View clinical trials related to Vitiligo.
Filter by:Narrow band UVB phototherapy is the mainstay of therapy for vitiligo. However, about 1/3 of patients cannot respond to phototherapy. The objective of this study is to determine if the use of ibuprofen can induce non-photoadapters (patients who cannot tolerate increases in NBUVB past 400 mJ/cm2 after 12 sessions) to convert to photoadapters and tolerate raising NBUVB doses to therapeutic levels
As part of this study, you may have a procedure called phototherapy which involves either VL-UVA or NB-UVB irradiation. NB-UVB phototherapy is not experimental in vitiligo, but use of VL-UVA1 phototherapy in vitiligo is. The purpose of this pilot study is to determine whether VL-UVA1 or NB-UVB phototherapy more efficiently induces repigmentation in patients with generalized vitiligo.
This study will assess the safety and efficacy of ARQ-252 cream in combination with NB-UVB phototherapy treatment in individuals with non-segmental facial vitiligo.
The purpose of this study is to assess the efficacy and safety of SHR0302 ointment in adult patients with Vitiligo.
Vitiligo is a dermatologic disease characterized by depigmentation of the skin. While the loss of melanocytes observed in vitiligo is driven by the immune system, repigmentation of the skin that occurs during UV light treatment is driven by melanocytes that migrate out of the hair follicle and into the epidermis or the activation of stem cells within the epidermis. Unfortunately, some skin areas affected by vitiligo have very few hair follicle melanocytes and an indeterminate number of epidermal melanocytes and therefore unable to respond to light therapy. This pilot study seeks to examine the relative efficacy of different harvesting methods for the melanocyte keratinocyte transplant procedure (MKTP) in the treatment of vitiligo. In addition, this study will analyze the tissue of excess tissue harvested during the procedure to identify distinct cellular and molecular features of chronic vitiligo. Patients in Dr. Ganesan's clinic at the UCI (University of California, Irvine) Department of Dermatology will be approached for participation in the study. The study will include both men and women and will not be limited by race or ethnicity. The investigators will exclude individuals less than 18 years old for the study as the investigators believe it would be difficult for these subjects to tolerate the melanocyte keratinocyte transplant procedure. Participants will be offered a melanocyte keratinocyte transplant procedure with one of the three different tissue harvesting methods (a blade, suction blister) and the method without dissociation (Cellutome). This study has three arms: 1. MKTP with Surgical Blade 2. MKTP with Negative Pressure Instrument (suction blistering device). 3. Suction blister grafting without cell dissociation utilizing Cellutome (a device used for treating chronic burn wounds)
Prospective randomized within-subject controlled feasibility study to evaluate the clinical performance of RECELL for repigmentation of stable, depigmented lesions. The trial will evaluate 50 matched, stable depigmented areas from 10 subjects.
Rationale: Autologous epidermal cell suspension grafting is an effective method of surgical treatment in vitiligo, which is suitable for treating large areas with good cosmetic results. The RenovaCell Autologous Cell Harvesting Device (Avita Medical Europe Limited, Cambridge, UK) (previous name: ReCell) is a device which, compared to other forms of autologous epidermal cell suspension grafting, is easier in use showing similar results. Efficacy and safety of the ReCell device was proven in segmental vitiligo and piebaldism. However, the efficacy in non-segmental vitiligo is not yet confirmed in randomized controlled trials. The investigators hypothesize that grafting using the ReNovaCell device in combination with standard of care is also effective in stable non-segmental vitiligo and more effective than standard of care alone. Objective: Primary: to assess the efficacy and safety of ReNovaCell grafting combined with 311 nm UVB therapy and topical anti-inflammatory therapy for the treatment of stable non-segmental vitiligo. Secondary: to assess, satisfaction, cosmetic acceptability, noticeability and persistence of repigmentation after ReNovaCell transplantation. Study design: Prospective, observer-blinded, randomised, within subject, controlled, study. Study population: 20 patients ≥ 18 years with stable non-segmental vitiligo receiving standard of care (311 nm UVB therapy and topical anti-inflammatory therapy) for at least 6 months at the Netherlands Institute for Pigment Disorders (NIPD) at the Academic Medical Centre, University of Amsterdam. Intervention: In patients already receiving standard of care (311 nm UVB therapy + topical anti-inflammatory therapy) 2 comparable depigmented regions are randomised to receive