Bone Mineral Balance Research Articles

Should we look beyond Kt/V urea in assessing dialysis adequacy?

Since the advent of maintenance dialysis therapy, our interpretation of what adequate dialysis really is has broadened and become more controversial. This is not only due to our changing and aging dialysis population but also to our evolving knowledge base. As nephrologists, we strive to achieve both quality and (often) quantity of life for our patients and we feel reassured when we have a quantifiable marker to show for our efforts. However, we suggest that adequate dialysis reaches far beyond the realms of attaining a particular biochemical result. Dialysis adequacy should encompass a more comprehensive assessment of patient well-being. This metric could comprise quality of life and patient-specified goals, sufficient small solute and middle molecule clearance, optimal blood pressure control, and effective bone-mineral balance, all in the context of minimizing mortality and morbidity, and a livable dialysis regimen for the patient.

Effects of whole-body vibration on muscle strength, bone mineral content and density, and balance and body composition of children and adolescents with Down syndrome: a systematic review.

The aim of this study is to verify the effects of whole-body vibration (WBV) training on the muscle strength of children and adolescents with Down syndrome. We searched MEDLINE, Cochrane, SciELO, Lilacs and PUBMED databases and included manual searches to identify randomised controlled trials to investigate the effects of WBV on the structure and body function of children and adolescents with Down syndrome. Two reviewers independently selected the studies and performed statistical analysis. In total, five studies with 171 patients that compared WBV with exercise and/or control were included. Two studies demonstrated a significant difference between the muscle strength of children and adolescents with Down syndrome who received WBV training and that of those who did not receive the intervention. The studies included in this systematic review showed that WBV training has positive effects on bone mineral density (BMD), body composition and balance. Results of this study showed that WBV training improves muscle strength, BMD, body composition and balance of children and adolescents with Down syndrome, and a more in-depth analysis of its effects on other variables in this population is required, as well as of parameters to be used.

Musculoskeletal development in patients with Down syndrome

Down syndrome is a chromosomal aneuploidy that results in disruptions in multiple body systems, including musculoskeletal function. Early intervention to focus on bone mineral density, gait correction, agility, balance, and muscle strength is imperative in order for patients to achieve maximum potential.

PTH Reloaded: A New Evolutionary Perspective.

The parathyroid hormone (PTH) family is a group of structurally-related secreted peptides involved in bone mineral homeostasis and multitude of developmental processes in vertebrates. These peptides mediate actions through PTH receptors (PTHRs), which belong to the transmembrane G protein-coupled receptor group. To date, genes encoding for PTH and PTHR have only been identified in chordates, suggesting that this signaling pathway may be an evolutionary innovation of our phylum. In vertebrates, we found up to six PTH and three PTHR different paralogs, varying in number between mammals and teleost fishes due to the different rounds of whole-genome duplication and specific gene losses suffered between the two groups of animals. The diversification of the PTH gene family has been accompanied by both functional divergence and convergence, making sometimes difficult the comparison between PTH peptides of teleosts and mammals. Here, we review the roles of all Pth peptides in fishes, and based on the evolutionary history of PTH paralogs, we propose a new and simple nomenclature from PTH1 to PTH4. Moreover, the recent characterization of the Pth4 in zebrafish allows us to consider the prominent role of the brain-to-bone signaling pathway in the regulation of bone development and homeostasis. Finally, comparison between PTH peptides of fish and mammals allows us to discuss an evolutionary model for PTH functions related to bone mineral balance during the vertebrate transition from an aquatic to a terrestrial environment.

Bone Mineral Density, Balance Performance, Balance Self-Efficacy, and Falls in Breast Cancer Survivors With and Without Qigong Training: An Observational Study.

