Objective
To determine whether the bioimpedance analysis (BIA) ratios of upper to lower extremities could predict treatment outcomes after complex decongestive therapy (CDT) for gynecological cancer related lymphedema (GCRL).
Methods
A retrospective study, from March 2015 to December 2018, was conducted. The study sample comprised patients receiving CDT, 30 minutes per day, for 10 days. Bioimpedance was measured pre- and post-CDT. Circumference measurements were obtained at 20 and 10 cm above the knee (AK) and 10 cm below the knee (BK). We calculated the expected impedance at 0 Hz (R0) of extremities and upper/lower extremity R0 ratios (R0_U/L). We evaluated the relationship between R0_U/L and changes in R0_U/L and circumferences, pre- and post-CDT.
Results
Overall, 59 patients were included in this study. Thirty-one lower extremities in 26 patients comprised the acute group, and 38 lower extremities in 33 patients comprised the chronic group. Pre-treatment R0_U/L was significantly correlated with R0_U/L change after adjusting for age and BMI (acute: R=0.513, p<0.01; chronic: R=0.423, p<0.01). In the acute group, pre-treatment R0_U/L showed a tendency to be correlated with circumference change (AK 20 cm: R=0.427, p=0.02; AK 10 cm: R=0.399, p=0.03).
Conclusion
Our study results suggested that pre-treatment BIA could predict volume reductions after CDT in the early stages of GCRL. These findings implied that BIA value could be one possible parameter to apply in treatment outcomes prediction, during the early stage of GCRL. Therefore, further large-scale prospective studies will be beneficial.

Citations

• Efficacy of complex decongestive therapy on venous flow, internal saphenous diameter, edema, fat mass of the limbs and quality of life in patients with chronic venous insufficiency: A randomized clinical trial
  Ana Martín Jiménez, Beatriz María Bermejo Gil, Alejandro Santos-Lozano, Francisco Jose Pinto- Fraga, Carolina García Barroso, Leonardo Raul Vittori, Aurymar Fraino, Héctor Menéndez Alegre
  Journal of Vascular Surgery: Venous and Lymphatic Disorders.2025; 13(2): 102005.     CrossRef
• Comparing the direct effect of lymphatic dynamic transport after lower-level laser therapy in healthy volunteers: a randomized controlled trial
  Hasuk Bae, Jae Yong Jeon, Su Hong Choi, Min-Hyung Rhee, Ye Ji Kim, In Joo Kong, Ju-Ri Eom, Jin A Yoon
  Lasers in Medical Science.2025;[Epub]     CrossRef
• Decompression of Axillary Vein: An Essential Adjunct for Advanced Lymphedema
  Hyung Hwa Jeong, In Ah Yoon, Feras M. Al-Shomer, HyunSuk Peter Suh, ChangSik John Pak, Peter Neligan, Joon Pio Hong
  Plastic & Reconstructive Surgery.2024; 154(1): 218.     CrossRef
• Factors Predicting the Effect of a Complex Decongestive Therapy in Patients with Mild Lymphedema Following Mastectomy for Early Stage Breast Cancer
  Ju Hyeon Kim, Han Eum Choi, Jae Hyun Lee, Young-Joo Sim, Ho Joong Jeong, Ghi Chan Kim
  Lymphatic Research and Biology.2024; 22(5): 241.     CrossRef
• Lymphedema Index Ratio As Predictive Factor of Treatment in Patients with Breast Cancer-Related Lymphedema
  Han Eum Choi, Yeong Kyun Bae, Jae Hyun Lee, Ghi Chan Kim, Ho Joong Jeong, Young Joo Sim
  Lymphatic Research and Biology.2022; 20(3): 302.     CrossRef
• Recent Trends in Rehabilitation for Cancer Patients
  Kwan-Sik Seo
  Annals of Rehabilitation Medicine.2022; 46(3): 111.     CrossRef
• Update August 2020
  Francine Blei
  Lymphatic Research and Biology.2020; 18(4): 381.     CrossRef

Citations

• Clinical Utility of Bioimpedance Analysis for Upper Limb Lymphedema with Surgical Treatment
