Calcium Supplements (calcium + supplement)

Distribution by Scientific Domains
Medical Sciences60%
Life Sciences40%

Selected Abstracts

Calcium supplement necessary to correct hypocalcemia after total parathyroidectomy for renal osteodystrophy

INTERNATIONAL JOURNAL OF UROLOGY, Issue 2 2000
Masayuki Nakagawa
Abstract Background: Prediction of the extent of calcium supplement will facilitate safe and efficient management of hypocalcemia in the early postoperative stage of total parathyroidectomy with autotransplantation (PTXa) in patients with renal osteodystrophy. Methods: The correlation between the extent of calcium deficiency, estimated by the amount of calcium supplement over 48 h after PTXa and using various parameters such as carboxy terminal parathyroid hormone (c-PTH), intact PTH (i-PTH), alkaline phosphatase (ALP), serum calcium, serum phosphorus, duration of hemodialysis, total weight of resected parathyroid glands and degree of subperiosteal resorption of the middle phalanx was examined in 49 patients who underwent PTX with subcutaneous autotransplantation. Bone mineral density (BMD) was also determined before, 3 months and 1 year after PTXa with dual energy X-ray absorptiometry (DEXA) in 13 patients. Results: There was a positive correlation between pre-operative i-PTH level (r = 0.56, P < 0.0005) or ALP level (r = 0.50, P < 0.0005) and the amount of calcium supplement over 48 h after PTXa in these patients. Furthermore, the degree of subperiosteal resorption, determined by Jensen's classification, was significantly correlated with the amount of calcium supplement after PTX (P < 0.05). Bone mineral density 3 months after (P < 0.0005) and 1 year after PTXa (P < 0.001) significantly increased compared with BMD before PTXa in all patients examined. Conclusion: These findings suggest that the pre-operative determination of i-PTH, ALP levels and degree of subperiosteal resorption allow the management of hypocalcemia safely and efficiently in renal osteodystrophy patients after PTXa. [source]

Effects of 0.4 T rotating magnetic field exposure on density, strength, calcium and metabolism of rat thigh bones

BIOELECTROMAGNETICS, Issue 1 2006
Xiao-yun Zhang
Abstract The current study investigated the effects of 0.4 T rotary non-uniform magnetic field (RMF) exposure on bone density in ovariectomized (OVX) rats. Results showed that many bone indexes are significantly elevated after RMF exposure compared to the control OVX group and confirmed mechanistic evidence that strong magnetic field (MF) exposure could effectively increase bone density and might be used to treat osteoporosis. Synergy of daily RMF exposure (30 min a day for 30 days using an 8 Hz rotary 0.4 T MF) with calcium supplement tended to increase the indexes of thigh bone density, energy absorption, maximum load, maximum flexibility, and elastic deformation as compared to those of untreated OVX control group. Results also revealed that the indexes of alkaline phosphatase (ALP), serum phosphate, and serum calcium were higher in rats exposed to RMF with calcium than in the untreated OVX control group. Changes in bone mineral density (BMD) and bone mineral content (BMC) were observed in rats for three months including the first month RMF exposure. Bone density in rats exposed each day for 60 min increased during 1-month exposure and continued to increase during the post-exposure period. Furthermore, bone density and calcium content in rats exposed for 90 min daily decreased initially in the exposure month; however, ratio of increase was well above the control values by the end of the post-exposure period suggesting possible window and delayed effects. The study indicated that RMF exposure to both male and OVX female rats for 120 min a day over 15 day period should effectively promote increase of bone calcium contents (BCC) and bone-specific alkaline phosphatase (BAP) in rats thigh bone as well as a corresponding decrease in deoxypyridinoline crosslinks (DPD). Bioelectromagnetics 27:1,9, 2006. © 2005 Wiley-Liss, Inc. [source]

The effects of low dietary calcium during egg-laying on eggshell formation and skeletal calcium reserves in the Zebra Finch Taeniopygia guttata

