| Miguel Trujillo, MD | |
|
5400 Gibson Blvd Se, Albuquerque Health Partners, Albuquerque, NM 87108 | |
| (505) 262-3560 | |
| Not Available |
| Full Name | Miguel Trujillo |
|---|---|
| Gender | Male |
| Speciality | Obstetrics/gynecology |
| Experience | 17 Years |
| Location | 5400 Gibson Blvd Se, Albuquerque, New Mexico |
| 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 |
|---|---|---|---|
| 1699970012 | NPI | - | NPPES |
| Taxonomy | Type | License (State) | Status |
|---|---|---|---|
| 207V00000X | Obstetrics & Gynecology | PENDING (New Mexico) | Primary |
| Facility Name | Location | Facility Type |
|---|---|---|
| Presbyterian Espanola Hospital | Espanola, NM | Hospital |
| Group Practice Name | Group PECOS PAC ID | No. of Members |
|---|---|---|
| Presbyterian Healthcare Services | 9234041708 | 1099 |
News Archive
One of the main obstacles that stands in the way of using human hematopoietic stem cells (hHSCs) to treat a variety of diseases is the difficulty growing them in culture—they quickly die or differentiate into other cell types. A series of experiments that demonstrate the successful use of fat cells as part of a feeder layer to support prolonged growth of hHSCs in culture is reported in an article in BioResearch Open Access, a bimonthly peer-reviewed open access journal from Mary Ann Liebert, Inc., publishers.
Forget the Vulcan mind-meld of the Star Trek generation - as far as mind control techniques go, bacteria is the next frontier. In a paper published July 16 in Scientific Reports, which is part of the Nature Publishing Group, a Virginia Tech scientist used a mathematical model to demonstrate that bacteria can control the behavior of an inanimate device like a robot.
Buck Institute professors Judith Campisi, PhD and Lisa Ellerby PhD, have been awarded a $14.3 million grant from the NIH's National Institute of Aging to study cellular senescence, one of the major hallmarks of aging, as a driver of Alzheimer's disease and other age-related dementias.
Researchers have generated a new type of human stem cell that can develop into numerous types of specialized cells, including functioning pancreatic beta cells that produce insulin. Called endodermal progenitor (EP) cells, the new cells show two important advantages over embryonic stem cells and induced pluripotent stem cells: they do not form tumors when transplanted into animals, and they can form functional pancreatic beta cells in the laboratory.
› Verified 7 days ago
| Entity Name | Presbyterian Healthcare Services |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1104802354 PECOS PAC ID: 9234041708 Enrollment ID: O20031103000603 |
News Archive
One of the main obstacles that stands in the way of using human hematopoietic stem cells (hHSCs) to treat a variety of diseases is the difficulty growing them in culture—they quickly die or differentiate into other cell types. A series of experiments that demonstrate the successful use of fat cells as part of a feeder layer to support prolonged growth of hHSCs in culture is reported in an article in BioResearch Open Access, a bimonthly peer-reviewed open access journal from Mary Ann Liebert, Inc., publishers.
Forget the Vulcan mind-meld of the Star Trek generation - as far as mind control techniques go, bacteria is the next frontier. In a paper published July 16 in Scientific Reports, which is part of the Nature Publishing Group, a Virginia Tech scientist used a mathematical model to demonstrate that bacteria can control the behavior of an inanimate device like a robot.
Buck Institute professors Judith Campisi, PhD and Lisa Ellerby PhD, have been awarded a $14.3 million grant from the NIH's National Institute of Aging to study cellular senescence, one of the major hallmarks of aging, as a driver of Alzheimer's disease and other age-related dementias.
Researchers have generated a new type of human stem cell that can develop into numerous types of specialized cells, including functioning pancreatic beta cells that produce insulin. Called endodermal progenitor (EP) cells, the new cells show two important advantages over embryonic stem cells and induced pluripotent stem cells: they do not form tumors when transplanted into animals, and they can form functional pancreatic beta cells in the laboratory.
