Dr Raisa Ideliss Balbuena Merle, MD | |
33 Cedar St, Ynhh Laboratory Medicine, New Haven, CT 06519-2355 | |
(203) 688-2446 | |
Not Available |
Full Name | Dr Raisa Ideliss Balbuena Merle |
---|---|
Gender | Female |
Speciality | Pathology - Anatomic Pathology & Clinical Pathology |
Location | 33 Cedar St, New Haven, Connecticut |
Accepts Medicare Assignments | Medicare enrolled and may accept medicare through third-party reassignment. May prescribe medicare part D drugs. |
Identifier | Type | State | Issuer |
---|---|---|---|
1699039362 | NPI | - | NPPES |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
207ZP0102X | Pathology - Anatomic Pathology & Clinical Pathology | 61662 (Connecticut) | Primary |
Entity Name | Yale University |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1205822236 PECOS PAC ID: 9436061736 Enrollment ID: O20031105000015 |
News Archive
While DNA is often idealized as the "molecule of life", it is also a highly sophisticated polymer that can be used for next-generation materials. Beyond the fact that it can store information, further fascinating aspects of DNA are its geometric and topological properties, such as knotting and super-coiling.
New research has determined that the window of opportunity to provide possible treatments for patients suffering from traumatic brain injuries (TBIs) differs depending on whether the patient is male or female.
University of Sydney researchers have made a significant advance in understanding the debilitating hereditary disease Friedreich's ataxia, offering hope that new forms of treatment will be developed.
Following a California Institute for Regenerative Medicine Independent Citizens Oversight Committee meeting held last week, University of California, Irvine researchers learned they will receive $6 million in funding to support the continued development of a promising new treatment for Huntington's disease
Scientists have discovered a new inherited form of obesity and type 2 diabetes in humans. A large number of genes are involved in regulating body weight, and there are now over 30 genes known in which people with harmful changes in DNA sequence become extremely overweight. Similarly, there are a number of genes that can, when altered, cause type 2 diabetes. These conditions are inherited through families in exactly the same way as disorders such as cystic fibrosis or Huntington's disease.
› Verified 2 days ago
Mailing Address | Practice Location Address |
---|---|
Dr Raisa Ideliss Balbuena Merle, MD 33 Cedar St, Ynhh Laboratory Medicine, New Haven, CT 06519-2355 Ph: (203) 688-2446 | Dr Raisa Ideliss Balbuena Merle, MD 33 Cedar St, Ynhh Laboratory Medicine, New Haven, CT 06519-2355 Ph: (203) 688-2446 |
News Archive
While DNA is often idealized as the "molecule of life", it is also a highly sophisticated polymer that can be used for next-generation materials. Beyond the fact that it can store information, further fascinating aspects of DNA are its geometric and topological properties, such as knotting and super-coiling.
New research has determined that the window of opportunity to provide possible treatments for patients suffering from traumatic brain injuries (TBIs) differs depending on whether the patient is male or female.
University of Sydney researchers have made a significant advance in understanding the debilitating hereditary disease Friedreich's ataxia, offering hope that new forms of treatment will be developed.
Following a California Institute for Regenerative Medicine Independent Citizens Oversight Committee meeting held last week, University of California, Irvine researchers learned they will receive $6 million in funding to support the continued development of a promising new treatment for Huntington's disease
Scientists have discovered a new inherited form of obesity and type 2 diabetes in humans. A large number of genes are involved in regulating body weight, and there are now over 30 genes known in which people with harmful changes in DNA sequence become extremely overweight. Similarly, there are a number of genes that can, when altered, cause type 2 diabetes. These conditions are inherited through families in exactly the same way as disorders such as cystic fibrosis or Huntington's disease.
› Verified 2 days ago
Dr. Barton Charles Kenney, M.D. Pathology Medicare: Accepting Medicare Assignments Practice Location: 20 York Street, T-209, Yale-new Haven Hospital, New Haven, CT 06510 Phone: 203-688-2259 Fax: 203-688-5599 | |
Edward S Lee, MD, PHD Pathology Medicare: Not Enrolled in Medicare Practice Location: 20 York St, New Haven, CT 06510 Phone: 203-688-4242 | |
Melissa Anne Much, M.D. Pathology Medicare: Accepting Medicare Assignments Practice Location: 20 York St # T-209, Yale-new Haven Hospital, New Haven, CT 06510 Phone: 203-688-2259 Fax: 203-688-5599 | |
Haris Mirza, MD Pathology Medicare: Medicare Enrolled Practice Location: Yale School Of Medicine, Dept. Of Pathology, 20 York St, New Haven, CT 06510 Phone: 877-925-3522 Fax: 203-737-5388 | |
Raffaella Morotti, MD Pathology Medicare: Accepting Medicare Assignments Practice Location: 310 Cedar St, Pathology Department, New Haven, CT 06510 Phone: 203-737-6325 | |
Dr. Richard Rodion Rathbone, M.D. Pathology Medicare: Not Enrolled in Medicare Practice Location: 20 York St, Yale-new Haven Hospital, New Haven, CT 06504 Phone: 203-688-2439 Fax: 203-688-5103 | |
Dr. Mahboubeh Rahmani, MD Pathology Medicare: Medicare Enrolled Practice Location: 310 Cedar St, New Haven, CT 06510 Phone: 203-737-2115 |