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Terms in this set (110)
3. Afterload is defined as the:
A) pressure in the aorta against which the left ventricle must pump.
B) amount of resistance to blood flow offered by the heart valves.
C) amount of blood ejected from the ventricle with each contraction.
D) volume of blood remaining in the ventricles following contraction.
A) pressure in the aorta against which the left ventricle must pump.
B) amount of resistance to blood flow offered by the heart valves.
C) amount of blood ejected from the ventricle with each contraction.
D) volume of blood remaining in the ventricles following contraction.
5. Which of the following statements regarding blood flow is correct?
A) Ejection fraction is the percentage of blood that the heart pumps per contraction.
B) If more blood returns to the heart, stroke volume decreases and cardiac output falls.
C) As more blood is pumped with each contraction, the ejection fraction increases.
D) The amount of blood that returns to the atrium remains fixed from minute to minute.
A) Ejection fraction is the percentage of blood that the heart pumps per contraction.
B) If more blood returns to the heart, stroke volume decreases and cardiac output falls.
C) As more blood is pumped with each contraction, the ejection fraction increases.
D) The amount of blood that returns to the atrium remains fixed from minute to minute.
6. Hemoglobin functions by:
A) dissolving in blood plasma to create the partial pressure of carbon dioxide.
B) binding to oxygen that is absorbed in the lungs and transporting it to the tissues.
C) absorbing hydrogen ions in the blood in order to maintain acid-base balance.
D) transporting red blood cells throughout the body to ensure adequate oxygenation.
A) dissolving in blood plasma to create the partial pressure of carbon dioxide.
B) binding to oxygen that is absorbed in the lungs and transporting it to the tissues.
C) absorbing hydrogen ions in the blood in order to maintain acid-base balance.
D) transporting red blood cells throughout the body to ensure adequate oxygenation.
8. Perfusion is defined as:
A) the effective exchange of oxygen and carbon dioxide within the lungs and at the cellular level.
B) the circulation of blood through an organ or tissue in amounts adequate to meet the body's demands.
C) an ejection fraction that is adequate to maintain radial pulses or a systolic blood pressure of at least 90 mm Hg.
D) the circulation of an adequate volume of blood to ensure uninterrupted cerebral and myocardial oxygenation.
A) the effective exchange of oxygen and carbon dioxide within the lungs and at the cellular level.
B) the circulation of blood through an organ or tissue in amounts adequate to meet the body's demands.
C) an ejection fraction that is adequate to maintain radial pulses or a systolic blood pressure of at least 90 mm Hg.
D) the circulation of an adequate volume of blood to ensure uninterrupted cerebral and myocardial oxygenation.
A) the body's metabolic rate is slower11. An organ or tissue that is considerably colder than 98.6°F is better able to resist damage from hypoperfusion because:
A) the body's metabolic rate is slower.
B) cells shrink as body temperature falls.
C) hypothermia promotes oxygen metabolism.
D) hypothermia protects hemoglobin molecules.A) preload12. The amount of blood returned to the heart is called:
A) preload.
B) cardiac output.
C) afterload.
D) stroke volume.D) carotid artery, 100/7013. External bleeding would be the MOST difficult to control in a patient with a large laceration to the _____________ and a blood pressure of ______ mm Hg.
A) jugular vein, 96/62
B) brachial artery, 68/46
C) femoral vein, 114/60
D) carotid artery, 100/70C) rapid transport14. Patients with internal hemorrhage will benefit MOST from:
A) IV therapy.
B) high-flow oxygen.
C) rapid transport.
D) PASG placement.A) 4.8 L15. What is the approximate total blood volume of a 150-pound male?
A) 4.8 L
B) 5.1 L
C) 6.2 L
D) 6.5 LB) the period of time over which the blood is lost.16. The MOST significant factor that determines how well the body compensates for blood loss is:
A) the patient's pulse rate at the time of the injury.
B) the period of time over which the blood is lost.
C) whether the bleeding is internal or external.
D) whether the bleeding is venous or arterial.C) is more likely to clot spontaneously than arterial bleeding.17. Venous bleeding:
A) is dark red in color and usually oozes from the wound.
