Mazen M Bazzi, DO | |
15370 Levan Road, Suite 1, Livonia, MI 48154-1903 | |
(734) 462-8401 | |
(734) 462-1410 |
Full Name | Mazen M Bazzi |
---|---|
Gender | Male |
Speciality | Vascular Surgery |
Experience | 14 Years |
Location | 15370 Levan Road, Livonia, Michigan |
Accepts Medicare Assignments | Yes. He accepts the Medicare-approved amount; you will not be billed for any more than the Medicare deductible and coinsurance. |
Identifier | Type | State | Issuer |
---|---|---|---|
1356590459 | NPI | - | NPPES |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
2086S0129X | Surgery - Vascular Surgery | 5101016323 (Michigan) | Primary |
208600000X | Surgery | 5101016323 (Michigan) | Secondary |
Facility Name | Location | Facility Type |
---|---|---|
Beaumont Hospital - Dearborn | Dearborn, MI | Hospital |
Beaumont Hospital - Wayne | Wayne, MI | Hospital |
St Joe Mercy Hospital System Livonia | Livonia, MI | Hospital |
Beaumont Hospital - Taylor | Taylor, MI | Hospital |
Beaumont Hospital - Trenton | Trenton, MI | Hospital |
Group Practice Name | Group PECOS PAC ID | No. of Members |
---|---|---|
Vellore R Ramakrishnan M.d., P.c. | 3476682535 | 3 |
News Archive
Burning incense, a popular cultural practice in Arabian Gulf countries and elsewhere, generates indoor air pollutants that may cause inflammation in human lung cells, say researchers in the Gillings School of Global Public Health at the University of North Carolina at Chapel Hill.
A new approach for generating large numbers of circulatory system cells, known as vascular endothelial cells (VECs), from human amniotic-fluid-derived cells (ACs) is reported in a study published by Cell Press October 18th in the journal Cell. The strategy, which shows promise in mice, opens the door to establishing a vast inventory of VECs for promoting organ regeneration and treating diverse vascular disorders.
The University of Pittsburgh houses a whole-body 7 Tesla magnetic resonance imager (7T MRI), one of the strongest human MRI devices in the world and a powerful imaging tool that allows researchers to gain a far better understanding of brain structure and function.
During embryonic development, sensory and motor fibers interact to form nerves in the limbs. The research team led by Dr. Andrea Huber Br-samle of the Institute of Developmental Genetics of Helmholtz Zentrum M-nchen has now elucidated how this interaction functions at the molecular level: The cell surface receptor neuropilin-1 is present in both sensory and motor nerve fibers and controls their interaction in order to correctly regulate growth.
› Verified 7 days ago
Entity Name | Vellore R Ramakrishnan M.d., P.c. |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1871624072 PECOS PAC ID: 3476682535 Enrollment ID: O20100527000516 |
News Archive
Burning incense, a popular cultural practice in Arabian Gulf countries and elsewhere, generates indoor air pollutants that may cause inflammation in human lung cells, say researchers in the Gillings School of Global Public Health at the University of North Carolina at Chapel Hill.
A new approach for generating large numbers of circulatory system cells, known as vascular endothelial cells (VECs), from human amniotic-fluid-derived cells (ACs) is reported in a study published by Cell Press October 18th in the journal Cell. The strategy, which shows promise in mice, opens the door to establishing a vast inventory of VECs for promoting organ regeneration and treating diverse vascular disorders.
The University of Pittsburgh houses a whole-body 7 Tesla magnetic resonance imager (7T MRI), one of the strongest human MRI devices in the world and a powerful imaging tool that allows researchers to gain a far better understanding of brain structure and function.
During embryonic development, sensory and motor fibers interact to form nerves in the limbs. The research team led by Dr. Andrea Huber Br-samle of the Institute of Developmental Genetics of Helmholtz Zentrum M-nchen has now elucidated how this interaction functions at the molecular level: The cell surface receptor neuropilin-1 is present in both sensory and motor nerve fibers and controls their interaction in order to correctly regulate growth.
› Verified 7 days ago
Entity Name | Access And Vascular Care |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1831520212 PECOS PAC ID: 8628200987 Enrollment ID: O20140421000837 |
News Archive
Burning incense, a popular cultural practice in Arabian Gulf countries and elsewhere, generates indoor air pollutants that may cause inflammation in human lung cells, say researchers in the Gillings School of Global Public Health at the University of North Carolina at Chapel Hill.
A new approach for generating large numbers of circulatory system cells, known as vascular endothelial cells (VECs), from human amniotic-fluid-derived cells (ACs) is reported in a study published by Cell Press October 18th in the journal Cell. The strategy, which shows promise in mice, opens the door to establishing a vast inventory of VECs for promoting organ regeneration and treating diverse vascular disorders.
