5 Clinical Trials for Various Conditions
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.
Pilot study of a soft, flexible wearable sweat sensor
Pilot study of a wearable gas and sweat skin sensor
This pilot clinical trial will explore the accuracy and acceptability of a non-invasive, wearable glucose sensor in patients living with DM. This study will compare needleless glucose sensor readings from sweat with glucometer measurements from patients with any type of diabetes at fasting, and after a meal.
Cystic Fibrosis (CF) is a hereditary multi-system disease affecting approximately 30,000n children and adults in the USA. The diagnosis of CF requires biochemical confirmation (either abnormal sweat chloride measurement and/or identification of two CF disease causing mutations) plus clinical symptomatology. Measurements of sweat chloride remain cumbersome and although most common methodology to confirm CF diagnosis with limitations especially in young children less than 6 months of age and in areas that lack ability for the complex testing. The study objectives of this current research proposal include: A) To expand upon previously obtained pilot study data "Evaluation of a fluorescent-based chloride sensor as an optical sweat test to diagnose cystic fibrosis" B) To add the exploratory measurement of sweat Bromide as a first in human assessment observation, C) To Evaluate the development of smartphone based point-of-care technology for chloride and bromide sensor measurements, D) To further expand the class of citrate-based sensors with improved fluorescence and sensing properties for the design of new fluorescence-based analytical and diagnostic solutions based on the automated multi-halide detection system, and E) To develop point-of-care systems that can successfully integrate into clinical settings to improve current practices and facilitate early detection of disease.