| Dr Matthew Fabiszak, DO | |
|
1380 E Medical Center Dr, St George, UT 84790-2123 | |
| (435) 251-2992 | |
| (435) 251-1625 |
| Full Name | Dr Matthew Fabiszak |
|---|---|
| Gender | Male |
| Speciality | Internal Medicine |
| Experience | 8 Years |
| Location | 1380 E Medical Center Dr, St George, Utah |
| 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 |
|---|---|---|---|
| 1174974059 | NPI | - | NPPES |
| Taxonomy | Type | License (State) | Status |
|---|---|---|---|
| 207R00000X | Internal Medicine | 11195809-1204 (Utah) | Primary |
| 207R00000X | Internal Medicine | R-10678 (Iowa) | Secondary |
| Facility Name | Location | Facility Type |
|---|---|---|
| Dixie Regional Medical Center | St george, UT | Hospital |
| Group Practice Name | Group PECOS PAC ID | No. of Members |
|---|---|---|
| Intermountain Healthcare Services, Inc | 1850209420 | 3063 |
News Archive
Attaching an antimicrobial drug, which is activated by light, to a peptide that binds to bacteria and stops them making toxins, produced a "magic bullet" that was highly effective at killing the superbug, methicillin-resistant Staphylococcus aureus (MRSA).
A team led by researchers from the National Institutes of Health (NIH) has reported the discovery of five genetic variants related to blood pressure in African-Americans, findings that may provide new clues to treating and preventing hypertension. The effort marks the first time that a relatively new research approach, called a genome-wide association study, has focused on blood pressure and hypertension in an African-American population.
Scientists have discovered a molecular pathway that works through the immune system to regenerate damaged kidney tissues and may lead to new therapies for repairing injury in a number of organs.
It is currently difficult to treat traumatic brain injury (TBI) in the clinic. There are abundant neural network connections and humoral regulation mechanisms between the cerebral hemispheres.
Chemicals in pharmaceutical drugs can obviously save lives. But as more and stronger chemicals have been introduced, our basic knowledge of the broader health impact of all these chemicals has not kept up with the rapid pace of innovation. There is exceptionally little information on how chemicals in our drugs and also in the environment around us, including on the food we eat, impact some of the most important cells in our body: stem cells. Without basic knowledge and tests on the impact of chemicals on our stem cells, we may be unwittingly damaging essential regenerative functions in our body.
› Verified 5 days ago
| Entity Name | Ihc Health Services Inc |
|---|---|
| Entity Type | Part B Supplier - Clinic/group Practice |
| Entity Identifiers | NPI Number: 1942325154 PECOS PAC ID: 1850209420 Enrollment ID: O20080610000303 |
News Archive
Attaching an antimicrobial drug, which is activated by light, to a peptide that binds to bacteria and stops them making toxins, produced a "magic bullet" that was highly effective at killing the superbug, methicillin-resistant Staphylococcus aureus (MRSA).
A team led by researchers from the National Institutes of Health (NIH) has reported the discovery of five genetic variants related to blood pressure in African-Americans, findings that may provide new clues to treating and preventing hypertension. The effort marks the first time that a relatively new research approach, called a genome-wide association study, has focused on blood pressure and hypertension in an African-American population.
Scientists have discovered a molecular pathway that works through the immune system to regenerate damaged kidney tissues and may lead to new therapies for repairing injury in a number of organs.
It is currently difficult to treat traumatic brain injury (TBI) in the clinic. There are abundant neural network connections and humoral regulation mechanisms between the cerebral hemispheres.
Chemicals in pharmaceutical drugs can obviously save lives. But as more and stronger chemicals have been introduced, our basic knowledge of the broader health impact of all these chemicals has not kept up with the rapid pace of innovation. There is exceptionally little information on how chemicals in our drugs and also in the environment around us, including on the food we eat, impact some of the most important cells in our body: stem cells. Without basic knowledge and tests on the impact of chemicals on our stem cells, we may be unwittingly damaging essential regenerative functions in our body.
› Verified 5 days ago
| Mailing Address | Practice Location Address |
|---|---|
| Dr Matthew Fabiszak, DO 1380 E Medical Center Dr, St George, UT 84790-2123 Ph: (435) 251-2992 | Dr Matthew Fabiszak, DO 1380 E Medical Center Dr, St George, UT 84790-2123 Ph: (435) 251-2992 |
News Archive
Attaching an antimicrobial drug, which is activated by light, to a peptide that binds to bacteria and stops them making toxins, produced a "magic bullet" that was highly effective at killing the superbug, methicillin-resistant Staphylococcus aureus (MRSA).
A team led by researchers from the National Institutes of Health (NIH) has reported the discovery of five genetic variants related to blood pressure in African-Americans, findings that may provide new clues to treating and preventing hypertension. The effort marks the first time that a relatively new research approach, called a genome-wide association study, has focused on blood pressure and hypertension in an African-American population.
Scientists have discovered a molecular pathway that works through the immune system to regenerate damaged kidney tissues and may lead to new therapies for repairing injury in a number of organs.
It is currently difficult to treat traumatic brain injury (TBI) in the clinic. There are abundant neural network connections and humoral regulation mechanisms between the cerebral hemispheres.
Chemicals in pharmaceutical drugs can obviously save lives. But as more and stronger chemicals have been introduced, our basic knowledge of the broader health impact of all these chemicals has not kept up with the rapid pace of innovation. There is exceptionally little information on how chemicals in our drugs and also in the environment around us, including on the food we eat, impact some of the most important cells in our body: stem cells. Without basic knowledge and tests on the impact of chemicals on our stem cells, we may be unwittingly damaging essential regenerative functions in our body.
› Verified 5 days ago
Dr. Karen Frieden, M.D. Internal Medicine Medicare: Medicare Enrolled Practice Location: 1380 E Medical Center Dr, Suite 1400, St George, UT 84790 Phone: 435-251-2600 Fax: 435-251-2610 | |
Janet Lynn Otto, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1380 E Medical Center Dr, Ste 1500, St George, UT 84790 Phone: 435-251-2500 Fax: 435-656-4907 | |
Dr. Michael R Kline, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1380 E Medical Center Dr, Suite 1400, St George, UT 84790 Phone: 435-251-2600 | |
Mark Paul Hoth, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1380 E Medical Center Dr, St George, UT 84790 Phone: 435-251-2991 | |
Jameson Ross Petersen, Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 544 S 400 E, St George, UT 84770 Phone: 435-688-6200 | |
Dr. Don Neer, M.D. Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1380 E Medical Center Dr, St George, UT 84790 Phone: 435-251-2992 | |
Dr. Brandon Jon Bonewell, D.O Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1380 E Medical Center Dr, St George, UT 84790 Phone: 435-251-2992 |