MED SURG EXAM 3.Chapter 25 Assessment Respiratory System 1. The key anatomic landmark that separates the upper respiratory tract from the lower
... [Show More] respiratory tract is the a. carina. b. larynx. c. trachea. d. epiglottis. Rationale: The carina is the anatomic landmark that separates the upper respiratory tract from the lower respiratory tract. The larynx, epiglottis, and trachea are all above the carina (part of the upper respiratory tract). 2. A patient asks, “How does air get into my lungs?” The nurse bases her answer on knowledge that air moves into the lungs because of a. positive intrathoracic pressure. b. contraction of the accessory abdominal muscles. c. stimulation of the respiratory muscles by the chemoreceptors. d. a decrease in intrathoracic pressure from an increase in thoracic cavity size. Rationale: During inspiration, the diaphragm contracts, moves downward, and increases intrathoracic volume. At the same time, the external intercostal muscles and scalene muscles contract, increasing the lateral and anteroposterior dimension of the chest. This causes the size of the thoracic cavity to increase and intrathoracic pressure to decrease. As a result, air is pulled into the lungs. 3. The nurse can best determine adequate arterial oxygenation of the blood by assessing a. heart rate. b. hemoglobin level. c. arterial oxygen partial pressure. d. arterial carbon dioxide partial pressure. Rationale: The ability of the lungs to oxygenate arterial blood adequately is determined by examination of the partial pressure of oxygen in arterial blood (PaO2) and arterial oxygen saturation (SaO2). The heartrate, hemoglobin level, and mean arterial pressure do not help evaluate oxygenation. PaCO2 evaluates the ventilation portion. 4. Defense mechanisms that help protect the lung from inhaled particles and microorganisms include the (select all that apply) a. cough reflex. b. mucociliary escalator. c. alveolar macrophages. d. reflex bronchoconstriction. e. alveolar capillary membrane. Rationale: Respiratory defense mechanisms are efficient in protecting the lungs from inhaled particles, microorganisms, and toxic gases. These include the cough reflex, mucociliary 5. A student nurse asks the RN what can be measured by arterial blood gas (ABG). The RN tells the student that the ABG can measure (select all that apply) a. acid-base balance. b. oxygenation status. c. acidity of the blood. d. bicarbonate (HCO3–). e. compliance and resistance. Rationale: Arterial blood gases (ABGs) are measured to determine oxygenation status, ventilation status, and acid-base balance. ABG analysis includes measurement of the partial pressure of oxygen in arterial blood (PaO2), partial pressure of carbon dioxide in arterial blood (PaCO2), acidity (pH), bicarbonate (HCO3–), and arterial oxygen saturation (SaO2) in arterial blood. Compliance and resistance cannot be determined with ABGs. 6. To detect early signs or symptoms of inadequate oxygenation, the nurse would examine the patient for a. dyspnea and hypotension. b. apprehension and restlessness. c. cyanosis and cool, clammy skin. d. increased urine output and diaphoresis. Rationale: Early symptoms of inadequate oxygenation include unexplained restlessness, apprehension, and irritability. Dyspnea, hypotension, bradycardia, cyanosis, cool and clammy skin are late signs. 7. During the respiratory assessment of an older adult, the nurse would expect to find (select all that apply) a. a vigorous reflex cough. b. increased chest expansion. c. increased residual volume. d. decreased lung sounds at base of lungs. e. increased anteroposterior (AP) chest diameter. Rationale: The anterior-posterior diameter of the thoracic cage and the residual volume increase in older adults. An older adult has a less forceful cough. The costal cartilages calcify with aging and interfere with chest expansion. Decreased breath sounds at the base of lungs is also a common finding in older adults 8. When assessing subjective data related to the respiratory health of a patient with emphysema, the nurse asks about (select all that apply) a. date of last chest x-ray. b. dyspnea during rest or exercise. c. pulmonary function test results. d. ability to sleep through the entire night. e. prescription and over-the-counter medication. Rationale: Important parts of the subjective respiratory assessment include dyspnea during exercise or at rest, what medications they are currently taking, and their ability to sleep at night. The date of the last chest x-ray and pulmonary function test (PFT) results are all objective measures of assessment. 9. When auscultating the chest of an older patient in mild respiratory distress, it is best to a. begin listening at the apices. b. begin listening at the lung bases. c. begin listening on the anterior chest. d. Ask the patient to breathe through the nose with the mouth closed. Rationale: Normally, auscultation should proceed from the lung apices tothe bases so that opposite areas of the chest are compared. For the patient in mild respiratory distress, start at the bases. The patient may not be able to breathe through the nose with the mouth closed, and, there is no sign that the patient needs immediate intubation. 10. Which respiratory assessment finding does the nurse interpret as abnormal? a. Inspiratory chest expansion of 1 inch b. Symmetric chest expansion and contraction [Show Less]