Dr. Thomas A Nique, M.D. Anesthesiology - Pain Medicine Medicare: Medicare Enrolled Practice Location: 330 Arkansas St, Suite 210, Lawrence, KS 66044 Phone: 785-842-7026 Fax: 785-842-7088 |
Dr. Sarah Jayne Landers, MD Anesthesiology - Pain Medicine Medicare: Accepting Medicare Assignments Practice Location: 3120 Mesa Way, Lawrence, KS 66049 Phone: 785-292-9242 |
Dr. Michael D Lange, M.D. Anesthesiology - Pain Medicine Medicare: Accepting Medicare Assignments Practice Location: 330 Arkansas St, Suite 210, Lawrence, KS 66044 Phone: 785-842-7026 Fax: 785-842-7088 |
Dr. Christopher J Malik, M.D. Anesthesiology - Pain Medicine Medicare: Not Enrolled in Medicare Practice Location: 330 Arkansas St, Suite 210, Lawrence, KS 66044 Phone: 785-842-7026 Fax: 785-842-7088 |
Stephanie Michelle Schmidt, M.D. Anesthesiology - Pain Medicine Medicare: Accepting Medicare Assignments Practice Location: 330 Arkansas St, Suite # 210, Lawrence Anaesthesia Pa, Lawrence, KS 66044 Phone: 785-842-7026 |
News Archive
The AIDS Clinical Trials Group (ACTG), the largest global HIV research network, which recently expanded its focus to include evaluating outpatient treatment for COVID-19, today announced that SAB-185, a novel polyclonal antibody therapy, has demonstrated safety and efficacy in phase 2 that meet the criteria for graduation to phase 3 in the ACTIV-2 Outpatient Monoclonal Antibodies and Other Therapies Trial (ACTG A5401).
Scientists are reporting development of a nano-size capsule that boosts the body's uptake of curcumin, an ingredient in yellow curry now being evaluated in clinical trials for treatment of several diseases. Their study is in ACS' Journal of Agricultural and Food Chemistry, a bi-weekly publication.
According to the UK Department of Health, the first results from a scheme, called the Quality and Outcomes Framework (QOF), show that by performing beyond expectation, family doctors earned their surgeries thousands of pounds in bonuses.
Working with mice, researchers at Johns Hopkins have contributed significant new evidence to support the idea that high doses of cocaine kill brain cells by triggering overactive autophagy, a process in which cells literally digest their own insides. Their results, moreover, bring with them a possible antidote, an experimental compound dubbed CGP3466B.
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