B) is bright red in color and typically spurts from a wound.
C) is more likely to clot spontaneously than arterial bleeding.
D) is generally more difficult to control than arterial bleeding.D) Anticoagulant use18. Which of the following factors would have the MOST negative effect on the body's process of hemostasis?
A) Bradycardia
B) Hyperthermia
C) Chronic heroin use
D) Anticoagulant useD) keep the patient warm and administer oxygen.19. If you suspect internal bleeding during the primary assessment, you should:
A) stop the assessment and transport at once.
B) start two large-bore IV lines of normal saline.
C) determine the source of the internal bleeding.
D) keep the patient warm and administer oxygen.B) is the passage of stools that contain bright red blood.20. Hematochezia:
A) indicates digested blood from the upper gastrointestinal tract.
B) is the passage of stools that contain bright red blood.
C) suggests kidney injury and is characterized by bloody urine.
D) is the passage of dark stools and indicates lower gastrointestinal bleeding.A) vomiting.21. All of the following are common early signs or symptoms of nontraumatic internal hemorrhage in older patients, EXCEPT:
A) vomiting.
B) syncope.
C) weakness.
D) dizziness.C) direct pressure and pressure dressings.22. Most external hemorrhage can be controlled with a combination of:
A) pressure dressings and ice.
B) elevation and immobilization.
C) direct pressure and pressure dressings.
D) pressure point control and elevation.A) The period of time that organs and tissues can survive without perfusion, assuming a normal body temperature23. What is "warm ischemic time"?
A) The period of time that organs and tissues can survive without perfusion, assuming a normal body temperature
B) The preservation of ischemic organs and tissues when the patient's body temperature is reduced by 1°F per hour
C) The period of time in which perfusion can be restored to ischemic organs and tissues before permanent damage occurs
D) The preservation of ischemic organs and tissues when the patient's body temperature is increased to at least 101°FC) bone ends will continue to move and destroy partially formed clots.24. Much of the bleeding associated with unsplinted fractures continues because:
A) most fractures are unstable and usually lacerate major blood vessels.
B) swelling associated with such fractures prevents platelet aggregation.
C) bone ends will continue to move and destroy partially formed clots.
D) patient anxiety increases the blood pressure, which exacerbates bleeding.B) maintain direct pressure to the wound until the tourniquet has been fully applied.25. When applying a tourniquet to control major external hemorrhage from an extremity injury, you should:
A) apply the tourniquet over a joint, as this will further help compress blood vessels.
B) maintain direct pressure to the wound until the tourniquet has been fully applied.
C) secure the tourniquet in place until the pulses distal to the injury have weakened.
D) apply a pressure dressing over the tourniquet to further help control the bleeding.D) promote hemostasis.26. Agents such as Celox, HemCon, and QuikClot are used to:
A) repair damaged vessels.
B) replace lost blood.
C) raise blood pressure.
D) promote hemostasis.B) flattened jugular veins27. A patient with hemorrhagic shock would be expected to have:
A) warm, flushed skin.
B) flattened jugular veins.
C) a widened pulse pressure.
D) an increased hematocrit.D) Severe burns28. Which of the following injuries or mechanisms would MOST likely lead to nonhemorrhagic shock?
A) Fractures
B) Blunt trauma
C) Hemothorax
D) Severe burnsA) ventilation assistance and rapid transport.29. A trauma patient with suspected internal hemorrhage and inadequate breathing requires:
A) ventilation assistance and rapid transport.
B) intubation that is facilitated by medications.
C) on-scene IV therapy and rapid fluid boluses.
D) oxygen via nonrebreathing mask and transport.D) maintain the systolic blood pressure in a low normal range.30. A trauma patient with hypotension secondary to internal hemorrhage should receive IV fluid boluses in order to:
A) increase the systolic blood pressure to at least 110 mm Hg.
B) restore the patient's blood pressure to its pretrauma reading.
C) increase the pulse rate by no more than 10 beats/min.
D) maintain the systolic blood pressure in a low normal range.B) Calcium channel blockers31. Which of the following types of medication would MOST likely reduce a patient's ability to compensate when in shock?