Purpose: A deterioration in bone strength and balance performance after breast cancer treatment can result in injurious falls. Therefore, interventions need to be developed to improve the bone strength and balance ability of breast cancer survivors. This cross-sectional exploratory study aimed to compare the bone mineral density (BMD), balance performance, balance self-efficacy, and number of falls between breast cancer survivors who practiced qigong, breast cancer survivors who did not practice qigong, and healthy individuals. Methods: The study included 40 breast cancer survivors with more than 3 months of qigong experience, 17 breast cancer survivors with no qigong experience, and 36 healthy controls. All the participants underwent dual-energy X-ray absorptiometry scans to measure their lumbar spine, total hip, femoral neck, and total radius BMDs. The participants also underwent a timed one-leg stand test to measure their single-leg standing balance. The participants’ balance self-efficacy was assessed using the activities-specific balance confidence scale, and the number of falls experienced by each participant was assessed in a face-to-face interview. Results: The lumbar spine, total hip, femoral neck, and total radius BMDs were similar between the 3 groups (P > .05). The breast cancer-qigong group outperformed the breast cancer-control group by 27.3% when they performed the one-leg stand test on a foam surface (P = .025), and they also had a higher balance self-efficacy score (P = .006). Nevertheless, the numbers of falls were comparable between the 3 groups (P > .05). Conclusion: Qigong may be a suitable exercise for improving the balance performance and balance self-efficacy of breast cancer survivors.

Using natural, stable calcium isotopes of human blood to detect and monitor changes in bone mineral balance

We are exploring variations in the Ca isotope composition of blood and urine as a new tool for early diagnosis and monitoring of changes in bone mineral balance for patients suffering from metabolic bone disease, cancers that originate in or metastasize to bone, and for astronauts who spend time in low gravity environments. Blood samples are often collected instead of, or in addition to, urine in clinical settings, so it is useful to know if variations in the Ca isotope composition of blood carry the same information as variations in urine. We found that the Ca isotope composition of blood shifts in the same direction and to the same magnitude (~2partspertenthousand — pptt) as that of urine in response to skeletal unloading during bed rest. However, the Ca isotope composition of blood is lighter than that of urine by 12±2pptt. This offset between blood and urine may result from Ca isotope fractionation occurring in the kidneys. This is the first study to confirm the suspected offset between the Ca isotope composition of blood and urine in humans, to directly quantify its magnitude, and to establish that either blood or urine can be used to detect and quantify bone loss.

The effect of long-term acidifying feeding on digesta organic acids, mineral balance, and bone mineralization in growing pigs

Acidification of slurry through dietary manipulation of urinary pH is a means of mitigating nitrogen emission from pig production, but long-term effects of diet acidification on bone mineralization and mineral balance is less investigated. The objective was therefore to study the long-term effects of feeding benzoic acid (BA) and calcium chloride (CaCl2) on the mineral balance and microbial activity in the gastrointestinal tract of pigs. Four diets containing the combinations of 0 or 10g/kg BA and 0 or 20g/kg CaCl2 were fed to 24 pigs in a factorial design. For the diets without CaCl2, calcium carbonate (CaCO3) was added to provide equimolar levels of Ca. The pigs were fed the diets from 36kg until slaughter at 113kg BW, and they were housed in balance cages for 12d from 60 to 66kg BW. Supplementation of BA and/or CaCl2 had only minor effect on accumulation of digesta organic acids (acetate, propionate, butyrate and lactate) throughout the gastrointestinal tract. A reduction (P<0.01) in digesta concentration was, however, observed for acetate and propionate in colon digesta for the CaCl2 supplemented diet. Moreover, CaCl2 supplementation reduced (P<0.01) the gastric concentration of lactic acid. In the urine, pH was reduced by both BA (P=0.04) and CaCl2 (P<0.01). The diet with combined BA and CaCl2 resulted in the lowest retentions of both P (P=0.03) and Ca (P<0.01). Metacarpal III bones were lighter (P=0.04) and shorter (P=0.02) when replacing CaCO3 with CaCl2, but BA supplementation had no effect. Both replacing CaCO3 with CaCl2 and BA supplementation reduced the concentration in bone of P (P<0.05), whereas the Ca concentration was not affected. Total mineral density in bones measured by CT-scanning was reduced (P<0.01) in the medial and distal sections by BA and reduced (P<0.01) in the proximal, medial, and distal sections by CaCl2. In conclusion, the dietary supplementation of BA and the replacement of CaCO3 with CaCl2 affected the nutrient balances of P and Ca. Mineral concentration and total mineral density of metacarpal III bones was reduced both by BA supplementation and by replacing CaCO3 with CaCl2. The combined effect of BA and by replacing CaCO3 with CaCl2 may reduce bone strength during long-term feeding.