  Min Gi Kim, Woo Chul Son, Jin Geun Kwon, Joon Pio Hong, Hyun Suk Suh, Sang Ah Kim, Hwayeong Cheon, Ma. Nessa Gelvosa, Jae Yong Jeon
  Lymphatic Research and Biology.2025; 23(1): 39.     CrossRef
• A comprehensive review of computational diagnostic techniques for lymphedema
  Jayasree K R, D K Vijayakumar, Vijayan Sugumaran, Rahul Krishnan Pathinarupothi
  Progress in Biomedical Engineering.2025; 7(2): 022002.     CrossRef
• The Role of Bioelectrical Impedance Analysis in Predicting Secondary Surgical Interventions for Lymphedema
  Wataru Otsuka, Shuhei Yoshida, Nanami Taketomi, Yasushi Orihashi, Isao Koshima
  Journal of Clinical Medicine.2025; 14(7): 2151.     CrossRef
• At-Home Bioelectrical Impedance Analysis (BIA) Monitoring of Adult Females at Risk of Breast Cancer-Related Lymphedema: Nonrandomized One-Year Longitudinal Feasibility Study
  Cheri Teranishi-Hashimoto, Monica Padilla, Yoomi Heo, Lori Bravi
  JMIR Formative Research.2025; 9: e73978.     CrossRef
• Contrast‐enhanced ultrasonography as an adjunctive method to ICG lymphography for functional lymphaticovenous anastomosis
  Young Woong Mo, Seung Jun Lee, Dong Won Lee, Won Jai Lee, Sang Hee Im, Young Chul Suh
  Journal of Surgical Oncology.2024; 129(5): 965.     CrossRef
• Does Lymphovenous Anastomosis Effect Mammalian Target of Rapamycin Inhibitor-associated Lymphedema Patients?
  Inah Yoon, Hyung Bae Kim, Jeongmok Cho, Changsik John Pak, Hyunsuk Peter Suh, Jae Yong Jeon, Joon Pio Hong
  Archives of Plastic Surgery.2024; 51(03): 321.     CrossRef
• Edema of the upper extremity on the unaffected side in unilateral breast cancer patients
  Ju Hyeon Kim, Seung Tae Seong, Jae Hyun Lee, Ghi Chan Kim, Ho Joong Jeong, Young-Joo Sim
  Medicine.2024; 103(19): e37995.     CrossRef
• Factors Predicting the Effect of a Complex Decongestive Therapy in Patients with Mild Lymphedema Following Mastectomy for Early Stage Breast Cancer
  Ju Hyeon Kim, Han Eum Choi, Jae Hyun Lee, Young-Joo Sim, Ho Joong Jeong, Ghi Chan Kim
  Lymphatic Research and Biology.2024; 22(5): 241.     CrossRef
• Effects of Forearm Resistance Exercises on Breast Cancer-Related Lymphedema Using Segmental Bioelectrical Impedance Analysis: A Pilot Randomized Controlled Trial
  Woo Chul Son, Sang Ah Kim, Ah Hyun Kim, Hawyeong Cheon, Jae Yong Jeon
  Journal of Clinical Medicine.2024; 13(23): 7200.     CrossRef
• Clinical Utility of Bioelectrical Impedance Analysis Parameters for Evaluating Patients with Lower Limb Lymphedema after Lymphovenous Anastomosis
  Woo Chul Son, Jin Geun Kwon, Joon Pio Hong, Chang Sik Park, Sang Ah Kim, Jung Hwa Do, Hwayeong Cheon, Ma Nessa Gelvosa, Hyun Suk Suh, Jae Yong Jeon
  Journal of Reconstructive Microsurgery.2023; 39(03): 171.     CrossRef
• Outcome Analysis of Combined Surgical Approaches in Advanced-stage Upper Extremity Breast Cancer-related Lymphedema
  Yujin Myung, Joseph Kyu-hyung Park, Jaewon Beom, Jae-Young Lim, Young Suk Park, Sang-Hoon Ahn, Eunyoung Kang, Hee-Chul Shin, Eun-Kyu Kim, Sun-Young Nam, Chan Yeong Heo, Jae Hoon Jeong
  Plastic and Reconstructive Surgery - Global Open.2023; 11(9): e5237.     CrossRef
• Water Distribution Changes in Complex Decongestive Treatment for Leg Lymphedema: Quantitative Evaluation by Direct Segmental Multi-Frequency Bioimpedance Analysis
  Masahiro Toshima, Yoshihisa Morino
  Annals of Vascular Diseases.2022; 15(2): 94.     CrossRef
• Does Manual Lymphatic Drainage Add Value in Reducing Suprafascial Fluid Accumulation and Skin Elasticity in Patients With Breast Cancer–Related Lymphedema?
