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J Reconstr Microsurg
DOI: 10.1055/a-2803-4594
Original Article

Systemic Elimination rather than Redistribution: Segmental Body Water Analysis after Leg Lymphovenous Anastomosis

Authors

  • Yuto Kinjo

    1   Division of Plastic and Aesthetic Surgery, Ina Central Hospital, Ina, Japan (Ringgold ID: RIN36843)

  • Yoshichika Yasunaga

    2   Division of Plastic and Reconstructive Surgery, Shizuoka Cancer Center, Nagaizumi, Japan (Ringgold ID: RIN38471)

  • Shoji Kondoh

    1   Division of Plastic and Aesthetic Surgery, Ina Central Hospital, Ina, Japan (Ringgold ID: RIN36843)

  • Saeko Kondoh

    3   Nursing Division, Ina Central Hospital, Ina, Japan (Ringgold ID: RIN36843)

  • Masato Umeda

    1   Division of Plastic and Aesthetic Surgery, Ina Central Hospital, Ina, Japan (Ringgold ID: RIN36843)

  • Shunsuke Yuzuriha

    4   Department of Plastic and Reconstructive Surgery, Shinshu University Graduate School of Medicine School of Medicine, Matsumoto, Japan (Ringgold ID: RIN34808)
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Abstract Background: Lymphovenous anastomosis (LVA) is a microsurgical procedure that redirects stagnant lymph flow into the venous circulation, reducing fluid stasis in patients with secondary limb lymphedema. Although previous studies have reported that complex decongestive therapy redistributes fluid from the affected leg to other body segments, whether fluid reduction after LVA results from systemic elimination or intersegmental redistribution remains unclear. This study aimed to clarify the mechanism by analyzing the changes in segmental body water volume using bioelectrical impedance analysis. Methods: We retrospectively analyzed the data of 40 Japanese women with unilateral stage II secondary leg lymphedema who underwent LVA from 2013 to 2021. Multifrequency segmental bioelectrical impedance analysis was used to assess extracellular, intracellular, and segmental body water in the legs, trunk, and arms. Measurements were performed preoperatively and at least 12 months postoperatively. Changes in segmental and total body water were statistically evaluated. Results: Significant reductions were observed in segmental body water in the affected leg, and in the total body water (affected leg: 5.80 L to 5.20 L, p < 0.001; total body water: 25.6 L to 25.0 L, p = 0.002), with no significant changes in the unaffected leg, trunk, or arms. Extracellular and intracellular water in the affected leg decreased significantly (p = 0.001 and p < 0.001, respectively), whereas the percentage of extracellular water remained stable. Conclusion: LVA achieved sustained reductions in segmental and total body water volumes, localized to the affected leg, without compensatory increases in other body segments. These findings support the efficacy of leg LVA in achieving long-term fluid homeostasis through systemic elimination of excess lymphatic fluid rather than redistribution.



Publication History

Received: 29 June 2025

Accepted after revision: 01 February 2026

Accepted Manuscript online:
06 February 2026

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