A) Tricyclic antidepressants
B) Calcium channel blockers
C) Nasal decongestants
D) Beta-2 adrenergic agonistsC) III32. Confusion, a sustained heart rate greater than 120 beats/min, and a respiratory rate of 32 breaths/min are MOST consistent with class ___ hemorrhage?
A) I
B) II
C) III
D) IVA) 50033. A healthy adult can tolerate blood loss of up to ____ mL over a period of 15 to 20 minutes without any negative effects.
A) 500
B) 750
C) 1,000
D) 1,500D) vasoconstriction and platelet aggregation.34. The physiologic process of hemostasis is achieved through:
A) an increased production of red blood cells.
B) the destruction of fibrin and platelets.
C) the use of anticoagulants such as Coumadin.
D) vasoconstriction and platelet aggregation.C) mottled skin and dilated pupils.35. In contrast to a patient with compensated shock, a patient with decompensated shock would be expected to present with:
A) polyuria and weak pulses.
B) bounding radial pulses.
C) mottled skin and dilated pupils.
D) restlessness and pale cool skin.C) aldosterone and antidiuretic hormone.36. A fall in blood pressure and the resultant changes in plasma osmolality cause the release of:
A) glycogen and luteinizing hormone.
B) T3 and T4 from the thyroid gland.
C) aldosterone and antidiuretic hormone.
D) acetylcholine and angiotensin I.A) perfusion.37. Circulation of blood within an organ or tissue in adequate amounts to meet the cells' current needs is called:
A) perfusion.
B) respiration.
C) oxygenation.
D) metabolism.A) Septic38. Which of the following types of shock is caused by poor blood vessel function?
A) Septic
B) Cardiogenic
C) Hypovolemic
D) HemorrhagicD) make note of it and continue your assessment.39. If you discover minor external bleeding during your primary assessment of a patient, you should:
A) stop your assessment and take the patient's blood pressure.
B) establish a large-bore IV line immediately.
C) stop your assessment and control the bleeding.
D) make note of it and continue your assessment.C) recognize the signs and symptoms of shock in its earliest phase and begin immediate treatment before permanent damage occurs.40. The paramedic's MAIN goal in treating a patient with shock is to:
A) administer oxygen in a concentration sufficient to maintain an oxygen saturation greater than 95%.
B) start two large-bore IV lines and infuse enough isotonic crystalloid solution to maintain adequate tissue perfusion.
C) recognize the signs and symptoms of shock in its earliest phase and begin immediate treatment before permanent damage occurs.
D) maintain body temperature and elevate the patient's legs 6 to 12 inches in order to improve blood flow to the core of the body.D) a falling blood pressure41. Decompensated shock in the adult is characterized by:
A) increased tidal volume.
B) bounding radial pulses.
C) 15% blood loss or more.
D) a falling blood pressure.A) Anxiety or agitation42. Which of the following signs would you MOST likely observe in a patient with compensated shock?
A) Anxiety or agitation
B) Dilation of the pupils
C) Absent peripheral pulses
D) Response to painful stimuliC) apply a proximal tourniquet, administer high-flow oxygen, transport, and establish vascular access en route.43. You are treating a 20-year-old man with a large laceration involving the brachial artery. The patient is confused, is pale, and has weak peripheral pulses. Your initial attempts to control the bleeding have failed. You should:
A) administer high-flow oxygen, establish vascular access at the scene, transport, and apply a proximal tourniquet en route.
B) administer high-flow oxygen, transport, and apply a proximal tourniquet and establish vascular access en route.
C) apply a proximal tourniquet, administer high-flow oxygen, transport, and establish vascular access en route.
D) control the bleeding by applying pressure to a proximal pressure point, administer high-flow oxygen, and transport.B) Bilateral femur fractures44. A motorcycle rider struck a parked car and was catapulted over the handlebars of his bike. Your assessment reveals that he is tachypneic, diaphoretic, and tachycardic. There is no gross external bleeding present. What is the MOST likely cause of this patient's clinical presentation?
