Aim <p>This study aimed to explore whether changes in extracellular water distribution and phase angle can serve as early markers of muscle loss in patients with severe sarcopenia.</p> Methods <p>A 12-month prospective study enrolled 128 severe sarcopenia patients (72&#xa0;M, 56F; mean age 74.3 ± 6.8y), with regular multi-frequency bioelectrical impedance analysis (5–500&#xa0;kHz) and phase angle measurement at 50&#xa0;kHz. Body composition, physical function, and inflammation markers were periodically assessed.</p> Results <p>Of the 128 enrolled participants, 112 (87.5%) completed the study. Muscle mass decreased significantly over 12&#xa0;months, with the most rapid loss occurring between months 3–6. Phase angle also declined consistently, and a drop of ≥ 0.3° over three months effectively predicted accelerated muscle loss. Changes in bioimpedance parameters appeared nearly three weeks before detectable muscle loss. The extracellular water-to-total body water ratio rose progressively and correlated strongly with muscle mass reduction. Limb regions showed more notable deterioration than the trunk.</p> Conclusion <p>Multi-frequency bioelectrical impedance analysis combined with phase angle measurement offers a non-invasive and sensitive approach for early detection of muscle mass loss in severe sarcopenia. Shifts in electrical parameters and water distribution precede measurable muscle decline, highlighting a potential window for timely intervention.</p>

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Longitudinal study on the relationship between extracellular water distribution changes and muscle mass in severe sarcopenia patients using multi-frequency bioelectrical impedance analysis combined with phase angle measurements

  • Rong Chen,
  • Zhaohui Xu,
  • Hongwei Shi,
  • Tengfei Ma,
  • Pengfei Li,
  • Rong Yuan,
  • Chunfeng Liu

摘要

Aim

This study aimed to explore whether changes in extracellular water distribution and phase angle can serve as early markers of muscle loss in patients with severe sarcopenia.

Methods

A 12-month prospective study enrolled 128 severe sarcopenia patients (72 M, 56F; mean age 74.3 ± 6.8y), with regular multi-frequency bioelectrical impedance analysis (5–500 kHz) and phase angle measurement at 50 kHz. Body composition, physical function, and inflammation markers were periodically assessed.

Results

Of the 128 enrolled participants, 112 (87.5%) completed the study. Muscle mass decreased significantly over 12 months, with the most rapid loss occurring between months 3–6. Phase angle also declined consistently, and a drop of ≥ 0.3° over three months effectively predicted accelerated muscle loss. Changes in bioimpedance parameters appeared nearly three weeks before detectable muscle loss. The extracellular water-to-total body water ratio rose progressively and correlated strongly with muscle mass reduction. Limb regions showed more notable deterioration than the trunk.

Conclusion

Multi-frequency bioelectrical impedance analysis combined with phase angle measurement offers a non-invasive and sensitive approach for early detection of muscle mass loss in severe sarcopenia. Shifts in electrical parameters and water distribution precede measurable muscle decline, highlighting a potential window for timely intervention.