Dr. Brian Barr, MD Internal Medicine - Cardiovascular Disease Medicare: Accepting Medicare Assignments Practice Location: 5 Park Center Ct, Owings Mills, MD 21117 Phone: 410-654-0400 |
Dr. Henry Meilman, M.D. Internal Medicine - Cardiovascular Disease Medicare: Medicare Enrolled Practice Location: 4 Chetwick Ct, Owings Mills, MD 21117 Phone: 410-363-1198 |
Joanna Mink Saba, MD Internal Medicine - Cardiovascular Disease Medicare: Not Enrolled in Medicare Practice Location: 5 Park Center Court, Suite 200 203, Owings Mills, MD 21117 Phone: 410-363-4900 Fax: 410-363-9426 |
Dr. Hafeez A Syed, Internal Medicine - Cardiovascular Disease Medicare: Accepting Medicare Assignments Practice Location: 20 Crossroads Dr, Sutie 102, Owings Mills, MD 21117 Phone: 410-356-6400 Fax: 410-356-6492 |
News Archive
The study, which is one of the first to look at how fast second-language words are learned and how the brain responds to words with increasing experience with the new language, was published June 13 in the on-line edition of the journal Nature Neuroscience.
The first 3D surgical microscopes from Leica Microsystems with TrueVision 3D technology inside are available to customers. By incorporating the digital smart 3D system inside select models of Leica Microsystems' surgical microscopes, the two companies have eliminated the need for a separate 3D cart.
Using the intestinal hormone GLP-1 in obesity treatment prevents the loss of bone mass otherwise frequently associated with major weight loss. This is the finding of a new study from the University of Copenhagen, Hvidovre and Glostrup Hospital. According to the researchers behind the study, the results may have a significant bearing on future obesity treatment.
A new study reports the creation of in vitro models of brain tumors in children using organoids derived from stem cells, which will help to screen new drugs for efficacy and thus improve the rate of drug development. The study, titled 'Modeling medulloblastoma in vivo and with human cerebellar organoids,' is published in the journal Nature Communications.
Johns Hopkins researchers, working with an international consortium, say they have generated stem cells from skin cells from a person with a severe, early-onset form of Huntington's disease (HD), and turned them into neurons that degenerate just like those affected by the fatal inherited disorder.
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