IBIS, Issue 2 2001
S. JAMES REYNOLDS
Many small passerines forage intensively for calcium-rich foods during laying. Increased incidences of shell defects in eggs of small passerines have been reported, particularly in western Europe, and these have been explained in terms of declining calcium availability in soils, resulting from prolonged anthropogenic acid deposition. Studies in the field have provided laying birds, nesting in areas of low calcium availability, with calcium supplements. An alternative approach was adopted in this study by allowing captive Zebra Finches Taeniopygia guttata to lay first clutches on ad libitum calcium, switching them to a low calcium diet for 72 hours for the formation of all but the first egg of the second clutch and reinstating ad libitum calcium for the final clutch. Control females had access to ad libitumcalcium for all three clutches. Clutch sizes did not vary significantly between birds on low calcium and controls. The former took over three days longer to lay clutch 3 than did controls but the difference was not statistically significant. Birds on low calcium laid eggs that declined in shell ash mass with laying sequence, indicating that birds may have been calcium-limited. Although not statistically significant, eggshell thickness also declined with laying sequence in clutches laid by females on low calcium. The remaining egg measurements (shell mass, shell surface area and volume] of clutches laid by birds on low calcium did not differ significantly from those of controls. Furthermore, females on low calcium did not resort to skeletal reserves to provide sufficient calcium for egg formation. Dietary calcium appears to be of paramount importance in providing sufficient calcium for clutch formation. [source]

Abdominal aortic calcification on vertebral morphometry images predicts incident myocardial infarction

JOURNAL OF BONE AND MINERAL RESEARCH, Issue 3 2010
Mark J Bolland
Abstract Abdominal aortic calcification (AAC) measured on spine X-rays is an established risk factor for cardiovascular disease. We investigated whether AAC assessed using vertebral morphometry and a recently developed scoring system (AAC-8) is reliable and associated with cardiovascular risk factors or events. A total of 1471 healthy postmenopausal women and 323 healthy middle-aged and older men participated in 5 and 2,year trials of calcium supplements, respectively. AAC-8 was assessed on vertebral morphometry images at baseline and follow-up. In addition, 163 men also had coronary artery calcification measured using computed tomography. Cardiovascular events during the trials were independently adjudicated. We found strong inter- and intrameasurer agreement for AAC-8 (,,>,0.87). The prevalence of AAC increased with age (p,<,.01) in women and in men. AAC was associated with many established cardiovascular risk factors, with serum calcium in women (p,=,.002) and with higher coronary calcium scores in men (p,=,.03). Estimated 5,year cardiovascular risk increased with increasing AAC-8 score (p,<,.001) in women and in men. The presence of AAC independently predicted myocardial infarction (MI) in women [hazards ratio (HR),=,2.30, p,=,.007] and men (HR,=,5.32, p,=,.04), even after adjustment for estimated cardiovascular risk in women. In women, AAC independently predicted cardiovascular events (MI, stroke, or sudden death) (HR,=,1.74, p,=,.007), and changes in AAC-8 score over time were associated with MI and cardiovascular events, even after adjustment for estimated cardiovascular risk. In summary, scoring AAC on vertebral morphometric scans is a reproducible method of assessing cardiovascular risk that independently predicts incident MI and cardiovascular events, even after taking into account traditional cardiovascular risk factors. © 2010 American Society for Bone and Mineral Research [source]

Effects of calcium supplementation on fetal growth in mothers with deficient calcium intake: a randomised controlled trial

PAEDIATRIC & PERINATAL EPIDEMIOLOGY, Issue 1 2010
Edgardo Abalos
Summary Abalos E, Merialdi M, Wojdyla D, Carroli G, Campodónico L, Yao S-E, Gonzalez R, Deter R, Villar J, Van Look P. Effects of calcium supplementation on fetal growth in mothers with deficient calcium intake: a randomised controlled trial. Paediatric and Perinatal Epidemiology 2010; 24: 53,62. Calcium supplementation in mothers with low calcium intake has been of interest recently because of its association with optimal fetal growth and improved pre-eclampsia-related outcomes. While the effects of calcium supplementation have demonstrated benefits in prolonging gestation and subsequently improving birthweight, no specific studies have identified the longitudinal effects of supplementation on fetal growth in utero. Data were analysed in the context of the World Health Organization trial of calcium supplementation in calcium-deficient women. Five hundred and ten healthy, primiparous pregnant Argentinean women were randomised (at <20 weeks gestation) to either placebo (n = 230) or calcium supplements (1500 mg calcium/day in 3 divided doses; n = 231). Growth parameters in utero were assessed with serial ultrasound scans. Birthweight, length, head, abdominal and thigh circumferences were recorded at delivery. No differences were found in fetal biometric measurements recorded at 20, 24, 28, 32 and 36 weeks gestation between fetuses of women who were supplemented with calcium and those who were not. Similarly, neonatal characteristics and anthropometric measurements recorded at delivery were comparable in both groups. We conclude that calcium supplementation of 1500 mg calcium/day in pregnant women with low calcium intake does not appear to impact on fetal somatic or skeletal growth. [source]