4 Clinical Trials for Various Conditions
The research purpose of this project is to create a registry, and blood and tissue bank for individuals at high-risk for pancreatic cancer. We plan to conduct histopathological and molecular analysis of resected pancreatic tissue prospectively collected from a cohort of pancreatic cancer patients.
Adenocyte has developed LINFU®, (Low Intensity Non-Focused Ultrasound excitation of the pancreas) as a method of identifying early, asymptomatic pancreatic cancer and its noninvasive precancerous lesions. The test involves ultrasound and an analysis of pancreatic juice. A neural network-based computer-assisted system may be utilized to enhance the analysis. Patients enrolled are being screened for pancreatic cancer because they have known risk factors (i.e. smoking, diabetes, chronic pancreatitis, family history of pancreatic cancer, or certain genetic syndromes).
Adenocyte has developed LINFU®, (Low Intensity Non-Focused Ultrasound excitation of the pancreas) as a method of identifying early, asymptomatic pancreatic cancer and its noninvasive precancerous lesions. The test involves ultrasound and an analysis of pancreatic juice. A neural network-based computer-assisted system may be utilized to enhance the analysis. Patients enrolled are being screened for pancreatic cancer because they have known risk factors (i.e. smoking, diabetes, chronic pancreatitis, family history of pancreatic cancer, or certain genetic syndromes).
This research study is creating a way to collect and store specimens and information from participants who may be at an increased risk of developing cancer, or has been diagnosed with an early phase of a cancer or a family member who has a family member with a precursor condition for cancer. * The objective of this study is to identify exposures as well as clinical, molecular, and pathological changes that can be used to predict early development of cancer, malignant transformation, and risks of progression to symptomatic cancer that can ultimately be fatal. * The ultimate goal is to identify novel markers of early detection and risk stratification to drive potential therapeutic approaches to intercept progression to cancer.