Testosterone Levels Research Articles

7964 Manipulation of the Gut Microbiome Using Antibiotics Is Associated With Sex-Specific Reductions in Systemic Testosterone Levels in Rats

Abstract Disclosure: G. Parodi: None. G. Leite: None. W. Morales: None. S.R. Weitsman: None. G.M. Barlow: None. M. Sanchez: None. M. Pimentel: None. M. Villanueva-Millan: None. M. Pimentel: None. R. Mathur: None. The gut microbiome has impacts on metabolic endocrine and reproductive functions. It is known that specific bacteria can impact host metabolism by synthesizing, secreting, and/or metabolizing sex-related hormones. However, the impacts of gut bacterial biosynthesis and/or metabolism of steroids on host metabolism and reproduction have not been fully addressed. In this study we challenged the gut microbiome of wild-type male and female rats with broad-spectrum antibiotics and examined the effects on circulating testosterone levels. Methods: Male (M) and female (F) Sprague-Dawley rats (8 weeks old) were housed with phytoestrogen-free bedding and received a phytoestrogen-free diet with water from glass bottles. Rats were given a combination of vancomycin (0.5g/L), ampicillin (1g/L), neomycin (1g/L), and metronidazole (1g/L) in their water for 8 days, and then returned to normal drinking water for another 13 days. Control rats were given normal water throughout the study. Serum and stool samples were collected before the start of antibiotics (baseline), on day 8 of antibiotics (AbxD8), and at 13 days post-removal of antibiotics (PAbxD13). Stool total DNA was extracted with the MagAttract PowerSoil DNA KF kit and quantified on a Qubit. Circulating testosterone levels were analyzed on a Luminex platform. Paired-ANOVA test was used to determine changes in testosterone levels in each group over time. Results: A total of 31 rats (M=16, F=15) received antibiotics, and 28 (M=14, F=14) were controls. Antibiotic exposure resulted in significant decreases in total stool DNA quantity in both male and female exposed rats relative to controls on AbxD8 (P<0.0001), which returned to baseline levels by PAbxD13. Antibiotic exposed male rats had a continuous decrease in testosterone levels throughout the timepoints collected (baseline: 5.78±2.74 ng/mL, AbxD8: 3.11±2.46 ng/mL, PAbxD13: 2.55±1.80 ng/mL, P=0.0027), however, in control male rats, circulating testosterone levels remained stable throughout the timepoints analyzed (baseline: 3.81±1.73 ng/mL, AbxD8: 3.72±1.12 ng/mL, PAbxD13: 3.92±3.38 ng/mL, P=0.49). There was no effect on circulating testosterone levels in female rats, with both groups, control and exposed, following the same cyclical pattern throughout the timepoints analyzed. Conclusions: Antibiotic depletion of the gut microbiome is associated with changes in systemic levels of testosterone in rats. These changes are sex-specific, and only detected in males. These results suggest a potential involvement of the gut microbiome in testosterone metabolism that is sex-specific. Presentation: 6/1/2024

9240 Role Of Genetics In The Age-Related Testosterone Decline In Men: A UK Biobank Study

Abstract Disclosure: L. Ogoniak: None. S. Sandmann: None. J. Varghese: None. A.S. Busch: None. Background: Age-related decline in circulating serum testosterone concentrations is a well-established phenomenon in men. While the decline is partially linked to comorbidities such as obesity, type 2 diabetes (T2D), and cardiovascular disease (CVD), healthy ageing men present with rather stable levels. Recent genetic mapping studies demonstrated a large influence of common genetic variation on testosterone levels in men. However, increasing incidence rates of comorbidities in the ageing population are posing a challenge for the disentanglement of effects. Objective: Our study aims to investigate the genetic component of age-dependent testosterone decline in men. We hypothesize that the decline in testosterone levels in ageing men is primarily influenced by comorbidities, without significant alterations in the genetic architecture of testosterone levels. Material and Methods: We included 6,406 men with baseline and follow-up measurements of circulating serum concentrations of total testosterone (T), bioavailable testosterone (BAT) and sex hormone-binding globulin (SHBG) representing an independent sub-cohort of the UK Biobank study. We 1) assessed the association of baseline levels with the decline in sex steroids and 2) developed and verified polygenic risk score (PRS) models for T, BAT and SHBG based on 183,909 men from the UK Biobank (sub cohorts: 70% base, 15% target and 15% validation, follow-up cohort excluded for PRS development). Results: In the follow-up sub cohort, mean age (SD) at baseline was 58.2 yrs ( 7.5) and mean (SD) follow-up period was 4.3 (1.0) yrs. Mean (SD) BAT at baseline were 5.2 (1.32) nmol/L with a mean (SD) decline of 1.6 (24.4) % at follow-up. Baseline BAT, T and SHBG levels were significantly associated with the relative change of the respective biomarker at follow-up (-7.8, -2.9 and -0.4% per nmol/L, respectively, all p <0.001). After correcting for age at baseline, follow-up period and principal components 1-10, PGSTestosterone and PGSBAT were not associated with relative decline of the respective biomarker (both p = n.s.). Conclusion: Our study did not find evidence supporting a genetic component in the age-related decline of circulating serum T or BAT concentrations. Instead, in accordance to previous observational studies, our results suggest that rather non-genetic factors, e.g. increasing incidence rates of comorbidities, drive the age-related decline in sex steroid levels in men. Our study contributes to understanding the intricate relationship between genetic and non-genetic factors with age-related testosterone decline in men and offers valuable insights for potential interventions targeting age-related hormonal changes and associated health outcomes. Presentation: 6/2/2024

