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Carbon Monoxide Poisoning
A 72-year-old man was brought to the ED by paramedics with inability to move his left leg and difficulty speaking. The patient had been heating his home with a generator placed inside the house during an ice storm, and paramedics reported a strong smell of gas inside the house.
The patient was unable to describe the time of onset of his symptoms. He complained of headache, slurred speech, and inability to move his left leg. He also said he felt the urge to urinate, but was unable to do so. He denied chest pain or shortness of breath. His medical history was significant only for hypertension, which was controlled with hydrochlorothiazide and lisinopril. He admitted to smoking a few cigarettes daily, but denied any alcohol use.
On physical examination, the patient’s vital signs were: blood pressure (BP) 162/98 mm Hg; heart rate (HR), 110 beats/minute; respiratory rate (RR), 20 breaths/minute; and temperature (T), 98.6˚F. The patient had 100% oxygen (O2) saturation on 4L O2 via nasal cannula. The head, eyes, ears, nose, and throat examination was normal. There was no facial droop; his speech was slurred, but he was easily understandable. The cardiopulmonary examination revealed tachycardia without murmurs, rubs, or gallop; the lungs were clear to auscultation bilaterally. The neurological examination revealed 5/5 motor strength in the upper extremities and symmetrical; there was no pronator drift. The left leg had 2/5 motor strength compared to 5/5 in the right lower extremity. There was also fullness and tenderness over his suprapubic region.
The emergency physician (EP) ordered a complete blood count, basic metabolic profile, carboxyhemoglobin (COHb) test, electrocardiogram (ECG), portable chest X-ray (CXR), and a noncontrast computed tomography (CT) scan of the head. Since the history and physical examination suggested urinary retention, a Foley catheter was placed; a total of 1,200 cc of clear urine was obtained, after which the patient expressed a feeling of relief.
The patient’s COHb level was 8.5%. The portable CXR and CT scan of the head were both reported as normal by the radiologist. Likewise, the results of the rest of the laboratory evaluation were normal. The ECG revealed sinus tachycardia without evidence of strain or injury.
The EP diagnosed an acute cerebrovascular accident (CVA) and admitted the patient to the hospital. He did not feel that carbon monoxide (CO) contributed to the event given the low level in a cigarette smoker. After an uneventful hospital stay, the patient was transferred to a physical rehabilitation unit. He was ultimately discharged with a neurogenic bladder and weak left leg.
The patient sued the EP for negligence in the failure to diagnose CO poisoning and prompt initiation of 100% O2 therapy. The EP argued that CO poisoning had been properly ruled out and that the diagnosis of CVA was correct. The defense also claimed that even if the patient had suffered CO poisoning, the length of the exposure would have led to the same outcome. A defense verdict was returned.
Discussion
Carbon monoxide poisoning is one of the leading causes of poisoning morbidity and mortality in the United States. This is in part due to the fact that CO is a colorless, odorless, and tasteless gas. The peak incidence for CO poisoning is in the fall and winter, when people are more likely to use space heaters, wood burning stoves, or portable generators inside without adequate ventilation.
The clinical presentation of CO poisoning can range from mild (eg, headache, flu-like symptoms) to devastating (eg, coma, death). The central nervous system is the organ system that is most sensitive to CO poisoning. Symptoms can range from a dull frontal headache, dizziness, and ataxia, to syncope, seizures, focal neurological deficit, and coma. In fact, the most serious complication of CO poisoning may be persistent or delayed neurological or neurocognitive sequelae, which can occur in up to 50% of patients with symptomatic acute poisoning.1 Unfortunately, COHb levels and symptoms do not always correlate well. In fact, particular COHb levels are not predictive of symptoms or outcome.1
The treatment for CO poisoning consists of administering 100% O2 as soon as the diagnosis is considered. If 100% O2 is administered, the half-life of COHb can be reduced from 5 hours (room air) to approximately 1 hour.1 While some argue that treatment with hyperbaric O2 (HBO) therapy should be considered standard of care, it has not yet been determined which patient population benefits from HBO therapy; moreover, there is currently no established optimum timing of therapy. Regardless, the jury came to the correct decision in this case as it is impossible to determine, with any degree of medical certainty, if the patient’s neurological deficits were due to the natural course of an ischemic stroke, or if CO contributed to or was the sole cause of the CVA.
