NU272 Week 6 PrepU: Respiration

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Which type of ventilator has a preset volume of air to be delivered with each inspiration? Time cycled Volume cycled Negative pressure Pressure cycled

Volume cycled With volume-cycled ventilation, the volume of air to be delivered with each inspiration is preset. Negative-pressure ventilators exert a negative pressure on the external chest. Time-cycled ventilators terminate or control inspiration after a preset time. When the pressure-cycled ventilator cycles on, it delivers a flow of air (inspiration) until it reaches a preset pressure, and then cycles off, and expiration occurs passively.

A nurse is weaning a client from mechanical ventilation. Which nursing assessment finding indicates the weaning process should be stopped? Runs of ventricular tachycardia Oxygen saturation of 93% Blood pressure remains stable Respiratory rate of 16 breaths/minute

Runs of ventricular tachycardia Ventricular tachycardia indicates that the client isn't tolerating the weaning process. The weaning process should be stopped before lethal ventricular arrhythmias occur. A respiratory rate of 16 breaths/minute and an oxygen saturation of 93% are normal findings. The client's blood pressure remains stable, so the weaning can continue.

Which is a potential complication of a low pressure in the endotracheal tube cuff? Pressure necrosis Tracheal ischemia Tracheal bleeding Aspiration pneumonia

Aspiration pneumonia Low pressure in the cuff can increase the risk for aspiration pneumonia. High pressure in the cuff can cause tracheal bleeding, ischemia, and pressure necrosis.

A client with COPD has been receiving oxygen therapy for an extended period. What symptoms would be indicators that the client is experiencing oxygen toxicity? Select all that apply. Bradycardia Substernal pain Fatigue Dyspnea Mood swings

Substernal pain Dyspnea Fatigue Oxygen toxicity can occur when clients receive too high a concentration of oxygen for an extended period. Symptoms include dyspnea, substernal pain, restlessness, fatigue, and progressive respiratory difficulty. Bradycardia and mood swings are not symptoms of oxygen toxicity.

Which is the most reliable and accurate method for delivering precise concentrations of oxygen through noninvasive means? Nasal cannula T-piece Venturi mask Partial-rebreathing mask

Venturi mask The Venturi mask is the most reliable and accurate method for delivering a precise concentration of oxygen through noninvasive means. The mask is constructed in a way that allows a constant flow of room air blended with a fixed flow of oxygen. Nasal cannula, T-piece, and partial-rebreathing masks are not the most reliable and accurate methods of oxygen administration.

The nurse is caring for a client with an endotracheal tube (ET). Which nursing intervention is contraindicated? Deflating the cuff before removing the tube Routinely deflating the cuff Ensuring that humidified oxygen is always introduced through the tube Checking the cuff pressure every 6 to 8 hours

Routinely deflating the cuff Routine cuff deflation is not recommended because of the increased risk for aspiration and hypoxia. The cuff is deflated before the ET is removed. Cuff pressures should be checked every 6 to 8 hours. Humidified oxygen should always be introduced through the tube.

For a client with an endotracheal (ET) tube, which nursing action is the most important? Monitoring serial blood gas values every 4 hours Providing frequent oral hygiene Turning the client from side to side every 2 hours Auscultating the lungs for bilateral breath sounds

Auscultating the lungs for bilateral breath sounds For the client with an ET tube, the most important nursing action is auscultating the lungs regularly for bilateral breath sounds to ensure proper tube placement and effective oxygen delivery. Although turning the client from side to side every 2 hours, monitoring serial blood gas values every 4 hours, and providing frequent oral hygiene are appropriate actions for this client, they're secondary to ensuring adequate oxygenation.

What assessment method would the nurse use to determine the areas of the lungs that need draining? Chest X-ray Inspection Arterial blood gas (ABG) levels Auscultation

Auscultation The nurse should assess breath sounds before doing postural drainage to determine the areas that need draining. Inspection, chest X-rays, and ABG levels are all assessment parameters that give good information about respiratory function but aren't necessary to determine lung areas requiring postural drainage.

