subsequent agitation, insomnia, and a low-grade fever preceding the development of goiter. She denied neck compressive symptoms aside from mild dysphagia. She has been treated with adalimumab 40mg subcutaneous injection weekly for psoriasis with good results for the past 3.5 years and was on norethindrone 0.35mg daily for contraception. Her thyroid exam with her PCP revealed a diffuse painless goiter and she was clinically euthyroid. Labs revealed a TSH 1.44mIU/L [0.45-5.33], TT3 104ng/dL [60-181], fT3 3.3pg/mL [2.3-4.2], fT4 0.83ng/dL [0.89-1.76], and Tg 288.7ng/mL [1.6-50]. Thyroid antibodies (Tg, thyroid peroxidase and thyroid stimulating immunoglobulin) were negative. She tested negative for COVID-19. The neck ultrasound showed an enlarged pseudonodular thyroid gland with a heterogenous parenchyma and diffuse hypervascularity bilaterally (right lobe, 7.4 x 2.8 x 3.0 cm; left lobe, 8.4 x 3.2 x 3.6 cm; isthmus, 9 mm). A month later, repeat labs showed TSH 1.56 mIU/L, TT3 85 ng/dL, fT4 0.74 ng/dL, and Tg 231.2 ng/mL. She was subsequently referred to Endocrine Clinic 4 months after her initial presentation. She had a persistent diffuse painless goiter, minimally decreased in size, and she remained clinically euthyroid. Labs included a TSH 1.75 mIU/L and fT4 0.78 ng/dL. Conclusion: There are known associations of SAT with chronic TNF-i therapy in patients with psoriasis. Viral infections are an identified cause, but other triggers in chronic TNF-i therapy may exist. Serum Tg is elevated during SAT, but in this case Tg elevation was very significant. Although normal serum Tg levels are established in healthy individuals, there are no known reference values during SAT. Tg levels should not be used in acute illness period to evaluate illness severity or the resolution of SAT.
Title: Combined Oral Contraceptive Treatment Does Not Alter the Gut Microbiome or Serum Metabolomic Profile in Obese Girls with Polycystic Ovary Syndrome Background: The gut microbiome is altered in obese adolescents with polycystic ovary syndrome (PCOS), and is associated with free testosterone, metabolic markers and insulin resistance. Combined oral contraceptives (OCP) are a primary treatment for PCOS and lower testosterone, but it was unknown if they changed the gut microbiome in obese adolescents with PCOS. Objective: Assess the gut microbiome profile, targeted serum metabolomics, hormonal and metabolic measures in adolescents with PCOS and obesity with and without OCP treatment. Methods: Adolescent girls with PCOS and obesity with and without PCOS were recruited from a tertiary referral hospital and underwent stool and fasting blood collection, an oral glucose tolerance test and MRI for hepatic fat fraction. Fecal bacterial were profiled by high throughput 16S rRNA gene sequencing and fasting serum metabolomics performed with mass spectroscopy. Groups were compared with t-tests and correlations performed. Results: Twenty-nine obese adolescents with PCOS [Untreated N=21, 16±1.2 years, BMI%ile 36.5± 3.0; OCP N=8, 15.5±0.9, BMI%ile 32.5±3.9] participated. OCP therapy had lower free testosterone and higher SHBG (p<0.001). Platelets were significantly higher (p=0.01), along with a trend in elevated CRP (p=0.09) in the OCP group. There was no difference in measures of fasting glucose, insulin or lipids. Measures of insulin resistance including HOMA-IR and Matsuda were also similar. Principle components analysis of the serum metabolome was not different between the groups. Girls treated with OCP had similar stool microbiome α-diversity measures of bacterial evenness (p=0.28), bacterial diversity (p=0.15), and global microbial composition (β-diversity, p=0.56). Further, the percent relative abundance (%RA) of the Firmicutes: Bacteroidetes ratio was similar, as well as the %RA at the phyla, family and genus level. Bacterial α-diversity was negatively associated with serum bile acids and branched chain amino acids. A higher %RA of family Ruminococcaceae was significantly associated with serum conjugated bile acids and HOMA-IR. Conclusion: Despite changes in free testosterone and SHBG, adolescent girls with PCOS treated with OCP had similar clinical and gut microbiome profile compared to the untreated PCOS group. The significant association between bacterial α-diversity, Ruminococcaceae, clinical markers and bile acids suggests a potential role of the gut microbiome in the pathogenesis of metabolic syndrome and PCOS.
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