A) Closed head injury
B) Bilateral femur fractures
C) Proximal upper extremity fractures
D) Sympathetic nervous system failureB) administer high-flow oxygen, keep him warm, transport, and establish two large-bore IV lines en route.45. You have successfully controlled a large arterial hemorrhage from a 42-year-old man's leg with direct pressure and a pressure dressing. He is conscious, but restless. His blood pressure is 84/58 mm Hg, pulse is 120 beats/min, and respirations are 24 breaths/min. You should:
A) keep him warm, administer high-flow oxygen, establish one large-bore IV line at the scene, and transport.
B) administer high-flow oxygen, keep him warm, transport, and establish two large-bore IV lines en route.
C) administer high-flow oxygen, start two large-bore IV lines at the scene and give a 2- to 3-L fluid bolus, and transport.
D) Keep him warm, assist his ventilations, place a hemostatic agent in the wound, transport, and start a large-bore IV en route.B) trauma.1. The acute physiologic and structural change that occurs in a patient's body when an external source of energy dissipates faster than the body's ability to sustain and dissipate it is called:
A) injury.
B) trauma.
C) deceleration.
D) kinematics.C) potential, kinetic2. The energy stored in an object, such as a bridge pillar, is called __________ energy, and the energy from motion is called __________ energy.
A) kinetic, potential
B) barometric, kinetic
C) potential, kinetic
D) chemical, potentialA) predict injury patterns found in a patient3. Knowledge of kinetics can help the paramedic:
A) predict injury patterns found in a patient.
B) determine which organs have been injured.
C) quantify how much blood a patient has lost.B) amount of energy in the object and the mechanism by which the object is delivered to the body.4. The primary determinants of the extent of trauma a patient sustains are the:
A) type of object that strikes a patient and the part of the body that sustains the most impact.
B) amount of energy in the object and the mechanism by which the object is delivered to the body.
C) size of the object that strikes the body and any secondary injuries that occur if the patient falls.
D) physical size of the patient and the part of the body that sustains direct impact from an object.C) Blunt trauma is difficult to diagnose by paramedics in the field and is often more lethal than penetrating trauma.5. Which of the following general statements regarding trauma is correct?
A) Bullet impact is less if the energy in the bullet is applied to a small area.
B) The position of the patient at the time of the event is considered to be an internal factor.
C) Blunt trauma is difficult to diagnose by paramedics in the field and is often more lethal than penetrating trauma.
D) Rapidly applied amounts of energy are better tolerated than a similar amount of energy applied over a longer period.D) Mechanism of injury6. Which of the following will be of MOST benefit in helping the paramedic predict the type of injuries that a patient experienced?
A) Index of suspicion
B) Past medical history
C) Age of the patient
D) Mechanism of injuryB) systolic blood pressure is less than 90 mm Hg7. According to the American College of Surgeons, an injured patient should be transported to a Level I trauma center if his or her:
A) heart rate is greater than 100 beats/min.
B) systolic blood pressure is less than 90 mm Hg.
C) respiratory rate is less than 14 breaths/min.
D) Glasgow Coma Scale score is less than 15.A) Rear-end collision with restrained driver8. Which of the following mechanisms of injury poses the LEAST threat for significant injury?
A) Rear-end collision with restrained driver
B) Death of an occupant in the same vehicle
C) Motorcycle crash at greater than 20 mph
D) Vehicular intrusion of greater than 12 inchesA) Two or more proximal long bone fractures
B9. Which of the following injuries would MOST likely require transport to a Level I trauma center?
A) Two or more proximal long bone fractures
B) Superficial burns to an entire lower extremity
C) Lateral neck pain following a motor vehicle crash
D) Penetrating injury that is distal to the elbow or kneeD) has a known bleeding disorder10. If the mechanism of injury does not appear to be significant, you should consider transporting an injured patient to a Level I trauma center if he or she:
A) is older than 45 years of age.
B) takes any kind of medication.
C) is emotionally upset or angry.
D) has a known bleeding disorder.C) has 24-hour in-house coverage by general surgeons.11. A specific attribute of a Level I trauma center is that it:
A) is involved in an injury prevention program.
B) can initiate definitive care for all injured patients.
C) has 24-hour in-house coverage by general surgeons.
