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Nov 23, 2024
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2022-2023 Catalog [ARCHIVED CATALOG]
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RESP 103 - Cardiopulmonary Anatomy and Physiology PREREQUISITES: APHY 102 - Anatomy and Physiology II PROGRAM: Respiratory Therapy CREDIT HOURS MIN: 3 LECTURE HOURS MIN: 3 DATE OF LAST REVISION: Fall, 2018
Presents the cardiopulmonary system including ventilation, perfusion, and gas exchange; introduces interpretation and application of arterial blood gases, acid-base regulation, hemodynamics and aging. Reviews the basic principles of physics as it relates to the respiratory system.
MAJOR COURSE LEARNING OBJECTIVES: from 2020 NBRC Matrix: Upon successful completion of this course the student will be expected to:
- Identify the detailed anatomy and describe the physiology of the upper airway and lower airway, pulmonary parenchyma, heart, kidney, thoracic cage, and pleura
- Discuss the mechanics of ventilations
- Positive versus negative pressure
- Transrepiratory pressure, transmural pressure, transpulmonary pressure, transthoracic pressure
- Compliance and resistance
- Discuss the neural control of ventilation
- Review the basic principles of physics relating to gas flow, gas transport, and the muscular efforts affecting ventilation and pulmonary function
- Pulmonary mechanics (VT, VE, VC, NIF, MEP)
- Gas Laws
- Explain pulmonary diffusion and O2 and CO2 transport to and from the body cells and identify factors that can alter normal transport mechanisms
- Arterial Blood Gases:
- Discuss pH regulation-CO2 and Bicarbonate
- Evaluate and interpret data and results of arterial, capillary and mixed venous blood gas analysis in normal and disease states
- Interpret results of blood gases, hemoximetry (carboxyhemoglobin)
- Perform and evaluate cardiopulmonary calculations in order to gather clinical information, for example, PA-aO2, Ca-v02, CcO2, VD/VT
- Ensure Modifications are made to the Respiratory Care Plan based on patient response. Interpret results of blood gas analysis and hemoximetry
- Hemodynamics:
- Evaluate data for hemodynamic results (BP, CVP, PAP, PCWP, CO, CI)
- Evaluate data in the patient record to include: Fluid Balance
- Recommend blood tests (hemoglobin, potassium)
- Discuss hemodynamics in relation to normal values
- Discuss ventilation perfusion relationships
- Explain the effects on ventilation due to aging
- Explain the basic principles related to renal electrolyte regulation and fluid balance
- Discuss acid base balance as it relates to the kidneys
COURSE CONTENT: Topical areas of study include -
- Respiratory/Cardiovascular Anatomy
- Pulmonary mechanics
- Ventilation
- CO2 transport and acid base balance
- Gas Diffusion
- Circulatory system
- Hemodynamic monitoring
- Oxygen transport
- Ventilation/Perfusion
- Control of Ventilation
- Renal System
- Aging of the pulmonary system
- Evaluations
Course Addendum - Syllabus (Click to expand)
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