9 Clinical Trials for Various Conditions
This prospective study aims to evaluate the safety and effectiveness of AVELI for reducing cellulite and fibrotic tissue in patients undergoing High-Definition Liposculpture, exploring if AVELI improves the aesthetic outcomes, and reduced the clinically evident cellulite and/or fibrosis. The main questions this study seeks to answer are: * Does AVELI safely reduce cellulite and fibrotic tissue without causing serious adverse events? * How effective is AVELI in improving patient-reported outcomes and aesthetic appearance? Through this study, the study team aims to evaluate the safety and effectiveness of AVELI. The study procedures include: * Baseline data collection of sociodemographic variables. Data collection of surgical variables, adverse events, and satisfaction scores. * All patients will undergo the standardized High-Definition Liposculpture technique, with AVELI applied to all identified cellulite and/or fibrosis release. * Photographic and 3D imaging preoperatively and at follow-ups (1, 3, 6, and 9 months).
Scleroderma (SSc) is an autoimmune disease characterized by fibrosis (or collagen deposition) of the skin and internal organs. The extent of skin fibrosis is an important predictor of internal organ complications and increased mortality. Currently imprecise and subjective methods that varies amongst different doctors for the same patient are available to quantify skin fibrosis in patients, by "pinching" their skin and assessing how thick it is; this is the method used to determine the modified Rodnan skin score (mRSS). Skin thickness and the amount of fibrosis can change over time due to disease progression or in response to therapy. In this research, longitudinal measurements will be taken to determine if spatial frequency domain imaging (SFDI) can detect changes in skin thickness that occur over time in response to therapy or from disease progression in scleroderma patients. This study will compare SFDI with other clinical outcome assessments of skin thickness and fibrosis in scleroderma patients including mRSS, skin biopsy histology, scleroderma skin patient reported outcome (SSPRO), ultrasound, and durometry (durometer measures skin hardness). SFDI information will also be compared with capillaroscopy (allows for non-invasive imaging of the nailfold capillaries) if available from the electronic medical record. If SFDI correlates well with other clinical outcome assessments, it may be used in the future as a rapid, non-invasive tool for monitoring disease activity in scleroderma patients.
Skin scarring (fibrosis) is a common complication in the wound healing process and remains a therapeutic challenge. Scar formation often occurs following injury to the skin such as surgery, trauma, and burns. The goal of this study is to evaluate the safety and efficacy of visible red light as a modality to reduce skin scarring after mini-facelift surgery. Based on laboratory data, light emitting diode-red light (LED-RL) phototherapy may lessen post-surgical skin fibrosis clinically.
The goal of this study is to establish the safety of high fluence LED-RL from 160 J/cm2 up to 640 J/cm2 in healthy subjects. The hypothesis is that high fluence LED-RL phototherapy is safe in human skin.
Veterans who use prosthetic limbs commonly suffer from skin problems such as scars that create discomfort and pain to the point that wearing the prosthesis is no longer tolerable. The Veteran must then discontinue prosthetic use to allow healing prior to wearing the limb again. Current treatments for skin problems include manual scar mobilization and massage, stretching, desensitization techniques, pain medication, prosthetic adjustment, steroid injection, scar excision and others. Most of these have not proven to be a long-term solution. A dermatologic procedure common in non-amputees for scar and skin lesion management, fractionated laser therapy, may be a long-term solution minimizing discomfort, pain and time out of the prosthesis. This preliminary study seeks to determine if fractional laser therapy can improve prosthetic use, and quality of life of Veterans with amputation who use lower limb prostheses.
Cystic fibrosis (CF) is a multisystem autosomal recessive inherited disease affecting approximately 75,000 individuals in USA. The sweat chloride (Cl) test remains the gold standard for diagnosis of CF but still has a number of limitations. The objectives of this study are: 1)To evaluate a skin-interfaced colorimetric bifluidic sweat device with two synchronous channels as a potential low-cost but potentially accurate test to diagnoses cystic fibrosis (CF) and 2) To evaluate measurements of sweat chloride (Cl) using this same system in comparison to the standard clinical laboratory procedures routinely performed in the Clinical Laboratory at Penn State Health Milton S. Hershey Medical Center (PSH-HMC), Hershey, PA for assessment of the diagnosis of CF. This is a single institution study performed solely at PSH-HMC. Study participants will include 1) adults 18 years of age or older capable of providing signed and dated informed consent, 2) subjects with an established known diagnosis of cystic fibrosis (CF) or healthy volunteers, and 3) able to understand and speak English language. Exclusion criteria include: 1) any medical condition or disorder known to potentially interfere with accurate measurements of sweat chloride and 2) inability to understand and speak the English language. Cystic Fibrosis (CF) subjects will be identified from the population of eligible patients receiving medical care at Penn State Health- Milton S. Hershey Medical Center (PSH-HMC). Healthy donor volunteers will be recruited from various members of the PSH-HMC CF clinical care team, members of the Division of Allergy, Pulmonary and Critical Care (both faculty and trainees) at PSH-HMC, and PSU-University Park research team. The total projected number of combined enrolled subjects is 30. This is a single day single time study that will require approximately 60 minutes of subject participation. Potential risks include a) side effects from pilocarpine iontophoresis sweat test collection (pain, skin discomfort, blisters, rarely burns and b) loss of confidentiality. There will be no cost to subjects for study participation. There will be no reimbursement financially for study participation. There is no benefit to subjects for study participation. There is the potential benefit to medical science via identification of improved method to accurately measure sweat chloride for diagnosis of CF.
The goal of this study is to establish the safety of high fluence LED-RL at fluence of 480 J/cm2 and 640 J/cm2 in healthy non-Hispanic, Caucasian subjects. The hypothesis is that high fluence LED-RL phototherapy is safe in non-Hispanic, Caucasians.
This research trial studies skin/soft tissue elasticity in head and neck cancer survivors with lymphedema and fibrosis. Lymphedema and fibrosis is a common effect of head and neck cancer which may lead to skin tightness, pain, and body image issues. Early detection of lymphedema and fibrosis may help reduce serious functional loss of the neck. Shear wave elastography is a technique that provides a quantitative measure of stiffness using a push pulse to generate shear waves within the tissues. Conventional imaging techniques are then used to monitor the shear waves generated through the tissue to calculate the shear wave speed. Shear wave elastography may help obtain an early and accurate measurement of tissue elasticity in head and neck cancer survivors.
We are the missing link in clinical trials, connecting patients and researchers seamlessly and conveniently using a mobile health platform to advance medical research. We make it easy for patients to contribute to research for medical conditions that matter most to them, regardless of their location or ability to travel.