  Tessa De Vrieze, Nick Gebruers, Ines Nevelsteen, Sarah Thomis, An De Groef, Wiebren A A Tjalma, Jean-Paul Belgrado, Liesbeth Vandermeeren, Chris Monten, Marianne Hanssens, Anne Asnong, Lore Dams, Elien Van der Gucht, An-Kathleen Heroes, Nele Devoogdt
  Physical Therapy.2022;[Epub]     CrossRef
• Effects of 12 weeks of water aerobics on body composition in those affected by breast cancer
  A. J. Salacinski, E. J. Doyle, R. Damon, R. A. Acevedo, C. E. Broeder
  Supportive Care in Cancer.2021; 29(3): 1205.     CrossRef
• Lymph Node to Vein Anastomosis (LNVA) for lower extremity lymphedema
  Chang Sik Pak, Hyunsuk Peter Suh, Jin Geun Kwon, Min-Jeong Cho, Joon Pio Hong
  Journal of Plastic, Reconstructive & Aesthetic Surgery.2021; 74(9): 2059.     CrossRef
• Feasibility of segmental bioelectrical impedance analysis for mild- to moderate-degree breast cancer-related lymphedema
  Woo-Jin Kim, Geun-Yeol Jo, Ji-Ho Park, Hwan-Kwon Do
  Medicine.2021; 100(4): e23722.     CrossRef
• Effects of Sodium Selenite Injection on Serum Metabolic Profiles in Women Diagnosed with Breast Cancer-Related Lymphedema—Secondary Analysis of a Randomized Placebo-Controlled Trial Using Global Metabolomics
  Seoha Lee, Bora Lee, Yeonhee Kim, Sohyun Min, Eunjoo Yang, Seungmin Lee
  Nutrients.2021; 13(9): 3253.     CrossRef
• Patient-reported outcomes and objective assessments with arm measurement and bioimpedance analysis for lymphedema among breast cancer survivors
  Mitsuo Terada, Akiyo Yoshimura, Masataka Sawaki, Masaya Hattori, Gondo Naomi, Haruru Kotani, Yayoi Adachi, Madoka Iwase, Ayumi Kataoka, Kayoko Sugino, Makiko Mori, Nanae Horisawa, Yuri Ozaki, Hiroji Iwata
  Breast Cancer Research and Treatment.2020; 179(1): 91.     CrossRef
• Water Distribution Changes in Complex Decongestive Treatment for Leg Lymphedema: Quantitative Evaluation by Direct Segmental Multi-frequency Bioimpedance Analysis
  Masahiro Toshima, Yoshihisa Morino
  The Japanese Journal of Phlebology.2020; 31(1): 1.     CrossRef
• Body Positional Effects on Bioimpedance Spectroscopy Measurements for Lymphedema Assessment of the Arm
  Louise A. Koelmeyer, Leigh C. Ward, Catherine Dean, John Boyages
  Lymphatic Research and Biology.2020; 18(5): 464.     CrossRef
• Bioimpedance Spectroscopy for Assessment of Breast Cancer-Related Lymphedema: A Systematic Review
  Antonio J. Forte, Maria T. Huayllani, Daniel Boczar, Pedro Ciudad, Xiaona Lu, Salam Kassis, Alexander S. Parker, Pamela A. Moore, Sarah A. McLaughlin
  Plastic Surgical Nursing.2020; 40(2): 86.     CrossRef
• Bioimpedance Analysis for Predicting Outcomes of Complex Decongestive Therapy for Gynecological Cancer Related Lymphedema: A Feasibility Study
  Su Hwan Bae, Won Jun Kim, Yu Jin Seo, JaYoung Kim, Jae Yong Jeon
  Annals of Rehabilitation Medicine.2020; 44(3): 238.     CrossRef
