| Lyla Veen, MD | |
|
3833 Coon Rapids Blvd Nw, Suite 100, Coon Rapids, MN 55433-2697 | |
| (763) 427-8320 | |
| (763) 302-4338 |
| Full Name | Lyla Veen |
|---|---|
| Gender | Female |
| Speciality | Neurology |
| Experience | 17 Years |
| Location | 3833 Coon Rapids Blvd Nw, Coon Rapids, Minnesota |
| 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 |
|---|---|---|---|
| 1538325345 | NPI | - | NPPES |
| Facility Name | Location | Facility Type |
|---|---|---|
| Glencoe Regional Health Services | Glencoe, MN | Hospital |
| Mercy Hospital | Coon rapids, MN | Hospital |
| Group Practice Name | Group PECOS PAC ID | No. of Members |
|---|---|---|
| North Memorial Health Care | 0042123028 | 483 |
| Allina Health System | 4587573613 | 3071 |
| Minneapolis Clinic Of Neurology Ltd | 5496668659 | 63 |
| Minneapolis Clinic Of Neurology Ltd | 5496668659 | 63 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Entity Name | Ridgeview Medical Center |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1528364429 PECOS PAC ID: 9234041997 Enrollment ID: O20031111000183 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Entity Name | Minneapolis Clinic Of Neurology Ltd |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1992739247 PECOS PAC ID: 5496668659 Enrollment ID: O20031112000572 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Entity Name | Glencoe Regional Health Services |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1508885633 PECOS PAC ID: 1759292980 Enrollment ID: O20031119000252 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Entity Name | North Memorial Health Care |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1851344907 PECOS PAC ID: 0042123028 Enrollment ID: O20040122000470 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Entity Name | Allina Health System |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1295272342 PECOS PAC ID: 4587573613 Enrollment ID: O20040319000460 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Entity Name | Glencoe Regional Health Services |
|---|---|
| Entity Type | Part A Provider - Critical Access Hospital |
| Entity Identifiers | NPI Number: 1508885633 PECOS PAC ID: 1759292980 Enrollment ID: O20060504000699 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
| Mailing Address | Practice Location Address |
|---|---|
| Lyla Veen, MD 3833 Coon Rapids Blvd, Suite 100, Coon Rapids, MN 55433-2697 Ph: (763) 427-8320 | Lyla Veen, MD 3833 Coon Rapids Blvd Nw, Suite 100, Coon Rapids, MN 55433-2697 Ph: (763) 427-8320 |
News Archive
Tales from the crypt are supposed to be scary, but new research from Vanderbilt University, the HudsonAlpha Institute for Biotechnology and colleagues shows that crypts can be places of renewal too: intestinal crypts, that is. Intestinal crypts are small areas of the intestine where new cells are formed to continuously renew the digestive tract. By focusing on one protein expressed in our intestines called Lrig1, the researchers have identified a special population of intestinal stem cells that respond to damage and help to prevent cancer.
Lymph nodes can provide a suitable home for a variety of cells and tissues from other organs, suggesting that a cell-based alternative to whole organ transplantation might one day be feasible, according to researchers at the University of Pittsburgh School of Medicine and its McGowan Institute for Regenerative Medicine.
Human amniotic epithelial cells, stem cells derived from human placenta left over from live births and generally discarded, proliferated and differentiated when they interacted with one kind of melatonin receptor, MT1. This potentially therapeutic response occurred when the stem cells were transplanted into laboratory test tube and animal models of stroke. The same cells did not perform similarly when interacting with melatonin receptor MT2.
Important new insights into how the brain compensates for temporary hearing loss during infancy, such as that commonly experienced by children with glue ear, are revealed in a research study in ferrets.
› Verified 3 days ago
Dr. Suzanne T Witterholt, MD Psychiatry & Neurology Medicare: Accepting Medicare Assignments Practice Location: 9055 Springbrook Dr Nw, Coon Rapids, MN 55433 Phone: 763-780-9155 | |
Jayasri Alapati, MD Psychiatry & Neurology Medicare: Accepting Medicare Assignments Practice Location: 3833 Coon Rapids Blvd Nw Ste 100, Coon Rapids, MN 55433 Phone: 763-427-8320 | |
Dr. Allan Phillip Ingenito, M.D. Psychiatry & Neurology Medicare: Medicare Enrolled Practice Location: 3833 Coon Rapids Blvd Nw, Suite 100, Coon Rapids, MN 55433 Phone: 763-427-8320 Fax: 763-302-4338 | |
Mark D Miceli, M.D. Psychiatry & Neurology Medicare: Accepting Medicare Assignments Practice Location: 4050 Coon Rapids Blvd Nw, Coon Rapids, MN 55433 Phone: 612-262-1220 | |
Dr. Jaehoon Cho, M.D. Psychiatry & Neurology Medicare: Accepting Medicare Assignments Practice Location: 3833 Coon Rapids Blvd Nw Ste 100, Coon Rapids, MN 55433 Phone: 763-427-8320 Fax: 763-302-4338 | |
Dr. Shilpa Mikkilineni, M.D. Psychiatry & Neurology Medicare: Not Enrolled in Medicare Practice Location: 9055 Springbrook Dr Nw, Coon Rapids, MN 55433 Phone: 763-780-9155 | |
Dr. Moeen Ahmad Masood, M.B., B.S. Psychiatry & Neurology Medicare: Accepting Medicare Assignments Practice Location: 3833 Coon Rapids Blvd Nw, Suite 100, Coon Rapids, MN 55433 Phone: 763-427-8320 Fax: 763-302-4338 |