Chapter 9

remove the airway and be prepared to suction her oropharynx.

A 19-year-old female is found unconscious by her roommate. Your primary assessment reveals that her breathing is inadequate. As you insert an oropharyngeal airway, she begins to gag violently. You should: A. continue to insert the airway as you suction her oropharynx. B. remove the airway and be prepared to suction her oropharynx. C. insert the airway no further but leave it in place as a bite block. D. select a smaller oropharyngeal airway and attempt to insert it.

Alternate 15 seconds of oral suctioning with 2 minutes of assisted ventilation.

A 23-year-old male experienced severe head trauma after his motorcycle collided with an oncoming truck. He is unconscious, has rapid and shallow breathing, and has copious bloody secretions in his mouth. How should you manage his airway? A. Suction his oropharynx with a rigid catheter until all secretions are removed. B. Insert a nasopharyngeal airway and provide suction and assisted ventilations. C. Alternate 15 seconds of oral suctioning with 2 minutes of assisted ventilation. D. Provide continuous ventilations with a bag-mask device to minimize hypoxia.

encouraging him to cough and transporting.

A 37-year-old male has an apparent foreign body airway obstruction. He is conscious and alert and is coughing forcefully. His skin is pink, warm, and moist. The MOST appropriate treatment for this patient includes: A. a series of back blows and chest thrusts. B. finger sweeps to remove the obstruction. C. performing a series of abdominal thrusts. D. encouraging him to cough and transporting.

administer 100% oxygen via a nonrebreathing mask.

A 51-year-old female presents with a sudden onset of difficulty breathing. She is conscious and alert and able to speak in complete sentences. Her respirations are 22 breaths/min and regular. You should: A. administer 100% oxygen via a nonrebreathing mask. B. insert a nasal airway in case her mental status decreases. C. perform a secondary assessment and then begin treatment. D. assist her breathing with a bag-mask device and 100% oxygen.

perform oropharyngeal suctioning.

A 71-year-old male is semiconscious following a sudden, severe headache. There is vomitus on his face and his respirations are slow and shallow. The EMT must immediately: A. insert a nasopharyngeal airway. B. perform oropharyngeal suctioning. C. apply oxygen via a nonrebreathing mask. D. assist the patient's ventilations with a bag-mask device.

with the bevel facing the septum if inserted into the right nare.

A nasopharyngeal airway is inserted: A. with the bevel facing the septum if inserted into the right nare. B. into the larger nostril with the tip pointing away from the septum. C. with the bevel pointing downward if inserted into the left nare. D. into the smaller nostril with the tip following the roof of the nose.

nonrebreathing mask.

A patient who is suspected of being hypoxic and is breathing adequately should be given supplemental oxygen with a: A. nasal cannula. B. nonrebreathing mask. C. bag-mask device. D. mouth-to-mask device.

a disruption in blood flow inhibits the exchange of oxygen and carbon dioxide in the lungs, even though the alveoli are filled with fresh oxygen.

A ventilation/perfusion (V/Q ratio) mismatch occurs when: A. ventilation is inadequate due to a traumatic injury or medical condition, which results in an impairment in pulmonary gas exchange. B. a disruption in blood flow inhibits the exchange of oxygen and carbon dioxide in the lungs, even though the alveoli are filled with fresh oxygen. C. ventilation is compromised, resulting in the accumulation of carbon dioxide in the bloodstream, alveoli, and the tissues and cells of the body. D. a traumatic injury or medical condition impairs the body's ability to effectively bring oxygen into the lungs and remove carbon dioxide from the body.

How does positive-pressure ventilation affect cardiac output?

A. There is no effect on cardiac output because positive-pressure ventilation is the act of normal breathing. B. It decreases intrathoracic pressure, which facilitates venous return to the heart and increases cardiac output. C. It causes pressure in the chest to decrease, which increases stroke volume and cardiac output. D. It increases intrathoracic pressure, which decreases venous return to the heart and causes a decrease in cardiac output. It increases intrathoracic pressure, which decreases venous return to the heart and causes a decrease in cardiac output.

