Marcia M Nelson, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 4262 Old William Penn Hwy Ste 109, Murrysville, PA 15668 Phone: 724-325-6010 Fax: 724-327-4690 |
Ashok Kumar, MD Internal Medicine - Rheumatology Medicare: Medicare Enrolled Practice Location: 4888 Old William Penn Highway, Murrysville, PA 15668 Phone: 412-858-0338 |
Dr. Deborah J Co, M.D. Internal Medicine - Rheumatology Medicare: Accepting Medicare Assignments Practice Location: 4448 Old William Penn Hwy, Murrysville, PA 15668 Phone: 412-858-0338 Fax: 412-372-1494 |
Dr. Yong Gil Hwang, MD Internal Medicine - Rheumatology Medicare: Accepting Medicare Assignments Practice Location: 4448 Old William Penn Hwy, Murrysville, PA 15668 Phone: 412-858-0338 Fax: 412-372-1494 |
Amy I Kim, Internal Medicine Medicare: Not Enrolled in Medicare Practice Location: 4262 Old William Penn Hwy, Murrysville, PA 15668 Phone: 724-325-6010 Fax: 727-327-4690 |
News Archive
The University of Chicago Medicine will begin treating adult and pediatric patients at its new orthopaedic center in Orland Park on April 6.
Nerve growth factor (NGF), as the name says, is an essential peptide factor for the growth and differentiation of neuronal cells.
Two studies have been published this Wednesday in the journal Nature that show that work remains before so-called induced pluripotent stem (iPS) cells are ready for use in laboratory studies or clinical therapies. These iPS cells are body cells that are programmed to unwind back into an embryonic state. Like embryonic stem cells, they have potential to develop into any other type of cell in the body. However researchers are showing that these cells do not reprogram perfectly.
Problems surrounding an Indian company's launch of generic versions of three blockbuster drugs have preserved millions in revenue for the brand-name makers, reports The Wall Street Journal.
Disruption of two genes that control circadian rhythms can lead to diabetes, a researcher at UT Southwestern Medical Center has found in an animal study. Mice with defective copies of the genes, called CLOCK and BMAL1, develop abnormalities in pancreatic cells that eventually render the cells unable to release sufficient amounts of insulin.
› Verified 4 days ago