The nurse has instructed a client on how to perform pursed-lip breathing. The nurse recognizes the purpose of this type of breathing is to accomplish which result? Improve oxygen transport; induce a slow, deep breathing pattern; and assist the client to control breathing Promote the client's ability to take in oxygen Promote more efficient and controlled ventilation and to decrease the work of breathing Promote the strengthening of the client's diaphragm

Improve oxygen transport; induce a slow, deep breathing pattern; and assist the client to control breathing Pursed-lip breathing, which improves oxygen transport, helps induce a slow, deep breathing pattern and assists the client to control breathing, even during periods of stress. This type of breathing helps prevent airway collapse secondary to loss of lung elasticity in emphysema.

A client is receiving supplemental oxygen. When determining the effectiveness of oxygen therapy, which arterial blood gas value is most important? Partial pressure of arterial carbon dioxide (PaCO2) Partial pressure of arterial oxygen (PaO2) Bicarbonate (HCO3-) pH

Partial pressure of arterial oxygen (PaO2) The most significant and direct indicator of the effectiveness of oxygen therapy is the PaO2 value. Based on the PaO2 value, the nurse may adjust the type of oxygen delivery (cannula, Venturi mask, or mechanical ventilator), flow rate, and oxygen percentage. The other options reflect the client's ventilation status, not oxygenation. The pH, HCO3-, and PaCO2

The nurse suctions a patient through the endotracheal tube for 20 seconds and observes dysrhythmias on the monitor. What does the nurse determine is occurring with the patient? The patient is having a myocardial infarction. The patient is hypoxic from suctioning. The patient is in a hypermetabolic state. The patient is having a stress reaction.

The patient is hypoxic from suctioning. Apply suction while withdrawing and gently rotating the catheter 360 degrees (no longer than 10-15 seconds). Prolonged suctioning may result in hypoxia and dysrhythmias, leading to cardiac arrest.

A client with a respiratory condition is receiving oxygen therapy. While assessing the client's PaO2, the nurse knows that the therapy has been effective based on which of the following readings? 45 mm Hg 120 mm Hg 84 mm Hg 58 mm Hg

84 mm Hg In general, clients with respiratory conditions are given oxygen therapy only to increase the arterial oxygen pressure (PaO2) back to the client's normal baseline, which may vary from 60 to 95 mm Hg.

A nurse is attempting to wean a client after 2 days on the mechanical ventilator. The client has an endotracheal tube present with the cuff inflated to 15 mm Hg. The nurse has suctioned the client with return of small amounts of thin white mucus. Lung sounds are clear. Oxygen saturation levels are 91%. What is the priority nursing diagnosis for this client? Impaired gas exchange related to ventilator setting adjustments Risk for infection related to endotracheal intubation and suctioning Impaired physical mobility related to being on a ventilator Risk for trauma related to endotracheal intubation and cuff pressure

Impaired gas exchange related to ventilator setting adjustments All the nursing diagnoses are appropriate for this client. Per Maslow's hierarchy of needs, airway, breathing, and circulation are the highest priorities within physiological needs. The client has an oxygen saturation of 91%, which is below normal. This places impaired gas exchange as the highest prioritized nursing diagnosis.

A nurse is caring for a client with a chest tube. If the chest drainage system is accidentally disconnected, what should the nurse plan to do? Clamp the chest tube immediately. Secure the chest tube with tape. Apply an occlusive dressing and notify the physician. Place the end of the chest tube in a container of sterile saline.

Place the end of the chest tube in a container of sterile saline. If a chest drainage system is disconnected, the nurse may place the end of the chest tube in a container of sterile saline or water to prevent air from entering the chest tube, thereby preventing negative respiratory pressure. The nurse should apply an occlusive dressing if the chest tube is pulled out — not if the system is disconnected. The nurse shouldn't clamp the chest tube because clamping increases the risk of tension pneumothorax. The nurse should tape the chest tube securely to prevent it from being disconnected, rather than taping it after it has been disconnected.