Hypoxia is MOST accurately defined as:

A. low venous oxygen levels. B. a decrease in arterial oxygen levels. C. an increase in carbon dioxide in the blood. D. inadequate oxygen to the tissues and cells. inadequate oxygen to the tissues and cells.

increasing the amount of delivered tidal volume.

All of the following will help minimize the risk of gastric distention when ventilating an apneic patient with a bag-mask device, EXCEPT: A. ensuring the appropriate airway position. B. applying pressure to the cricoid cartilage. C. ventilating the patient at the appropriate rate. D. increasing the amount of delivered tidal volume.

12 and 20 breaths/min.

An adult at rest should have a respiratory rate that ranges between: A. 8 and 15 breaths/min. B. 10 and 18 breaths/min. C. 12 and 20 breaths/min. D. 16 and 24 breaths/min.

500 psi.

An oxygen cylinder should be taken out of service and refilled when the pressure inside it is less than: A. 200 psi. B. 500 psi. C. 1,000 psi. D. 1,500 psi.

requires cardiopulmonary resuscitation (CPR).

An unconscious patient found in a prone position must be placed in a supine position in case he or she: A. requires cardiopulmonary resuscitation (CPR). B. begins to vomit. C. regains consciousness. D. has increased tidal volume.

mouth-to-mask technique with a one-way valve.

As the single EMT managing an apneic patient's airway, the preferred initial method of providing ventilations is the: A. mouth-to-mouth technique. B. one-person bag-mask device. C. manually triggered ventilation device. D. mouth-to-mask technique with a one-way valve.

44%.

At a flow rate of 6 L/min, a nasal cannula can deliver an approximate oxygen concentration of up to: A. 24%. B. 35%. C. 44%. D. 52%.

have pulmonary edema and can follow verbal commands.

CPAP is indicated for patients who: A. have signs of pneumonia but are breathing adequately. B. are unresponsive and have signs of inadequate ventilation. C. have pulmonary edema and can follow verbal commands. D. are hypotensive and have a marked reduction in tidal volume.

slight elevations in carbon dioxide or a decrease in the pH of the cerebrospinal fluid.

Central chemoreceptors located in the medulla provide feedback to increase the rate and depth of breathing when they sense: A. slight elevations in carbon dioxide or a decrease in the pH of the cerebrospinal fluid. B. slight decreases in carbon dioxide and an increase in the pH of the cerebrospinal fluid. C. decreased levels of oxygen in the blood and an increase in the pH of the cerebrospinal fluid. D. increased levels of oxygen in the blood and a decrease in the pH of the cerebrospinal fluid.

explain to her that you will assist her ventilations.

Despite your attempts to coach a conscious young female's respirations, she continues to hyperventilate with a marked reduction in tidal volume. You should: A. restrain her and provide ventilatory assistance. B. insert a nasopharyngeal airway and give oxygen. C. explain to her that you will assist her ventilations. D. ventilate her at the rate at which she is breathing.

metabolism.

Each cell of the body combines nutrients and oxygen and produces energy and waste products through a process called: A. respiration. B. ventilation. C. metabolism. D. oxygenation.

adequate amounts of surfactant.

Gas exchange in the lungs is facilitated by: A. adequate amounts of surfactant. B. water or blood within the alveoli. C. surfactant-destroying organisms. D. pulmonary capillary constriction.

It forces the alveoli open and pushes more oxygen across the alveolar membrane.

How does CPAP improve oxygenation and ventilation in patients with certain respiratory problems? A. It forces the alveoli open and pushes more oxygen across the alveolar membrane. B. It pushes thick, infected pulmonary secretions into isolated areas of the lung tissue. C. It decreases intrathoracic pressure, which allows more room for the lungs to expand. D. It prevents alveolar collapse by pushing air into the lungs during the inhalation phase.

