David Scott Holcombe, CRNA Nurse Anesthetist, Certified Registered Medicare: Not Enrolled in Medicare Practice Location: 113 Comanche Rd, Fort Meade, SD 57741 Phone: 605-347-2511 |
Stephanie Lea Bushman, CRNA Nurse Anesthetist, Certified Registered Medicare: Not Enrolled in Medicare Practice Location: 113 Comanche Rd, Fort Meade, SD 57741 Phone: 605-720-7000 |
Richard Lee Briscoe, CRNA Nurse Anesthetist, Certified Registered Medicare: Not Enrolled in Medicare Practice Location: 113 Comanche Rd, Fort Meade, SD 57741 Phone: 605-347-2511 |
Donald Keith Lindsay, CRNA Nurse Anesthetist, Certified Registered Medicare: Not Enrolled in Medicare Practice Location: 113 Comanche Rd, Fort Meade, SD 57741 Phone: 605-720-7000 |
Robert Douglas Reilly, CRNA Nurse Anesthetist, Certified Registered Medicare: Not Enrolled in Medicare Practice Location: 113 Comanche Rd, Fort Meade, SD 57741 Phone: 605-720-7000 |
News Archive
Scientists and clinicians at the University of Massachusetts Medical School, Wyss Institute for Biologically Inspired Engineering, and the Beth Israel Deaconess Medical Center have shown in a clinical trial that a new, vibration-based prevention technology tested in a neonatal intensive care unit (NICU) reduces apneic events and improves critical clinical parameters in prematurely born infants.
Researchers from Boston University School of Medicine (BUSM) report the formation of human cells containing a green fluorescent protein or GFP (one of the most important proteins in biology and fluorescence imaging) genetically fused with two interferon stimulated genes (ISGs), namely Viperin and ISG15.
A novel treatment administered semiannually to postmenopausal women with low bone density appears to rapidly inhibit the bone resorption process, resulting in improvements in bone mineral density at 12 months
Medical devices are any medical items that are neither a drug nor a biological product. In light of their different mechanisms, actions and regulatory requirements, medical device trail evaluations are much more complicated than drug trails due to their unique clinical practices.
Spanish scientists have proposed using human amniotic membrane as a new tool for repairing damaged human articular cartilage, which heals very poorly because of its low capacity for self-repair. Their research, published in the journal Cell and Tissue Banking, shows that the cellular density of the cartilage synthesised could be greater than that of the body's own natural cartilage.
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