A nurse observes constant bubbling in the water-seal chamber of a closed chest drainage system. What should the nurse conclude? The system has an air leak. The client has a pneumothorax. The system is functioning normally. The chest tube is obstructed.

The system has an air leak. Constant bubbling in the water-seal chamber indicates an air leak and requires immediate intervention. The client with a pneumothorax will have intermittent bubbling in the water-seal chamber. Clients without a pneumothorax should have no evidence of bubbling in the chamber. If the tube is obstructed, the fluid would stop fluctuating in the water-seal chamber.

After lobectomy for lung cancer, a client receives a chest tube connected to a disposable chest drainage system. The nurse observes that the drainage system is functioning correctly when she notes tidal movements or fluctuations in which compartment of the system as the client breathes? Air-leak chamber Water-seal chamber Suction control chamber Collection chamber

Water-seal chamber Fluctuations in the water-seal compartment are called tidal movements and indicate normal function of the system as the pressure in the tubing changes with the client's respirations. The air-leak meter — not chamber — detects air leaking from the pleural space. The collection chamber connects the chest tube from the client to the system. Drainage from the tube drains into and collects in a series of calibrated columns in this chamber. The suction control chamber provides the suction, which can be controlled to provide negative pressure to the chest.

The nurse is assessing a patient with chest tubes connected to a drainage system. What should the first action be when the nurse observes excessive bubbling in the water seal chamber? Notify the physician. Disconnect the system and get another. Milk the chest tube. Place the head of the patient's bed flat.

Notify the physician. Observe for air leaks in the drainage system; they are indicated by constant bubbling in the water seal chamber, or by the air leak indicator in dry systems with a one-way valve. In addition, assess the chest tube system for correctable external leaks. Notify the primary provider immediately of excessive bubbling in the water seal chamber not due to external leaks.

A nurse is teaching a client about using an incentive spirometer. Which statement by the nurse is correct? "Before you do the exercise, I'll give you pain medication if you need it." "You need to start using the incentive spirometer 2 days after surgery." "Breathe in and out quickly." "Don't use the incentive spirometer more than 5 times every hour."

"Before you do the exercise, I'll give you pain medication if you need it." The nurse should assess the client's pain level before the client does incentive spirometry exercises and administer pain medication as needed. Doing so helps the client take deeper breaths and help prevents atelectasis. The client should breathe in slowly and steadily and hold the breath for 3 seconds after inhalation. The client should start doing incentive spirometry immediately after surgery and aim to do 10 incentive spirometry breaths every hour.

A client with a respiratory condition is receiving oxygen therapy. While assessing the client's PaO2, the nurse knows that the therapy has been effective based on which of the following readings? 84 mm Hg 45 mm Hg 120 mm Hg 58 mm Hg

84 mm Hg In general, clients with respiratory conditions are given oxygen therapy only to increase the arterial oxygen pressure (PaO2) back to the client's normal baseline, which may vary from 60 to 95 mm Hg.

A client is on a ventilator. Alarms are sounding, indicating an increase in peak airway pressure. The nurse assesses first for: A cut or slice in the tubing from the ventilator Higher than normal endotracheal cuff pressure Malfunction of the alarm button A kink in the ventilator tubing

A kink in the ventilator tubing One event that could cause the ventilator's peak-airway-pressure alarm to sound is a kink in the ventilator tubing. After making this and other assessments without correction, then it could be a malfunction of the alarm button. Higher than normal endotracheal cuff pressure could cause client tissue damage but would not make the ventilator alarms sound. A cut or slice in the tubing from the ventilator would result in decreased pressure.

