View clinical trials related to Chemotherapy-induced Alopecia.
Filter by:The purpose of this post-market, prospective study is to assess the ability of AMMA to prevent hair loss in women receiving chemotherapy (CT) for early-stage breast cancer.
This is a Phase 2, single-center study designed to determine the effect of ECOHAIR topical solution on scalp hair growth evaluated objectively ( images) and subjectively ( patient and investigator reports). A total of 22 subjects are planned to be enrolled, 15 in a prospective single-arm phase in which they will receive the study treatment and 7 controls. Patients should have a clinical diagnosis of chemotherapy-induced alopecia.
The prevention of chemotherapy-induced alopecia (CIA) is still imperfectly managed in France. Strengthening the evidence base on the benefits of strategies to prevent CIA, based on robust methodologies, remains a prerequisite for better integration of appropriate supportive care for patients receiving chemotherapy. This research should provide new knowledge on the benefits of scalp refrigeration during anthracycline- and taxane-based chemotherapy in preventing ACI, for each of the 2 refrigeration techniques. In addition to effectiveness in preventing ACI, quality of life, self-image and satisfaction with care will be assessed by patients during and after chemotherapy. The medico-economic aspects will also be assessed for each of the two refrigeration modalities. The results of the various proposed assessments will be used to guide the choice between these two techniques for preventing ACI.
The purpose of this prospective study is to assess the ability of AMMA to prevent hair loss in women receiving chemotherapy (CT) for early-stage breast cancer. Additionally, the purpose is also to assess the safety, tolerability and compliance, quality of life, and satisfaction with hair preservation after CT treatment.
As far as breast cancer is concerned, chemotherapy (CT) is an important treatment. However, there are many adverse effects impairing the patient's quality of life (QOL), in which chemotherapy-induced alopecia (CIA) affects up to 65% of the patients. This condition is reversible. Nevertheless, it takes several months after CT for visible hair regrowth. Different characteristics of the new hair are common; for example, 65 percent of the patients have experienced a graying, curling, or straightening effect. Besides, the emotional trauma due to alopecia can not be neglected. Currently, scalp cooling is the only available and verified management for prevention. Unfortunately, the success rate of scalp cooling is variable, especially among the patients receiving anthracycline-based combinations. Low-level light therapy (LLLT) has been proven as a therapeutic technique for adrenergic alopecia. Recently, investigators have checked the validity of LLLT for the CIA. Although the preliminary outcome showed failure at accelerating hair recovery, technical progress of LLLT may improve the end result. Specifically, LLLT is a technique that utilizes laser diodes (LD) or light-emitting diodes (LED) to promote tissue repair. The light source from LD is coherent while LED is an incoherent light source. Therefore, LDs can deliver energy to tissues more efficiently than LEDs. To comprehensively evaluate the beneficial effect of LLLT in treating CIA, we conduct a clinical trial with a more advanced device equipped with 69 LDs. The project aims to explore the effect of low-level light therapy in chemotherapy-induced alopecia. We expect the therapy will lead to an improvement in the patient's hair count, hair width, and quality of life after chemotherapy.
Eligible patients will be recruited prior to initiation of chemotherapy for any stage breast or gynecologic cancer. Patients will undergo training in the use of the AMMA Portable Scalp Cooling System and will use the device during each of their chemotherapy treatments. Quality of life and experience of use questionnaires will be completed. Scalp photos and an assessment of hair loss will be preformed at enrollment and at the end of study participation.
This study aims to investigate the effectiveness of photobiomodulation therapy (PBM) in the prevention and management of chemotherapy-induced alopecia (CIA). Therefore, we hypothesize that PBMT can reduce the severity of CIA in gynecological and breast cancer patients, increasing the patient's QoL.
This research is being done to compare rates of hair loss of people with metastatic breast who use scalp cooling versus those who do not use scalp cooling after receiving standard of care treatment with either sacituzumab govitecan, trastuzumab deruxtecan, or eribulin. The name of the study intervention involved in this study is: - Paxman Scalp Cooling System
Chemotherapy (CT) remains an important treatment modality for breast cancer patients. Unfortunately, this systemic treatment comes with many quality of life impairing complications. Chemotherapy-induced alopecia (CIA) occurs in about 65% of the patients. Hair loss due to CT is reversible, but hair regrowth requires several months to a year after CT. Currently, the only available preventive measure is based on scalp cooling. Nevertheless, this treatment has a highly variable success rate and it brings along several side effects. Photobiomodulation therapy (PBMT) is a new, preventive and therapeutic technique in the supportive care of cancer patients. It uses visible and (near)- infrared light produced by laser diodes or light-emitting diodes (LED) at a low power to stimulate tissue repair and reduce inflammation and pain. The investigator's research team demonstrated already that PBMT can prevent oral mucositis and acute radiodermatitis. The aim of this project is to explore the use of PBMT in the management of CIA. Results of this project will lead to an improvement of the patients' quality of life after CT.
Chemotherapy-induced alopecia (CIA) is one of the most common and emotionally distressing side effects of cancer therapy. In this study we sought to assess the feasibility and the effectiveness of scalp cooling system DigniCap® to prevent alopecia in primary breast cancer patients receiving an anthracycline containing adjuvant chemotherapy (CT). A prospective two-stage design clinical trial conducted at a single Institution of women with primary breast cancer scheduled to receive anthracycline with or without taxane-based adjuvant CT. Patients were enrolled from July 2014 to November 2016, with ongoing annual follow up for 5 years. The scalp cooling period initiated approximately 30 minutes before CT. Scalp temperature was to be maintained at 3-5°C throughout CT and for 90 to 120 minutes afterward, depending on the CT drug and dose.