Dr. Joseph Raymond Friedlander, MD Internal Medicine Medicare: Medicare Enrolled Practice Location: 786 Oak Ave, River Edge, NJ 07661 Phone: 201-923-8193 Fax: 551-236-2478 |
Dr. Eric R Rosendorf, MD Internal Medicine - Gastroenterology Medicare: Accepting Medicare Assignments Practice Location: 130 Kinderkamack Rd, Suite 301, River Edge, NJ 07661 Phone: 201-489-7772 Fax: 201-489-2544 |
Dr. Aditi Chhada, M.D. Internal Medicine - Gastroenterology Medicare: Accepting Medicare Assignments Practice Location: 130 Kinderkamack Rd, Suite 301, River Edge, NJ 07661 Phone: 201-489-7772 Fax: 201-489-2544 |
Dr. Steven Randall Leibowitz, M.D. Internal Medicine - Gastroenterology Medicare: Accepting Medicare Assignments Practice Location: 130 Kinderkamack Rd, Suite 301, River Edge, NJ 07661 Phone: 201-489-7772 Fax: 201-489-2544 |
Mr. Dongwuk Shin, M.D. Internal Medicine Medicare: Not Enrolled in Medicare Practice Location: 130 Kinderkamack Rd., River Edge, NJ 07661 Phone: 201-567-0633 Fax: 201-567-0633 |
Dr. Richard Mason Lin, M.D. Internal Medicine - Gastroenterology Medicare: Accepting Medicare Assignments Practice Location: 130 Kinderkamack Rd, Suite 301, River Edge, NJ 07661 Phone: 201-489-7772 Fax: 201-489-2544 |
Dr. Edward L Hedlund, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 268 Kinderkamack Rd, River Edge, NJ 07661 Phone: 201-343-4332 |
Dr. George Andrew Nikias, MD Internal Medicine - Gastroenterology Medicare: Accepting Medicare Assignments Practice Location: 130 Kinderkamack Rd, Suite 301, River Edge, NJ 07661 Phone: 201-489-7772 Fax: 201-489-2544 |
News Archive
Supported with a new grant of $6.3 million from the U.S. Defense Advanced Research Projects Agency, a team led by Brown University researchers will develop and test an "intelligent spinal interface" aimed at helping to restore limb movement and bladder control for people who have suffered spinal cord injuries.
Immune cells engineered to seek out and attack a type of deadly brain cancer were found to be both safe and effective at controlling tumor growth in mice that were treated with these modified cells, according to a study published in Science Translational Medicine by a team from the Perelman School of Medicine at the University of Pennsylvania and the Novartis Institutes for BioMedical Research.
Exercise can enhance the development of new brain cells in the adult brain, a process called adult neurogenesis. These newborn brain cells play an important role in learning and memory. A new study has determined that mice that spent time running on wheels not only developed twice the normal number of new neurons, but also showed an increased ability to distinguish new objects from familiar objects.
The study of new non-invasive biomarkers able to identify the Parkinson's disease from the speech of patients is the joint work carried out by researchers from Universidad Politécnica de Madrid, Massachusetts Institute of Technology and Johns Hopkins University.
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