Matthew Thomas Davies, MD | |
1000 E 1st St Ste 404, Duluth, MN 55805-2297 | |
(218) 722-5513 | |
(218) 722-6515 |
Full Name | Matthew Thomas Davies |
---|---|
Gender | Male |
Speciality | Neurosurgery |
Experience | 11 Years |
Location | 1000 E 1st St Ste 404, Duluth, Minnesota |
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 |
---|---|---|---|
1205279510 | NPI | - | NPPES |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
207T00000X | Neurological Surgery | 66909 (Minnesota) | Primary |
390200000X | Student In An Organized Health Care Education/training Program | (* (Not Available)) | Secondary |
Facility Name | Location | Facility Type |
---|---|---|
Grand Itasca Clinic And Hospital | Grand rapids, MN | Hospital |
St Lukes Hospital | Duluth, MN | Hospital |
Community Memorial Hospital | Cloquet, MN | Hospital |
University Medical Center-mesabi/ Mesaba Clinics | Hibbing, MN | Hospital |
Essentia Health Virginia | Virginia, MN | Hospital |
Group Practice Name | Group PECOS PAC ID | No. of Members |
---|---|---|
Community Memorial Hospital Association | 0042129991 | 25 |
Grand Itasca Clinic And Hospital | 8123939550 | 115 |
Orthopedic Associates Of Duluth Pa | 1951294065 | 33 |
News Archive
Personalized medicine - the promise of customizing treatments that will work best for each individual patient - could get a boost from advances in understanding how the proteins that help determine health and disease take the three-dimensional shapes needed to work in the body. That's the message of the latest episode of the 2012 edition of a popular video series from the American Chemical Society (ACS), the world's largest scientific society.
A Korean research team from KAIST developed a computational framework, DeepDDI, that accurately predicts and generates 86 types of drug-drug and drug-food interactions as outputs of human-readable sentences, which allows in-depth understanding of the drug-drug and drug-food interactions.
The importance of the body's immune system in protecting against the creation of cancerous tumors has been known for a long time. But despite the existence of a competent immune system, some individuals develop tumors, in part because tumors have ways to evade destructive immunity or induce immune-suppression.
For the first time, scientists have visualized the fine details of bacterial microcompartment shells - the organisms' submicroscopic nanoreactors, which are comprised completely of protein.
The fundamental organization of brain networks is established in utero during the second and third trimesters of fetal development, according to research published in JNeurosci. The finding lays the groundwork for understanding how the prenatal period shapes future brain function.
› Verified 9 days ago
Entity Name | Grand Itasca Clinic And Hospital |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1669426631 PECOS PAC ID: 8123939550 Enrollment ID: O20031105000209 |
News Archive
Personalized medicine - the promise of customizing treatments that will work best for each individual patient - could get a boost from advances in understanding how the proteins that help determine health and disease take the three-dimensional shapes needed to work in the body. That's the message of the latest episode of the 2012 edition of a popular video series from the American Chemical Society (ACS), the world's largest scientific society.
A Korean research team from KAIST developed a computational framework, DeepDDI, that accurately predicts and generates 86 types of drug-drug and drug-food interactions as outputs of human-readable sentences, which allows in-depth understanding of the drug-drug and drug-food interactions.
The importance of the body's immune system in protecting against the creation of cancerous tumors has been known for a long time. But despite the existence of a competent immune system, some individuals develop tumors, in part because tumors have ways to evade destructive immunity or induce immune-suppression.
For the first time, scientists have visualized the fine details of bacterial microcompartment shells - the organisms' submicroscopic nanoreactors, which are comprised completely of protein.
The fundamental organization of brain networks is established in utero during the second and third trimesters of fetal development, according to research published in JNeurosci. The finding lays the groundwork for understanding how the prenatal period shapes future brain function.
› Verified 9 days ago
Entity Name | Range Regional Health Services |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1669569265 PECOS PAC ID: 8022920024 Enrollment ID: O20031110000095 |
News Archive
Personalized medicine - the promise of customizing treatments that will work best for each individual patient - could get a boost from advances in understanding how the proteins that help determine health and disease take the three-dimensional shapes needed to work in the body. That's the message of the latest episode of the 2012 edition of a popular video series from the American Chemical Society (ACS), the world's largest scientific society.
A Korean research team from KAIST developed a computational framework, DeepDDI, that accurately predicts and generates 86 types of drug-drug and drug-food interactions as outputs of human-readable sentences, which allows in-depth understanding of the drug-drug and drug-food interactions.
The importance of the body's immune system in protecting against the creation of cancerous tumors has been known for a long time. But despite the existence of a competent immune system, some individuals develop tumors, in part because tumors have ways to evade destructive immunity or induce immune-suppression.
For the first time, scientists have visualized the fine details of bacterial microcompartment shells - the organisms' submicroscopic nanoreactors, which are comprised completely of protein.
The fundamental organization of brain networks is established in utero during the second and third trimesters of fetal development, according to research published in JNeurosci. The finding lays the groundwork for understanding how the prenatal period shapes future brain function.