Hypercarbia

If ventilation is impaired, carbon dioxide levels in the bloodstream will increase. This condition is called: A. acidosis. B. hypoxia. C. hypoxemia. D. hypercarbia.

is a passive process caused by increased intrathoracic pressure.

In contrast to inhalation, exhalation: A. requires muscular effort to effectively expel air from the lungs. B. is a passive process caused by increased intrathoracic pressure. C. occurs when the diaphragm lowers and expels air from the lungs. D. is an active process caused by decreased intrathoracic pressure.

aerobic metabolism.

In the presence of oxygen, the mitochondria of the cells convert glucose into energy through a process called: A. perfusion. B. respiration. C. aerobic metabolism. D. anaerobic metabolism.

a 37-year-old female who is found unconscious in her bed

In which of the following patients would the head tilt-chin lift maneuver be the MOST appropriate method of opening the airway? A. a 24-year-old male who is found unconscious at the base of a tree B. a 37-year-old female who is found unconscious in her bed C. a 45-year-old male who is semiconscious after falling 20 feet D. a 50-year-old male who is unconscious following head trauma

diaphragm and intercostal muscles contract and cause a decrease in intrathoracic pressure.

Inhalation occurs when the: A. diaphragm and intercostal muscles relax and cause an increase in intrathoracic pressure. B. diaphragm and intercostal muscles ascend and cause an increase in intrathoracic pressure. C. diaphragm and intercostal muscles contract and cause a decrease in intrathoracic pressure. D. diaphragm ascends and the intercostal muscles contract, causing a decrease in intrathoracic pressure.

blood coming from the right side of the heart bypasses nonfunctional alveoli and returns to the left side of the heart in an unoxygenated state.

Intrapulmonary shunting occurs when: A. the presence of pulmonary surfactant causes a decrease in alveolar surface tension, thus impairing the exchange of gases in the lungs. B. a decrease in respiratory rate and depth causes carbon dioxide accumulation in the alveoli and an overall decrease in blood oxygen levels. C. blood coming from the right side of the heart bypasses nonfunctional alveoli and returns to the left side of the heart in an unoxygenated state. D. any impairment in circulatory function causes a reduced ability for oxygen and carbon dioxide to diffuse across the alveolar-capillary membrane.

Cheyne-Stokes respirations.

Irregular respirations characterized by an increasing rate and depth of breathing followed by periods of apnea are called: A. ataxic respirations. B. agonal respirations. C. eupneic respirations. D. Cheyne-Stokes respirations.

a 21-year-old male with traumatic cardiac arrest

On which of the following patients would it be MOST appropriate to use the flow-restricted, oxygen-powered ventilation device? A. an 8-year-old female with respiratory failure B. a 21-year-old male with traumatic cardiac arrest C. a 38-year-old apneic female with blunt chest trauma D. a 59-year-old male with chronic obstructive pulmonary disease (COPD)

reservoir bag is fully inflated.

Prior to applying a nonrebreathing mask on a patient, you must ensure that the: A. one-way valve is sealed. B. flow rate is set at 6 L/min. C. reservoir bag is fully inflated. D. patient has reduced tidal volume.

suctioning while withdrawing the catheter from the oropharynx.

Proper technique for suctioning the oropharynx of an adult patient includes: A. continuously suctioning patients with copious oral secretions. B. suctioning while withdrawing the catheter from the oropharynx. C. removing large, solid objects with a tonsil-tip suction catheter. D. suctioning for up to 1 minute if the patient is well oxygenated.

epiglottis.

Structures of the lower airway include all of the following, EXCEPT the: A. alveoli. B. trachea. C. epiglottis. D. bronchioles.

penetrating the cranium.

