First Void Urinary Calcium for Tracking Bone Loss and Kidney Stone Risk in Space

Thamer, Semran; Buckey, Jay C.

doi:10.3357/amhp.5979.2022

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…The results also showed a strong correlation between the first morning void calcium concentration and the 24-h collection results. A study by Thamer et al [9 ▪ ] followed up on this finding to determine how likely a first morning void was to contain the highest urinary calcium measurement in a day. This information was useful for determining how many consecutive first morning void measurements would need to be collected to ensure that the highest concentrations where indeed being detected.…”

Section: Text Of Reviewmentioning

confidence: 99%

Bone loss and kidney stone risk in weightlessness

Buckey

Thamer

Lan

2022

Current Opinion in Nephrology &Amp; Hypertension

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Purpose of reviewWeightlessness increases both bone loss and kidney stone formation risk. The large interior volume of the International Space Station (ISS) has allowed for a mix of exercise devices to help maintain the skeleton. But space exploration is changing. Long stays on the ISS will be replaced by journeys in smaller spacecraft both to and around the Moon. Small private space stations are under development. This will limit the ability to do exercise countermeasures, which can increase both bone loss and kidney stone risk. This review examines this risk and how it can be minimized in this new era of spaceflight. Recent findingsSimple, low-mass, low-power ways to track bone loss and kidney stone risk in space are being researched. Tracking urinary calcium concentration in the first morning void and targeting additional countermeasures (e.g. bisphosphonates) to those who run consistently high levels is one promising approach. SummaryNew exploration spacecraft would not have the room and capability to replicate the current 2 h, daily exercise countermeasure programme on the ISS. A monitoring approach, perhaps using urinary calcium as a marker, is needed to find those at greatest risk. This would allow countermeasures to be targeted individually and used efficiently.

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Section: Text Of Reviewmentioning

confidence: 99%

Bone loss and kidney stone risk in weightlessness

Buckey

Thamer

Lan

2022

Current Opinion in Nephrology &Amp; Hypertension

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Urolithiasis risk in space flight

Patel,

Nakada

2025

Precision Medicine for Long and Safe Permanence of Humans in Space

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Prospective directions in human health monitoring during long-term spaceflights

Ivanov,

Shansky,

Prusakov

et al. 2024

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Introduction. The increasing duration of spaceflights and the associated prolonged exposure of space crewmembers to unfavorable microgravity conditions necessitate the development of improved approaches to diagnosing the health status directly during the flight. This study is aimed at searching and selecting promising biological markers suitable for studying directly during spaceflights.Objective. To review the current status of the abovementioned problem and to identify biochemical and molecular markers most promising for biomedical research in spaceflight conditions.Methods. A literature review of methods currently used for monitoring the level of biological markers characterizing variations in the immune, excretory, reproductive, musculoskeletal, and blood coagulation systems caused by spaceflight conditions was carried out.Findings. Data concerning biological markers used for monitoring the health status of space crewmembers were analyzed. The authors argue that protein markers reflecting bone tissue remodeling hold particular promise. The decrease in bone tissue density developed as a result of microgravity carries potential risks of traumatism, thus making screening diagnostics of the state of the musculoskeletal system a key focus of laboratory diagnostics. The conducted literature review suggests that P1NP and osteocalcin may serve as the most informative markers of new bone tissue formation, while collagen C-telopeptide, pyridine cross-links, and tartrate-resistant acid phosphatase may serve as markers of bone tissue lysis.

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First Void Urinary Calcium for Tracking Bone Loss and Kidney Stone Risk in Space

Cited by 3 publications

References 23 publications

Bone loss and kidney stone risk in weightlessness

Bone loss and kidney stone risk in weightlessness

Urolithiasis risk in space flight

Prospective directions in human health monitoring during long-term spaceflights

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