Labeling the human skeleton with 41Ca to assess changes in bone calcium metabolism

Denk, E.; Hillegonds, D. J.; Vogel, John S.; Synal, Arno; Geppert, Christopher; Wendt, Κ.; Fattinger, Karin; Hennessy, Carmel; Berglund, Michael; Hurrell, Richard F.; Walczyk, Thomas

doi:10.1007/s00216-006-0795-5

Cited by 37 publications

(52 citation statements)

References 35 publications

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“…in nuclear technology 41 Ca is one of several long-lived nuclides that determine the long-term safety of final depositories for nuclear waste (Hou, 2005;Warwick et al, 2009). In biological and medical research, it is used as a tracer for various processes (Freeman et al, 2000;Jiang et al, 2004;Denk et al, 2006). For all these applications, the reliable and accurate knowledge of the nuclide's half-life is of crucial importance.…”

Section: Introductionmentioning

confidence: 99%

Precise and direct determination of the half-life of 41Ca

Jörg

Amelin

Kossert

et al. 2012

Geochimica et Cosmochimica Acta

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Section: Introductionmentioning

confidence: 99%

Precise and direct determination of the half-life of 41Ca

Jörg

Amelin

Kossert

et al. 2012

Geochimica et Cosmochimica Acta

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“…Because of these advantages, calcium kinetic modeling has been used in studying the effect of specific conditions on calcium metabolism such as subject characteristics (Bryant et al, 2003;Wastney et al, 1996), dietary intervention (Spence et al, 2005), and calcium source (Shahnazari et al, 2010;Weaver et al, 2009). As long-term assessment of calcium and bone metabolism became possible with 41 Ca, a calcium kinetic model that fits 41 Ca data collected over years were developed (Denk et al, 2006) and used to estimating bone resorption rates (Lee et al, 2011b). The procedures and contexts of calcium kinetic modeling are well summarized with suitable software, WinSAAM, by Wastney et al (Wastney, 1999).…”

Section: Calcium Kinetic Modelingmentioning

confidence: 99%

Review on Application of Biosystem Modeling: Introducing 3 Model-based Approaches in Studying Ca Metabolism

Lee

Cho²

2012

Journal of Biosystems Engineering

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Purpose:This review aims at introducing 3 modeling approaches classified into 3 categories based on the purpose (estimation or prediction), structure (linear or non-linear) and phase (steady-state or dynamic-state); 1) statistical approaches, 2) kinetic modeling and 3) mechanistic modeling. We hope that this review can be a useful guide in the model-based approach of calcium metabolism as well as illustrates an application of engineering tools in studying biosystems. Background: The meaning of biosystems has been expanded, including agricultural/food system as well as biological systems like genes, cells and metabolisms. This expansion has required a useful tool for assessing the biosystems and modeling has arisen as a method that satisfies the current inquiry. To suit for the flow of the era, examining the system which is a little bit far from the traditional biosystems may be interesting issue, which can enlarge our insights and provide new ideas for prospective biosystem-researches. Herein, calcium metabolic models reviewed as an example of application of modeling approaches into the biosystems. Review: Calcium is an essential nutrient widely involved in animal and human metabolism including bone mineralization and signaling pathways. For this reason, the calcium metabolic system has been studied in various research fields of academia and industries. To study calcium metabolism, model-based system analyses have been utilized according to the purpose, subject characteristics, metabolic sites of interest, and experimental design. Either individual metabolic pathways or a whole homeostasis has been modeled in a number of studies.

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“…Dietary and lifestyle interventions may be effective in preventing bone loss, but assessing their subtle impact on bone structure is challenging. Current techniques, such as measuring bone mineral density (BMD) 11 and serum biomarkers of bone metabolism, are limited by their low sensitivity and/or high variability (3). Labeling the skeleton with 41 Ca to monitor bone calcium flux is a promising technique to evaluate bone metabolism (3,4).…”

Section: Introductionmentioning

confidence: 99%

“…Current techniques, such as measuring bone mineral density (BMD) 11 and serum biomarkers of bone metabolism, are limited by their low sensitivity and/or high variability (3). Labeling the skeleton with 41 Ca to monitor bone calcium flux is a promising technique to evaluate bone metabolism (3,4). This method can detect small changes in bone calcium flux with high sensitivity and precision over a short period of time, making it an ideal tool for assessing dietary and lifestyle interventions in small groups (3,4).…”

Section: Introductionmentioning

confidence: 99%

Oral Vitamin D Supplements Increase Serum 25-Hydroxyvitamin D in Postmenopausal Women and Reduce Bone Calcium Flux Measured by 41Ca Skeletal Labeling

Schild

Herter-Aeberli

Fattinger

et al. 2015

The Journal of Nutrition

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In healthy postmenopausal women, increasing serum 25(OH)D primarily affects calcium transfer from the central compartment to a fast exchanging compartment; it is possible that this represents transfer from the extracellular space to the surface of bone. A serum 25(OH)D concentration of ~40 μg/L achieves ~90% of the expected maximal effect on this transfer rate. This trial was registered at clinicaltrials.gov as NCT01053481.

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Labeling the human skeleton with 41Ca to assess changes in bone calcium metabolism

Cited by 37 publications

References 35 publications

Precise and direct determination of the half-life of 41Ca

Precise and direct determination of the half-life of 41Ca

Review on Application of Biosystem Modeling: Introducing 3 Model-based Approaches in Studying Ca Metabolism

Oral Vitamin D Supplements Increase Serum 25-Hydroxyvitamin D in Postmenopausal Women and Reduce Bone Calcium Flux Measured by 41Ca Skeletal Labeling

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