Effects of new sports tennis type exercise on aerobic capacity, follicle stimulating hormone and N-terminal telopeptide in the postmenopausal women

Menopause is characterized by rapid decreases in bone mineral density, aerobic fitness, muscle strength, and balance. In the present study, we investigated the effects of new sports tennis type exercise on aerobic capacity, follicle stimulating hormone (FSH) and N-terminal telopeptide (NTX) in the postmenopausal women. Subjects were consisted of 20 postmenopausal women, who had not menstruated for at least 1 yr and had follicle-stimulating hormone levels > 35 mIU/L, estradiol levels< 40 pg/mL. The subjects were randomly divided into two groups: control group (n= 10), new sports tennis type exercise group (n= 10). New sports tennis type exercise was consisted of warm up (10 min), new sports tennis type exercise (40 min), cool down (10 min) 3 days a per week for 12 weeks. The aerobic capacities were increased by 12 weeks new sports tennis type exercise. New sports tennis type exercise significantly increased FSH and NTx levels, indicating biochemical markers of bone formation and resorption. These findings indicate that 12 weeks of new sports tennis type exercise can be effective in prevention of bone loss and enhancement of aerobic capacity in postmenopausal women.

Effect of water‐soluble silicon supplementation on bone status and balance of Ca, Mg, and Si in male adult mice (828.14)

Silicon (Si) is important for the growth and development of bone and connective tissues. Several studies have reported that Si supplement improved bone mineral density in female OVX rats. However, few studies have investigated the effects of Si supplementation on bone status and bone metabolism in male animals. The purpose of this study was to investigate the effects of Si supplementation on bone mineral density and balance of Ca, Mg, and Si in growing adult male mice. Si was administrated orally through demineralized water containing different contents of Si as a form of sodium meta‐silicate (0%; control, 0.025%; Si50, 0.050%; Si100, and 0.075%; Si150) to 9‐week‐old male mice for 4 weeks. Si supplementation did not alter weight gain or BMD of femur and tibia in male mice. However, a high level of Si (0.05% and 0.075%) supplementation significantly decreased Mg retention without changing Ca retention. Serum alkaline phosphatase of Si‐supplemented groups significantly decreased. According to these results, short‐term Si supplementation did not affect BMD but showed possible negative effects on Mg retention and bone metabolism in male adult mice.

Osteoclast-mediated demineralization of biomineral

Calcification (biomineralization) is essential for maintenance of a life. The elucidation of "Osteoclast-mediated demineralization of biomineral" directly links elucidation for bone mineral balance (coupling of bone tissue). Bone is continuously destroyed and reformed in vertebrates to maintain bone volume and calcium homeostasis. In this review, we summarize the regulatory mechanism of osteoclast-mediated demineralization of biomineral by osteoblast-derived osteoclast differentiation factor (RANKL).

Calcium Isotopic Composition and Its Association With Multiple Myeloma Disease Activity

Calcium Isotopic Composition and Its Association With Multiple Myeloma Disease Activity

Gender specific age-related changes in bone density, muscle strength and functional performance in the elderly: a-10 year prospective population-based study

