The Relationship between Sex Hormones and Bone Turnover Markers in Adult Men.
- Author:
Won Joo CHO
1
;
Jae Hoon HUR
;
Moon Jong KIM
;
Young Gon KANG
;
Kyung Che PARK
;
So Lim KIM
;
Kyung Gyun SHIN
;
Yong Jin LEE
Author Information
1. Department of Family Medicine, Bundang CHA General Hospital, College of Medicine, Pochun Chung-Moon University, Korea. mjkimfm@cha.ac.kr
- Publication Type:Original Article
- Keywords:
smoking;
ethanol;
free estrogen index;
calculated free testosterone;
bone turnover marker;
osteocalcin;
deoxypyridinoline;
men
- MeSH:
Adult*;
Alcohol Drinking;
Alkaline Phosphatase;
Bone Density;
Cross-Sectional Studies;
Drinking;
Estradiol;
Estrogens;
Ethanol;
Fasting;
Gonadal Steroid Hormones*;
Hospitals, General;
Humans;
Male;
Mass Screening;
Multiple Endocrine Neoplasia Type 1;
Osteocalcin;
Regression Analysis;
Smoke;
Smoking;
Testosterone
- From:Journal of the Korean Academy of Family Medicine
2004;25(8):596-602
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
BACKGROUND: Bone mass changes in men is related to age, BMI, sex hormones and other factors. In prior studies, bone markers were negatively correlated with bone mineral density, free testosterone, and estrogen and was positively correlated with SHBG. In a study of sex hormones and bone markers in Korean men estradiol was negatively correlated with deoxypyridinoline. In this study, the relationship of testosterone, estradiol, calculated free testosterone, FEI and SHBG to bone turnover markers in adult men were investigated. METHODS: This was a cross-sectional study of 184 men who had undertaken a health screening program in one general hospital in Bundang from November, 2001 to February, 2003. We surveyed information concerning the past medical history, current medication, alcohol consumption amount per week and smoking amount by means of self questionnaire records. Serum total testosterone, estradiol, SHBG and osteocalcin, alkaline phosphatase were measured at a fasting state. Urine was tested for deoxypyridinoline. Free testosterone was calculated using albumin, SHBG, and total testosterone level. RESULTS: Deoxypyridinoline adjusted by age, BMI was negatively correlated with FEI (r=-0.17, P=0.020) and was positively correlated with smoking amount (r=0.20 P= 0.007). Osteocalcin was negatively correlated with calculated free testosterone and ethanol consumption amount (r=-0.186, P=.0.12, r=-0.186, P=0.012). Multiple regression analysis showed that the most powerful factor influencing deoxypyridinoline was smoking amount (R2= 0.046), followed by FEI, BMI, and the one influencing osteocalcin was BMI (R2=0.050), ethanol amount and calculated free testosterone. After adjusting for age, BMI, drinking amount and smoking amount FEI shown to be a predictor of deoxypyridinoline (beta=-0.08, p<0.01, R2=0.101). After adjusting for age, BMI, and drinking amount calculated free testosterone was shown to be a predictor of osteocalcin (beta=-0.570, P<0.01, R2=0.130) in multiple regression model. CONCLUSIONS: In adult men, FEI shown to be a predictor of deoxypyridinoline and calculated free testosterone to be a predictor of osteocalcin as an independent variable.