› Verified 9 days ago
Entity Name | Community Memorial Hospital Association |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1003869082 PECOS PAC ID: 0042129991 Enrollment ID: O20040202001203 |
News Archive
Personalized medicine - the promise of customizing treatments that will work best for each individual patient - could get a boost from advances in understanding how the proteins that help determine health and disease take the three-dimensional shapes needed to work in the body. That's the message of the latest episode of the 2012 edition of a popular video series from the American Chemical Society (ACS), the world's largest scientific society.
A Korean research team from KAIST developed a computational framework, DeepDDI, that accurately predicts and generates 86 types of drug-drug and drug-food interactions as outputs of human-readable sentences, which allows in-depth understanding of the drug-drug and drug-food interactions.
The importance of the body's immune system in protecting against the creation of cancerous tumors has been known for a long time. But despite the existence of a competent immune system, some individuals develop tumors, in part because tumors have ways to evade destructive immunity or induce immune-suppression.
For the first time, scientists have visualized the fine details of bacterial microcompartment shells - the organisms' submicroscopic nanoreactors, which are comprised completely of protein.
The fundamental organization of brain networks is established in utero during the second and third trimesters of fetal development, according to research published in JNeurosci. The finding lays the groundwork for understanding how the prenatal period shapes future brain function.
› Verified 9 days ago
Entity Name | Orthopedic Associates Of Duluth Pa |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1225033715 PECOS PAC ID: 1951294065 Enrollment ID: O20140617000407 |
News Archive
Personalized medicine - the promise of customizing treatments that will work best for each individual patient - could get a boost from advances in understanding how the proteins that help determine health and disease take the three-dimensional shapes needed to work in the body. That's the message of the latest episode of the 2012 edition of a popular video series from the American Chemical Society (ACS), the world's largest scientific society.
A Korean research team from KAIST developed a computational framework, DeepDDI, that accurately predicts and generates 86 types of drug-drug and drug-food interactions as outputs of human-readable sentences, which allows in-depth understanding of the drug-drug and drug-food interactions.
The importance of the body's immune system in protecting against the creation of cancerous tumors has been known for a long time. But despite the existence of a competent immune system, some individuals develop tumors, in part because tumors have ways to evade destructive immunity or induce immune-suppression.
For the first time, scientists have visualized the fine details of bacterial microcompartment shells - the organisms' submicroscopic nanoreactors, which are comprised completely of protein.
The fundamental organization of brain networks is established in utero during the second and third trimesters of fetal development, according to research published in JNeurosci. The finding lays the groundwork for understanding how the prenatal period shapes future brain function.
› Verified 9 days ago
Mailing Address | Practice Location Address |
---|---|
Matthew Thomas Davies, MD 1000 E 1st St Ste 404, Duluth, MN 55805-2297 Ph: (218) 722-5513 | Matthew Thomas Davies, MD 1000 E 1st St Ste 404, Duluth, MN 55805-2297 Ph: (218) 722-5513 |
News Archive
Personalized medicine - the promise of customizing treatments that will work best for each individual patient - could get a boost from advances in understanding how the proteins that help determine health and disease take the three-dimensional shapes needed to work in the body. That's the message of the latest episode of the 2012 edition of a popular video series from the American Chemical Society (ACS), the world's largest scientific society.
A Korean research team from KAIST developed a computational framework, DeepDDI, that accurately predicts and generates 86 types of drug-drug and drug-food interactions as outputs of human-readable sentences, which allows in-depth understanding of the drug-drug and drug-food interactions.
The importance of the body's immune system in protecting against the creation of cancerous tumors has been known for a long time. But despite the existence of a competent immune system, some individuals develop tumors, in part because tumors have ways to evade destructive immunity or induce immune-suppression.
For the first time, scientists have visualized the fine details of bacterial microcompartment shells - the organisms' submicroscopic nanoreactors, which are comprised completely of protein.
The fundamental organization of brain networks is established in utero during the second and third trimesters of fetal development, according to research published in JNeurosci. The finding lays the groundwork for understanding how the prenatal period shapes future brain function.
› Verified 9 days ago
Dr. Durga Ram Sure, MBBS Neurological Surgery Medicare: Accepting Medicare Assignments Practice Location: 400 E 3rd St, Essentia Health Duluth Clinic, Duluth, MN 55805 Phone: 218-786-8364 | |
Carlos Rodrigo Goulart, MD Neurological Surgery Medicare: Accepting Medicare Assignments Practice Location: 400 E 3rd St, Duluth, MN 55805 Phone: 218-786-8364 | |
Mark Charles Glazier, Neurological Surgery Medicare: Not Enrolled in Medicare Practice Location: 400 E 3rd St, Duluth, MN 55805 Phone: 218-786-8364 | |
Robert Francis Donley, Neurological Surgery Medicare: Not Enrolled in Medicare Practice Location: 400 E 3rd St, Duluth, MN 55805 Phone: 218-786-3600 | |
Dr. William Arthur Himango, MD Neurological Surgery Medicare: Not Enrolled in Medicare Practice Location: 920 E 1st St, Suite P303, Duluth, MN 55805 Phone: 218-249-2450 | |
Dr. Robert Peter Bejnarowicz, DO Neurological Surgery Medicare: Accepting Medicare Assignments Practice Location: 1012 E 2nd St, Duluth, MN 55805 Phone: 218-249-2450 Fax: 218-249-2451 |