Elizabeth T Curtis, MD | |
867 Turnpike Street, N Andover, MA 01845 | |
(978) 682-0955 | |
(978) 682-0916 |
Full Name | Elizabeth T Curtis |
---|---|
Gender | Female |
Speciality | |
Experience | Years |
Location | 867 Turnpike Street, N Andover, Massachusetts |
Accepts Medicare Assignments | Yes. She accepts the Medicare-approved amount; you will not be billed for any more than the Medicare deductible and coinsurance. |
Identifier | Type | State | Issuer |
---|---|---|---|
1881798940 | NPI | - | NPPES |
J06579 | Other | MA | BLUE CROSS |
3039137 | Medicaid | MA | |
712298 | Other | MA | TUFTS |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
207RR0500X | Internal Medicine - Rheumatology | 58211 (Massachusetts) | Primary |
Mailing Address | Practice Location Address |
---|---|
Elizabeth T Curtis, MD 867 Turnpike Street, N Andover, MA 01845 Ph: (978) 682-0955 | Elizabeth T Curtis, MD 867 Turnpike Street, N Andover, MA 01845 Ph: (978) 682-0955 |
News Archive
Cholangiocarcinoma (CCA), a bile duct cancer, is one of the major cancers in Northeast Thailand. This cancer is difficult to diagnose and has high metastatic and mortality rates. Overexpression of Met, a hepatocyte growth factor (HGF) receptor, has frequently been found in CCA and is correlated with progression of this type of cancer.
A new study reports that blue light with a wavelength of 400–420 nm can inactivate enveloped viruses like SARS-CoV-2 and influenza. This could allow continuous disinfection of spaces even when people are present.
Researchers at the University of Illinois at Chicago were able to reduce uncertainty in diagnosing cardiac sarcoidosis by having patients consume a high-fat, low-sugar diet for 72 hours prior to diagnostic imaging.
The American Academy of Otolaryngology—Head and Neck Surgery Foundation is pleased to announce that OTO Open, the Academy's new and official open access journal will be joining the Academy's premier journal, Otolaryngology—Head and Neck Surgery, both published by SAGE Publishing.
Scientists from the University of Leeds have discovered a gene that plays a vital role in blood vessel formation, research which adds to our knowledge of how early life develops.
› Verified 3 days ago