D) has rapid access to an off-site anesthesiologist.B) be able to initiate definitive care for all injured patients.12. At a minimum, a Level II trauma center should:
A) have an in-house neurosurgeon 24 hours a day.
B) be able to initiate definitive care for all injured patients.
C) have access to an emergency physician within 20 minutes.
D) provide total care for every aspect of a patient's injuries.C) via air transport to the Level I trauma center.13. If a Level I trauma center is 30 miles away, and a Level II trauma center is 10 miles away, it would be MOST appropriate to transport a patient with a severe traumatic brain injury:
A) by ground to the Level I trauma center.
B) to the closest hospital for stabilization.
C) via air transport to the Level I trauma center.
D) by ground to the Level II trauma center.A) The need for definitive airway management14. Which of the following is NOT a factor when considering transport of a trauma patient via helicopter?
A) The need for definitive airway management
B) Distance from the scene to the landing zone
C) Time it will take the aircraft to reach the scene
D) Type of terrain on which the helicopter will landD) activate the service as soon as possible.15. When summoning an air transport service to transport a critically injured patient, it is MOST important to:
A) determine the flight crew's credentials.
B) ensure that the fire department is present.
C) predetermine the destination facility.
D) activate the service as soon as possibleB) maximum time spent at a scene for a trauma patient16. The "platinum 10 minutes" refers to the:
A) maximum amount of time to extricate a patient.
B) maximum time spent at a scene for a trauma patient.
C) amount of time before decompensated shock occurs.
D) amount of time taken to perform a rapid assessment.B) increasing its velocity than by increasing its mass17. An object increases its kinetic energy more by:
A) decreasing its speed than by increasing its mass.
B) increasing its velocity than by increasing its mass.
C) decreasing its velocity than by decreasing its mass.
D) increasing its mass than by increasing its velocity.A) 140, 5018. The greatest amount of kinetic energy would be created if a ____-pound driver struck a tree while traveling at ____ mph.
A) 140, 50
B) 160, 30
C) 150, 40
D) 170, 30C) energy can be neither created nor destroyed; it can only change form.19. The law of conservation of energy states that:
A) kinetic energy can be converted only to thermal or chemical energy.
B) the force that an object can exert is the product of its mass multiplied by its acceleration.
C) energy can be neither created nor destroyed; it can only change form.
D) a body at rest will remain at rest unless acted upon by an outside force.C) dissipates tremendous forces and causes major injuries20. Sudden deceleration of a motor vehicle that is traveling at 60 mph:
A) typically generates forces of up to 10 to 20 g.
B) initially causes whiplash injuries to the patient's neck.
C) dissipates tremendous forces and causes major injuries.
D) causes the driver's body to stop moving at the same time.D) The pressure wave caused by a blast21. Which of the following injury mechanisms would MOST likely result in blunt trauma?
A) Small-caliber gunshot wound
B) Explosion involving shards of glass
C) Falling from a tree onto a fence
D) The pressure wave caused by a blastB) tissues are penetrated by single or multiple objects22. Penetrating trauma occurs when:
A) internal organs are lacerated and bleed profusely.
B) tissues are penetrated by single or multiple objects.
C) blunt force trauma causes explosive open injuries.
D) a fractured rib perforates the parenchyma of a lung.A) shearing or rupturing of internal organs can occur.23. During abrupt deceleration:
A) shearing or rupturing of internal organs can occur.
B) the neck commonly sustains hyperextension injuries.
C) the skull provides excellent protection for the brain.
D) supporting structures of the aorta keep it attached.A) at the time of impact.24. Unlike deceleration injuries, crush and compression injuries occur:
A) at the time of impact.
B) before impact occurs.
C) after the initial impact.
D) from penetrating mechanisms.C) aorta.25. The MOST common site of deceleration injury in the chest is the:
A) heart.
B) esophagus.
C) aorta.
D) vena cava.C) deceleration of internal organs.26. The third phase of a motor vehicle accident involves:
A) crush injuries to the body.
B) impact by another vehicle.
C) deceleration of internal organs.
