Mei R Fu1, Melissa L McTernan2, Jeanna M Qiu3, Eunjung Ko4, Simay Yazicioglu5, Deborah Axelrod6, Amber Guth6, Zhipeng Fan5, Anna Sang7, Christine Miaskowski8, Yao Wang5. 1. Boston College William F. Connell School of Nursing, Chestnut Hill, MA, USA. 2. Boston College, Research Services, Chestnut Hill, MA, USA. 3. Harvard Medical School, Boston, MA, USA. 4. The Ohio State University College of Nursing, Columbus, OH, USA. 5. New York University Tandon School of Engineering, Brooklyn, NY, USA. 6. New York University School of Medicine, New York, NY, USA. 7. New York University College of Arts and Science, New York, NY, USA. 8. University of California, San Francisco, CA, USA.
Abstract
BACKGROUND: The-Optimal-Lymph-Flow (TOLF) intervention aims to promote lymph flow through therapeutic lymphatic exercises to relieve lymphatic pain, swelling, lymphedema symptoms, and to decrease lymph fluid levels among breast cancer survivors. To enhance the efficacy of the TOLF intervention, an innovative, intelligent, Kinect-enhanced lymphatic exercise intervention (Kinect-TOLF) was developed to teach patients to perform the lymphatic exercises correctly. OBJECTIVES: This feasibility trial aimed to determine the feasibility, usability, and effects of the Kinect-TOLF on lymphatic pain, swelling, lymphedema symptoms, and lymph fluid levels. METHODS: A single-arm feasibility trial with a pre- and post-test design was employed to recruit 30 breast cancer survivors with persistent lymphatic pain or swelling. Patients received a single training session to learn how to perform the lymphatic exercises using the Kinect-TOLF program. Descriptive statistics, Wilcoxon signed-rank tests, t-test, Spearman's rank correlation coefficients, linear regressions, and Cohen's d were performed for data analysis. Qualitative data were assessed for common themes. RESULTS: The Kinect-TOLF was effective in training patients to perform the lymphatic exercises correctly with high user satisfaction. Significant reductions were found in scores of lymphatic pain (MedΔ = -1.00, CI = [-1.5, -0.1], P = .004), arm/hand swelling (MedΔ = -1.00, CI = [-1.5, -0.5], P = .004), total swelling (MedΔ = -1.5, CI = [-2.0, -1.0], P = .003), number of lymphedema symptoms (MΔ = -3.8, CI = [-5.5, -2.1], P < .001), and lymphedema symptom severity (MΔ = -5.3, CI = [-9.5, -1.1], P = .016). A significant reduction in lymph fluid levels was found in mean L-Dex scores (MΔ = -2.68, CI = [-4.67, -0.69], P = .010). Greater decrease in mean L-Dex scores were found in patients with abnormal lymph fluid levels (L-Dex ≥ 7.1) (MΔ = -5.19, CI = [-1.75, -8.63], P = .008). Patients' qualitative feedback supported the results of the study. CONCLUSIONS: The Kinect-TOLF is safe, feasible, and effective in reducing lymphatic pain, swelling, lymphedema symptoms, and in decreasing lymph fluid levels. Future research should focus on a randomized clinical trial to confirm the unique or synergistic efficacy of the Kinect-TOLF in comparison with current lymphedema treatment and other forms of exercises or movement therapy. This study was registered in ClinicalTrials.gov with US ClinicalTrials.gov Identifier: NCT03999177.
RCT Entities:
BACKGROUND: The-Optimal-Lymph-Flow (TOLF) intervention aims to promote lymph flow through therapeutic lymphatic exercises to relieve lymphatic pain, swelling, lymphedema symptoms, and to decrease lymph fluid levels among breast cancer survivors. To enhance the efficacy of the TOLF intervention, an innovative, intelligent, Kinect-enhanced lymphatic exercise intervention (Kinect-TOLF) was developed to teach patients to perform the lymphatic exercises correctly. OBJECTIVES: This feasibility trial aimed to determine the feasibility, usability, and effects of the Kinect-TOLF on lymphatic pain, swelling, lymphedema symptoms, and lymph fluid levels. METHODS: A single-arm feasibility trial with a pre- and post-test design was employed to recruit 30 breast cancer survivors with persistent lymphatic pain or swelling. Patients received a single training session to learn how to perform the lymphatic exercises using the Kinect-TOLF program. Descriptive statistics, Wilcoxon signed-rank tests, t-test, Spearman's rank correlation coefficients, linear regressions, and Cohen's d were performed for data analysis. Qualitative data were assessed for common themes. RESULTS: The Kinect-TOLF was effective in training patients to perform the lymphatic exercises correctly with high user satisfaction. Significant reductions were found in scores of lymphatic pain (MedΔ = -1.00, CI = [-1.5, -0.1], P = .004), arm/hand swelling (MedΔ = -1.00, CI = [-1.5, -0.5], P = .004), total swelling (MedΔ = -1.5, CI = [-2.0, -1.0], P = .003), number of lymphedema symptoms (MΔ = -3.8, CI = [-5.5, -2.1], P < .001), and lymphedema symptom severity (MΔ = -5.3, CI = [-9.5, -1.1], P = .016). A significant reduction in lymph fluid levels was found in mean L-Dex scores (MΔ = -2.68, CI = [-4.67, -0.69], P = .010). Greater decrease in mean L-Dex scores were found in patients with abnormal lymph fluid levels (L-Dex ≥ 7.1) (MΔ = -5.19, CI = [-1.75, -8.63], P = .008). Patients' qualitative feedback supported the results of the study. CONCLUSIONS: The Kinect-TOLF is safe, feasible, and effective in reducing lymphatic pain, swelling, lymphedema symptoms, and in decreasing lymph fluid levels. Future research should focus on a randomized clinical trial to confirm the unique or synergistic efficacy of the Kinect-TOLF in comparison with current lymphedema treatment and other forms of exercises or movement therapy. This study was registered in ClinicalTrials.gov with US ClinicalTrials.gov Identifier: NCT03999177.
Entities:
Keywords:
breast cancer; lymph fluid; lymphatic; lymphedema; pain; swelling; symptoms
Authors: Mei Rosemary Fu; Deborah Axelrod; Amber A Guth; Joan Scagliola; Kavita Rampertaap; Nardin El-Shammaa; Jeanna M Qiu; Melissa L McTernan; Laura Frye; Christopher S Park; Gary Yu; Charles Tilley; Yao Wang Journal: JMIR Cancer Date: 2022-01-17
Authors: Mei Rosemary Fu; Deborah Axelrod; Amber Guth; Melissa L McTernan; Jeanna M Qiu; Zhuzhu Zhou; Eunjung Ko; Cherlie Magny-Normilus; Joan Scagliola; Yao Wang Journal: Biomedicines Date: 2021-07-14