A client has a sucking stab wound to the chest. Which action should the nurse take first? Prepare a chest tube insertion tray. Draw blood for a hematocrit and hemoglobin level. Prepare to start an I.V. line. Apply a dressing over the wound and tape it on three sides.

Apply a dressing over the wound and tape it on three sides. The nurse should immediately apply a dressing over the stab wound and tape it on three sides to allow air to escape and to prevent tension pneumothorax (which is more life-threatening than an open chest wound). Only after covering and taping the wound should the nurse draw blood for laboratory tests, assist with chest tube insertion, and start an I.V. line.

Which is a potential complication of a low pressure in the endotracheal tube cuff? Pressure necrosis Tracheal bleeding Tracheal ischemia Aspiration pneumonia

Aspiration pneumonia Low pressure in the cuff can increase the risk for aspiration pneumonia. High pressure in the cuff can cause tracheal bleeding, ischemia, and pressure necrosis.

A new ICU nurse is observed by her preceptor entering a patient's room to suction the tracheostomy after performing the task 15 minutes before. What should the preceptor educate the new nurse to do to ensure that the patient needs to be suctioned? Have the patient cough. Auscultate the lung for adventitious sounds. Have the patient inform the nurse of the need to be suctioned. Assess the CO2 level to determine if the patient requires suctioning.

Auscultate the lung for adventitious sounds. When a tracheostomy or endotracheal tube is in place, it is usually necessary to suction the patient's secretions because of the decreased effectiveness of the cough mechanism. Tracheal suctioning is performed when adventitious breath sounds are detected or whenever secretions are obviously present. Unnecessary suctioning can initiate bronchospasm and cause mechanical trauma to the tracheal mucosa.

The nurse assesses a patient with a heart rate of 42 and a blood pressure of 70/46. What type of hypoxia does the nurse determine this patient is displaying? Histotoxic hypoxia Hypoxemic hypoxia Circulatory hypoxia Anemic hypoxia

Circulatory hypoxia Given the vital signs, this client appears to be in shock. Circulatory hypoxia results from inadequate capillary circulation and may be caused by decreased cardiac output, local vascular obstruction, low-flow states such as shock, or cardiac arrest. Although tissue partial pressure of oxygen (PO2) is reduced, arterial oxygen (PaO2) remains normal. Circulatory hypoxia is corrected by identifying and treating the underlying cause. The low blood pressure is consistent with circulatory hypoxia but not consistent with the other options. Anemic hypoxia is a result of decreased effective hemoglobin concentration. Histotoxic hypoxia occurs when a toxic substance interferes with the ability of tissues to use available oxygen. Hypoxemic hypoxia results from a low level of oxygen in the blood.

A client is diagnosed with mild obstructive sleep apnea after having a sleep study performed. What treatment modality will be the most effective for this client? Surgery to remove the tonsils and adenoids Bi-level positive airway pressure (BiPAP) Continuous positive airway pressure (CPAP) Medications to assist the patient with sleep at night

Continuous positive airway pressure (CPAP) CPAP provides positive pressure to the airways throughout the respiratory cycle. Although it can be used as an adjunct to mechanical ventilation with a cuffed endotracheal tube or tracheostomy tube to open the alveoli, it is also used with a leak-proof mask to keep alveoli open, thereby preventing respiratory failure. CPAP is the most effective treatment for obstructive sleep apnea because the positive pressure acts as a splint, keeping the upper airway and trachea open during sleep. CPAP is used for clients who can breathe independently. BiPAP is most often used for clients who require ventilatory assistance at night, such as those with severe COPD or sleep apnea.

A nurse is caring for a client who has a tracheostomy and temperature of 103° F (39.4° C). Which intervention will most likely lower the client's arterial blood oxygen saturation? Use of a cooling blanket Encouragement of coughing Incentive spirometry Endotracheal suctioning

Endotracheal suctioning Endotracheal suctioning removes secretions as well as gases from the airway and lowers the arterial oxygen saturation (SaO2) level. Coughing and using an incentive spirometer improve oxygenation and should raise or maintain oxygen saturation. Because of superficial vasoconstriction, using a cooling blanket can lower peripheral oxygen saturation readings, but SaO2 levels wouldn't be affected.