8039 Role Of Genetics In The Age-Related Testosterone Decline In Men: A UK Biobank Study

Abstract Disclosure: L. Ogoniak: None. S. Sandmann: None. J. Varghese: None. A.S. Busch: None. Background: Age-related decline in circulating serum testosterone concentrations is a well-established phenomenon in men. While the decline is partially linked to comorbidities such as obesity, type 2 diabetes (T2D), and cardiovascular disease (CVD), healthy ageing men present with rather stable levels. Recent genetic mapping studies demonstrated a large influence of common genetic variation on testosterone levels in men. However, increasing incidence rates of comorbidities in the ageing population are posing a challenge for the disentanglement of effects. Objective: Our study aims to investigate the genetic component of age-dependent testosterone decline in men. We hypothesize that the decline in testosterone levels in ageing men is primarily influenced by comorbidities, without significant alterations in the genetic architecture of testosterone levels. Material and Methods: We included 6,406 men with baseline and follow-up measurements of circulating serum concentrations of total testosterone (T), bioavailable testosterone (BAT) and sex hormone-binding globulin (SHBG) representing an independent sub-cohort of the UK Biobank study. We 1) assessed the association of baseline levels with the decline in sex steroids and 2) developed and verified polygenic risk score (PRS) models for T, BAT and SHBG based on 183,909 men from the UK Biobank (sub cohorts: 70% base, 15% target and 15% validation, follow-up cohort excluded for PRS development). Results: In the follow-up sub cohort, mean age (SD) at baseline was 58.2 yrs ( 7.5) and mean (SD) follow-up period was 4.3 (1.0) yrs. Mean (SD) BAT at baseline were 5.2 (1.32) nmol/L with a mean (SD) decline of 1.6 (24.4) % at follow-up. Baseline BAT, T and SHBG levels were significantly associated with the relative change of the respective biomarker at follow-up (-7.8, -2.9 and -0.4% per nmol/L, respectively, all p <0.001). After correcting for age at baseline, follow-up period and principal components 1-10, PGSTestosterone and PGSBAT were not associated with relative decline of the respective biomarker (both p = n.s.). Conclusion: Our study did not find evidence supporting a genetic component in the age-related decline of circulating serum T or BAT concentrations. Instead, in accordance to previous observational studies, our results suggest that rather non-genetic factors, e.g. increasing incidence rates of comorbidities, drive the age-related decline in sex steroid levels in men. Our study contributes to understanding the intricate relationship between genetic and non-genetic factors with age-related testosterone decline in men and offers valuable insights for potential interventions targeting age-related hormonal changes and associated health outcomes. Presentation: 6/2/2024

9240 Role Of Genetics In The Age-Related Testosterone Decline In Men: A UK Biobank Study

Abstract Disclosure: L. Ogoniak: None. S. Sandmann: None. J. Varghese: None. A.S. Busch: None. Background: Age-related decline in circulating serum testosterone concentrations is a well-established phenomenon in men. While the decline is partially linked to comorbidities such as obesity, type 2 diabetes (T2D), and cardiovascular disease (CVD), healthy ageing men present with rather stable levels. Recent genetic mapping studies demonstrated a large influence of common genetic variation on testosterone levels in men. However, increasing incidence rates of comorbidities in the ageing population are posing a challenge for the disentanglement of effects. Objective: Our study aims to investigate the genetic component of age-dependent testosterone decline in men. We hypothesize that the decline in testosterone levels in ageing men is primarily influenced by comorbidities, without significant alterations in the genetic architecture of testosterone levels. Material and Methods: We included 6,406 men with baseline and follow-up measurements of circulating serum concentrations of total testosterone (T), bioavailable testosterone (BAT) and sex hormone-binding globulin (SHBG) representing an independent sub-cohort of the UK Biobank study. We 1) assessed the association of baseline levels with the decline in sex steroids and 2) developed and verified polygenic risk score (PRS) models for T, BAT and SHBG based on 183,909 men from the UK Biobank (sub cohorts: 70% base, 15% target and 15% validation, follow-up cohort excluded for PRS development). Results: In the follow-up sub cohort, mean age (SD) at baseline was 58.2 yrs ( 7.5) and mean (SD) follow-up period was 4.3 (1.0) yrs. Mean (SD) BAT at baseline were 5.2 (1.32) nmol/L with a mean (SD) decline of 1.6 (24.4) % at follow-up. Baseline BAT, T and SHBG levels were significantly associated with the relative change of the respective biomarker at follow-up (-7.8, -2.9 and -0.4% per nmol/L, respectively, all p <0.001). After correcting for age at baseline, follow-up period and principal components 1-10, PGSTestosterone and PGSBAT were not associated with relative decline of the respective biomarker (both p = n.s.). Conclusion: Our study did not find evidence supporting a genetic component in the age-related decline of circulating serum T or BAT concentrations. Instead, in accordance to previous observational studies, our results suggest that rather non-genetic factors, e.g. increasing incidence rates of comorbidities, drive the age-related decline in sex steroid levels in men. Our study contributes to understanding the intricate relationship between genetic and non-genetic factors with age-related testosterone decline in men and offers valuable insights for potential interventions targeting age-related hormonal changes and associated health outcomes. Presentation: 6/2/2024

8039 Role Of Genetics In The Age-Related Testosterone Decline In Men: A UK Biobank Study

Abstract Disclosure: L. Ogoniak: None. S. Sandmann: None. J. Varghese: None. A.S. Busch: None. Background: Age-related decline in circulating serum testosterone concentrations is a well-established phenomenon in men. While the decline is partially linked to comorbidities such as obesity, type 2 diabetes (T2D), and cardiovascular disease (CVD), healthy ageing men present with rather stable levels. Recent genetic mapping studies demonstrated a large influence of common genetic variation on testosterone levels in men. However, increasing incidence rates of comorbidities in the ageing population are posing a challenge for the disentanglement of effects. Objective: Our study aims to investigate the genetic component of age-dependent testosterone decline in men. We hypothesize that the decline in testosterone levels in ageing men is primarily influenced by comorbidities, without significant alterations in the genetic architecture of testosterone levels. Material and Methods: We included 6,406 men with baseline and follow-up measurements of circulating serum concentrations of total testosterone (T), bioavailable testosterone (BAT) and sex hormone-binding globulin (SHBG) representing an independent sub-cohort of the UK Biobank study. We 1) assessed the association of baseline levels with the decline in sex steroids and 2) developed and verified polygenic risk score (PRS) models for T, BAT and SHBG based on 183,909 men from the UK Biobank (sub cohorts: 70% base, 15% target and 15% validation, follow-up cohort excluded for PRS development). Results: In the follow-up sub cohort, mean age (SD) at baseline was 58.2 yrs ( 7.5) and mean (SD) follow-up period was 4.3 (1.0) yrs. Mean (SD) BAT at baseline were 5.2 (1.32) nmol/L with a mean (SD) decline of 1.6 (24.4) % at follow-up. Baseline BAT, T and SHBG levels were significantly associated with the relative change of the respective biomarker at follow-up (-7.8, -2.9 and -0.4% per nmol/L, respectively, all p <0.001). After correcting for age at baseline, follow-up period and principal components 1-10, PGSTestosterone and PGSBAT were not associated with relative decline of the respective biomarker (both p = n.s.). Conclusion: Our study did not find evidence supporting a genetic component in the age-related decline of circulating serum T or BAT concentrations. Instead, in accordance to previous observational studies, our results suggest that rather non-genetic factors, e.g. increasing incidence rates of comorbidities, drive the age-related decline in sex steroid levels in men. Our study contributes to understanding the intricate relationship between genetic and non-genetic factors with age-related testosterone decline in men and offers valuable insights for potential interventions targeting age-related hormonal changes and associated health outcomes. Presentation: 6/2/2024