› Verified 7 days ago
| Mailing Address | Practice Location Address |
|---|---|
| Miguel Trujillo, MD 5400 Gibson Blvd Se, Albuquerque Health Partners, Albuquerque, NM 87108 Ph: (505) 262-3560 | Miguel Trujillo, MD 5400 Gibson Blvd Se, Albuquerque Health Partners, Albuquerque, NM 87108 Ph: (505) 262-3560 |
News Archive
One of the main obstacles that stands in the way of using human hematopoietic stem cells (hHSCs) to treat a variety of diseases is the difficulty growing them in culture—they quickly die or differentiate into other cell types. A series of experiments that demonstrate the successful use of fat cells as part of a feeder layer to support prolonged growth of hHSCs in culture is reported in an article in BioResearch Open Access, a bimonthly peer-reviewed open access journal from Mary Ann Liebert, Inc., publishers.
Forget the Vulcan mind-meld of the Star Trek generation - as far as mind control techniques go, bacteria is the next frontier. In a paper published July 16 in Scientific Reports, which is part of the Nature Publishing Group, a Virginia Tech scientist used a mathematical model to demonstrate that bacteria can control the behavior of an inanimate device like a robot.
Buck Institute professors Judith Campisi, PhD and Lisa Ellerby PhD, have been awarded a $14.3 million grant from the NIH's National Institute of Aging to study cellular senescence, one of the major hallmarks of aging, as a driver of Alzheimer's disease and other age-related dementias.
Researchers have generated a new type of human stem cell that can develop into numerous types of specialized cells, including functioning pancreatic beta cells that produce insulin. Called endodermal progenitor (EP) cells, the new cells show two important advantages over embryonic stem cells and induced pluripotent stem cells: they do not form tumors when transplanted into animals, and they can form functional pancreatic beta cells in the laboratory.
› Verified 7 days ago
Patrick R Mcginnis, MD Obstetrics & Gynecology Medicare: Not Enrolled in Medicare Practice Location: 5150 Journal Center Blvd Ne, Albuquerque, NM 87109 Phone: 505-727-7600 Fax: 505-727-7640 | |
Kelly Drescher, MD Obstetrics & Gynecology Medicare: Accepting Medicare Assignments Practice Location: 201 Cedar St Se Ste 5600, Albuquerque, NM 87106 Phone: 505-563-6000 Fax: 505-563-6060 | |
Dr. Jennifer Coffey Gill, MD Obstetrics & Gynecology Medicare: Accepting Medicare Assignments Practice Location: Presbyterian Healthcare Services, 6100 Pan American Freeway Ste 450, Albuquerque, NM 87109 Phone: 505-823-8787 Fax: 505-792-1978 | |
Shannon Carr, MD Obstetrics & Gynecology Medicare: Accepting Medicare Assignments Practice Location: 2211 Lomas Blvd Ne, 4th Floor Ambulatory Care Ctr, Albuquerque, NM 87106 Phone: 505-272-2245 Fax: 505-272-1109 | |
Jacquelyn A Blackstone, DO Obstetrics & Gynecology Medicare: Accepting Medicare Assignments Practice Location: 2211 Lomas Blvd Ne, Albuquerque, NM 87106 Phone: 505-272-3120 Fax: 505-272-8060 | |
Sophie Peterson, M.D. Obstetrics & Gynecology Medicare: Accepting Medicare Assignments Practice Location: 6100 Pan American Freeway, Ste 450, Albuquerque, NM 87109 Phone: 505-823-8787 Fax: 505-823-8788 | |
Douglas J Krell, MD Obstetrics & Gynecology Medicare: Medicare Enrolled Practice Location: 4705 Montgomery Ne, Suite 301-302, Albuquerque, NM 87109 Phone: 505-254-6500 Fax: 505-254-6532 |