D) injuries caused by flying debris.B) the front seat occupant has a cervical spine injury until proven otherwise.27. If the windshield of a wrecked vehicle is cracked or broken:
A) you should assume that the driver has a severe intracerebral hemorrhage.
B) the front seat occupant has a cervical spine injury until proven otherwise.
C) the rear seat passenger was likely thrust from the seat into the windshield.
D) it is likely that the vehicle was traveling at least 55 mph at the time of impact.D) the presence of tire skid marks at the scene.28. The MOST reliable indicator that significant energy was dissipated by braking before a motor vehicle collision is:
A) deformity to the driver's brake pedal.
B) severe damage to the front rims of the tires.
C) a trail of debris leading to the site of impact.
D) the presence of tire skid marks at the scene.B) the physical size of the patient29. The forces applied to the driver during a frontal vehicle collision will differ based on all of the following factors, EXCEPT:
A) objects inside the vehicle.
B) the physical size of the patient.
C) the design of the motor vehicle.
D) safety features of the motor vehicleA) knees.30. The initial point of bodily impact when an unrestrained passenger takes the "down and under" pathway during a frontal collision is the:
A) knees.
B) pelvis.
C) femurs.
D) abdomen.C) the anterior part of the neck may strike the steering wheel, resulting in a fractured larynx.31. When a patient takes the "up and over" pathway during a head-on collision:
A) the head takes a higher trajectory, striking the windshield and causing stretching injuries to the neck.
B) secondary injuries as the patient is ejected are often less severe than the primary injuries.
C) the anterior part of the neck may strike the steering wheel, resulting in a fractured larynx.
D) injuries to the parietal aspect of the skull are common as the head strikes the side window.A) the patient takes a deep breath just before impact and the lungs rapidly decompress at the time of impact.32. During a frontal collision, MOST pneumothoraces occur when:
A) the patient takes a deep breath just before impact and the lungs rapidly decompress at the time of impact.
B) the diaphragm rapidly ascends into the chest cavity during impact, causing an increase in intrathoracic pressure.
C) the chest strikes the steering wheel, which fractures one or more ribs and causes a perforation injury to one of the lungs.
D) the patient is ejected through the windshield, and his or her chest collides with a secondary object outside the vehicle.D) trauma to the upper extremities depends on the spatial orientation of the arms upon impact.33. During a lateral impact collision:
A) the far-side occupant, even if properly restrained, experiences double the amount of force as the driver.
B) the patient's head moves away from the object causing the impact, resulting in stretching injuries.
C) properly worn seat belts protect the passenger from pelvic trauma at the time of impact.
D) trauma to the upper extremities depends on the spatial orientation of the arms upon impact.B) the position of the headrest.34. The severity of hyperextension injuries to the neck following a rear-end collision depends MOSTLY on:
A) the proper use of seat belts.
B) the position of the headrest.
C) proper deployment of the air bags.
D) whether the driver tenses up.B) greatest deceleration35. Following a rotational impact, the MOST severely injured patient(s. will likely be found at the point of:
A) least deceleration.
B) greatest deceleration.
C) secondary impact.
D) greatest acceleration.C) Unrestrained passengers are struck with each change in direction the car makes.36. Which of the following statements regarding rollover motor vehicle crashes is correct?
A) Injuries to the passengers are usually not serious if seat belts are worn properly.
B) Ejection of the patient from the vehicle increases the chance of death by 5 times.
C) Unrestrained passengers are struck with each change in direction the car makes.
D) The restrained occupant's head and neck usually remain stationary during a rollover.A) Minimal risk of whiplash injuries after a rear-end collision37. Which of the following is NOT a benefit of a properly worn seat belt?
A) Minimal risk of whiplash injuries after a rear-end collision
B) Prevention of partial or complete ejection from the vehicle
C) Prevention of occupants from violently contacting each other
D) Distribution of deceleration energy over a greater surface areaD) Abdominal and lumbar spine38. What type of injuries will MOST likely occur if a passenger is wearing his or her lap belt above the pelvic bone during a frontal impact?
A) Pelvic and lumbar spine
B) Femur and thoracic spine
C) Kidney and thoracic spine
D) Abdominal and lumbar spineB) Air bags will provide protection from both initial and secondary impacts39. All of the following statements regarding front air bags are correct, EXCEPT:
A) Small children riding in the front seat can be killed when the air bag deploys.