BackgroundAge-related losses in bone mineral density (BMD), muscle strength, balance, and gait have been linked to an increased risk of falls, fractures and disability, but few prospective studies have compared the timing, rate and pattern of changes in each of these measures in middle-aged and older men and women. This is important so that targeted strategies can be developed to optimise specific musculoskeletal and functional performance measures in older adults. Thus, the aim of this 10-year prospective study was to: 1) characterize and compare age- and gender-specific changes in BMD, grip strength, balance and gait in adults aged 50 years and over, and 2) compare the relative rates of changes between each of these musculoskeletal and functional parameters with ageing.MethodsMen (n = 152) and women (n = 206) aged 50, 60, 70 and 80 years recruited for a population-based study had forearm BMD, grip strength, balance and gait velocity re-assessed after 10-years.ResultsThe annual loss in BMD was 0.5-0.7% greater in women compared to men aged 60 years and older (p < 0.05- < 0.001), but there were no gender differences in the rate of loss in grip strength, balance or gait. From the age of 50 years there was a consistent pattern of loss in grip strength, while the greatest deterioration in balance and gait occurred from 60 and 70 years onwards, respectively. Comparison of the changes between the different measures revealed that the annual loss in grip strength in men and women aged <70 years was 1-3% greater than the decline in BMD, balance and gait velocity.ConclusionThere were no gender differences in the timing (age) and rate (magnitude) of decline in grip strength, balance or gait in Swedish adults aged 50 years and older, but forearm BMD decreased at a greater rate in women than in men. Furthermore, there was heterogeneity in the rate of loss between the different musculoskeletal and function parameters, especially prior to the age of 70 years, with grip strength deteriorating at a greater rate than BMD, balance and gait.

Relationship among Bone Mineral Density Reduction, Hearing Loss, and Balance Disorders in Osteoporotic Patients

Osteoporosis is a disease that weakens bones and is known to be “silent,” but it does not mean that it should be ignored. According to some researches, osteoporosis causes more than 8.9 million fractures every year, resulting in an osteoporotic fracture every 3 s and by 2050 the world-wide occurrence of hip fracture is estimated to increase by 310% in men and 240% in women (Gullberg et al., 1997; Johnell and Kanis, 2006). The main aspect of osteoporosis is losing bone mineral density (BMD). Mainly bones consist of minerals such as a matrix of hydroxyapatite (calcium phosphate) and other minerals which are embedded in a cross-linked collagen matrix. Normally, there is a delicate balance between bone formation and bone re-absorption, which if bone re-absorption becomes dominant osteopenia and osteoporosis may occur (Larsen, 2007). In another word, in osteoporotic patients due to reduction of bone formation in comparison with bone re-absorption, low bone mineral is stored and as a result BMD loss occurs (Bone et al., 2000; Marie, 2013). On the other hand, according to some researches, it has been shown that there is a correlation between BMD loss in osteoporotic patients and conductive hearing loss; in those patients over a specific age, changing the structure of the ossicles or hormonal mechanism in hearing may correlate BMD loss with hearing loss (Shafer, 2006; Babich et al., 2009). In fact, the hearing and balance systems are connected inside the inner ear and hearing loss can affect balance system. Basically, Balance is a complex that receives sensory information from a variety of organs (vision, auditory, and joints) and integrates it to inform the body of where it is. Furthermore, information from the vestibular system of the inner ear (semicircular canals, the saccule and the utricle) is sent to the brain. Semicircular canals in the inner ear are able to sense changes in movement of the body. Due to these changes, endolymph within the canals moves inner ear’s hair cells. As a result, position of the head is sensed by hair cells. Normally, the information coming from the ears perfectly matches the information coming from the eyes and the sensors in the joints and balance complex completes (Standring, 2004; Wedro, 2009). What is more, there are some evidences that show due to metabolic dysfunction in bones – osteoporosis – there is a correlation between hearing loss and balance disorders (Zatonski et al., 2012). In conclusion, we hypothesize that in osteoporotic patients, who have low BMD, hearing loss occurs and as a result balance problems happen. In spite of the fact that some researchers have shown that osteoporotic patients have balance disorders and hearing loss (Henkin et al., 1972; Matsuo et al., 2005), the possible relationship with BMD loss and hearing loss has not been clarified up to now (Figure ​(Figure1).1). In fact, our methodology toward this study would be based on clinical records of patients. Basically, patients’ BMD score, history of falling (summary of their status of stability), and their auditory test score is needed to provide our hypothesis. Last but not least, it is proposed that using some specific earphones which intensify the sound, by compensating the hearing loss in patients may reduce risk of falls in osteoporotic patients who suffer from balance problems, but obviously earphones are not preventive enough for falling. Surely experimental researches and clinical trials are needed to validate our hypothesis. Figure 1 Relationship between BMD loss and balance disorders in osteoporotic patients.

