May 21, 2024  
2016-2017 Graduate Academic Catalog 
    
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2016-2017 Graduate Academic Catalog [ARCHIVED CATALOG]

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PE 7022 - Clinical Extra-Corporeal Perfusion II

3 lecture hours 0 lab hours 3 credits
Course Description
This course presents the Master of Science in Perfusion student with detailed descriptions of the pathophysiology of cardiopulmonary bypass. Topics include the following: priming solutions, hemodilution, myocardial protection (methods, solutions, and routes of administration), blood-surface interface, coagulation and anticoagulation management, and the effects of cardiopulmonary bypass on specific organ systems. (prereq: PE 7011 )
Course Learning Outcomes
Upon successful completion of this course, the student will be able to:
  • An understanding of various priming solutions (e.g. their compositions and when to use them)
  • An understanding of the concept of hemodilution and the ability to describe both positive and negative effects of such a technique
  • An understanding of the theory behind, as well as, the practical applications of myocardial protection
  • Knowledge of various solutions and methods utilized for cardioplegia
  • A knowledge and understanding of the various routes for administering cardioplegia and the pros and cons for each of them
  • A knowledge and understanding of the entire coagulation cascade, fibrinogen cascade, and complement system
  • An understanding of the role of platelets with regard to normal physiology, as well as, during CPB
  • A knowledge and understanding of the blood surface interface and how to minimize its’ detrimental effects
  • Knowledge of the pharmacology of anticoagulants and procoagulants
  • A knowledge and understanding of the concept of heparin resistance and the ability to diagnose heparin resistance versus an antithrombin III deficiency
  • Knowledge of what heparin induced thrombocytopenia (HIT) is and how to manage this type of patient during CPB
  • Knowledge of the process and possible deleterious effects of heparin neutralization with protamine sulfate (e.g. protamine reactions and treatment options)
  • Knowledge of the effects of CPB on the following systems: pulmonary, renal, splanchnic, hepatic, viscera, and neurological
  • Knowledge of the endocrine, metabolic, and electrolyte response to CPB
  • A knowledge and understanding of the immune and inflammatory response to CPB
Prerequisites by Topic
  • None 
Course Topics
  • No course topics appended
Coordinator
Ronald Gerrits


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