12405 A Severe Case Of Virilization Of Premenopausal Woman Secondary To A Rare Testosterone Producing Sertoli Cell Tumor

Abstract Disclosure: S. Waheed: None. N.J. Vernetti: None. S. Nakhle: None. Introduction: We present a case of a premenopausal woman with elevated testosterone who was diagnosed with an aggressive Sertoli cell tumor of the ovary. Case Description: A 49-year-old multiparous female presented to the clinic with hirsutism and markedly elevated testosterone levels. Her symptoms started a year before the presentation with diffuse alopecia, acne, and increased muscle mass. Last menstrual periods were 3 years, prior to the presentation.Denies any exposure to testosterone herself or indirectly through family. On physical exam, blood pressure 170/122 coarse features, oily skin, and muscular build. She had terminal hair loss and increased hair growth on face and arms. Laboratory data revealed testosterone levels of 9280 ng/dl (reference range premenopausal 18-55 ng/dl), free testosterone > 50 ng/dl (premenopausal0-4.2 ng/dl), LH <0.3 mIU/mL (2.4-12.6 mIU/mL), FSH <0.3 mIU/mL (3.6-12.5 mIU/mL), 17-OHP 2270 ng/dl (15-70 ng/dl), DHEA-S 71 ug/dl (<229 ug/dl), LDL 128 mg/dl, Creatinine 1.29 and hematocrit 56% (34-44.6%). CT abdomen/pelvis showed 10 cm ovarian mass. She underwent Total Abdominal Hysterectomy-Bilateral Salpingo Oophorectomy (TAH-BSO). After the surgery, her testosterone levels normalized and features of hyperandrogenism resolved. Pathology report revealed sex cord stromal tumor Not otherwise specified (NOS) with cellular atypia and possible aggressive behavior. Discussion: Androgen-producing tumors in women are rare neoplasms that can cause secondary virilizing characteristics. Of patients presenting with symptoms of hyperandrogenism, these tumors are found in ∼0.2% of cases. Androgen-producing tumors can arise from the ovary or the adrenal gland. Those arising from the ovary are rare, accounting for <5% of all ovarian tumors. Few cases of steroid cell tumors, not otherwise specified, have been reported in the literature.Testosterone elevation of more than 2 times upper normal limit increases the suspicion for cancer. In our patient, testosterone was 180 times above the normal range for women and 15 times above the normal range for men. With rapid virilization and significant elevation in testosterone, an androgen producing ovarian tumors should be considered. Presentation: 6/2/2024

7778 Factors Predicting Recovery of Hypogonadism in Men with Prolactinoma Treated with Dopamine Agonists

Abstract Disclosure: S. Constantinescu: None. O. Alexopoulou: None. D.M. Maiter: None. Introduction: Recovery of hypogonadism is an important objective of dopamine agonist (DA) treatment in men with prolactinoma. However, the extent, timeline, and predictive factors of gonadotrope axis recovery are still unclear. Methods: We report data from a large cohort of 89 men with prolactinoma, looking at the evolution of testosterone levels after 6 and 12 months of treatment with DA. We excluded patients with peripheral hypogonadism, surgical treatment performed less than 12 months after onset of DA treatment, and patients with small tumors (≤ 5 mm and prolactin ≤ 50 µg/l) who did not achieve tumor shrinkage during treatment. We defined low testosterone as a morning value < 10 nmol/l. Patients who had started testosterone supplementation were considered as having persistent hypogonadism. Results: Among the 89 men (mean age ± SD: 44 ± 14 years; 65/89 with a macroprolactinoma), 14 (16%) had normal initial testosterone levels (NT) and 75 (84%) had low testosterone at diagnosis (LT). Compared to LT, NT patients had significantly lower PRL (median 53 µg/l versus 490 µg/l, p=0.009) and smaller tumors (median 6.5 mm versus 21.2 mm, p=0.013). In the NT group, after 6 (n=11) and 12 months (n=10), testosterone rose from a median of 13.4 to 16.6 (p=0.266) and 17.9 nmol/l (p=0.012), respectively. In LT patients, after 6 (n=56) and 12 months (n=42), testosterone rose significantly from a median of 5.8 to 10.7 (p<0.001) and 12.5 nmol/l (p<0.001).In the LT group, 45% (32/71) had recovered eugonadism at 6 months and 57% (40/70) at 12 months. These proportions rose to 61% (22/36) and 67% (n=26/39) at 6 and 12 months when prolactin concentrations were normalized. Factors associated with persistent hypogonadism after one year were chiasmal compression at diagnosis (p=0.05), cavernous sinus invasion (p=0.042), cystic tumoral component (p=0.038), a greater tumoral diameter (mean 25 mm vs 15 mm, p<0.01), lower testosterone concentrations at diagnosis (mean 3.6 nmol/l vs 6.8 nmol/l, p<0.001) and at 6 months (mean 6.0 nmol/l vs 13.0 nmol/l, p<0.03), and higher prolactin levels at one year (median 17.15 µg/l vs 8.4 µg/l, p=0.064). Testosterone < 6.7 nmol/l at 6 months predicted the long-term persistence of hypogonadism with 72% sensitivity and 92% specificity. Conclusion: The sensitivity of the gonadotrope axis to high prolactin levels is highly variable in men with prolactinoma and 16% of them retain normal testosterone concentrations. However, this finding does not exclude partial inhibition of the gonadotrope axis that will improve with DA treatment. In patients with low testosterone levels, the recovery rate of hypogonadism is 45% at 6 months and 57% at 12 months, increasing to 67% if prolactin is normalized. Testosterone supplementation could be started early in patients with large, invasive, cystic and/or compressive tumors, with a testosterone concentration lower than 6.7 nmol/L after 6 months of treatment. Presentation: 6/3/2024