The MOST serious complication associated with using a nasopharyngeal airway in a patient with trauma to the head or face is: A. fracturing the septum. B. damaging the turbinates. C. penetrating the cranium. D. causing severe bleeding.

hypoxia due to prolonged suction attempts.

The MOST significant complication associated with oropharyngeal suctioning is: A. oral abrasions from vigorous suctioning. B. hypoxia due to prolonged suction attempts. C. clogging of the catheter with thick secretions. D. vomiting from stimulating the anterior airway.

Cricoid

The __________ cartilage is a firm ring that forms the inferior part of the larynx. A. cricoid B. thyroid C. laryngeal D. pyriform

alveolar sacs.

The actual exchange of oxygen and carbon dioxide occurs in the: A. bronchioles. B. alveolar sacs. C. apex of the lung. D. pulmonary capillaries.

sleeps.

The diaphragm functions as an involuntary muscle when a person: A. sleeps. B. coughs. C. takes a deep breath. D. holds his or her breath.

low blood oxygen levels.

The hypoxic drive—the primary stimulus to breathe for patients with certain chronic respiratory diseases—is influenced by: A. high blood oxygen levels. B. low blood oxygen levels. C. low blood carbon dioxide levels. D. high blood carbon dioxide levels.

cervical spine injuries.

The jaw-thrust maneuver is used to open the airway of patients with suspected: A. mandibular fractures. B. upper airway swelling. C. cervical spine injuries. D. copious oral secretions.

Epiglottis

The leaf-shaped structure located superior to the larynx is called the: A. epiglottis. B. vallecula. C. cricoid ring. D. thyroid cartilage.

the use of its fine adjustment capabilities in the long-term management of physiologically stable patients.

The main advantage of the Venturi mask is: A. the ability to adjust the percentage of inspired oxygen when caring for a critically ill or injured patient. B. the use of its fine adjustment capabilities in the long-term management of physiologically stable patients. C. that it does not contain an oxygen reservoir, so the same percentage of oxygen can consistently be administered. D. the ability to adjust the amount of oxygen administered to the patient by increasing the flow rate on the regulator.

when the patient cannot tolerate a nonrebreathing mask.

The nasal cannula is MOST appropriately used in the prehospital setting: A. when the patient cannot tolerate a nonrebreathing mask. B. if the patient's nasopharynx is obstructed by secretions. C. if long-term supplemental oxygen administration is required. D. when the patient breathes primarily through his or her mouth.

can maintain a patent airway in a semiconscious patient with a gag reflex.

The nasopharyngeal airway is MOST beneficial because it: A. can effectively stabilize fractured nasal bones if it is inserted properly. B. is generally well tolerated in conscious patients with an intact gag reflex. C. effectively maintains the airway of a patient in cardiopulmonary arrest. D. can maintain a patent airway in a semiconscious patient with a gag reflex.

104, 40

The partial pressure of oxygen in the alveoli is _______ mm Hg, while the partial pressure of carbon dioxide in the alveoli is _______ mm Hg. A. 70, 28 B. 88, 30 C. 90, 50 D. 104, 40

ventilation.

The physical act of moving air into and out of the lungs is called: A. diffusion. B. ventilation. C. respiration. D. oxygenation.

2,000

The pressure of gas in a full cylinder of oxygen is approximately _______ pounds per square inch (psi). A. 500 B. 1,000 C. 1,500 D. 2,000

carbon dioxide.

The primary waste product of aerobic metabolism is: A. lactic acid. B. pyruvic acid. C. carbon dioxide. D. adenosine triphosphate.

external respiration.

The process of exchanging oxygen and carbon dioxide between the alveoli and the blood of the capillaries is called: A. external respiration. B. cellular metabolism. C. pulmonary ventilation. D. alveolar ventilation.

ensure that the correct regulator is used for the cylinder.

The purpose of the pin-indexing system that has been established for compressed gas cylinders is to: A. ensure that the correct regulator is used for the cylinder. B. help you determine what type of oxygen regulator to use. C. prevent destroying or stripping the threads on the cylinder. D. reduce the cylinder pressure to a safe and more useful range.

moves into or out of the lungs in a single breath.

