Dr Neel Pramod Jain, MD | |
1225 E Coolspring Ave Ste 200, Michigan City, IN 46360 | |
(219) 861-8167 | |
(219) 872-8832 |
Full Name | Dr Neel Pramod Jain |
---|---|
Gender | Male |
Speciality | Orthopedic Surgery |
Experience | 19 Years |
Location | 1225 E Coolspring Ave Ste 200, Michigan City, Indiana |
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 |
---|---|---|---|
1134376726 | NPI | - | NPPES |
01070027 | Other | IN | IN MEDICAL LICENSE |
201036670 | Medicaid | IN |
Taxonomy | Type | License (State) | Status |
---|---|---|---|
207X00000X | Orthopaedic Surgery | 01070027 (Indiana) | Primary |
Facility Name | Location | Facility Type |
---|---|---|
Franciscan Home Care | Hammond, IN | Home health agency |
Franciscan St Anthony Health - Michigan City | Michigan city, IN | Hospital |
La Porte Hospital | La porte, IN | Hospital |
Northwest Health - Porter | Valparaiso, IN | Hospital |
St Mary Medical Center Inc | Hobart, IN | Hospital |
Franciscan Health Crown Point | Crown point, IN | Hospital |
Group Practice Name | Group PECOS PAC ID | No. of Members |
---|---|---|
Lakeshore Bone And Joint Institute, Pc. | 3173500519 | 71 |
News Archive
A novel drug that mimics a naturally occurring molecule found in coffee and blueberries has been developed to treat radiation exposure. Charles R. Yates, Pharm.D., Ph.D., and colleagues Duane Miller, Ph.D., and Waleed Gaber, Ph.D., from the University of Tennessee Health Science Center and Baylor College of Medicine, show that application of this drug, starting 24 hours after radiation exposure, increases survival in animal models by three-fold compared to placebo.
NBC News' "World Blog" reports on the emergence of drug-resistant malaria along the border between Thailand and Cambodia. "The Pailin area [in Cambodia] is now the epicenter of a fight to contain a growing resistance to Artemisinin, which is the world's main anti-malarial drug," the blog writes before noting the global health community's efforts to contain the spread of drug-resistant malaria.
An animal study in the August issue of Anesthesiology suggests that higher-frequency electric current stimulation of the spinal cord reduced pain quicker and better reached nerves not affected by traditionally used frequencies. A higher frequency and intensity controlled pain faster and more effectively, the study found.
Researchers at University of California, San Diego School of Medicine used algae as a mini-factory to produce a malaria parasite protein. The algae-produced protein, paired with an immune-boosting cocktail suitable for use in humans, generated antibodies in mice that nearly eliminated mosquito infection by the malaria parasite.
Researchers in the U.S. say young victims of violence can benefit from 'one on one' counseling - they say mentoring about how to safely avoid conflict and diffuse threats makes them far less likely to become victims again.
› Verified 1 days ago
Entity Name | Lakeshore Bone & Joint Institute, Pc. |
---|---|
Entity Type | Part B Supplier - Clinic/group Practice |
Entity Identifiers | NPI Number: 1508853953 PECOS PAC ID: 3173500519 Enrollment ID: O20040702000362 |
News Archive
A novel drug that mimics a naturally occurring molecule found in coffee and blueberries has been developed to treat radiation exposure. Charles R. Yates, Pharm.D., Ph.D., and colleagues Duane Miller, Ph.D., and Waleed Gaber, Ph.D., from the University of Tennessee Health Science Center and Baylor College of Medicine, show that application of this drug, starting 24 hours after radiation exposure, increases survival in animal models by three-fold compared to placebo.
NBC News' "World Blog" reports on the emergence of drug-resistant malaria along the border between Thailand and Cambodia. "The Pailin area [in Cambodia] is now the epicenter of a fight to contain a growing resistance to Artemisinin, which is the world's main anti-malarial drug," the blog writes before noting the global health community's efforts to contain the spread of drug-resistant malaria.