9208 Sex Hormones and Abdominal Muscle Area and Radiodensity in Men: A Multi-Ethnic Study of Atherosclerosis

Abstract Disclosure: A. Osmancevic: None. M. Allison: None. I. Miljkovic: None. C. Vella: None. P. Ouyang: None. P. Trimpou: None. B. Daka: None. Context: Information on the associations of testosterone, estradiol and sex hormone binding globulin (SHBG) levels with abdominal muscle volume and quality in men are unclear. Objective: To investigate the association between fasting serum sex hormones and CT-derived abdominal muscle area and radiodensity in adult men. Design: Cross sectional observational study using data from the Multi-Ethnic Study of Atherosclerosis. Participants: A community-based sample of 907 men aged 45-84 years; 878 men with complete data were included in the analysis. Main Outcome Measure(s): CT scans of the abdomen were interrogated for muscle characteristics. Multivariable linear regressions were used to test the associations. Results: After adjustment for age, race/ethnicity, visceral fat, CRP, lifestyle factors, comorbidities and medicine use, higher levels of both total testosterone and estradiol, but not SHBG, were associated with higher abdominal muscle area (B= 1.79, 95% CI 0.1 to 3.4, & B=1.79, 95% CI 0.4 to 3.2, respectively). After the same adjustment, levels of total testosterone showed a significant positive association (B= 0.3, 95% CI 0.0 to 0.6), while a significant inverse relationship was observed for SHBG with abdominal muscle radiodensity (B=-0.34, 95% CI -0.6 to -0.1). Conclusion: Our results indicate significant associations between sex hormones and abdominal muscle characteristics in men from several different race/ethnic groups. These findings reveal novel insights into the previously unrecognized role that SHBG may play in skeletal muscle adipose tissue distribution. Presentation: 6/2/2024

7896 Sex Hormones and Abdominal Muscle Area and Radiodensity in Men: A Multi-Ethnic Study of Atherosclerosis

Abstract Disclosure: A. Osmancevic: None. M. Allison: None. I. Miljkovic: None. C. Vella: None. P. Ouyang: None. P. Trimpou: None. B. Daka: None. Context: Information on the associations of testosterone, estradiol and sex hormone binding globulin (SHBG) levels with abdominal muscle volume and quality in men are unclear. Objective: To investigate the association between fasting serum sex hormones and CT-derived abdominal muscle area and radiodensity in adult men. Design: Cross sectional observational study using data from the Multi-Ethnic Study of Atherosclerosis. Participants: A community-based sample of 907 men aged 45-84 years; 878 men with complete data were included in the analysis. Main Outcome Measure(s): CT scans of the abdomen were interrogated for muscle characteristics. Multivariable linear regressions were used to test the associations. Results: After adjustment for age, race/ethnicity, visceral fat, CRP, lifestyle factors, comorbidities and medicine use, higher levels of both total testosterone and estradiol, but not SHBG, were associated with higher abdominal muscle area (B= 1.79, 95% CI 0.1 to 3.4, & B=1.79, 95% CI 0.4 to 3.2, respectively). After the same adjustment, levels of total testosterone showed a significant positive association (B= 0.3, 95% CI 0.0 to 0.6), while a significant inverse relationship was observed for SHBG with abdominal muscle radiodensity (B=-0.34, 95% CI -0.6 to -0.1). Conclusion: Our results indicate significant associations between sex hormones and abdominal muscle characteristics in men from several different race/ethnic groups. These findings reveal novel insights into the previously unrecognized role that SHBG may play in skeletal muscle adipose tissue distribution. Presentation: 6/2/2024

9208 Sex Hormones and Abdominal Muscle Area and Radiodensity in Men: A Multi-Ethnic Study of Atherosclerosis

Abstract Disclosure: A. Osmancevic: None. M. Allison: None. I. Miljkovic: None. C. Vella: None. P. Ouyang: None. P. Trimpou: None. B. Daka: None. Context: Information on the associations of testosterone, estradiol and sex hormone binding globulin (SHBG) levels with abdominal muscle volume and quality in men are unclear. Objective: To investigate the association between fasting serum sex hormones and CT-derived abdominal muscle area and radiodensity in adult men. Design: Cross sectional observational study using data from the Multi-Ethnic Study of Atherosclerosis. Participants: A community-based sample of 907 men aged 45-84 years; 878 men with complete data were included in the analysis. Main Outcome Measure(s): CT scans of the abdomen were interrogated for muscle characteristics. Multivariable linear regressions were used to test the associations. Results: After adjustment for age, race/ethnicity, visceral fat, CRP, lifestyle factors, comorbidities and medicine use, higher levels of both total testosterone and estradiol, but not SHBG, were associated with higher abdominal muscle area (B= 1.79, 95% CI 0.1 to 3.4, & B=1.79, 95% CI 0.4 to 3.2, respectively). After the same adjustment, levels of total testosterone showed a significant positive association (B= 0.3, 95% CI 0.0 to 0.6), while a significant inverse relationship was observed for SHBG with abdominal muscle radiodensity (B=-0.34, 95% CI -0.6 to -0.1). Conclusion: Our results indicate significant associations between sex hormones and abdominal muscle characteristics in men from several different race/ethnic groups. These findings reveal novel insights into the previously unrecognized role that SHBG may play in skeletal muscle adipose tissue distribution. Presentation: 6/2/2024

8711 The Effect of Testosterone Therapy Upon Bone Remodelling in Testosterone Deficient APOE-/- Mice Fed a High Fat Diet

Abstract Disclosure: A. Williamson: None. L. Bateman: None. C. LeMaitre: None. T.H. Jones: None. N. Aberdein: None. D.M. Kelly: None. Introduction: Low testosterone can lead to bone loss in males, but the mechanisms are not fully characterised. This study investigates the effects of testosterone depletion, and subsequent testosterone treatment on parameters of bone remodeling in a murine model of cardiometabolic disease. Methods: At 8 weeks of age, high-fat diet-fed ApoE-/- mice were randomised into three groups: sham surgery + placebo treatment (control, n=9), orchidectomy + placebo treatment (n =8), and orchidectomy + testosterone treatment (n=10). 25 week old mice were sacrificed and tissues collected for analysis. Left tibiae were decalcified, paraffin embedded and sectioned prior to immunostaining of bone turnover markers including receptor activator of nuclear factor κB ligand (RANKL), Osteoprotegerin (OPG), runx2, Alkaline Phosphatase (ALP), adiponectin and marrow lipid content. Right tibiae underwent mechanical 3-point bend testing at 0.05mm/s using a CellScale Univert. Results: µCT demonstrated a significant decrease in trabecular bone volume, number, and bone mineral density (BMD) and increased trabecular thickness in orchidectomised mice compared to controls. These parameters returned to control levels in testosterone treated orchiectomised mice. No significant differences were observed in cortical bone. Lipid deposition within the bone marrow was significantly increased in testosterone deficient mice compared to testosterone replete mice. No significant differences in ALP immunopositivity were detected between groups, and runx2 was significantly decreased in orchiectomised mice treated with testosterone compared to controls. The ratio of RANKL/OPG immunopositivity was significantly increased in testosterone deficient mice compared to testosterone replete mice. 3-point bending demonstrated no significant differences in maximal force between groups despite a downward trend in orchiectomised groups compared to controls. Osteoclast number quantified from TRAP-stained sections was not different between groups. Discussion: Testosterone depletion accelerates trabecular bone loss, mediated by increased osteoclastogenesis via the RANKL/OPG pathway and increased bone marrow adiposity, an effect reversed by testosterone treatment. While this study highlights the benefits of testosterone upon trabecular bone health in male mice these changes may not alter fracture risk as 3-point-bend maximal force was not affected. Presentation: 6/2/2024