B) Air bags will provide protection from both initial and secondary impacts.
C) Without the use of a seat belt, front air bags are insufficient in preventing ejection.
D) Front air bags will not activate in side impacts or impacts to the front quarter panel.B) minor skin burns40. Common air bag-related injuries include:
A) spinal fractures.
B) minor skin burns.
C) hyperflexion injuries.
D) abdominal abrasions.C) allow enough forward flexion and subsequent compression to rupture the uterus.41. Lap belts that are worn alone and too high by a pregnant woman:
A) usually do not injure the fetus because the uterus is a highly muscular organ.
B) will provide adequate protection for the uterus if the air bag properly deploys.
C) allow enough forward flexion and subsequent compression to rupture the uterus.
D) will provide equal distribution of forces and prevent forward flexion of the mother.A) protective gear worn by the rider.42. Structural protection afforded to a motorcycle rider during a crash comes from:
A) protective gear worn by the rider.
B) the main frame of the motorcycle.
C) side foot pedals and the handlebars.
D) the handlebars and large engine block.A) not protect the cervical spine43. A properly worn motorcycle helmet will:
A) not protect the cervical spine.
B) eliminate the risk of head trauma.
C) decrease the risk of a spinal injury.
D) minimize the trauma caused by secondary impacts.D) femurs and tibias44. Following a head-on collision of a motorcycle and a truck, the motorcyclist would MOST likely experience initial injury to the:
A) cervical spine.
B) chest and abdomen.
C) wrists and forearms.
D) femurs and tibias.B) cause an unpredictable combination of blunt injuries45. After a motorcyclist is ejected from his or her motorcycle, secondary collisions:
A) most commonly involve a stationary object.
B) cause an unpredictable combination of blunt injuries.
C) typically cause bilateral fractures of the femurs and tibias.
D) result in less severe injuries if the rider is wearing leather.B) adults tend to turn to the side or away from the impact.46. When an adult pedestrian is struck by a motor vehicle, lateral and posterior injuries are most common because:
A) the patient is thrust onto the hood of the vehicle.
B) adults tend to turn to the side or away from the impact.
C) the patient is thrown and lands on his or her side or back.
D) the initial impact by the bumper spins the patient to the side.C) pelvis and chest47. The second impact that occurs when an adult pedestrian is struck by a motor vehicle would MOST likely result in injuries to the:
A) head and neck.
B) hips and knees.
C) pelvis and chest.
D) lower extremities.A) be run over by the vehicle as they are propelled to the ground.48. Unlike adults, children who are struck by a motor vehicle are MORE likely to:
A) be run over by the vehicle as they are propelled to the ground.
B) experience injuries to the lower extremities from the initial impact.
C) be propelled onto the hood of the vehicle during the second impact.
D) turn away from the oncoming vehicle, resulting in posterior trauma.D) chest and abdomen strike the grille or low on the hood of the car.49. According to the Waddell triad, the second impact from a motor vehicle occurs when the:
A) head strikes the ground, resulting in skull and facial fractures.
B) car's bumper strikes the pelvis and femurs instead of the knees.
C) child is run over by the car as he or she is propelled to the ground.
D) chest and abdomen strike the grille or low on the hood of the car.A) compression or burst fractures to the lumbar spine.50. When a person falls from a significant height and lands on his or her feet, axial loading results in:
A) compression or burst fractures to the lumbar spine.
B) shearing injuries to the liver, spleen, and aorta.
C) crushing injuries to the heels and hip dislocations.
D) disc injuries to the lower cervical and upper thoracic spine.B) 15 feet51. The MOST significant fall occurs from a height greater than:
A) 10 feet.
B) 15 feet.
C) 1.5 times the patient's height.
D) 2 times the patient's height.C) involves a disruption of the skin and underlying tissues in a small, focused area.52. Unlike blunt trauma, penetrating trauma:
A) is especially common during the primary blast injury following an explosion.
B) often causes damage to a large body surface area, even from a single projectile.