Death in the Emergency Department
A 43-year-old man presented to the ED with the chief complaint of a lower lip laceration. The patient stated he had gotten into an altercation with his girlfriend just prior to arrival. She had punched the patient in the face with her fist, resulting in the lip laceration. The patient denied any loss of consciousness or other pain. He did, however, smell of alcohol and was emotionally labile, crying one moment and yelling the next.
The patient was instructed to remove all of his clothes, change into a hospital gown and give all of his belongings to hospital security. He removed his clothes, but refused to turn them over to security. This prompted a physical altercation between the patient and hospital security. Three hospital security guards wrestled the patient to the ground and placed him face down; one guard placed the patient in a choke hold while the other two guards sat on top of him. Within a few moments, the patient became unresponsive. He was placed immediately on a stretcher and intubated by the EP. After successful intubation and bagging with 100% O2, the patient regained a palpable pulse, but remained unresponsive.
The patient was admitted to the intensive care unit, but never regained consciousness and died 5 days later. The cause of death was thought to be anoxic brain injury due to asphyxiation. The family of the patient sued the hospital and the EP for causing asphyxiation and death in this patient seeking medical care. The hospital denied responsibility for the death because the patient both instigated the altercation and had a preexisting heart condition. According to published reports, a $2.5 million settlement was reached.
Discussion
This unfortunate case did not involve the EP; all of the important events transpired prior to the EP’s initial interaction with the patient. There are not enough details to explain how this situation escalated so rapidly, or why hospital security felt this was the best way to subdue the patient.
Unfortunately, EPs are no strangers to agitated patients. Behavioral emergencies account for approximately 5% of all ED visits, and these usually involve some form of violence or agitation.1 Every physician and nurse working in the ED must be prepared to deal with patients who have the potential to become violent. Clearly, training of all patient-care personnel to handle such patients in the ED is important to ensuring both staff and patient safety. Having the patient undress and change into a hospital gown is the correct first step. This allows for removal of real or potential weapons, and makes it much less likely for the patient to leave before his or her evaluation and management is complete. Doing this properly, however, is key. Providing the patient with a warm blanket or food, or just talking to him or her in a calm and reassuring voice, can often prevent escalation. Simply arguing with the patient rarely works, and often has the opposite desired effect.
If the situation continues to escalate, and it appears either physical or chemical restraint will be necessary, a “show of force” should be made. A restraint team consisting of at least five trained members should be assembled, with the EP acting as the team leader. The team should all enter the room at the same time, explain what will happen, and then move quickly.1 The leader should move to the head of the bed and direct the team, while the remaining four members each take a limb. To preserve the physician-patient relationship, it is best if the EP is not actively involved in placing the physical restraints.
The choke hold should only be considered as a method of last resort. Many police departments in the country prohibit use of the choke hold because of complications such as those observed in this case. The use of choke holds became a topic of intense debate this summer with the death of Eric Garner in Staten Island, New York; it was thought that his pre-existing conditions of obesity, asthma, and heart disease were all aggravated by the choke hold. Although obese patients are often at a higher risk for complications due to pre-existing issues with adequate oxygenation, it is unclear whether the patient in this case was obese.
An alternative strategy in handling an agitated patient would be the use of a taser by trained security personnel. In one study, 99.75% of tasered patients had no significant injury as a result of the device.2 In 2009, the American Medical Association found that tasers, “when used appropriately, can save lives during interventions that would have otherwise involved the use of deadly force.” While the safety of patients and the ED staff (nurses, physicians, and technicians) is paramount, the clinician should always adhere to the principle of “primum non nocere”—“first, do no harm.”
Reference - Carbon Monoxide Poisoning
- Tomaszewski C: Carbon monoxide. In: Nelson LS, Lewin NA, Howland MA, Hoffman RS, Goldfrank LR, Flomenbaum NE, eds. Goldfrank’s Toxicologic Emergencies. 9th ed. New York, NY: McGraw Hill; 2011:1658.
Reference - Death in the Emergency Department
- Rossi J, Swan MC, Issacs ED. The violent or agitated patient. Emerg Med Clin North Am. 2010;28(1):235-256.
- Bozeman WP, Hauda WE 2nd, Heck JJ, Graham DD Jr, Martin BP, Winslow JE. Safety and injury profile of conducted electrical weapons used by law enforcement officers against criminal suspects. Ann Emerg Med. 2009;53(4):480-489.