The nurse is using an in-line suction kit to suction a patient who is intubated and on a mechanical ventilator. What benefits does inline suction have for the patient? (Select all that apply.) Sustains positive end expiratory pressure (PEEP) Decreases hypoxemia Prevents aspiration Decreases patient anxiety Increases oxygen consumption

Decreases hypoxemia Decreases patient anxiety Sustains positive end expiratory pressure (PEEP) An in-line suction device allows the patient to be suctioned without being disconnected from the ventilator circuit. In-line suctioning (also called closed suctioning) decreases hypoxemia, sustains PEEP, and can decrease patient anxiety associated with suctioning.

A patient is being educated in the use of incentive spirometry prior to having a surgical procedure. What should the nurse be sure to include in the education? Encourage the patient to take approximately 10 breaths per hour, while awake. Have the patient lie in a supine position during the use of the spirometer. Inform the patient that using the spirometer is not necessary if the patient is experiencing pain. Encourage the patient to try to stop coughing during and after using the spirometer.

Encourage the patient to take approximately 10 breaths per hour, while awake. The patient should be instructed to perform the procedure approximately 10 times in succession, repeating the 10 breaths with the spirometer each hour during waking hours. The patient should assume a semi-Fowler's position or an upright position before initiating therapy, not be supine. Coughing during and after each session is encouraged, not discouraged. The patient should Splint the incision when coughing postoperatively. The patient should still use the spirometer when in pain.

The nurse is assisting a client with postural drainage. Which of the following demonstrates correct implementation of this technique? Instruct the client to remain in each position of the postural drainage sequence for 10 to 15 minutes. Use aerosol sprays to deodorize the client's environment after postural drainage. Perform this measure with the client once a day. Administer bronchodilators and mucolytic agents following the sequence.

Instruct the client to remain in each position of the postural drainage sequence for 10 to 15 minutes. Postural drainage is usually performed two to four times daily, before meals (to prevent nausea, vomiting, and aspiration) and at bedtime. Prescribed bronchodilators, water, or saline may be nebulized and inhaled before postural drainage to dilate the bronchioles, reduce bronchospasm, decrease the thickness of mucus and sputum, and combat edema of the bronchial walls. The nurse instructs the client to remain in each position for 10 to 15 minutes and to breathe in slowly through the nose and out slowly through pursed lips to help keep the airways open so that secretions can drain while in each position. If the sputum is foul-smelling, it is important to perform postural drainage in a room away from other patients or family members. (Deodorizers may be used to counteract the odor. Because aerosol sprays can cause bronchospasm and irritation, they should be used sparingly and with caution.)

Which ventilator mode provides a combination of mechanically assisted breaths and spontaneous breaths? Intermittent mandatory ventilation (IMV) Synchronized intermittent mandatory ventilation (SIMV) Pressure support Assist control

Intermittent mandatory ventilation (IMV) IMV provides a combination of mechanically assisted breaths and spontaneous breaths. Assist-control ventilation provides full ventilator support by delivering a preset tidal volume and respiratory rate. SIMV delivers a preset tidal volume and number of breaths per minute. Between ventilator-delivered breaths, the client can breathe spontaneously with no assistance from the ventilator for those extra breaths. Pressure support ventilation assists SIMV by applying a pressure plateau to the airway throughout the client-triggered inspiration to decrease resistance within the tracheal tube and ventilator tubing.

