Linda L Garcia, MD Internal Medicine Medicare: Not Enrolled in Medicare Practice Location: 1405 Kellum St Ste 201, Fairbanks, AK 99701 Phone: 907-378-8119 Fax: 907-488-5539 |
Dr. Michael Swenson, M.D. Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1001 Noble St, Fairbanks, AK 99701 Phone: 907-459-3570 Fax: 907-459-3551 |
Brian R Willis, M.D. Internal Medicine - Gastroenterology Medicare: Medicare Enrolled Practice Location: 2555 Phillips Field Rd, Fairbanks, AK 99709 Phone: 907-269-2737 |
Barbara J Creighton, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1650 Cowles St, Fairbanks, AK 99701 Phone: 907-458-5178 Fax: 907-458-5180 |
Gina Y Escobar, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1875 University Ave S, #1, Fairbanks, AK 99709 Phone: 907-456-6334 Fax: 907-456-6336 |
News Archive
Cardiac muscle degeneration (cardiomyopathy) is the most common cause of severe cardiac dysfunction and life-threatening cardiac arrhythmias in children. These severe disorders often lead to consideration of heart transplant. However, their actual cause - the genetic basis - has been poorly characterized.
Many research studies have shown that lifestyle interventions, such as exercise programmes or weight loss, in people with impaired glucose tolerance (those at high risk of diabetes) can prevent progression to overt type 2 diabetes. However, until now, there has been a lack of high quality, randomized controlled trial evidence to prove that lifestyle interventions prevent deaths from cardiovascular disease, such as heart attacks and stroke, in these people.
Japanese scientists have made a micro-sized sewing machine to sew long threads of DNA into shape. The work published in the Royal Society of Chemistry journal Lab on a Chip demonstrates a unique way to manipulate delicate DNA chains without breaking them.
Investigators have developed a new mathematical approach to analyze molecular data derived from complex mixtures of immune cells. This approach, when combined with well-established techniques, readily identifies changes in small samples of human whole blood, and has the potential to distinguish between health and disease states.
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