C) involves a disruption of the skin and underlying tissues in a small, focused area.
D) is usually more fatal because of the severe external bleeding that accompanies it.A) The size of the attacker53. Which of the following factors is the LEAST influential in the severity of a stab wound?
A) The size of the attacker
B) The anatomic area involved
C) The length of the knife blade
D) The angle of penetrationD) upward54. Compared to stab wounds to the posterior part of the body, stab wounds to the anterior part of the body are generally:
A) downward.
B) single.
C) multiple.
D) upward.B) contaminants that were driven into the wound can cause a severe infection.55. If a person survives the initial trauma from a shotgun wound at close range:
A) nervous system damage is likely due to the internal dispersal of the pellets.
B) contaminants that were driven into the wound can cause a severe infection.
C) he or she typically dies within 24 hours secondary to liver or renal failure.
D) it is likely that only soft tissue was injured and major organs were spared.C) fires at a higher velocity.56. Compared to a handgun, a rifle:
A) is less accurate.
B) fires a single projectile.
C) fires at a higher velocity.
D) has less powerful ammunition.A) The most important factor for the seriousness of a gunshot wound is the type of tissue through which the projectile passes57. Which of the following general statements regarding gunshot wounds is correct?
A) The most important factor for the seriousness of a gunshot wound is the type of tissue through which the projectile passes.
B) Injuries from a shotgun blast are most devastating when the distance between the gun and the target is less than 100 yards.
C) Wounds to lower extremities that are not associated with a fracture or neurovascular compromise are always explored surgically.
D) Tissue of high elasticity, such as muscle, is less able to tolerate temporary cavitation than tissue of low elasticity, such as the liver.D) Tattoo marks from powder burns58. Which of the following characteristics of an entry wound indicates that the weapon was fired at close range?
A) Abrasions around the wound
B) Indentation of cutaneous tissues
C) Severe bleeding from the wound
D) Tattoo marks from powder burnsA) Exit wounds occur when the projectile's energy is not entirely dissipated along its trajectory through the body.59. Which of the following statements regarding exit wounds is correct?
A) Exit wounds occur when the projectile's energy is not entirely dissipated along its trajectory through the body.
B) Compared to entrance wounds, exit wounds are generally much smaller and typically have regular edges.
C) Despite fragmentation of the projectile, there is usually only one exit wound for each round that is fired.
D) With low-velocity gunshot wounds, the exit wound is always a mirror image of the entrance wound.D) the patient is struck by flying debris, such as shrapnel.60. During an explosion, secondary blast injuries occur when:
A) hollow organs rupture due to the pressure wave.
B) the patient is thrown against a stationary object.
C) the patient sustains severe burns from the intense heat.
D) the patient is struck by flying debris, such as shrapnel.B) Primary blast injuries are the most easily overlooked.61. Which of the following statements regarding primary blast injuries is correct?
A) Primary blast injuries are typically the most obvious injuries.
B) Primary blast injuries are the most easily overlooked.
C) Primary blast injuries are the result of flying glass or shrapnel.
D) Primary blast injuries are due entirely to intense heat.C) lessens as the person is farther away from the center of the explosion.62. The peak magnitude of the pressure wave experienced by a person:
A) causes secondary and tertiary injuries as a result of the explosion.
B) will cause less severe trauma if the person is standing beside a solid object.
C) lessens as the person is farther away from the center of the explosion.
D) causes more severe trauma if the person is in an open area during the explosion.C) farther from the explosion.63. The shock wave velocity from an explosion is slower and its duration is longer if a person is:
A) closer to the explosion.
B) standing behind a solid object.
C) farther from the explosion.
D) standing beside a solid object.A) Liver64. Which of the following organs is LEAST susceptible to pressure changes caused by an explosion?
A) Liver
B) Lungs
C) Tympanic membrane
D) Gastrointestinal tractD) bradycardia and hypotension65. A vagus nerve-mediated form of cardiogenic shock without compensatory vasoconstriction that may be seen following a blast injury would MOST likely present with:
A) syncope and hypertension.
B) hypertension and bradycardia.
C) hypotension and tachycardia.
D) bradycardia and hypotension.