View clinical trials related to Lymphedema.
Filter by:This clinical trial studies how well new adhesive-based sensors that stick to the skin (transcutaneous) work in detecting cancer-related long-term arm swelling (lymphedema). For many patients, lymphedema s painful, unsightly, and weakening. The early signs of lymphedema are hard to see, and sometimes it is only diagnosed by hospital equipment at larger centers. Treating lymphedema early is usually more successful than trying to treat in later stages. The adhesive-based sensors used in this study work by using techniques called photoplethysmography (PPG) and bioimpedance (BI). PPG is an optical technique that can be used to detect blood volume changes in tissue. BI evaluates how tissue responds to an externally applied electrical current. This study may assist researchers in distinguishing participants with lymphedema in comparison to participants without lymphedema, and develop a way for patients to check for lymphedema at home.
This multi-center cohort study focuses on evaluating the efficacy of lymphovenous anastomosis (LVA) for treating pitting lymphedema in female breast cancer survivors. Conducted across multiple centers in Denmark, including Odense University Hospital, Herlev Hospital, Lillebaelt Hospital Vejle, and Zealand University Hospital, it aims to assess LVA's impact on reducing arm volume and improving quality of life in patients with upper extremity lymphedema secondary to breast cancer treatment. Eligible participants are adult women with unilateral arm lymphedema who show active pitting and identifiable lymphatic vessels via indocyanine green lymphography. Inclusion involves informed consent and the ability to complete Danish questionnaires. Patients are recruited from the outpatient clinics of the participating hospitals and will undergo LVA surgery under either local or general anesthesia. Following the intervention, patients are seen for data collection up to twelve months. The study measures outcomes like arm volume changes through water displacement volumetry and arm circumferential measurements, body composition via bioimpedance, health-related quality of life through LYMPH-Q, general quality of life through SF-36, arm function via DASH, and anastomosis patency via ICG lymphography. Additionally, changes in ICG lymphography images, arm fibrosis via SkinFibroMeter, and surgery duration are evaluated. The study adheres to ethical guidelines, ensuring patient safety and the integrity of the research.
This study evaluates how swelling in the chest following breast cancer treatment may affect patients' quality of life and shoulder function.
to investigate the effectiveness of different dosages of ECSW in the treatment of post mastectomy lymphedema volume and quality of life (Qol)
This study aims to assess Auto-Adjustable MOBIDERM® Autofit Armsleeve effect on upper limb volume excess compared to the compression bandages to manage the volume of upper limb lymphedema in patients with breast cancer related lymphedema
This study aims to examine the effect of lower extremity lymphedema prevention training based on the Symptom Management Model on women undergoing gynecological cancer surgery on lymphedema development, quality of life, and women's self-efficacy. The hypotheses of the study are: H1a: The quality of life of women who underwent gynecological cancer surgery and received lower extremity lymphedema prevention training based on the Symptom Management Model is statistically significantly higher than the quality of life of women in the control group. H1b: The self-efficacy levels of women who underwent gynecological cancer surgery and received lower extremity lymphedema prevention training based on the Symptom Management Model are statistically significantly higher than the self-efficacy levels of women in the control group. H1c: The frequency of experiencing lower extremity lymphedema symptoms of women who underwent gynecological cancer surgery and received lower extremity lymphedema prevention training based on the Symptom Management Model is significantly lower than the frequency of experiencing lower extremity lymphedema symptoms of women in the control group. Participants will be given training on lower extremity lymphedema. At the end of the study, researchers will evaluate the impact of the training on quality of life, self-efficacy, and lymphedema development.
This study aimed to determine the impact on outcomes when recipient veins with reflux were used for LVA for the treatment of unilateral lower limb lymphedema.
The project aims to compare the differences in the expression of cell death through apoptosis and iron-dependent cell death after the reduction of edema symptoms following lymphedema surgery in patients.
Chronic lymphedema in the lower extremities is a common problem found in older adults that can result in cellulitis, poor wound healing, venous stasis ulcers, and other comorbidities. Compressive therapies are the present gold standard for the manual treatment of lymphedema in the lower extremities. However, the benefits of these compressive therapies are modest, and they are not well tolerated by older adults. An alternative manual treatment is the osteopathic pedal pump, an osteopathic manipulative treatment, that uses a rhythmical pumping motion instead of compressive force to move interstitial fluid from the lower extremities back to the circulatory system. However, the evidence that the osteopathic pedal pump can reduce volume in the lower extremities remains anecdotal. The aim of this study is to determine if the osteopathic pedal pump can reduce volume in the lower extremities among older adults with chronic lymphedema. Leg volume will be measured using water displacement. Older adults with chronic lymphedema of the lower extremities will be randomly assigned to one of two groups: a treatment group that will receive one session of the osteopathic pedal pump and a control group that will receive one session of a light touch treatment.
The goal of this randomised control study is to compare kinesiotaping and pressue garments in secondary upper extremity lymphedema following microsurgical breast reconstruction after severe chest burns. The primary objective of this study was to compare the effects of kinesiotaping and pressure garments on limb circumference, handgrip strength, shoulder pain and disability index (SPADI), and limb circumference in patients with lymphedema following breast reconstruction due to chest burns. The participants were randomly assigned to one of two groups: the kinesiotaping group (n = 28) and the pressure garments group (n = 28). To perform taping of the chest in the kinesiotaping group, the patient was asked to stand upright with the affected shoulder rotated externally. Five straps of the fan-shaped tape were extended to the chest toward the affected axilla with 15% to 20% tension, and the anchor was positioned without tension in the anterior axilla on the sound side. In the pressure garment group, the participant's skin was washed and dried before applying the PG. The Premium Lymphedema Gradient Garment (Jobskin, Long Eaton, England) was used to apply PGs. This garment has a pressure gradient built into it, applying between 20 and 60 mm Hg for at least 15 to 18 hours each day for three weeks.