Lance Henderson Optometrist Medicare: Accepting Medicare Assignments Practice Location: 134 N State St, Preston, ID 83263 Phone: 208-852-3030 |
Eye Care For You, P.c. Optometrist Medicare: Not Enrolled in Medicare Practice Location: 134 N State St, Suite A, Preston, ID 83263 Phone: 208-852-3030 Fax: 208-852-3031 |
Eye Care For You Llc Optometrist Medicare: Medicare Enrolled Practice Location: 134 N State St, Suite A, Preston, ID 83263 Phone: 208-852-3030 Fax: 208-852-3031 |
Dr. Philip Gilbert Cromwell, O.D. Optometrist Medicare: Accepting Medicare Assignments Practice Location: 134 N State St, Suite A, Preston, ID 83263 Phone: 208-852-3030 Fax: 208-852-3031 |
News Archive
It's been known for more than two centuries that pneumonia cases increase during flu epidemics. But population-level epidemiological studies looking at seasonal patterns of influenza and pneumococcal pneumonia incidence have revealed either a modest association or have failed to identify any signature of interaction between the two.
A study published in the September 2016 issue of the Journal of the American Academy of Child and Adolescent Psychiatry found an association between maternal smoking during pregnancy and an increased risk for Tourette syndrome and other chronic tic disorders.
Circadian rhythms - the natural cycle that dictates our biological processes over a 24-hour day - does more than tell us when to sleep or wake. Disruptions in the cycle are also associated with depression, problems with weight control, jet lag and more. Now Prof. Yoav Gothilf of Tel Aviv University's Department of Neurobiology at the George S. Wise Faculty of Life Sciences is looking to the common zebrafish to learn more about how the human circadian system functions.
PRA International, a leading Clinical Research Organization, announces the opening of a Phase I facility in Budapest, Hungary that will provide "unit-on-demand" service and further enhance PRA's capabilities for conducting early-development trials in patients.
Researchers from Ben-Gurion University (BGU), together with American and German colleagues, have developed new "molecular tweezers" to combat antibiotic-resistant bacteria. Their recently announced findings were published in Cell Chemical Biology.
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