• Use of magnetic resonance imaging for evaluation of therapeutic response in breast cancer-related lymphedema: A systematic review
  Antonio Jorge Forte, Daniel Boczar, Salam Kassis, Maria T. Huayllani, Sarah A. McLaughlin
  Archives of Plastic Surgery.2020; 47(04): 305.     CrossRef
• The effects of poloxamer and sodium alginate mixture (Guardix-SG®) on range of motion after axillary lymph node dissection: A single-center, prospective, randomized, double-blind pilot study
  Sae Byul Lee, Sung-chan Gwark, Cheol Min Kang, Guiyun Sohn, Jisun Kim, Il Yong Chung, Jong Won Lee, Hee Jeong Kim, Beom Seok Ko, Sei-Hyun Ahn, Won Kim, Junghwa Do, Jae Yong Jeon, Jinsung Kim, Eunhae Um, Tae in Yoon, Sung-ui Jung, Minkyu Han, Byung Ho Son,
  PLOS ONE.2020; 15(9): e0238284.     CrossRef
• Electronic Moxibustion for Breast Cancer-Related Lymphedema: A Pilot Clinical Trial
  Kyungsun Han, Ojin Kwon, Hyo-Ju Park, Ae-Ran Kim, Boram Lee, Mikyung Kim, Joo-Hee Kim, Chang-sup Yang, Hwa-Seung Yoo
  Integrative Cancer Therapies.2020;[Epub]     CrossRef
• Who Will Continuously Depend on Compression to Control Persistent or Progressive Breast Cancer-Related Lymphedema Despite 2 Years of Conservative Care?
  Chul Jung, JaYoung Kim, Yu Jin Seo, Kyeong Joo Song, Ma. Nessa Gelvosa, Jin Geun Kwon, Changsik John Pak, Hyunsuk Peter Suh, Joon Pio Hong, Hwa Jung Kim, Jae Yong Jeon
  Journal of Clinical Medicine.2020; 9(11): 3640.     CrossRef
• Electrode Equivalence for Use in Bioimpedance Spectroscopy Assessment of Lymphedema
  Brenda J. Svensson, Elizabeth S. Dylke, Leigh C. Ward, Sharon L. Kilbreath
  Lymphatic Research and Biology.2019; 17(1): 51.     CrossRef
• Lymphedema Incidence After Axillary Lymph Node Dissection
  Anna Rose Johnson, Sarah Kimball, Sherise Epstein, Abram Recht, Samuel J. Lin, Bernard T. Lee, Ted A. James, Dhruv Singhal
  Annals of Plastic Surgery.2019; 82(4S): S234.     CrossRef
• Utilization of bioelectrical impedance analysis for detection of lymphedema in breast Cancer survivors: a prospective cross sectional study
  Sung Mook Lim, Yujin Han, Seung Il Kim, Hyung Seok Park
  BMC Cancer.2019;[Epub]     CrossRef
• Effects of Different Bandaging Methods for Treating Patients With Breast Cancer-Related Lymphedema
  Se Hyun Oh, Sung Hwan Ryu, Ho Joong Jeong, Jung Hyun Lee, Young-Joo Sim
  Annals of Rehabilitation Medicine.2019; 43(6): 677.     CrossRef
• Reference values of bioelectrical impedance analysis for detecting breast cancer-related lymphedema
  Minji Jung, Jae Yong Jeon, Gi Jeong Yun, Seoyon Yang, Sara Kwon, Yu Jin Seo
  Medicine.2018; 97(44): e12945.     CrossRef
• Risk factors and a prediction model for lower limb lymphedema following lymphadenectomy in gynecologic cancer: a hospital-based retrospective cohort study