A client with chronic obstructive pulmonary disease (COPD) is intubated and placed on continuous mechanical ventilation. Which equipment is most important for the nurse to keep at this client's bedside? Water-seal chest drainage set-up Oxygen analyzer Tracheostomy cleaning kit Manual resuscitation bag

Manual resuscitation bag The client with COPD depends on mechanical ventilation for adequate tissue oxygenation. The nurse must keep a manual resuscitation bag at the bedside to ventilate and oxygenate the client in case the mechanical ventilator malfunctions. Because the client doesn't have chest tubes or a tracheostomy, keeping a water-seal chest drainage set-up or a tracheostomy cleaning kit at the bedside isn't necessary. Although the nurse may keep an oxygen analyzer (pulse oximeter) on hand to evaluate the effectiveness of ventilation, this equipment is less important than the manual resuscitation bag.

For a client who has a chest tube connected to a closed water-seal drainage system, the nurse should include which action in the care plan? Keeping the collection chamber at chest level Measuring and documenting the drainage in the collection chamber Maintaining continuous bubbling in the water-seal chamber Stripping the chest tube every hour

Measuring and documenting the drainage in the collection chamber The nurse should regularly measure and document the amount of chest tube drainage to detect abnormal drainage patterns, such as may occur with a hemorrhage (if excessive) or a blockage (if decreased). Continuous bubbling in the water-seal chamber indicates a leak in the closed chest drainage system, which must be corrected. The nurse should keep the collection chamber below chest level to allow fluids to drain into it. The nurse shouldn't strip chest tubes because doing so may traumatize the tissue or dislodge the tube.

A client has been receiving 100% oxygen therapy by way of a nonrebreather mask for several days. Now the client complains of tingling in the fingers and shortness of breath, is extremely restless, and describes a pain beneath the breastbone. What should the nurse suspect? Oxygen-induced hypoventilation Hypoxia Oxygen toxicity Oxygen-induced atelectasis

Oxygen toxicity Oxygen toxicity may occur when too high a concentration of oxygen (greater than 50%) is administered for an extended period (longer than 48 hours) (Urden, Stacy, & Lough, 2014). Signs and symptoms of oxygen toxicity include substernal discomfort, paresthesias, dyspnea, restlessness, fatigue, malaise, progressive respiratory difficulty, refractory hypoxemia, alveolar atelectasis, and alveolar infiltrates evident on chest x-rays.

A client with myasthenia gravis is receiving continuous mechanical ventilation. When the high-pressure alarm on the ventilator sounds, what should the nurse do? Check for an apical pulse. Suction the client's artificial airway. Increase the oxygen percentage. Ventilate the client with a handheld mechanical ventilator.

Suction the client's artificial airway. A high-pressure alarm on a continuous mechanical ventilator indicates an obstruction in the flow of gas from the machine to the client. The nurse should suction the client's artificial airway to remove respiratory secretions that could be causing the obstruction. The sounding of a ventilator alarm has no relationship to the apical pulse. Increasing the oxygen percentage and ventilating with a handheld mechanical ventilator wouldn't correct the airflow blockage.

The nurse suctions a patient through the endotracheal tube for 20 seconds and observes dysrhythmias on the monitor. What does the nurse determine is occurring with the patient? The patient is having a stress reaction. The patient is in a hypermetabolic state. The patient is hypoxic from suctioning. The patient is having a myocardial infarction.

The patient is hypoxic from suctioning. Apply suction while withdrawing and gently rotating the catheter 360 degrees (no longer than 10-15 seconds). Prolonged suctioning may result in hypoxia and dysrhythmias, leading to cardiac arrest.

Which type of ventilator has a preset volume of air to be delivered with each inspiration? Pressure-cycled Volume-controlled Negative-pressure Time-cycled

Volume-controlled With volume-controlled ventilation, the volume of air to be delivered with each inspiration is preset. Negative-pressure ventilators exert a negative pressure on the external chest. Time-cycled ventilators terminate or control inspiration after a preset time. When the pressure-cycled ventilator cycles on, it delivers a flow of air (inspiration) until it reaches a preset pressure, and then cycles off, and expiration occurs passively.


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