Adapted Judo training on bone-variables in postmenopausal women in pharmacological treatment

The osteoporosis is a bone disease that causes bone fragility with increased risks of fractures and negative consequences on human mobility. The study sought to examine the effects of adapted Judo training (AJT) on bone mineral density (BMD), balance and quality of life (QoL) in postmenopausal women taking alendronate. Eighteen female volunteers participated in this study. The volunteers were separated into two groups: AJT (n = 11; 52.2 ± 5.3 years) and control group (CG) (n = 7; 53.8 ± 4.4 years). The following evaluation instruments were used: dual-energy X-ray absorptiometry (which measured the lumbar L2–L4, femoral neck and trochanter), the “Osteoporosis Assessment Questionnaire” (OPAQ) and a static balance test with visual control. The study period was 12 months. The fitness training involved traditional Judo class methodology. Repeated measures ANOVA and Kruskal–Wallis tests were used along with normality tests of the data. The data show significant differences in the AJT group for the BMD of the lumbar L2–L4 (Δ% = +0.052 %, p = 0.013), balance (Δ% = +3.9 %, p = 0.004) and the OPAQ functions (p < 0.05) including to the total score range (Δ% = +16.8 %, p = 0.001). The results suggest the AJT as an alternative physical activity is effective for the lumbar BMD, balance and QoL. However, the AJT needs more studies to be recommended for postmenopausal women with low BMD.

Adequacy of Dietary Intake of Vitamin D in Stable HD Patients: Are they meeting their needs

Hypovitaminosis D is associated with reduced survival, increased cardiovascular events, and impaired bone-mineral balance in dialysis. The KDOQI guidelines do not have specific recommendations regarding vitamin D (VitD) intake in dialysis patients. The purpose of this study was to determine whether stable prevalent hemodialysis (HD) patients, for whom standard clinical dietary restrictions had been recommended, were able to meet their Recommended Daily Allowance (RDA) for VitD. An observational study was conducted to examine serum 25-OHD levels in relation to 3-day diet analysis, supplementation, anthropometrics and nutritional status (using Malnutrition Inflammation Score (MIS)) in 81 HD patients. Sixty-nine completed 3-day dietary intake records (1 dialysis day, 1 non-dialysis day, 1 weekend-non-dialysis day). Mean dietary VitD intake of the group was 2.5 μg/day SD±3.6, which is less than 15% of RDA of ∼17 μg/day. Only 2 out of 69 subjects (3%) met the RDA for VitD with mean intakes of 20.8±2.6 μg/day that corresponded with mean serum 25OHD of 43.5±17.6 nmol/L. Mean serum 25OHD levels for the group were 42.4 ±23.1 nmol/L, with 19 classified as deficient (28% <27.5 nmol/L), 43 insufficient (62%=27.5–75 nmol/L) and only 7 sufficient (10% >75nmol/L) in terms of 25OHD levels. 20 of the 69 (29%) took a VitD supplement and had significantly higher serum 25OHD than ones who did not take any (53.7±17.3 nmol/L vs 38.7±22.4 nmol/L, p-value=0.013). Multiple regression analysis revealed dietary calcium ( p =0.001), and dietary protein (p=0.006) were positively related and HD-vintage ( p =0.037), inversely related to dietary VitD whereas total kilocalories, dietary phosphate, MIS and dry body mass did not relate to it. Thus, inadequate intake of VitD is a common (97%) and modifiable risk factor for hypovitaminosis D in HD patietns. Factors affecting reduced intake of VitD in our patients included dietary protein and calcium but not dietary phosphorous. VitD levels were low even in the face of adequate VitD intake through supplementation and/or dietary sources, and would need monitoring if target levels are to be met by the renal dietitians and nephrologists.