  Kenji Kuroda, Yasuhiro Yamamoto, Manami Yanagisawa, Akira Kawata, Naoya Akiba, Kensuke Suzuki, Kazutoshi Naritaka
  BMC Women's Health.2017;[Epub]     CrossRef
• Effects of a complex rehabilitation program on edema status, physical function, and quality of life in lower-limb lymphedema after gynecological cancer surgery
  Jung Hwa Do, Kyoung Hyo Choi, Jun Su Ahn, Jae Yong Jeon
  Gynecologic Oncology.2017; 147(2): 450.     CrossRef
• Diagnosis of Upper Quadrant Lymphedema Secondary to Cancer: Clinical Practice Guideline From the Oncology Section of the American Physical Therapy Association
  Kimberly Levenhagen, Claire Davies, Marisa Perdomo, Kathryn Ryans, Laura Gilchrist
  Physical Therapy.2017; 97(7): 729.     CrossRef
• Linfedemas de los miembros
  S. Vignes
  EMC - Dermatología.2017; 51(2): 1.     CrossRef
• In response to: Letter to the Editor by Kilbreath et al.
  Meyha N. Swaroop, Cheryl L. Brunelle, Maria S. Asdourian, Hoda E. Sayegh, Melissa N. Skolny, Laura Salama, Alphonse G. Taghian
  Journal of Surgical Oncology.2017; 115(2): 223.     CrossRef
• Bilateral Changes in Deep Tissue Environment After Manual Lymphatic Drainage in Patients with Breast Cancer Treatment-Related Lymphedema
  Paula M.C. Donahue, Rachelle Crescenzi, Allison O. Scott, Vaughn Braxton, Aditi Desai, Seth A. Smith, John Jordi, Ingrid M. Meszoely, Ana M. Grau, Rondi M. Kauffmann, Raeshell S. Sweeting, Kandace Spotanski, Sheila H. Ridner, Manus J. Donahue
  Lymphatic Research and Biology.2017; 15(1): 45.     CrossRef
• Bioimpedance spectroscopy does have a valid and evidence‐based role in detection and monitoring of lymphoedema
  Sharon L. Kilbreath, Elizabeth C. Dylke, Leigh C. Ward
  Journal of Surgical Oncology.2017; 115(2): 221.     CrossRef
• Diagnosis of Upper-Quadrant Lymphedema Secondary to Cancer: Clinical Practice Guideline From the Oncology Section of APTA
  Kimberly Levenhagen, Claire Davies, Marisa Perdomo, Kathryn Ryans, Laura Gilchrist
  Rehabilitation Oncology.2017; 35(3): E1.     CrossRef
• Lymphœdèmes des membres
  S. Vignes
  EMC - Dermatologie.2017; 19(1): 1.     CrossRef
• Breast cancer-related lymphedema after axillary lymph node dissection: does early postoperative prediction model work?
  Atilla Soran, Ebru Menekse, Mark Girgis, Lori DeGore, Ronald Johnson
  Supportive Care in Cancer.2016; 24(3): 1413.     CrossRef
• A comprehensive review of bioimpedance spectroscopy as a diagnostic tool for the detection and measurement of breast cancer-related lymphedema
  Cara Seward, Melissa Skolny, Cheryl Brunelle, Maria Asdourian, Laura Salama, Alphonse G. Taghian
  Journal of Surgical Oncology.2016; 114(5): 537.     CrossRef
• Breast Cancer–Related Lymphedema in Elderly Patients
  Fatih Levent Balci, Lori DeGore, Atilla Soran
  Topics in Geriatric Rehabilitation.2012; 28(4): 243.     CrossRef