Condon Communication Specialists Llc Speech-Language Pathologist Medicare: Not Enrolled in Medicare Practice Location: 10 N Washington St, New Bremen, OH 45869 Phone: 419-629-2791 |
Mrs. Mary Catherine Cox Speech-Language Pathologist Medicare: Not Enrolled in Medicare Practice Location: 800 S Walnut St, New Bremen, OH 45869 Phone: 937-638-5683 |
Kristin Hopf Speech-Language Pathologist Medicare: Not Enrolled in Medicare Practice Location: 84 Circle Dr, New Bremen, OH 45869 Phone: 419-733-7826 |
Michelle Westerheide, M.A., CCC-SLP Speech-Language Pathologist Medicare: Not Enrolled in Medicare Practice Location: 15 Rummel Creek Dr, New Bremen, OH 45869 Phone: 567-644-8066 |
News Archive
If you're sick from stress, a new research report appearing in the August 2012 issue of The FASEB Journal suggests that what your mother ate-or didn't eat-may be part of the cause.
Among premature, very low-birth-weight infants requiring a transfusion, use of fresh red blood cells (RBCs) compared with standard RBC transfusion practice did not improve clinical outcomes that included rates of complications or death, according to a study in the October 10 issue of JAMA.
Cedars-Sinai scientists have joined with expert colleagues around the globe in using stem cells to develop a laboratory model for Huntington's disease, allowing researchers for the first time to test directly on human cells potential treatments for this fatal, inherited disorder.
In this post on the Center for Global Development's (CGD) "Global Health Policy" blog, Research Fellow Victoria Fan, Director of Global Health Policy Amanda Glassman, and Research Assistant Rachel Silverman of the Center for Global Development (CGD) examine what they call the "serious limitations" of a study published recently in the American Journal of Tropical Medicine & Hygiene that looked at the impact of HIV/AIDS funding on Rwanda's health system.
The bacterium that causes Legionnaires' disease remains difficult to track. French researchers have now developed a new technique that should allow living representatives of this dangerous pathogen to be detected much more quickly than with conventional methods. As they report in the journal Angewandte Chemie, samples are exposed to an azide-modified compound that the pathogen specifically incorporates into its shell, which is made of saccharide units. A fluorescent marker attached to the azide groups is used to identify the pathogen.
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