UNIVERSITY OF TEXAS MEDICAL BRANCH 300 University Blvd, Galveston, TX 77555 409 772-2222 (Phone), 409 772-5462 (Fax)
UNIVERSITY OF TEXAS MEDICAL BRANCH PEDIATRIC SPECIALTY CARE CLINIC 2200 Nasa Pkwy Suite 210, Houston, TX 77058 281 333-9833 (Phone), 281 333-9833 (Fax)
Certifications:
Allergy & Immunology, 1975 Pediatrics, 1974
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
UNIVERSITY OF TEXAS MEDICAL BRANCH 300 University Blvd, Galveston, TX 77555
UNIVERSITY OF TEXAS MEDICAL BRANCH PEDIATRIC SPECIALTY CARE CLINIC 2200 Nasa Pkwy Suite 210, Houston, TX 77058
University of Texas Medical Branch Galveston 301 University Boulevard, Galveston, TX 77555
Education:
Medical School Univ Of Tx Med Branch Galveston Graduated: 1969 Medical School Yale New Haven Hospital Graduated: 1971 Medical School University Tex Med Br Graduated: 1973
Dr. Goldblum graduated from the University of Texas Medical Branch at Galveston in 1969. He works in Galveston, TX and specializes in Pediatric Allergy/Immunology. Dr. Goldblum is affiliated with University Of Texas Medical Branch.
UTMB Faculty Group Practice
301 University Blvd, Galveston, TX 77555 UTMB Faculty Group Practice
2200 Nasa Pkwy, Houston, TX 77058 UTMB Faculty Group Practice
2785 Gulf Fwy S, League City, TX 77573 UTMB Faculty Group Practice
6710 Stewart Rd, Galveston, TX 77551 UTMB Faculty Group Practice
1104 20Th St N, Texas City, TX 77590 UTMB Faculty Group Practice
6400 Memorial Dr, Texas City, TX 77591 UTMB Faculty Group Practice
218 E House St, Alvin, TX 77511 UTMB Faculty Group Practice
400 Harborside Dr, Galveston, TX 77555
Harold Benedict Winnike - West Point IA, US Anne Louise Meng - League City TX, US Susan Winterroth McConnell - Galveston TX, US Randall M. Goldblum - Dickinson TX, US Nanette Eugenie Jay - Galveston TX, US Regina Burdett - League City TX, US Edward Gautier Brooks - Galveston TX, US Lynda Marie Williams - Dickinson TX, US Katherine L. Miller - Aspen CO, US
Assignee:
Legacy Products, Inc. - Cambridge City IN
International Classification:
G09B 23/28
US Classification:
434267, 434262
Abstract:
A medical training manikin having a body, a model of a lung including inflatable airways communicating with the lung model, and fastener means for selectively attaching the model of a lung to the body. The model of a lung is used to demonstrate various lung functions and ailments.
Randall M. Goldblum - Dickinson TX, US Bo Ning - Galveston TX, US Ruby Tiwari - Palmerston North, NZ
International Classification:
A61K 39/395 C07K 16/00 A61P 37/08
US Classification:
4241331, 5303881, 4241411, 5303873
Abstract:
The present invention is drawn to antibody-mediated modulation of allergy. In this regard, the present invention discloses a monoclonal antibody, antigen-binding fragment or mimic thereof directed against Group 1 pollen allergens or homologues thereof. Also disclosed herein is the mechanism by which the disclosed monoclonal antibody, antigen binding fragment or mimic thereof will improve immunotherapy of allergic reactions in an individual. It is contemplated that herein that such a monoclonal antibody, antigen binding fragment or mimic thereof may also be useful in treatment of several microbial infections.
Assay For Free Secretory Component And Methods For Monitoring Organ Rejection
Board of Regents, The University of Texas System - Austin TX
International Classification:
G01N 33543 G01N 33566
US Classification:
435 792
Abstract:
Methods of monitoring and detecting the early onset of organ injury incident rejection of an organ rejection in an animal are disclosed. The described methods are capable of distinguishing organ rejection injury from other organ tissue damage in the animal. Free secretory component levels in an animal biological fluid (e. g. , bile, urine, blood, amniotic fluid) may be used to identify organ rejection in an animal. Multiple and single organ transplant patients may be monitored and diagnosed according to the claimed methods. Biological fluids, such as blood, (serum) or urine, are analyzed immunologically using a particularly adapted ELISA which are then compared to an FSC control concentration to identify elevated FSC values. Animals with test FSC above FSC control concentrations are diagnosed as having an ongoing organ rejection episode. The detection of congenital renal dysfunction in utero is also provided according to the present invention through the measurement of FSC in the amniotic fluid.
Assay For Free Secretory Component And Methods For Monitoring Organ Rejection
The Board of Regents, The University of Texas System - Austin TX
International Classification:
G01N 33543 G01N 33566
US Classification:
435 792
Abstract:
Methods of monitoring and detecting the early onset of organ injury incident rejection of a organ rejection in an animal are disclosed. The described methods are capable of distinguishing organ rejection injury from other organ tissue damage in the animal. Free secretory component levels in an animal biological fluid (e. g. , bile, urine, blood, amniotic fluid) may be used to identify organ rejection in an animal. Multiple and single organ transplant patients may be monitored and diagnosed according to the claimed methods. Biological fluids, such as blood, (serum) or urine, are analyzed immunologically using a particularly adapted ELISA which are then compared to an FSC control concentration to identify elevated FSC values. Animals with test FSC above FSC control concentrations are diagnosed as having an ongoing organ rejection episode. The detection of congenital renal dysfunction in utero is also provided according to the present invention through the measurement of FSC in the amniotic fluid.