Tidal volume is defined as the volume of air that: A. is moved through the lungs in a single minute. B. moves into or out of the lungs in a single breath. C. remains in the lungs following a complete exhalation. D. is forced into the lungs as a result of positive pressure.

corner of the mouth to the earlobe.

To select the proper size oropharyngeal airway, you should measure from the: A. corner of the mouth to the earlobe. B. center of the mouth to the posterior ear. C. corner of the mouth to the superior ear. D. angle of the jaw to the center of the mouth.

the tongue

What is the MOST common cause of airway obstruction in an unconscious patient? A. vomitus B. the tongue C. blood clots D. aspirated fluid

5,600 mL

What is the minute volume of a patient with a tidal volume of 500 mL, a dead space volume of 150 mL, and a respiratory rate of 16 breaths/min? A. 5,600 mL B. 6,000 mL C. 7,400 mL D. 8,000 mL

Air moves primarily in the anatomic dead space and does not participate in pulmonary gas exchange.

What occurs when a patient is breathing very rapidly and shallowly? A. Minute volume increases because of a marked increase in both tidal volume and respiratory rate. B. Air moves primarily in the anatomic dead space and does not participate in pulmonary gas exchange. C. Air is forcefully drawn into the lungs due to the negative pressure created by the rapid respirations. D. The majority of tidal volume reaches the lungs and diffuses across the alveolar-capillary membrane.

300 mm Hg.

When testing a mechanical suctioning unit, you should turn on the device, clamp the tubing, and ensure that it generates a vacuum pressure of more than: A. 100 mm Hg. B. 200 mm Hg. C. 300 mm Hg. D. 400 mm Hg.

shallow breathing

Which of the following factors will cause a decreased minute volume in an adult? A. shallow breathing B. increased tidal volume C. respirations of 20 breaths/min D. slight decrease in respiratory rate

Cyanosis

Which of the following is a late sign of hypoxia? A. anxiety B. cyanosis C. tachycardia D. restlessness

adequate rise of the chest when squeezing the bag

Which of the following is the MOST reliable indicator of adequately performed bag-mask ventilations in an apneic adult with a pulse? A. 20 breaths/min being delivered to the adult B. decreased compliance when squeezing the bag C. an adult's heart rate that is consistently increasing D. adequate rise of the chest when squeezing the bag

Muscle

Which of the following organs or tissues can survive the longest without oxygen? A. muscle B. heart C. liver D. kidneys

Bourdon-gauge flowmeter

Which of the following oxygen flowmeters is NOT affected by gravity and can be used in any position when attached to an oxygen cylinder? A. vertical-position flowmeter B. Bourdon-gauge flowmeter C. ball-and-float flowmeter D. pressure-compensated flowmeter

a conscious male with respirations of 19 breaths/min and pink skin

Which of the following patients is breathing adequately? A. a conscious male with respirations of 19 breaths/min and pink skin B. a conscious female with facial cyanosis and rapid, shallow respirations C. a conscious male with respirations of 18 breaths/min and reduced tidal volume D. an unconscious 52-year-old female with snoring respirations and cool, pale skin

a 31-year-old semiconscious male with low blood sugar and adequate breathing

Which of the following patients should you place in the recovery position? A. a 19-year-old conscious male with a closed head injury and normal respirations B. a 24-year-old unconscious female who overdosed and has a reduced tidal volume C. a 31-year-old semiconscious male with low blood sugar and adequate breathing D. a 40-year-old conscious female with a possible neck injury and regular respirations

a 40-year-old unconscious patient with slow, shallow respirations

Which of the following patients would MOST likely require insertion of an oropharyngeal airway? A. a 33-year-old semiconscious patient with reduced tidal volume B. a 40-year-old unconscious patient with slow, shallow respirations C. a 51-year-old confused patient with severely labored respirations D. a 64-year-old conscious patient with rapid and deep respirations

Patients breathing shallowly may require assisted ventilation despite a normal respiratory rate.

