Victoria Borger, CRNP | |
680 Blair Mill Rd, Horsham, PA 19044-2223 | |
(570) 460-3436 | |
Not Available |
Full Name | Victoria Borger |
---|---|
Gender | Female |
Speciality | Nurse Practitioner - Primary Care |
Location | 680 Blair Mill Rd, Horsham, Pennsylvania |
Accepts Medicare Assignments | Medicare enrolled and may accept medicare through third-party reassignment. May prescribe medicare part D drugs. |
Identifier | Type | State | Issuer |
---|---|---|---|
1255843686 | NPI | - | NPPES |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
207R00000X | Internal Medicine | SP017700 (Pennsylvania) | Secondary |
363LP2300X | Nurse Practitioner - Primary Care | SP017700 (Pennsylvania) | Primary |
Entity Name | Schuylkill Health System Medical Group, Inc. |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1588603567 PECOS PAC ID: 0840285532 Enrollment ID: O20040420001197 |
News Archive
Writing in the May 28 issue of Cell, Johns Hopkins researchers report that four critical components of cells' protein-building machine don't do what scientists had long assumed.
A discovery by Babraham scientists brings new insight into how cells are reprogrammed and a greater understanding of how the environment, or factors like nutritional signals, can interact with our genes to affect health. As an embryo develops, cells acquire a particular fate, for example becoming a nerve or skin cell. The findings, reported online in the journal Nature, pinpoint a protein called AID as being important for complete cellular reprogramming in mammals.
The antioxidants that we mainly looked at were selenium, vitamin C and vitamin E. They are chemicals which inactivate pro-oxidants or free radicals. Smoking and normal metabolism can lead to the production of free radicals.
Variations in a woman's genome may contribute to her risk of developing ovarian cancer. Researchers using data collected by the Ovarian Cancer Association Consortium have discovered uncommon variants in new regions of the genome that influence ovarian cancer risk, and will present their findings on April 6, 2014 at the American Association for Cancer Research Annual Meeting in San Diego, CA.
› Verified 5 days ago
Mailing Address | Practice Location Address |
---|---|
Victoria Borger, CRNP 680 Blair Mill Rd, Horsham, PA 19044-2223 Ph: (570) 460-3436 | Victoria Borger, CRNP 680 Blair Mill Rd, Horsham, PA 19044-2223 Ph: (570) 460-3436 |
News Archive
Writing in the May 28 issue of Cell, Johns Hopkins researchers report that four critical components of cells' protein-building machine don't do what scientists had long assumed.
A discovery by Babraham scientists brings new insight into how cells are reprogrammed and a greater understanding of how the environment, or factors like nutritional signals, can interact with our genes to affect health. As an embryo develops, cells acquire a particular fate, for example becoming a nerve or skin cell. The findings, reported online in the journal Nature, pinpoint a protein called AID as being important for complete cellular reprogramming in mammals.
The antioxidants that we mainly looked at were selenium, vitamin C and vitamin E. They are chemicals which inactivate pro-oxidants or free radicals. Smoking and normal metabolism can lead to the production of free radicals.
Variations in a woman's genome may contribute to her risk of developing ovarian cancer. Researchers using data collected by the Ovarian Cancer Association Consortium have discovered uncommon variants in new regions of the genome that influence ovarian cancer risk, and will present their findings on April 6, 2014 at the American Association for Cancer Research Annual Meeting in San Diego, CA.
› Verified 5 days ago