An in situ genomic DNA chip can be used directly on clinical specimens in situ for detecting, diagnosing and/or predicting diseases, especially diseases characterized by a genetic aberration such as cancers, by simultaneous detection of one or more unique genetic aberrations using one or more multiple specific probes. The present invention offers high sensitivity for detection of such genetic aberrations and, further, has substantial implications for large-scale population-based molecular epidemiologic studies and therapeutic interventions.
- BALTIMORE MD, US - WASHINGTON DC, US Feng Jiang - Ellicott City MD, US
International Classification:
C12Q 1/6886 C12Q 1/686
Abstract:
The present invention provides a method of predicting whether a pulmonary nodule in a subject is benign or non-small cell lung cancer, comprising obtaining the results of an assay that measures an expression level of miR205-5p in a plasma sample from the subject; obtaining the results of an assay that measures an expression level of miR126 in a plasma sample from the subject; obtaining the results of an assay that provides a size of the pulmonary nodule in the subject; and calculating a probability value based on the combination of the expression levels of miR205-5p and miR126, and the size of the pulmonary nodule, wherein if the probability value exceeds a specified threshold, the pulmonary nodule is predicted as non-small cell lung cancer.
Biomarkers For Diagnosis And Prognosis Of Lung Cancer
University of Maryland, Baltimore - Baltimore MD The United States of America as Represented by the Department of Veterans Affairs - Washington DC
International Classification:
G01N 33/574 C12N 15/113
Abstract:
Provided herein are methods for non-invasively diagnosing and/or prognosing a lung cancer and for determining the efficacy of a therapeutic treatment regimen for the lung cancer. Expression levels of at least two small non-coding RNAs, for example, microRNAs and small nucleolar RNAs, are measured and used to calculate an area under the curve (AUC) that provides a probability of lung cancer in the subject. The smoking history of the subject and, if present, the size of pulmonary nodules may be incorporated into the calculation.
Henry Ford Medical GroupHenry Ford Hematology & Oncology 2799 W Grand Blvd FL 13, Detroit, MI 48202 (313)9161841 (phone), (313)9167911 (fax)
Education:
Medical School Xian Med Univ, Xian City, Shaanxi, China Graduated: 1994
Conditions:
Diabetes Mellitus (DM) Disorders of Lipoid Metabolism Hypertension (HTN)
Languages:
English
Description:
Dr. Jiang graduated from the Xian Med Univ, Xian City, Shaanxi, China in 1994. She works in Detroit, MI and specializes in Hematology/Oncology. Dr. Jiang is affiliated with Henry Ford Hospital.
Vanke - Shen Zhen since Jun 2012
Design Director
Columbia Business School Sep 2010 - Jun 2012
MBA
Leo A Daly Sep 2007 - Aug 2010
Designer
HNTB 2005 - 2007
Designer
Education:
Columbia University - Columbia Business School 2010 - 2012
MBA, Real Estate
University of Pennsylvania 2004 - 2005
Master, Architecture
Phd Candidate, Research Assistant At The University Of Arizona
The University of Arizona - Tucson, Arizona Area since Sep 2008
Research Assistant
Nanjing University of Aeronautics and Astronautics - Nanjing Sep 2007 - Jun 2008
Undergraduate Research Assistant
Education:
University of Arizona 2008 - 2013
Doctor of Philosophy (Ph.D.), Chemical Engineering
Nanjing University of Aeronautics and Astronautics 2004 - 2008
Bachelor of Applied Science (B.A.Sc.), Applied Chemistry
Government of Zhenhai since Jul 2012
Officer
Sina Corporation Aug 2006 - Apr 2009
Intern
Education:
University of Houston 2009 - 2011
Master's degree, Public Relations/Image Management
Huazhong University of Science and Technology 2005 - 2009
Bachelor's degree, Communication, General
Dr Li-Feng Jiang-Xie, a researcher at Washington University and lead author of the second study, said: These neurons are miniature pumps. Synchronized neural activity powers fluid flow and removal of debris from the brain.