12333 46 XX/XY Chimerism - Positive NIPT And Post-natal Karyotype Is It Real?

Abstract Disclosure: K.L. Del Rosario: None. N. Sheriden: None. N. Vijayakanthi: None. Introduction: Non-Invasive Prenatal Testing(NIPT) using cell free fetal DNA in plasma of pregnant women has become a routine part of prenatal care in screening for fetal aneuploidies including sex chromosome abnormalities in most regions around the world. False positive results are increasingly imposing challenges in pre-natal as well as post-natal care. Case Discussion: We report a neonate born at 32+2 weeks gestation to a 42-year-old G2 P2 mother. Pregnancy was complicated by insulin dependent maternal type 2 diabetes mellitus, maternal chronic hypertension and a positive NIPT for high-risk monosomy X. Prenatal ultrasound showed male anatomy. Interestingly on physical exam after birth, the neonate had typical male external genitalia with bilateral normal male gonads. Chromosome analysis done immediately after birth revealed the presence of two cell lines: 40 of the 50 cells (80%) had a normal female 46 XX karyotype and 10 of the 50 cells (20%) had a normal male 46 XY karyotype. These findings could be due to reabsorbed twin, Klinefelter syndrome with two trisomy rescue events, maternal cell contamination or true chimerism. In addition, fluorescence in situ hybridization (FISH) analysis for X and Y probes revealed the presence of two cell lines. The first cell line (70% of the cells) had two hybridization signals for chromosome X and the second cell line (∼25% of the cells) had one hybridization signal for chromosome X and one for chromosome Y. Postnatal ultrasound showed normal testicles with no evidence of Mullerian structures. Newborn screening was negative for congenital adrenal hyperplasia (CAH). Genetics was consulted and recommended repeat chromosomal analysis, parental testing to determine sex chromosome segregation, and follow-up with pediatric endocrinology. Repeat cytogenetic testing at 2 weeks of life resulted in a normal male chromosome complement of 46,XY. Previous abnormal cytogenetics were thought to be due to maternal cell contamination. Further endocrine labs showed LH(1.16 uIU/ml) and testosterone levels ( 87 ng/dL), appropriate levels for age indicating normal Hypothalamic Pituitary Gonadal (HPG) axis and testicular Leydig cell function. Since the family was previously counseled regarding the concept of maternal cell contamination, they expressed understanding and were happy with the update of the normal karyotype result. Conclusion: False-positive results concerning for rare chimerism on NIPT can occur and should prompt a thorough history, physical exam, ultrasound studies and repeat testing to confirm its presence. Careful consideration should be taken when counseling family about the implications of these results, especially communication about gender assignment of the infant. Presentation: 6/3/2024

6629 Pure Androgen Secreting Adrenal Adenoma In A Premenopausal Woman

Abstract Disclosure: S. Syed: None. Background: Pure androgen secreting adrenal adenomas are extremely rare; most of the reported cases occur in post-menopausal women, with significant virilization of acute onset and are usually malignant. Here we present a case of an androgen secreting adrenal adenoma found in a young female with regular menstrual cycles and hirsutism. Clinical Case: A 27-year-old female with no significant past medical history was referred to Endocrinology clinic for evaluation of elevated testosterone level noted on a routine OBGYN exam. Patient had miscarriage six months prior to initial endocrine clinic visit. She had a routine follow up visit with her gynecologist after miscarriage and noted to have mild male pattern hair growth on her chin, worse after stopping birth control pills two years ago. Patient had menarche at 14 years of age and had regular menstrual cycle until started birth control pills. The skin examination revealed coarse male pattern hair on chin. Scattered acne was present on back. No signs of hypercortisolism were present. Labs done at time of initial consultation showed unremarkable comprehensive metabolic panel, thyroid and gonadotropic hormones. Testosterone was elevated at 122ng/dl (0-75ng/dl). Pelvic ultrasound done in the year prior showed normal uterus and adnexal structures. Further work up showed elevated DHEAS 781 µg/dL (18-391 µg/dL) and normal 17 OH progesterone and androstenedione levels. MRI abdomen with and without contrast done at outside facility showed a 4 cm x 3.3 cm x 4.1 cm well-circumscribed round shaped, mildly heterogeneously enhancing mass arising from right adrenal gland, with restricting diffusion, no signal dropout in out-of-phase imaging. Normal ovaries were noted. Given the large size of lesion, adrenalectomy was recommended. Patient underwent laparoscopic right adrenalectomy. The histologic features on pathology specimen were consistent with an adrenal cortical adenoma. No evidence of malignancy was seen (based on modified Weiss criteria). 3 weeks post op labs showed Testosterone level reduced to 19 ng/dl (0-75ng/dl) and DHEAS 138 ug/dl (18-391 µg/dL). Patient is recovering from recent childbirth. Conclusion: In adults, pure androgen secreting adrenal tumors are extremely rare. Diagnosis of malignancy is made with histopathological examination and Weiss score calculation. Our patient has unique presentation of having mild hirsutism in setting of regular menstrual cycles with no other symptoms of virilization and is noted to have unexpectedly large adrenal adenoma. Given the size of adenoma, there was concern for adrenal cortical carcinoma, however histological examination was consistent with a benign lesion. Presentation: 6/1/2024