The University of Pittsburgh houses a whole-body 7 Tesla magnetic resonance imager (7T MRI), one of the strongest human MRI devices in the world and a powerful imaging tool that allows researchers to gain a far better understanding of brain structure and function.
During embryonic development, sensory and motor fibers interact to form nerves in the limbs. The research team led by Dr. Andrea Huber Br-samle of the Institute of Developmental Genetics of Helmholtz Zentrum M-nchen has now elucidated how this interaction functions at the molecular level: The cell surface receptor neuropilin-1 is present in both sensory and motor nerve fibers and controls their interaction in order to correctly regulate growth.
› Verified 7 days ago
Entity Name | Downriver Vascular Associates Plc |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1386108835 PECOS PAC ID: 7113267824 Enrollment ID: O20190315001363 |
News Archive
Burning incense, a popular cultural practice in Arabian Gulf countries and elsewhere, generates indoor air pollutants that may cause inflammation in human lung cells, say researchers in the Gillings School of Global Public Health at the University of North Carolina at Chapel Hill.
A new approach for generating large numbers of circulatory system cells, known as vascular endothelial cells (VECs), from human amniotic-fluid-derived cells (ACs) is reported in a study published by Cell Press October 18th in the journal Cell. The strategy, which shows promise in mice, opens the door to establishing a vast inventory of VECs for promoting organ regeneration and treating diverse vascular disorders.
The University of Pittsburgh houses a whole-body 7 Tesla magnetic resonance imager (7T MRI), one of the strongest human MRI devices in the world and a powerful imaging tool that allows researchers to gain a far better understanding of brain structure and function.
During embryonic development, sensory and motor fibers interact to form nerves in the limbs. The research team led by Dr. Andrea Huber Br-samle of the Institute of Developmental Genetics of Helmholtz Zentrum M-nchen has now elucidated how this interaction functions at the molecular level: The cell surface receptor neuropilin-1 is present in both sensory and motor nerve fibers and controls their interaction in order to correctly regulate growth.
› Verified 7 days ago
Mailing Address | Practice Location Address |
---|---|
Mazen M Bazzi, DO 15370 Levan Road, Suite 1, Livonia, MI 48154-1903 Ph: (734) 462-8401 | Mazen M Bazzi, DO 15370 Levan Road, Suite 1, Livonia, MI 48154-1903 Ph: (734) 462-8401 |
News Archive
Burning incense, a popular cultural practice in Arabian Gulf countries and elsewhere, generates indoor air pollutants that may cause inflammation in human lung cells, say researchers in the Gillings School of Global Public Health at the University of North Carolina at Chapel Hill.
A new approach for generating large numbers of circulatory system cells, known as vascular endothelial cells (VECs), from human amniotic-fluid-derived cells (ACs) is reported in a study published by Cell Press October 18th in the journal Cell. The strategy, which shows promise in mice, opens the door to establishing a vast inventory of VECs for promoting organ regeneration and treating diverse vascular disorders.
The University of Pittsburgh houses a whole-body 7 Tesla magnetic resonance imager (7T MRI), one of the strongest human MRI devices in the world and a powerful imaging tool that allows researchers to gain a far better understanding of brain structure and function.
During embryonic development, sensory and motor fibers interact to form nerves in the limbs. The research team led by Dr. Andrea Huber Br-samle of the Institute of Developmental Genetics of Helmholtz Zentrum M-nchen has now elucidated how this interaction functions at the molecular level: The cell surface receptor neuropilin-1 is present in both sensory and motor nerve fibers and controls their interaction in order to correctly regulate growth.
› Verified 7 days ago
Floro D Rosario, MD Surgery Medicare: Accepting Medicare Assignments Practice Location: 15136 Levan Road, Livonia, MI 48154 Phone: 734-779-2130 Fax: 734-779-2152 | |
Thomas Daniel Oweis, MD Surgery Medicare: Accepting Medicare Assignments Practice Location: 36475 5 Mile Rd, Attn: Trauma Services, Livonia, MI 48154 Phone: 734-655-4800 | |
Amanda Mahoney, MD Surgery Medicare: Medicare Enrolled Practice Location: 37595 7 Mile Rd, Livonia, MI 48152 Phone: 734-793-2470 | |
Robert A Frank, MD Surgery Medicare: Medicare Enrolled Practice Location: 28803 8 Mile Rd Ste 101, Livonia, MI 48152 Phone: 504-842-4000 | |
Dr. Paul Bruce Friedman, M.D. Surgery Medicare: Accepting Medicare Assignments Practice Location: 14555 Levan Rd, Suite 307, Livonia, MI 48154 Phone: 734-462-1525 Fax: 734-462-1830 | |
Dr. Morteza Hariri, M.D. Surgery Medicare: Not Enrolled in Medicare Practice Location: 14555 Levan Rd, Ste 409, Livonia, MI 48154 Phone: 734-462-4070 Fax: 734-462-6370 |