Rapidly assessing changes in bone mineral balance using natural stable calcium isotopes

The ability to rapidly detect changes in bone mineral balance (BMB) would be of great value in the early diagnosis and evaluation of therapies for metabolic bone diseases such as osteoporosis and some cancers. However, measurements of BMB are hampered by difficulties with using biochemical markers to quantify the relative rates of bone resorption and formation and the need to wait months to years for altered BMB to produce changes in bone mineral density large enough to resolve by X-ray densitometry. We show here that, in humans, the natural abundances of Ca isotopes in urine change rapidly in response to changes in BMB. In a bed rest experiment, use of high-precision isotope ratio MS allowed the onset of bone loss to be detected in Ca isotope data after about 1 wk, long before bone mineral density has changed enough to be detectable with densitometry. The physiological basis of the relationship between Ca isotopes and BMB is sufficiently understood to allow quantitative translation of changes in Ca isotope abundances to changes in bone mineral density using a simple model. The rate of change of bone mineral density inferred from Ca isotopes is consistent with the rate observed by densitometry in long-term bed rest studies. Ca isotopic analysis provides a powerful way to monitor bone loss, potentially making it possible to diagnose metabolic bone disease and track the impact of treatments more effectively than is currently possible.

Using natural stable calcium isotopes to rapidly assess changes in bone mineral balance using a bed rest model to induce bone loss

Spaceflight and metabolic bone diseases disrupt normal bone mineral balance (BMB) resulting in bone loss. Bed rest, by stimulating bone loss, provides the opportunity to evaluate new methods to monitor BMB in healthy individuals suffering bone loss. Natural variations in the Ca isotope ratio occur because bone formation depletes soft tissue of light Ca isotopes preferentially, while bone resorption releases that isotopically light Ca back into soft tissue (Skulan &amp; DePaolo, 1999). Using a bed rest model, we demonstrate that the Ca isotope ratio of urine shifts in a direction consistent with bone loss after just 7 days of bed rest, long before measurable changes in bone mineral density (BMD) occur. The Ca isotope variations are consistent with changes observed in urinary N‐teleopeptide, a bone resorption marker. Bone specific alkaline phosphatase, a bone formation marker, is unchanged. The established relationship between Ca isotopes and BMB can be used to quantitatively translate changes in the Ca isotope ratio to changes in BMD using a mathematical model. This model predicts that subjects lost 0.25 ± 0.07% (± SD) of their bone mass from day 7 to 30 of bed rest, consistent with bone loss rates from 90 day bed rest studies as measured by DXA scans. The rapid signal observed using Ca isotopes and the potential to quantitatively assess bone loss makes this technique particularly well suited for the study of bone metabolism.Grant Funding Source: NASA Human Research Program. Dr. Morgan is supported through an appointment to the NASA Postdoctoral Program at JSC, administered by ORAU.

A systematic review of the effectiveness of lifestyle interventions for improving bone health in women at high risk of osteoporosis.

Osteoporosis is a disease characterised by low bone mass and microarchitectural deterioration of bone tissue, leading to increased bone fragility and a consequent increase in fracture risk, especially among postmenopausal women. Management strategies for osteoporosis focus on reducing modifiable risk factors such as poor nutrition, insufficient physical activity, smoking, and heavy alcohol consumption. The aim of this systematic review is to examine the effects of lifestyle interventions on bone health in women at high risk of osteoporosis INCLUSION CRITERIA: We included randomised controlled trials that examined the effectiveness of lifestyle interventions. The participants consisted of adult women who have had osteoporosis, osteopenia, or were at high-risk of developing osteoporosis. Lifestyle interventions included exercise, diet, and education. The outcomes of bone health were bone mineral density, event (fall, fracture), balance, and quality of life. We conducted a comprehensive search of the published literature using a three-phase approach in English and Korean languages up until September 2009. Two independent reviewers appraised all reports using standardised critical appraisal tools from the Joanna Briggs Institute that were specific to experimental research designs. Quantitative data was extracted from papers using the standardised data extraction tool from Joanna Briggs Institute. Quantitative papers were pooled wherever possible to a statistical meta-analysis using the Joanna Briggs Institute Meta Analysis of Statistics Assessment and Review Instrument. The search identified 700 unique studies; we appraised 28 studies and included a total of 25 randomised controlled trials in the final study; three studies were excluded because of poor methodological quality. Strength exercises had a positive effect on fracture. Aerobic exercises had a positive impact on lumbar bone mineral density, fall, and balance. Soy protein supplementation was effective for improving lumbar bone mineral density while vitamin K supplementation had a positive effect on of femur bone mineral density. Calcium supplementation had a positive impact on femur and lumbar bone mineral density. The combination of exercise, calcium, and vitamin D supplementation was effective for improving lumbar bone mineral density, risk of fall, and balance. Self-management programs for better bone health had a positive effect on balance and quality of life. The results indicate that lifestyle interventions including exercise and taking daily calcium and vitamin D supplementation are beneficial for improving bone health in women at high risk of osteoporosis. However, additional carefully designed randomised controlled trials studies with larger patient populations are needed to more precisely identify the effects of intervention. It is recommended to engage in a combination of regular exercise and daily calcium and vitamin D supplementation with consideration of age, menopausal status, and bone mineral density for women with a high risk of developing osteoporosis. Effects of combined intervention of lifestyle components should be evaluated in large, carefully designed randomised controlled trials.

