HYUNG CHUL WOO, MD
Medical Practice at Greene St, Baltimore, MD

License number
Maryland D71001
Category
Medical Practice
Type
Neonatal-Perinatal Medicine
License number
Maryland D71001
Category
Medical Practice
Type
Pediatrics
License number
Maryland 0101260078
Category
Medical Practice
Type
Pediatrics
License number
Maryland 0101260078
Category
Medical Practice
Type
Neonatal-Perinatal Medicine
Address
Address
22 S Greene St, Baltimore, MD 21201
Phone
(410) 328-6749
(410) 328-7305 (Fax)
(410) 706-5181
(410) 706-5103 (Fax)

Professional information

Hyung Chul Woo Photo 1

Hyung Chul Woo, Providence RI

Specialties:
Pediatrics, Neonatal-Perinatal Medicine
Work:
Women and Infants Hospital of RI
101 Dudley St, Providence, RI 02905 University Of Maryland Medical Center
22 S Greene St, Baltimore, MD 21263
Education:
State University of New York Downstate (2003)


Hyung D Woo Photo 2

Dr. Hyung D Woo, Baltimore MD - MD (Doctor of Medicine)

Specialties:
Pediatrics
Age:
46
Address:
22 S Greene St, Baltimore 21201
(410) 328-6749 (Phone), (410) 328-7305 (Fax)
UNIVERSITY OF MARYLAND MEDICAL CENTER
22 S Greene St, Baltimore 21201
(410) 328-6971 (Phone), (410) 328-8326 (Fax)
ST LUKES HOSPITAL
101 Page St, New Bedford 02740
(508) 997-1515 (Phone), (508) 979-8115 (Fax)
Languages:
English
Hospitals:
22 S Greene St, Baltimore 21201
UNIVERSITY OF MARYLAND MEDICAL CENTER
22 S Greene St, Baltimore 21201
ST LUKES HOSPITAL
101 Page St, New Bedford 02740
Women & Infants Hospital
101 Dudley St, Providence 02905
Education:
Medical School
Suny Downstate Medical Center
Graduated: 2003


Hyung Woo Photo 3

Non-Invasive Analyte Sensing System And Method

US Patent:
2013028, Oct 24, 2013
Filed:
Sep 30, 2011
Appl. No.:
13/823903
Inventors:
Govind Rao - Ellicott City MD, US
Yordan Kostov - Columbia MD, US
Xudong Ge - Woodstock MD, US
Leah Tolosa - Crownsville MD, US
Hyung Woo - Baltimore MD, US
Rose Viscardi - Timonium MD, US
International Classification:
A61B 5/1455
US Classification:
600326, 600335
Abstract:
A non-invasive gas analyte sensing and monitoring system and method is provided that is particularly applicable to transcutaneous monitoring of arterial blood gases in a mammal. The system and method relies on diffusion of the analyte to be measured into a diffusion chamber and remote sensing of the analyte in the diffusion chamber using optical chemical sensors and associated optoelectronics.