An animal study in the August issue of Anesthesiology suggests that higher-frequency electric current stimulation of the spinal cord reduced pain quicker and better reached nerves not affected by traditionally used frequencies. A higher frequency and intensity controlled pain faster and more effectively, the study found.
Researchers at University of California, San Diego School of Medicine used algae as a mini-factory to produce a malaria parasite protein. The algae-produced protein, paired with an immune-boosting cocktail suitable for use in humans, generated antibodies in mice that nearly eliminated mosquito infection by the malaria parasite.
Researchers in the U.S. say young victims of violence can benefit from 'one on one' counseling - they say mentoring about how to safely avoid conflict and diffuse threats makes them far less likely to become victims again.
› Verified 1 days ago
Mailing Address | Practice Location Address |
---|---|
Dr Neel Pramod Jain, MD Po Box 781076, Detroit, MI 48278-1076 Ph: (317) 528-4800 | Dr Neel Pramod Jain, MD 1225 E Coolspring Ave Ste 200, Michigan City, IN 46360 Ph: (219) 861-8167 |
News Archive
A novel drug that mimics a naturally occurring molecule found in coffee and blueberries has been developed to treat radiation exposure. Charles R. Yates, Pharm.D., Ph.D., and colleagues Duane Miller, Ph.D., and Waleed Gaber, Ph.D., from the University of Tennessee Health Science Center and Baylor College of Medicine, show that application of this drug, starting 24 hours after radiation exposure, increases survival in animal models by three-fold compared to placebo.
NBC News' "World Blog" reports on the emergence of drug-resistant malaria along the border between Thailand and Cambodia. "The Pailin area [in Cambodia] is now the epicenter of a fight to contain a growing resistance to Artemisinin, which is the world's main anti-malarial drug," the blog writes before noting the global health community's efforts to contain the spread of drug-resistant malaria.
An animal study in the August issue of Anesthesiology suggests that higher-frequency electric current stimulation of the spinal cord reduced pain quicker and better reached nerves not affected by traditionally used frequencies. A higher frequency and intensity controlled pain faster and more effectively, the study found.
Researchers at University of California, San Diego School of Medicine used algae as a mini-factory to produce a malaria parasite protein. The algae-produced protein, paired with an immune-boosting cocktail suitable for use in humans, generated antibodies in mice that nearly eliminated mosquito infection by the malaria parasite.
Researchers in the U.S. say young victims of violence can benefit from 'one on one' counseling - they say mentoring about how to safely avoid conflict and diffuse threats makes them far less likely to become victims again.
› Verified 1 days ago
Dr. Douglas Bolda, M.D. Orthopedic Surgery Medicare: Medicare Enrolled Practice Location: 3500 Franciscan Way, Michigan City, IN 46360 Phone: 219-879-8511 Fax: 219-933-2288 | |
Stephen Burns, M.D. Orthopedic Surgery Medicare: Not Enrolled in Medicare Practice Location: 1225 E Coolspring Ave, Michigan City, IN 46360 Phone: 219-861-8161 Fax: 219-873-9504 | |
Dr. Joel Charles Mcclurg, MD, PHD, FAAOS Orthopedic Surgery Medicare: Accepting Medicare Assignments Practice Location: 108 Austin Ln, Michigan City, IN 46360 Phone: 607-438-8115 | |
Bernardo Israel Yahuaca, MD Orthopedic Surgery Medicare: Accepting Medicare Assignments Practice Location: 3500 Franciscan Way, Michigan City, IN 46360 Phone: 219-861-8161 Fax: 219-873-9504 | |
Thomas P Ryan, DO Orthopedic Surgery Medicare: Medicare Enrolled Practice Location: 1225 E Coolspring Ave, Suite D, Michigan City, IN 46360 Phone: 219-861-8161 Fax: 219-873-9504 | |
William C Biehl Iii, M.D. Orthopedic Surgery Medicare: Not Enrolled in Medicare Practice Location: Woodland Medical Pavilion, 8865 West 400 North, Suite 101, Michigan City, IN 46360 Phone: 219-872-2466 Fax: 219-872-2467 |