ReNovaCell grafting or no grafting. Standard of care will be given according to the standard treatment protocol of our institute. Main study parameters/endpoints: Primary outcome: Objective assessment of the degree of repigmentation three and six months after ReNovaCell grafting with a digital image analysis system. To assess the pigmentation, the contours of pigmentation are copied on a transparent sheet before, three and six months after treatment, after which the sheets are scanned and digital image analysis is used to compute the affected surface. By comparing pre- and post-treatment pictures, the relative surface showing repigmentation expressed as percentage of the selected treated patch is computed. Secondary outcomes: - Patient Reported Outcomes: satisfaction, cosmetic acceptability, noticeability - General patient assessed outcome per treatment region on a scale from 0-3 (poor, moderate, good or excellent). - Visual assessment of percentage repigmentation by blinded observer and color match to normal skin - Visual assessment of side effects per treatment region (hyperpigmentation, hypopigmentation and scarring on a scale from 0-3) by a blinded investigator. - A small amount of the suspension of the included patients and the redundant lesional punchgrafts of all patients will be used for flow cytometric analyses of the cellular composition of the grafted cell suspension, and expression analysis of melanin synthesis-related genes. These data will be correlated to the clinical data. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: As the study involves large depigmented lesions, which are too large to treat in regular surgical treatment (punch grafting), patients will not miss any regular treatment. The time investment for the patient will be approximately 20 minutes for the punchgrafting session, 75 minutes for the cell suspension grafting session and 15 minutes for the three follow-up visits. Two of the five visits are part of the standard of care UVB follow-up regimen and are therefore not additional due to the study. Infection in the grafted area or the donor site may occur but is very rare; the risk of mild textural changes in the donor site is moderate. Hyperpigmentation of the treated area does occur often, although this improves over time in most cases. In case of improvement of the depigmentation, patients may receive another treatment for the (contralateral) untreated side.
The objective of this study is to assess the effectiveness and safety of narrowband-ultraviolet B (NB-UVB) treatment in adult subjects with vitiligo.
Vitiligo is an autoimmune cutaneous disorder that destroys melanocytes leading to depigmented areas of skin. In the United States, vitiligo affects 1% of patients, causing not only changes in the color of skin, but also significant cosmetic concerns and quality of life issues. Current treatment modalities, which include topical corticosteroids, intralesional corticosteroids, phototherapy, and systemic immunosuppression, are variably effective in inducing repigmentation. Unfortunately, some cases of vitiligo are refractory to treatment. There is a need for new, effective modalities to treat patients with otherwise refractory vitiligo. Needling is an office based procedure that theoretically transposes healthy, pigmented skin cells to depigmented areas using a needle in vitiligo patients. Two preliminary studies of needling as a novel treatment for vitiligo had promising results but were limited by small sample size and subjective results. The proposed randomized control trial (RCT) will further investigate the use of needling to treat vitiligo. It differs from the previous studies in that it seeks to identify the cause of clinical benefit by comparing needling alone to needling with corticosteroid, examines a larger number of patients, and quantifies improvement using confocal microscopy. Confocal microscopy (CFM) allows non-invasive visualization of the skin on a cellular level and has been used in the past to diagnose cutaneous pigmentary conditions. This study would be the first RCT of needling in vitiligo to use an objective measure to quantify results, thus has the potential to establish needling as a novel, effective treatment for vitiligo and to evaluate the utility of CFM for monitoring response to treatment.
The purpose of this study is to evaluate the hypothesis that, in patients with stable vitiligo unresponsive to conventional treatments including traditional phototherapy and/or topical steroids, the application of a non-cultured autologous hair follicle outer-root-sheath melanocytes suspension in the area affected by the disease followed by targeted ultraviolet B (UVB) phototherapy can lead to a significant skin repigmentation. To assess the effect of the proposed treatment, a within-subject controlled study involving selected symmetric lesion areas localized to the back of the hands will be conducted.