Search
Filter Results
- Resource Type
- Article1
- Book1
- Book Digital1
- Article Type
- Research Support, U.S. Gov't, Non-P.H.S.1
- Result From
- Lane Catalog1
- PubMed1
-
Year
- Journal Title
- J Am Vet Med Assoc1
Search Results
Sort by
- BookO. Topaz, editor.Contents:
Preface
Laser physics and laser sources for cardiovascular applications
Optic fibers and mechanical properties of laser catheters
Landmarks along the introduction of laser to cardiovascular therapy
Laser-thrombus interaction: from basic research to clinical utilization in the management of cardiovascular diseases
Laser for treatment of acute coronary syndromes
Laser for management of ST-elevation acute myocardial infarction
Laser for revascularization of complex targets: old SVGs, CTO, left main disease, stent restenosis
Laser utilization for synergistic technology strategy for coronary revascularization: laser and directional rotablation; laser combined with drug eluting balloon
Laser for revascularization of peripheral arterial disease- SFA, renal, subclavian, carotid arteries
Laser for infra-popliteal revasculariztion
TMR- physiology, pathology and basic research concepts
TMR-endovascular and surgical techniques and clinical outcomes
Laser application for venous thrombosis
Laser for IVC filter removal
Laser for interventional electrophysiology ? extraction and removal of pacemaker and AICD leads
Laser for treatment of cardiac arrhythmias
Laser application for treatment of congenital heart disease
Nursing perspectives of cardiovascular laser procedures
Laser safety in the cardiovascular suite and the operation room
Laser induced cardiovascular complications : mechanisms, recognition and management
Laser in cardiovascular veterinary medicine. - ArticleWard AC, Waldhalm DG, Frank FW, Meinershagen WA, DuBose DA.J Am Vet Med Assoc. 1977 Feb 01;170(3):340-2.Oral inoculation of approximately 1.2 x 10(9) viable Escherichia coli to pregnant cows resulted in increased blood serum and colostral whey titers to the "O" antigen. The antibody titers were more pronounced in colostral whey and were correlated with the inoculum strain of Escherichia coli. There was no correlation between antibody titers of the colostrum ingested and the resulting serum antibody titers of the calves. The incidence of diarrhea in calves did not correlate with the antibody titer in the colostrum. The occurrence of diarrhea was significantly greater in calves that did not ingest colostrum until they were 12 hours old, compared with calves that had free access to their dams and suckled within an hour of birth.