Sudarshan Ramachandran1, Geoffrey I Hackett2, Richard C Strange3. 1. Department of Clinical Biochemistry, University Hospitals of North Midlands/Faculty of Health Sciences, Staffordshire University, Staffordshire, England, UK; College of Engineering, Design, and Physical Sciences, Brunel University London, England, UK; Department of Clinical Biochemistry, University Hospitals Birmingham NHS Foundation Trust, West Midlands, England, UK; Institute for Science and Technology in Medicine, Keele University, Staffordshire, England, UK. Electronic address: sud.ramachandran@heartofengland.nhs.uk. 2. Department of Urology, University Hospitals Birmingham NHS Foundation Trust, West Midlands, England, UK; School of Health and Life Sciences, Aston University, Birmingham, England, UK. 3. Institute for Science and Technology in Medicine, Keele University, Staffordshire, England, UK.
Abstract
INTRODUCTION: The age-related fall in male testosterone levels can have clinical consequences. The concentration of serum-free testosterone, the putative bioactive moiety, is mediated by carrier proteins, especially SHBG. AIM: The aim of this study was to consider the nature of hormone binding to carriers with new insights into determining calculated free testosterone levels and review how SHBG and testosterone influence age-related mortality. METHODS: Where possible, we focused on recent literature describing binding of testosterone to carrier proteins or, associations among age, SHBG, testosterone, and mortality. We then used logistic regression to study the impact of SHBG and total testosterone on age-related mortality in men with type 2 diabetes mellitus (T2DM). MAIN OUTCOME MEASURES: The association between mortality and age and SHBG and/or total testosterone was determined in a cohort of 364 men with T2DM leading to a graphical display of the impact of SHBG/testosterone levels on age-related mortality. RESULTS: Low total testosterone and high SHBG are independently associated with increased all-cause mortality. Our analyses support these findings showing that men with T2DM and a combination of total testosterone <12 nmol/L and SHBG >35nmol/L (odds ratio [OR]: 3.05; 95% CI: 1.43-6.53; P = .004) demonstrated an increased risk of mortality, independent of age (OR: 1.08; 95% CI: 1.06-1.11; P < .001). We graphically demonstrated that the risk combination altered the relationship between age and mortality. CONCLUSION: Until free testosterone is precisely, accurately, and conveniently measured, calculated values may provide useful even if somewhat inaccurate estimates. We also suggest that SHBG and testosterone assays are standardized to allow establishment of diagnostic and treatment thresholds. Although it is possible that the association in men with T2DM, among the combination of SHBG and total testosterone and age-related mortality is driven by free hormone levels, it is so far, unproven. Sudarshan Ramachandran, Geoffrey I. Hackett, Richard C. Strange, et al. Sex Hormone Binding Globulin: A Review of its Interactions With Testosterone and Age, and its Impact on Mortality in Men With Type 2 Diabetes. Sex Med Rev 2019;7:669-678. Crown
INTRODUCTION: The age-related fall in male testosterone levels can have clinical consequences. The concentration of serum-free testosterone, the putative bioactive moiety, is mediated by carrier proteins, especially SHBG. AIM: The aim of this study was to consider the nature of hormone binding to carriers with new insights into determining calculated free testosterone levels and review how SHBG and testosterone influence age-related mortality. METHODS: Where possible, we focused on recent literature describing binding of testosterone to carrier proteins or, associations among age, SHBG, testosterone, and mortality. We then used logistic regression to study the impact of SHBG and total testosterone on age-related mortality in men with type 2 diabetes mellitus (T2DM). MAIN OUTCOME MEASURES: The association between mortality and age and SHBG and/or total testosterone was determined in a cohort of 364 men with T2DM leading to a graphical display of the impact of SHBG/testosterone levels on age-related mortality. RESULTS: Low total testosterone and high SHBG are independently associated with increased all-cause mortality. Our analyses support these findings showing that men with T2DM and a combination of total testosterone <12 nmol/L and SHBG >35nmol/L (odds ratio [OR]: 3.05; 95% CI: 1.43-6.53; P = .004) demonstrated an increased risk of mortality, independent of age (OR: 1.08; 95% CI: 1.06-1.11; P < .001). We graphically demonstrated that the risk combination altered the relationship between age and mortality. CONCLUSION: Until free testosterone is precisely, accurately, and conveniently measured, calculated values may provide useful even if somewhat inaccurate estimates. We also suggest that SHBG and testosterone assays are standardized to allow establishment of diagnostic and treatment thresholds. Although it is possible that the association in men with T2DM, among the combination of SHBG and total testosterone and age-related mortality is driven by free hormone levels, it is so far, unproven. Sudarshan Ramachandran, Geoffrey I. Hackett, Richard C. Strange, et al. Sex Hormone Binding Globulin: A Review of its Interactions With Testosterone and Age, and its Impact on Mortality in Men With Type 2 Diabetes. Sex Med Rev 2019;7:669-678. Crown