Dr. Hallie Jeanne Beyer, M.D. Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 330 Enterprise Dr Ste B, Philipsburg, PA 16866 Phone: 814-342-6636 Fax: 814-342-5230 |
George A Saborio, MD Internal Medicine - Sports Medicine Medicare: Accepting Medicare Assignments Practice Location: 271 Railroad St, Philipsburg, PA 16866 Phone: 814-342-9701 Fax: 814-342-7056 |
Dr. Amanda Mae Olson, D.O. Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 210 Medical Center Dr, Philipsburg, PA 16866 Phone: 814-342-5402 Fax: 814-342-0598 |
Dr. Lawrence Glen Adams, M.D. Internal Medicine Medicare: Not Enrolled in Medicare Practice Location: 601 N Front St, Philipsburg, PA 16866 Phone: 814-342-7399 Fax: 814-342-5470 |
Dr. Diann M. Westrick, M.D. Internal Medicine Medicare: Not Enrolled in Medicare Practice Location: 210 Medical Center Dr, Philipsburg, PA 16866 Phone: 814-342-5402 Fax: 814-342-0598 |
Dr. James Mathis, M.D. Internal Medicine Medicare: Medicare Enrolled Practice Location: 330 Enterprise Dr Ste B, Philipsburg, PA 16866 Phone: 814-342-6636 Fax: 814-342-5230 |
News Archive
Diabetes seldom occurs in newborns-a condition known as neonatal diabetes. But when it does, it's mostly due to a mutation in a single gene such as the KCNJ11 or insulin (INS).
Scientists supported by the National Institutes of Health (NIH) have determined the complete genetic blueprints for 13 different strains of Borrelia burgdorferi, the bacteria that cause Lyme disease. The achievement should lead to a better understanding of how genetic variations among strains may result in different courses of illness in people with Lyme disease, the most common tickborne disease in North America. The wealth of new genetic data will also help scientists develop improved ways to diagnose, treat and prevent Lyme disease.
Very early on in her life, 3-year-old Karma Taylor found herself frequently in the Emergency Department in the middle of the night as a result of breathing problems. Karma's mom, Joyce Kelso, felt like she was chasing after her daughter's asthma rather than staying ahead of it.
In just the past few years, researchers have found a way to use a naturally occurring bacterial system known as CRISPR/Cas9 to inactivate or correct specific genes in any organism. CRISPR/Cas9 gene editing activity runs continuously, though, leading to risk of additional editing at unwanted sites. Now, researchers at University of California, San Diego School of Medicine, Ludwig Cancer Research and Isis Pharmaceuticals demonstrate a commercially feasible way to use RNA to turn the CRISPR-Cas9 system on and off as desired - permanently editing a gene, but only temporarily activating CRISPR-Cas9.
Children can be seen running across parking lots without adult supervision every day, and the consequences can be fatal.
› Verified 4 days ago