7472 Estrogen Monotherapy for Testosterone Suppression in Gender Diverse Patients

Abstract Disclosure: C. Zhou: None. Q. Jones: None. S. Kokosa: None. C. Kelley: None. Background: For gender diverse individuals assigned male at birth (AMAB), gender-affirming hormone therapy consists of estrogen in combination with anti-androgen medications. Exogenous estrogen use results in the development of feminine secondary sex characteristics while indirectly decreasing testosterone. Anti-androgens such as spironolactone, leuprolide, finasteride, or dutasteride work to further suppress testosterone with successful suppression levels <50ng/dL. However, use of these agents increases the risk of adverse side effects like hyperkalemia, polyuria, and orthostatic hypotension, thus is not suitable for everyone. Anecdotally, estrogen monotherapy has been sufficient in reducing testosterone levels to goal in some patients, however at this time there are no known studies which evaluate estrogen monotherapy and suppression of testosterone. The purpose of this study is to retrospectively review estrogen formulations and dosages in patients who have adequate testosterone suppression in the absence of anti-androgen medications. Methods: The study was a retrospective chart review of adult patients ages 18- 84.99 AMAB receiving gender-affirming estrogen between 9/2020 and 12/2023 seen within an endocrine clinic at a single academic institution. Patients younger than 18, those receiving anti-androgen medications, and those with history of orchiectomy were excluded from the study. Charts were reviewed for estrogen formulations and dosages and total serum testosterone levels. Retrospective chart review will continue with additional data expected in 2024. Results: Ten patients between the ages of 19-81 met the inclusion criteria. Of these, 7 patients identified as transfeminine and 3 identified as nonbinary. The 3 patients who identified as non-binary were not included in analysis as their treatment goals may not align with full feminization or testosterone suppression (total serum testosterone <50ng/dL). Testosterone suppression from estrogen monotherapy was achieved in 100% (n=7) of the transfeminine patients when serum estradiol was >100pg/mL. In those who achieved testosterone suppression, 5 used injectable formulations (estradiol valerate 4-6mg weekly) and 2 used transdermal patches (range of estradiol from 0.2mg twice weekly to 0.3mg three times weekly). Conclusions: Estrogen monotherapy may be effective in suppressing testosterone without the need for anti-androgen medications. So far, this was noted most commonly with use of injectable estrogen formulations. A limitation of the study is the small sample size, however ongoing data collection is anticipated. Additional research evaluating estrogen monotherapy and testosterone suppression is needed and has potentially significant implications for simplified treatment protocols for transfeminine patients. Presentation: 6/2/2024

7709 Ovotesticular Difference of Sex Development: Prognostic Evaluation, Sex Assignment, and Ethics

Abstract Disclosure: X. Xu: None. Y. Lin: None. B. Shivanna: None. A. Lee: None. J.C. Hakim: None. D.G. Mann: None. L.M. Noll: None. P. Georgiadis: None. S.K. Gunn: None. L.P. Karaviti: None. Background: Our case provides the identification and management of a newborn baby with ovotesticular syndrome, which was formerly known as true hermaphroditism. The term was classically derived from Greek mythology in which the deity 'Hermaphroditus', merging with the nymph Salamis, embodied both male and female attributes. The term 'true hermaphroditism' is now avoided due to its stigmatizing connotations. Ovotesticular difference of sex development (DSD) is an exceedingly rare condition, occurring in fewer than 1 in 20,000 births. This condition involves the coexistence of functional ovarian and testicular tissue within one individual, presenting a challenge in sex assignment due to unpredictable gender development. Clinical Case: This is a single case of the presence of ovarian and testicular differentiation on one side and a transitional zone of mixed pattern. Prenatal genetic testing consistent 46,XX karyotype. Initial ultrasound at the outside hospital revealed a uterus and right testicle. The baby exhibited Prader stage 4 genitalia, with a palpable gonad in the right labioscrotal area and the left gonad not palpable. Prophylactic hydrocortisone was started due to concerns regarding NR5A1/SF1 mutation. Further evaluations, including genetic tests, hormonal assessments, urinalysis and kidney ultrasound for the WT1 mutation, and scrotal and pelvic ultrasounds, were conducted. The high-dose ACTH stimulation test ruled out adrenal insufficiency. The testosterone level was in the male range, and the HCG stimulation test further confirmed functioning Leydig cells. The postnatal karyotype was 46,XX, and chromosome microarray analysis showed no abnormalities. Our approach to this case was multidisciplinary, including our endocrine experts, urologist, gynecologist, ethicist, and psychologist. We discussed the fluidity of sex assignment and addressed the degree of virilization, nature of the gonadal tissue, and emphasized the necessity of regular clinical follow-up. Our main concern was to educate the parents and protect the choices of the child. In this case, the child assumed a male sex assignment, as a result of the decision-making process between our team and the parents. In this context we did emphasize the fluidity of sex assignment. Clinical Lesson: Long-term outcomes for ovotesticular DSD remain understudied. Existing reports highlight varying rates of gender dysphoria, sexual function, and psychological well-being. Our approach to managing ovotesticular DSD involved a framework emphasizing ethical considerations and parental involvement. We advocated for and practiced a shared decision-making model involving healthcare providers, parents, and ultimately the patient. Presentation: 6/3/2024

7135 Changes in 11-oxygenated androgens in healthy prepubertal children from ages 4, 6, to 8 years: a prospective cohort study

