1.Assessment of Bone Mineral Density.
Journal of Korean Society of Pediatric Endocrinology 2006;11(2):123-130
No abstract available.
Bone Density*
3.The value of the transverse histogram of the peri-prosthetic bone mineral density in the detection of the femoral stem loosening.
Joong Hee KIM ; Young Min KIM ; Heung Sik KANG ; Kun Young PARK ; Sung Churl LEE ; Joong Bae SEO
The Journal of the Korean Orthopaedic Association 1993;28(3):901-908
No abstract available.
Bone Density*
4.Donors’ Calcium Level and Bone Density after Frequent and Regular Plateletpheresis Blood Donation
Malaysian Journal of Medicine and Health Sciences 2018;14(Supplement 1):7-10
Introduction: Citrate is commonly used as an anti¬coagulant during plateletpheresis procedure. The calcium chelating property of citrate may cause hypocalcaemia when the anticoagulated blood are returned to the donor’s circulation after selective removal of platelet. This study aims at investigating how regular plateletpheresis affects calcium level and bone density in the donors. Methods: A cross-sectional study was conducted among healthy donors at National Blood Centre, Kuala Lumpur, from 15th January till 31st March 2016. Donors were divided into two groups based on the frequency of plateletpheresis donation: low frequency group - donors who had donated less than 20 times, high frequency group - donors who had donated more than 50 times. Dual emission X-ray absorptiometry (DEXA) scan was performed to assess bone density. Pre-donation blood sampling was taken for albumin level. Calcium and magnesium levels were measured before and after donation. Results: Fifty donors participated in this study where the median age of participants was 35.0 years for low frequency and 45.2 years for high frequency group. There was no significant difference in the corrected calcium for both groups before and after plateletpheresis. However, the magnesium levels were significantly reduced in both arms (P<0.05). The albumin level and DEXA scan showed no significant differences between the groups. Conclusion: This study did not show any significant difference in calcium levels, albumin and bone density; but donors’ magnesium levels were reduced in low and high frequency donors after plateletpheresis.
Bone density
5.Correlation of fat mass with bone mineral density and FRAX-based fracture risk among postmenopausal Filipino women
Davidson V. Pastran ; Jerry M. Obaldo
The Philippine Journal of Nuclear Medicine 2021;16(1):18-24
Background:
Post-menopausal women experiences changes in estrogen levels affecting body metabolism, which may lead to
weight gain and obesity. Moreover, one of the most prevalent diseases among this group is osteoporosis.
However, the relationship between fat mass and its protective property remains unclear. This study assesses the
correlation of fat mass with bone mineral density (BM) and 10-year FRAX based fracture probability among
Filipino women.
Methods:
A cross-sectional review of records of post-menopausal Filipino women who underwent whole body bone
mineral densitometry scans via dual-energy X-ray absorptiometry (DXA) between January 1, 2015, and
December 31, 2018 in the Radioisotope Laboratory of the Philippine General Hospital was done. Pearson
correlation and simple linear regression analyses were done to determine the correlation between the two
outcomes – BMD and 10-year FRAX based fracture probability.
Results:
A total of 258 postmenopausal women were included in the analysis. There was a weak positive correlation of
fat mass with BMD of L1-L4 vertebrae (R-score of 0.318), BMD of femoral neck (R-score of 0.3937) and hips
(R - score of 0.3031). The 10-year FRAX based fracture probability for both hip and osteoporotic had very weak
and weak negative correlation, respectively (R-score of - 0.06752 and - 0.29017).
Conclusion
Despite having varying available, data on the protective effects of fat mass on fracture protection, this study
showed that fat mass has a poor correlation with BMD and reduction in FRAX probability.
Postmenopause
;
Bone Density
;
Fractures, Bone
6.A study on the changes of bone mineral density during lactation.
Sung Keun ROH ; Sung Ho LIM ; Moon Yung KIM ; Eun Sung KIM ; Ho Won HAN ; In Kwon HAM
Korean Journal of Obstetrics and Gynecology 1993;36(7):2313-2318
No abstract available.
Bone Density*
;
Female
;
Lactation*
7.A study on the changes of bone mineral density during lactation.
Sung Keun ROH ; Sung Ho LIM ; Moon Yung KIM ; Eun Sung KIM ; Ho Won HAN ; In Kwon HAM
Korean Journal of Obstetrics and Gynecology 1993;36(7):2313-2318
No abstract available.
Bone Density*
;
Female
;
Lactation*
8.Increase of bone mineral density after surgical treatment of primary hyperparathyroidism.
Hyun Duck SON ; Jeong Taek WOO ; Sung Woon KIM ; Ihn Myung YANG ; Jin Woo KIM ; Young Seol KIM ; Kwang Won KIM ; Young Kil CHOI
Journal of Korean Society of Endocrinology 1992;7(1):76-79
No abstract available.
Bone Density*
;
Hyperparathyroidism, Primary*
9.Osteoporosis.
Journal of the Korean Medical Association 2005;48(9):847-856
Although exercise is effective to prevent or to treat osteoporosis, it is not certain how much exercise is needed. Therefore the amount of exercise should be dependent on the individual's ability to exercise and the bone mineral density, and the type and method of exercise should be individualized. Patients with osteoporosis should be careful not to fall or slip down and should avoid strenuous spinal motion. The goal of treatment of osteoporosis is not only to increase bone mineral density but also to improve general body health.
Bone Density
;
Humans
;
Osteoporosis*
10.Bone mineral density of normal Korean children.
Kyu Young LEE ; Byoung Yul LIM ; Sung Ho CHA ; Byoung Soo CHO ; Chang Il AHN ; Young Seol KIM
Journal of the Korean Pediatric Society 1991;34(5):605-613
No abstract available.
Bone Density*
;
Child*
;
Humans