Tamara Knapp-grosz, PHD | |
9312 Benefit Dr, Aubrey, TX 76227-5726 | |
(912) 755-5042 | |
Not Available |
Full Name | Tamara Knapp-grosz |
---|---|
Gender | Female |
Speciality | Psychologist |
Location | 9312 Benefit Dr, Aubrey, Texas |
Accepts Medicare Assignments | Does not participate in Medicare Program. She may not accept medicare assignment. |
Identifier | Type | State | Issuer |
---|---|---|---|
1770108839 | NPI | - | NPPES |
Mailing Address | Practice Location Address |
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Tamara Knapp-grosz, PHD 9312 Benefit Dr, Aubrey, TX 76227-5726 Ph: (912) 755-5042 | Tamara Knapp-grosz, PHD 9312 Benefit Dr, Aubrey, TX 76227-5726 Ph: (912) 755-5042 |
News Archive
4SC AG, a discovery and development company of targeted small molecule drugs for autoimmune diseases and cancer, today announced positive topline data from its Phase II SAPHIRE trial with resminostat, its oral pan HDAC inhibitor, in patients with relapsed/refractory Hodgkin's Lymphoma.
A research team led by the University of Melbourne and Monash University, Australia, has discovered why people can develop life-threatening allergies after receiving treatment for conditions such as epilepsy and AIDS.
Californian researchers are trying to create an artificial testicle that will produce human sperm. Dr. Paul Turek, director of the Turek Clinic in San Francisco, which specializes in male infertility, said the goal is not to create a testicular implant for men, but a "sperm-making biological machine" that will help scientists learn more about just what causes male infertility. "We're trying to recreate the process of sperm production in a three-dimensional system," Turek said. "Simple laboratory conditions can't get it done in humans. Our concept is to actually recreate the testicle itself."
A recent study by a University of Northern British Columbia-based scientist associated with the UBC Faculty of Medicine and UNBC's Northern Medical Program demonstrates that Canada's drinking-age laws have a significant effect on youth mortality.
Scientists have discovered that cancerous cells in an aggressive type of childhood brain tumor work together to infiltrate the brain, and this finding could ultimately lead to much needed new treatments, according to a new study published in Nature Medicine today (Monday).
› Verified 6 days ago