Abstract Disclosure: Y. Lee: None. K. Lee: None. J. Kim: None. Y. Lim: None. J.I. Kim: None. B. Kim: None. Y. Hong: None. J. Song: None. C. Shin: None. Y. Lee: None. Background: 11-oxygenated androgens (11-oxyandrogens) have been recognized for their important role in adrenarche or androgen excess conditions. However, the trajectory during childhood remains understudied. Herein, we examined the longitudinal changes in 11-oxyandrogens among healthy prepubertal children. Methods: In an ongoing prospective cohort study, 172 prepubertal children with available blood samples at the ages of 4, 6, and 8 years were included. Serum concentrations of 14 adrenal androgens and precursors, including dehydroepiandrosterone (DHEA), DHEA-sulfate (DHEAS), androstenedione (A4), testosterone (T), 11β-hydroxyandrostenedione (11OHA4), 11-ketoandrostenedione (11KA4), 11β-hydroxytestosterone (11OHT), and 11-ketotestosterone (11KT) were assessed using liquid chromatography-tandem mass spectrometry. Repeated measures ANOVA was used to analyze the changes in adrenal androgens across age groups. Linear mixed model analysis was used to evaluate factors associated with adrenal hormone levels during 4 to 8 years of age. Results: Among 172 prepubertal children (107 boys, 65 girls), 11OHA4 was the predominant 11-oxyandrogen, exceeding concentrations of DHEA or A4. Serum 11KT level was higher than testosterone level from 6 years of age. Across age 4, 6, and 8 years, 11-oxyandrogens showed an increasing trend. Trajectories of 11OHA4, 11KA4, and 11KT significantly differed by sex (p for interaction < 0.05). Serum levels of 11OHA4 and 11KT consistently increased from 4, 6, to 8 years in both sexes, while 11OHT increased during 6-8 years (p < 0.05 for all). Serum 11KA4 levels increased during 4-6 years in boys and 6-8 years in girls (p < 0.05 for all). Girls showed higher levels of 11OHA4, 11KA4 at 4 years, 11OHT at 6 years, and 11KT at 4 and 6 years. Regarding classic adrenal androgens, DHEA, DHEAS, and A4 also exhibited increases in different patterns between sexes (p for interaction < 0.05) during 4-8 years. Girls had higher serum DHEA and A4 levels at 4 and 6 years, and DHEAS levels at 4 years (p < 0.05 for all). In boys, lower gestational age, lower birth weight z-score, and higher body mass index (BMI) z-score were correlated with elevated levels of DHEA and DHEA-S. Additionally, a higher BMI z-score was associated with increased levels of A4, 11OHT, and 11KT (p < 0.05 for all, multivariable models). In girls, a higher BMI z-score was linked to elevated DHEA levels, while a higher birth weight z-score was associated with increased A4 levels (p < 0.05 for all, multivariable models). Conclusion: In prepubertal children, 11-oxyandrogens showed increasing patterns similar to classic androgens, with sex-differences. Some 11-oxyandrogens were more predominant than classic androgens. This study suggests the importance of 11-oxyandrogens as biomarkers for zona reticularis development and adrenarche in prepubertal children. Presentation: 6/3/2024

7472 Estrogen Monotherapy for Testosterone Suppression in Gender Diverse Patients

Abstract Disclosure: C. Zhou: None. Q. Jones: None. S. Kokosa: None. C. Kelley: None. Background: For gender diverse individuals assigned male at birth (AMAB), gender-affirming hormone therapy consists of estrogen in combination with anti-androgen medications. Exogenous estrogen use results in the development of feminine secondary sex characteristics while indirectly decreasing testosterone. Anti-androgens such as spironolactone, leuprolide, finasteride, or dutasteride work to further suppress testosterone with successful suppression levels <50ng/dL. However, use of these agents increases the risk of adverse side effects like hyperkalemia, polyuria, and orthostatic hypotension, thus is not suitable for everyone. Anecdotally, estrogen monotherapy has been sufficient in reducing testosterone levels to goal in some patients, however at this time there are no known studies which evaluate estrogen monotherapy and suppression of testosterone. The purpose of this study is to retrospectively review estrogen formulations and dosages in patients who have adequate testosterone suppression in the absence of anti-androgen medications. Methods: The study was a retrospective chart review of adult patients ages 18- 84.99 AMAB receiving gender-affirming estrogen between 9/2020 and 12/2023 seen within an endocrine clinic at a single academic institution. Patients younger than 18, those receiving anti-androgen medications, and those with history of orchiectomy were excluded from the study. Charts were reviewed for estrogen formulations and dosages and total serum testosterone levels. Retrospective chart review will continue with additional data expected in 2024. Results: Ten patients between the ages of 19-81 met the inclusion criteria. Of these, 7 patients identified as transfeminine and 3 identified as nonbinary. The 3 patients who identified as non-binary were not included in analysis as their treatment goals may not align with full feminization or testosterone suppression (total serum testosterone <50ng/dL). Testosterone suppression from estrogen monotherapy was achieved in 100% (n=7) of the transfeminine patients when serum estradiol was >100pg/mL. In those who achieved testosterone suppression, 5 used injectable formulations (estradiol valerate 4-6mg weekly) and 2 used transdermal patches (range of estradiol from 0.2mg twice weekly to 0.3mg three times weekly). Conclusions: Estrogen monotherapy may be effective in suppressing testosterone without the need for anti-androgen medications. So far, this was noted most commonly with use of injectable estrogen formulations. A limitation of the study is the small sample size, however ongoing data collection is anticipated. Additional research evaluating estrogen monotherapy and testosterone suppression is needed and has potentially significant implications for simplified treatment protocols for transfeminine patients. Presentation: 6/2/2024

8309 Injectable Estradiol Dosing Regimens; A Retrospective Review of Hormone Therapy for Gender-Diverse Adults Assigned Male at Birth

Abstract Disclosure: M. Kanin: None. M. Slack: None. R. Patel: None. K. Chen: None. N. Jackson: None. K. Williams: None. S. Grock: None. Introduction: Many gender incongruent individuals assigned male at birth (AMAB) seek hormone therapy to achieve physical and emotional changes. Hormone therapy typically includes estradiol, with or without an anti-androgen. However, limited data with relatively weak justifications support the currently recommended regimens. In particular, dosing schedules for injectable estradiol can vary considerably. UCSF guidelines recommend initiating estradiol valerate at 5 mg parenterally weekly or estradiol cypionate 2 mg weekly. Endocrine Society Guidelines recommend estradiol valerate or cypionate parenterally 5-30 mg every 2 weeks or 2-10 mg weekly. Our clinical observations led to the concern that current guideline-based dosing of injectable estradiol can result in supratherapeutic estradiol levels. Thus, we designed a retrospective cohort study to evaluate injectable estradiol dosing requirements for gender diverse individuals at our institution. Hypothesis: We hypothesize that low dose estradiol injections can lead to therapeutic estradiol levels (100-200 pg/mL) and suppressed testosterone (<50 ng/dL). Design: We performed a retrospective cohort study of gender diverse individuals AMAB aged 18-89 who were newly prescribed injectable estradiol by a single clinic from January 2017 to March 2023. Exclusion criteria included history of orchiectomy or estradiol use within the previous six months. Patients were identified using structured query language to extract data from our institution’s electronic health record system. A total 33 patients were identified, 29 of whom were eligible for inclusion. Data was collected for 15 months after estradiol initiation. Results: All individuals were prescribed estradiol valerate except for 1 who was prescribed estradiol cypionate. Estradiol dose ranged from 2.5 to 10 mg weekly and an average initial dose of 4.26 mg weekly. Mean initial estradiol level obtained while on treatment for at least 30 days was 349.8 pg/mL, which is supratherapeutic. Mean initial testosterone level was 25.3 ng/dL, which is suppressed. Mean estradiol dose at completion of data collection was 3.68 mg with a mean final estradiol level of 245.2 pg/mL. Testosterone levels reached less than 50 ng/dL for everyone in the sample with a mean final testosterone of 23.3ng/dL despite significant reductions in estradiol dose (change=-0.58 mg per week, p=0.001) Conclusion: Our study demonstrates lower dosages of estradiol can be used to achieve therapeutic estradiol levels in gender incongruent patients seeking estrogen therapy. Using lower dosages can avoid supratherapeutic estradiol levels and the associated risks. Further prospective studies are needed with the aim to reevaluate current guideline dosing recommendations for injectable estradiol. Presentation: 6/2/2024

