Peripheral Arterial Disease Tutorial
The following tutorial assumes that the student is already knowledgeable of the content associated with the hemodynamics tutorial and the blood flow regulation tutorial. The student is encouraged to go not only to the initial link associated with each tutorial question, but also to use embedded hyperlinks to expand upon the physiological concepts associated with the question.
NEW FEATURE: Quiz Questions Linked to Tutorials
At the end of the tutorial, there is a link to an external website (quizegg.com) that has multiple choice and true/false questions that are associated with the tutorial. When the quiz results are given to the user after taking the quiz, links are provided back to specific cvphysiology.com pages to assist learning. Users will need to register (free) on the quizegg.com site to access the quiz questions for the tutorial. No personal information is available to cvphysiology.com other than the user provided login name and analysis of user performance on the quiz questions. This feedback will be used to improve cvphysiology.com content and quiz questions.
- What is the relationship between pressure, flow and resistance under laminar flow conditions and how is this relationship altered by turbulent flow?
- How do changes changes in vessel radius alter single vessel resistance?
- What is a "critical stenosis" and why are large reductions in vascular radius required to reduce resting and maximal distal flows?
- How does the arterial anatomy of the leg affect the distribution of flow and pressure within the leg?
- What are the hemodynamic consequences of single and multiple stenotic lesions in the leg?
- Why might resting blood flows within a limb be normal despite the presence of significant proximal stenotic lesions?
- How do autoregulation of blood flow and vascular collateralization affect resting and maximal blood flow within the leg?
- What is active hyperemia and what mechanisms may be responsible for this phenomenon?
- What is the ankle pressure index? What is its normal value and under what conditions will this index fall during exercise and post-exercise?
- What is the hemodynamic basis of "vascular steal?"
- What is "intermittent claudication?"
Link to Quiz Questions: www.quizegg.com/q/57099