Which of the following statements regarding breathing adequacy is correct? A. Patients with a grossly irregular breathing pattern usually do not require assisted ventilation. B. The single most reliable sign of breathing adequacy in the adult is his or her respiratory rate. C. Patients breathing shallowly may require assisted ventilation despite a normal respiratory rate. D. A patient with slow respirations and adequate depth will experience an increase in minute volume.

Oxygen and carbon dioxide diffuse across the alveolar walls and capillaries.

Which of the following statements regarding normal gas exchange in the lungs is correct? A. The oxygen content in the alveoli is highest during the exhalation phase. B. Oxygen and carbon dioxide diffuse across the alveolar walls and capillaries. C. The actual exchange of oxygen and carbon dioxide occurs in the capillaries. D. Blood that returns to the lungs from the body has a low carbon dioxide content.

Oxygen supports the combustion process and may cause a fire.

Which of the following statements regarding oxygen is correct? A. Oxygen cylinders must always remain in an upright position. B. Oxygen is flammable and may explode if under high pressure. C. Oxygen supports the combustion process and may cause a fire. D. Oxygen is most safely administered in an enclosed environment.

In mines or confined places, where oxygen levels are low, ventilation may continue despite adequate oxygenation.

Which of the following statements regarding oxygenation and ventilation is correct? A. In carbon monoxide (CO) poisoning, ventilation is impaired because CO binds to oxygen very quickly. B. Oxygenation is the movement of air into and out of the lungs, whereas ventilation is the exchange of gases. C. In mines or confined places, where oxygen levels are low, ventilation may continue despite adequate oxygenation. D. Oxygenation without adequate ventilation can occur in climbers who quickly ascend to an altitude of lower atmospheric pressure.

With positive-pressure ventilation, more volume is required to have the same effects as normal breathing.

Which of the following statements regarding positive-pressure ventilation is correct? A. Positive-pressure ventilation allows blood to naturally be pulled back to the heart from the body. B. With positive-pressure ventilation, more volume is required to have the same effects as normal breathing. C. To prevent hypotension, the EMT should increase the rate and force of positive-pressure ventilation. D. Unlike negative-pressure ventilation, positive-pressure ventilation does not affect the esophageal opening pressure.

Adequate tidal volume is often difficult to achieve when one EMT is operating the bag-mask device.

Which of the following statements regarding the one-person bag-mask device technique is correct? A. Bag-mask ventilations should be delivered every 2 seconds when the device is being operated by one person. B. The C-clamp method of holding the mask to the face is not effective when ventilating a patient with a bag-mask device. C. Adequate tidal volume is often difficult to achieve when one EMT is operating the bag-mask device. D. The bag-mask device delivers more tidal volume and a higher oxygen concentration than the mouth-to-mask technique.

Bronchus

Which of the following structures is NOT found in the upper airway? A. larynx B. pharynx C. bronchus D. oropharynx

Esophagus

Which of the following structures is contained within the mediastinum? A. lungs B. larynx C. bronchioles D. esophagus

deep respirations

Which of the following would NOT cause a decrease in tidal volume? A. shallow breathing B. deep respirations C. irregular breathing D. agonal respirations

stand behind him and administer abdominal thrusts.

While eating dinner, your partner suddenly grabs his throat and has a panicked look on his face. He has a weak cough, faint inspiratory stridor, and cyanosis around the lips. You should: A. encourage him to cough as forcefully as he can. B. deliver up to five back blows and reassess him. C. place him in a supine position and open his airway. D. stand behind him and administer abdominal thrusts.

