Mr Dylon Stewart Howard, DO | |
301 N Monte Vista St, Ada, OK 74820-4607 | |
(580) 353-3550 | |
Not Available |
Full Name | Mr Dylon Stewart Howard |
---|---|
Gender | Male |
Speciality | Family Practice |
Experience | 9 Years |
Location | 301 N Monte Vista St, Ada, Oklahoma |
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 |
---|---|---|---|
1942693023 | NPI | - | NPPES |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
207Q00000X | Family Medicine | 6818 (Oklahoma) | Primary |
Facility Name | Location | Facility Type |
---|---|---|
Stillwater Medical Center Home Health Services | Stillwater, OK | Home health agency |
Carter Healthcare Of Central Oklahoma, Llc | Oklahoma city, OK | Home health agency |
Healthback Home Health Of Ponca City | Ponca city, OK | Home health agency |
Encompass Health Home Health Of Central Oklahoma | Stillwater, OK | Home health agency |
Companion Home Health | Guthrie, OK | Home health agency |
Stillwater Medical Center | Stillwater, OK | Hospital |
Group Practice Name | Group PECOS PAC ID | No. of Members |
---|---|---|
Stillwater Medical Center Authority | 2365353794 | 143 |
News Archive
Researchers at the Ontario Institute for Studies in Education at the University of Toronto and Western University released a new study today, taking an unconventional approach to understanding the significant effects of domestic violence in the workplace.
Neurons communicate via chemical transmitters which they store in the bubble-like synaptic vesicles and release as required. To be able to react reliably to stimulation, neurons must have a certain number of "acutely releasable" vesicles. With the help of a new method, neuroscientists at the Max Planck Institute of Experimental Medicine in G-ttingen have now discovered that neurons systematically recycle the protein components necessary for transmitter release and in this way guarantee the reliability of signal transmission in the brain.
The University of Texas MD Anderson Cancer Center returns March 7 to Sarasota, Fla., for the institution's annual Making Cancer History® seminar at the Hyatt Regency Sarasota, 1000 Blvd. of the Arts.
In a study that could explain why some breast cancers are more aggressive than others, researchers say they now understand how cancer cells force normal cells to act like viruses – allowing tumors to grow, resist treatment, and spread.
› Verified 7 days ago
Entity Name | Stillwater Medical Center Authority |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1558377135 PECOS PAC ID: 2365353794 Enrollment ID: O20040525001304 |
News Archive
Researchers at the Ontario Institute for Studies in Education at the University of Toronto and Western University released a new study today, taking an unconventional approach to understanding the significant effects of domestic violence in the workplace.
Neurons communicate via chemical transmitters which they store in the bubble-like synaptic vesicles and release as required. To be able to react reliably to stimulation, neurons must have a certain number of "acutely releasable" vesicles. With the help of a new method, neuroscientists at the Max Planck Institute of Experimental Medicine in G-ttingen have now discovered that neurons systematically recycle the protein components necessary for transmitter release and in this way guarantee the reliability of signal transmission in the brain.
The University of Texas MD Anderson Cancer Center returns March 7 to Sarasota, Fla., for the institution's annual Making Cancer History® seminar at the Hyatt Regency Sarasota, 1000 Blvd. of the Arts.
In a study that could explain why some breast cancers are more aggressive than others, researchers say they now understand how cancer cells force normal cells to act like viruses – allowing tumors to grow, resist treatment, and spread.
› Verified 7 days ago
Entity Name | Mercy Clinic Oklahoma Communities |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1386874550 PECOS PAC ID: 1153468921 Enrollment ID: O20091027000755 |
News Archive
Researchers at the Ontario Institute for Studies in Education at the University of Toronto and Western University released a new study today, taking an unconventional approach to understanding the significant effects of domestic violence in the workplace.
Neurons communicate via chemical transmitters which they store in the bubble-like synaptic vesicles and release as required. To be able to react reliably to stimulation, neurons must have a certain number of "acutely releasable" vesicles. With the help of a new method, neuroscientists at the Max Planck Institute of Experimental Medicine in G-ttingen have now discovered that neurons systematically recycle the protein components necessary for transmitter release and in this way guarantee the reliability of signal transmission in the brain.
The University of Texas MD Anderson Cancer Center returns March 7 to Sarasota, Fla., for the institution's annual Making Cancer History® seminar at the Hyatt Regency Sarasota, 1000 Blvd. of the Arts.
In a study that could explain why some breast cancers are more aggressive than others, researchers say they now understand how cancer cells force normal cells to act like viruses – allowing tumors to grow, resist treatment, and spread.
› Verified 7 days ago
Mailing Address | Practice Location Address |
---|---|
Mr Dylon Stewart Howard, DO 301 N Monte Vista St, Ada, OK 74820-4607 Ph: (580) 453-3550 | Mr Dylon Stewart Howard, DO 301 N Monte Vista St, Ada, OK 74820-4607 Ph: (580) 353-3550 |
News Archive
Researchers at the Ontario Institute for Studies in Education at the University of Toronto and Western University released a new study today, taking an unconventional approach to understanding the significant effects of domestic violence in the workplace.
Neurons communicate via chemical transmitters which they store in the bubble-like synaptic vesicles and release as required. To be able to react reliably to stimulation, neurons must have a certain number of "acutely releasable" vesicles. With the help of a new method, neuroscientists at the Max Planck Institute of Experimental Medicine in G-ttingen have now discovered that neurons systematically recycle the protein components necessary for transmitter release and in this way guarantee the reliability of signal transmission in the brain.
The University of Texas MD Anderson Cancer Center returns March 7 to Sarasota, Fla., for the institution's annual Making Cancer History® seminar at the Hyatt Regency Sarasota, 1000 Blvd. of the Arts.
In a study that could explain why some breast cancers are more aggressive than others, researchers say they now understand how cancer cells force normal cells to act like viruses – allowing tumors to grow, resist treatment, and spread.
› Verified 7 days ago
David Frow, MD Family Medicine Medicare: Medicare Enrolled Practice Location: 1921 Stonecipher Dr, Ada, OK 74820 Phone: 580-436-3980 Fax: 580-421-6283 | |
Dr. Joshua Priddle, D.O. Family Medicine Medicare: Accepting Medicare Assignments Practice Location: 905 Colony Dr, Ada, OK 74820 Phone: 580-436-5111 Fax: 580-436-1159 | |
Dr. Joanne Chinnici, DO Family Medicine Medicare: Not Enrolled in Medicare Practice Location: 2513 Timber Ter, Ada, OK 74820 Phone: 580-399-7716 | |
Marc J Davis, D.O. Family Medicine Medicare: Accepting Medicare Assignments Practice Location: 530 N Monte Vista St, Suite A, Ada, OK 74820 Phone: 580-310-9510 Fax: 580-436-4447 | |
Curtis E Harris, MD Family Medicine Medicare: Accepting Medicare Assignments Practice Location: 905 Colony Dr, Ada, OK 74820 Phone: 580-436-5111 Fax: 580-436-1159 | |
Patrick Mason, MD Family Medicine Medicare: Medicare Enrolled Practice Location: 1921 Stonecipher Boulevard, Ada, OK 74820 Phone: 580-421-4570 Fax: 580-421-6286 | |
Patrick J O'neill, DO Family Medicine Medicare: Accepting Medicare Assignments Practice Location: 1150 North Hills Centre, Ada, OK 74820 Phone: 580-332-8606 Fax: 580-332-8616 |