High-Precision Measurement of Variations in Calcium Isotope Ratios in Urine by Multiple Collector Inductively Coupled Plasma Mass Spectrometry

We describe a new chemical separation method to isolate Ca from other matrix elements in biological samples, developed with the long-term goal of making high-precision measurement of natural stable Ca isotope variations a clinically applicable tool to assess bone mineral balance. A new two-column procedure utilizing HBr achieves the purity required to accurately and precisely measure two Ca isotope ratios ((44)Ca/(42)Ca and (44)Ca/(43)Ca) on a Neptune multiple collector inductively coupled plasma mass spectrometer (MC-ICPMS) in urine. Purification requirements for Sr, Ti, and K (Ca/Sr > 10 000; Ca/Ti > 10 000 000; and Ca/K > 10) were determined by addition of these elements to Ca standards of known isotopic composition. Accuracy was determined by (1) comparing Ca isotope results for samples and standards to published data obtained using thermal ionization mass spectrometry (TIMS), (2) adding a Ca standard of known isotopic composition to a urine sample purified of Ca, and (3) analyzing mixtures of urine samples and standards in varying proportions. The accuracy and precision of δ(44/42)Ca measurements of purified samples containing 25 μg of Ca can be determined with typical errors less than ±0.2‰ (2σ).

Efeitos do treinamento resistido sobre variáveis relacionadas com a baixa densidade óssea de mulheres menopausadas tratadas com alendronato

A osteoporose é uma doença crônica que atinge o esqueleto humano. OBJETIVO: Verificar os efeitos do treinamento resistido sobre a densidade mineral óssea (DMO), força muscular, equilíbrio e qualidade de vida em mulheres menopausadas em tratamento com alendronato. MÉTODOS: Participaram do estudo 16 voluntárias. Elas foram separadas em dois grupos: que praticaram o treino resistido (n = 9, 49,7 ± 4,2 idade) e que constituíram o grupo controle (n = 7, 53,8 ± 4,4 idade). Os instrumentos de avaliação seguintes foram usados: a absorciometria de dupla energia por raios X -DXA (que mediu a coluna lombar L2-L4, colo do fêmur, triângulo de Wards e trocanter maior), o Osteoporosis Assessment Questionnaire (OPAQ) e um teste de equilíbrio. O treinamento foi periodizado em 12 meses, divididos em seis ciclos com intensidade de 70-90% da carga máxima (10RM). Testes paramétricos (t ou Wilcoxon), para análise intragrupo e (Anova) para intergrupos, foram usados. RESULTADOS: Foram encontradas diferenças significativas favoráveis ao grupo que treinou nos sítios da lombar L2-L4 (6,8%, p = 0,001), colo do fêmur (4,8%, p = 0,005) e trocanter (0,76%, p = 0,005). Além de diferenças significativas também para o equilíbrio corporal (21,4%, p = 0,001), qualidade de vida (9,1%, p = 0,001) e todas as medidas de força como na pressão de pernas 45° (49,3%, p &lt; 0,001). CONCLUSÃO: Os resultados sugerem que a metodologia aplicada ao treino resistido pode ser recomendada a mulheres menopausadas com baixa DMO.