Ms Jean Marie Walker, MSSW | |
71 Campbell Rd, Center Rutland, VT 05736-9757 | |
(802) 353-9067 | |
(802) 774-5012 |
Full Name | Ms Jean Marie Walker |
---|---|
Gender | Female |
Speciality | Social Worker - Clinical |
Location | 71 Campbell Rd, Center Rutland, Vermont |
Accepts Medicare Assignments | Does not participate in Medicare Program. She may not accept medicare assignment. |
Identifier | Type | State | Issuer |
---|---|---|---|
1073893574 | NPI | - | NPPES |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
1041C0700X | Social Worker - Clinical | 089-0000488 (Vermont) | Primary |
Mailing Address | Practice Location Address |
---|---|
Ms Jean Marie Walker, MSSW 71 Campbell Rd, Center Rutland, VT 05736-9757 Ph: (802) 353-9067 | Ms Jean Marie Walker, MSSW 71 Campbell Rd, Center Rutland, VT 05736-9757 Ph: (802) 353-9067 |
News Archive
A study led by a Johns Hopkins neurosurgeon has provided the first comprehensive map of a part of the adult human brain containing astrocytes, cells known to produce growth factors critical to the regeneration of damaged neural tissue and that potentially serve as brain stem cells.
For decades, scientists have dreamed of building computer systems that could replicate the human brain's talent for learning new tasks. MIT researchers have now taken a major step toward that goal by designing a computer chip that mimics how the brain's neurons adapt in response to new information. This phenomenon, known as plasticity, is believed to underlie many brain functions, including learning and memory.
Iron deficiency may be an under-recognized cause of fatigue in women, say investigators who report that iron supplementation reduced symptoms of fatigue in women who were not anemic but had low ferritin levels.
Smallpox is older than thought, according to results of a new technique reported in the Sept. 24 issue of the Proceedings of the National Academy of Sciences by researchers from Lawrence Livermore National Laboratory and the Centers for Disease Control (CDC).
An international team of researchers has identified a new method for selectively killing metastatic melanoma cells, which may lead to new areas for drug development in melanoma – a cancer that is highly resistant to current treatment strategies.
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