90

With a good mask-to-face seal and an oxygen flow rate of 15 L/min, the nonrebreathing mask is capable of delivering up to ______% inspired oxygen. A. 70 B. 80 C. 90 D. 100

incompletely convert glucose into energy, and lactic acid accumulates in the blood.

Without adequate oxygen, the body's cells: A. rely solely on glucose, which is completely converted into adenosine triphosphate (ATP). B. cease metabolism altogether, resulting in carbon dioxide accumulation in the blood. C. begin to metabolize fat, resulting in the production and accumulation of ketoacids. D. incompletely convert glucose into energy, and lactic acid accumulates in the blood.

begin ventilations using the mouth-to-mask technique.

You and your partner are caring for a critically injured patient. Your partner is controlling severe bleeding from the patient's lower extremities as you attempt ventilations with a bag-mask device. After repositioning the mask several times, you are unable to effectively ventilate the patient. You should: A. begin ventilations using the mouth-to-mask technique. B. hyperextend the patient's head and reattempt ventilations. C. continue attempted ventilations and transport immediately. D. suction the patient's airway for 30 seconds and reattempt ventilations.

assist his ventilations with a bag-mask device.

You and your partner are treating a 66-year-old man who experienced a sudden onset of respiratory distress. He is conscious but is unable to follow simple verbal commands. Further assessment reveals that his breathing is severely labored and his oxygen saturation is 80%. You should: A. attempt to insert an oropharyngeal airway. B. assist his ventilations with a bag-mask device. C. apply a continuous positive airway pressure (CPAP) device and monitor his breathing. D. apply high-flow oxygen via nonrebreathing mask.

log roll him as a unit to a supine position.

You are dispatched to a residence where a middle-aged man was found unconscious in his front yard. There are no witnesses who can tell you what happened. You find him in a prone position his eyes are closed and he is not moving. Your FIRST action should be to: A. palpate for the presence of a carotid pulse. B. log roll him as a unit to a supine position. C. assess the rate and quality of his breathing. D. open his airway with a jaw-thrust maneuver.

55%

You are performing mouth-to-mask ventilations with oxygen connected and set at a flow rate of 15 L/min. What percentage of oxygen is your patient receiving? A. 45% B. 55% C. 65% D. 75%

reevaluate the rate and volume of your ventilations.

You are ventilating a 40-year-old uninjured man who is apneic but has a pulse. When your partner reassesses his blood pressure, he notes that it has decreased significantly from previous readings. You elevate the patient's legs, but this action has no effect. You should: A. reevaluate the rate and volume of your ventilations. B. perform a head-to-toe assessment to look for bleeding. C. increase the volume of your ventilations and reassess his blood pressure. D. ensure that you are delivering one breath every 3 to 5 seconds.

seal the mouth and nose.

You are ventilating a patient with a stoma however, air is escaping from the mouth and nose. To prevent this, you should: A. thrust the jaw forward. B. seal the mouth and nose. C. ventilate with less pressure. D. thoroughly suction the stoma.

remove her dentures, resume ventilations, and assess for adequate chest rise.

You are ventilating an apneic woman with a bag-mask device. She has dentures, which are tight-fitting. Adequate chest rise is present with each ventilation, and the patient's oxygen saturation reads 96%. When you reassess the patency of her airway, you note that her dentures are now loose, although your ventilations are still producing adequate chest rise. You should: A. remove her dentures, resume ventilations, and assess for adequate chest rise. B. attempt to replace her dentures so that they fit tightly and resume ventilations. C. leave her dentures in place, but carefully monitor her for an airway obstruction. D. remove her dentures at once and increase the rate and volume of your ventilations.

roll her onto her side and remove the oral airway.

You have inserted an oral airway and are ventilating an apneic woman with a bag-mask device. She suddenly begins regurgitating large amounts of vomit. You should: Select one: A. perform a finger sweep of her mouth. B. ask your partner to apply cricoid pressure. C. roll her onto her side and remove the oral airway. D. remove the oral airway and suction her oropharynx.