6874 A Rare Case Of Hereditary 1,25 (OH)2D Resistant Rickets

Abstract Disclosure: G. Umarji: None. F. Thelmo: None. S.A. Jabbour: None. Vitamin D-dependent rickets type 2A (VDDR2A) also known as hereditary 1,25 (OH)2D resistant rickets is due to biallelic loss-of-function mutations in the gene encoding vitamin D receptor on chromosome 12q13.11, thus, it represents a true form of tissue resistance to vitamin D. It is a scarce form of rickets with approximately only 120 cases reported. A 37-year-old male was referred to endocrinology by neurosurgery for evaluation of metabolic bone disease. Seven years ago, he was in a car accident which resulted in a lumbar spine injury causing radiculopathy and severe low back pain leading to lumbar spine decompression/fusion. However, he suffered from nonunion of bones and had to undergo another surgery a year later with recurrent postoperative nonunion of bones. During the operation, the surgeon noticed that his spine seemed demineralized. He had a history of multiple minor fractures in childhood, decreased hearing in left ear for two years, fragile teeth for many years, and some hair loss since age 30. Physical exam showed a height of 1.82 m, weight 89.3 kg with body mass index of 26 kg/m2, broken teeth, no leg bowing and normal stance. Laboratory results showed normal renal function, thyroid function tests and testosterone level, corrected calcium 8.3 mg/dL (8.7-10.2), 25-OH-vitamin D 54 ng/mL (30-100), phosphorus 2.8 mg/dL (2.8-4.1), intact parathyroid hormone 65 pg/mL (15-65), bone-specific alkaline phosphatase 21 mcg/L (4-27), 24-hour urine calcium 156 mg/day (100-300), 24-hour urine phosphorus 1,752 mg/day (390-1,425), FGF-23: 93 RU/mL (44-215) and 1,25 (OH)2D 92 pg/mL (24-81.5). Dual absorptiometry of the lumbar spine and hip showed osteopenia with Z scores of -2.2 and -1.2 respectively. Genetic testing for metabolic bone disease panel showed heterozygous mutation in VDR gene at nucleotide position c.146+9dup associated with autosomal recessive VDDR2A. We present a very rare form of vitamin D resistant rickets. As many patients with VDDR2A are unable to respond to any form of vitamin D, it is suggested that VDDR2 be more appropriately described as hereditary 1,25 (OH)2D resistant rickets (HVDRR), hereditary resistance to 1,25 (OH)2D, or even pseudovitamin D-deficiency type IIA (PDDR IIA). Clinical features include severe rickets, bone pain, hypotonia, dental caries and alopecia. Biochemical features include hypocalcemia, hypophosphatemia, normal to elevated alkaline phosphatase, normal 25(OH)D and importantly, elevated 1,25-(OH)2D levels. Management is with high doses of calcium and vitamin D therapy. While rare, this disease highlights the need for a comprehensive evaluation of metabolic bone diseases and a thorough understanding of calcium and vitamin D metabolism. Presentation: 6/2/2024

6450 Leydig Cell Tumor: A Rare Cause of Post-menopausal Hyperandrogenism

Abstract Disclosure: R. Nakdali: None. S. Athimulam: None. Introduction: Ovarian steroid cell tumors are a rare subtype of sex-cord stromal tumors. Leydig cell tumors is a subtype of sex-stromal tumors that is found in < 1% of all ovarian tumors. They are typically benign, unilateral, and secrete androgens which causes virilization. Below we present the case of a postmenopausal woman who presented with signs of virilization and was diagnosed with an ovarian Leydig cell tumor. Case: A 62-year-old postmenopausal woman, with a history of partial hysterectomy with right oophorectomy presented to Endocrinology clinic for evaluation of thyroid nodules. However, clinically she had signs of virilization noted by the provider on examination. She reported progressive androgenic alopecia, cystic acne, oily skin, hoarseness of voice and hirsutism, with increase hair growth over upper lip, chin and jaw line requiring daily shaving. She denied taking any supplements. She reported embarrassment of these physical changes and prior providers had attributed this to aging, therefore not prompting further testing. This caused significant emotional distress to the patient, leading to isolation. Biochemical testing confirmed elevated bioavailable testosterone (193.1 ng/dL) and total testosterone levels (579 ng/dL), with no evidence of hypercortisolemia. Magnetic resonance imaging (MRI) revealed a heterogenous soft tissue mass (2.9 x 2.1 x 2.1 cm) in the left ovary. She underwent a left salpingo-oophorectomy and pathology confirmed a well-differentiated 2.4 cm Leydig cell tumor. Post-operatively, she reported improvement in facial and body hirsutism, reduced shaving frequency decrease in androgenic hair loss, with noticeable hair growth in her frontal scalp, and her skin became less oily with reduced acne. Post-operative labs confirmed cure of hyperandrogenism (Bioavailable testosterone < 2.6 ng/dL; Total testosterone: < 10ng/dL; and Free androgen index < 0.5%). She has been referred to genetics for evaluation. Discussion: Post-menopausal hyperandrogenism poses a diagnostic challenge as it can be mistaken for hormonal imbalances seen with aging. Often times, patients do not report symptoms due to embarrassment unless specifically addressed by provider. Initial testing consists of total and free testosterone and dehydroepiandrosterone sulfate (DHEAS) levels to assess the source of hyperandrogenism. Ruling out hypercortisolemia and assessment for ingestion of testosterone or DHEA supplements is vital. Pelvic ultrasound or cross-sectional imaging (CT or MRI) of abdomen and pelvis can identify structural abnormalities in the ovaries or adrenal glands. Prompt evaluation and management can alleviate significant distress to the patient. Leydig cell tumors represent a rare but important consideration in the differential diagnosis of postmenopausal hyperandrogenism, such as in our patient. Presentation: 6/2/2024