Carbon Monoxide Poisoning
A 72-year-old man was brought to the ED by paramedics with inability to move his left leg and difficulty speaking. The patient had been heating his home with a generator placed inside the house during an ice storm, and paramedics reported a strong smell of gas inside the house.
The patient was unable to describe the time of onset of his symptoms. He complained of headache, slurred speech, and inability to move his left leg. He also said he felt the urge to urinate, but was unable to do so. He denied chest pain or shortness of breath. His medical history was significant only for hypertension, which was controlled with hydrochlorothiazide and lisinopril. He admitted to smoking a few cigarettes daily, but denied any alcohol use.
On physical examination, the patient’s vital signs were: blood pressure (BP) 162/98 mm Hg; heart rate (HR), 110 beats/minute; respiratory rate (RR), 20 breaths/minute; and temperature (T), 98.6˚F. The patient had 100% oxygen (O2) saturation on 4L O2 via nasal cannula. The head, eyes, ears, nose, and throat examination was normal. There was no facial droop; his speech was slurred, but he was easily understandable. The cardiopulmonary examination revealed tachycardia without murmurs, rubs, or gallop; the lungs were clear to auscultation bilaterally. The neurological examination revealed 5/5 motor strength in the upper extremities and symmetrical; there was no pronator drift. The left leg had 2/5 motor strength compared to 5/5 in the right lower extremity. There was also fullness and tenderness over his suprapubic region.
The emergency physician (EP) ordered a complete blood count, basic metabolic profile, carboxyhemoglobin (COHb) test, electrocardiogram (ECG), portable chest X-ray (CXR), and a noncontrast computed tomography (CT) scan of the head. Since the history and physical examination suggested urinary retention, a Foley catheter was placed; a total of 1,200 cc of clear urine was obtained, after which the patient expressed a feeling of relief.
The patient’s COHb level was 8.5%. The portable CXR and CT scan of the head were both reported as normal by the radiologist. Likewise, the results of the rest of the laboratory evaluation were normal. The ECG revealed sinus tachycardia without evidence of strain or injury.
The EP diagnosed an acute cerebrovascular accident (CVA) and admitted the patient to the hospital. He did not feel that carbon monoxide (CO) contributed to the event given the low level in a cigarette smoker. After an uneventful hospital stay, the patient was transferred to a physical rehabilitation unit. He was ultimately discharged with a neurogenic bladder and weak left leg.
The patient sued the EP for negligence in the failure to diagnose CO poisoning and prompt initiation of 100% O2 therapy. The EP argued that CO poisoning had been properly ruled out and that the diagnosis of CVA was correct. The defense also claimed that even if the patient had suffered CO poisoning, the length of the exposure would have led to the same outcome. A defense verdict was returned.
Discussion
Carbon monoxide poisoning is one of the leading causes of poisoning morbidity and mortality in the United States. This is in part due to the fact that CO is a colorless, odorless, and tasteless gas. The peak incidence for CO poisoning is in the fall and winter, when people are more likely to use space heaters, wood burning stoves, or portable generators inside without adequate ventilation.
The clinical presentation of CO poisoning can range from mild (eg, headache, flu-like symptoms) to devastating (eg, coma, death). The central nervous system is the organ system that is most sensitive to CO poisoning. Symptoms can range from a dull frontal headache, dizziness, and ataxia, to syncope, seizures, focal neurological deficit, and coma. In fact, the most serious complication of CO poisoning may be persistent or delayed neurological or neurocognitive sequelae, which can occur in up to 50% of patients with symptomatic acute poisoning.1 Unfortunately, COHb levels and symptoms do not always correlate well. In fact, particular COHb levels are not predictive of symptoms or outcome.1
The treatment for CO poisoning consists of administering 100% O2 as soon as the diagnosis is considered. If 100% O2 is administered, the half-life of COHb can be reduced from 5 hours (room air) to approximately 1 hour.1 While some argue that treatment with hyperbaric O2 (HBO) therapy should be considered standard of care, it has not yet been determined which patient population benefits from HBO therapy; moreover, there is currently no established optimum timing of therapy. Regardless, the jury came to the correct decision in this case as it is impossible to determine, with any degree of medical certainty, if the patient’s neurological deficits were due to the natural course of an ischemic stroke, or if CO contributed to or was the sole cause of the CVA.
Death in the Emergency Department
A 43-year-old man presented to the ED with the chief complaint of a lower lip laceration. The patient stated he had gotten into an altercation with his girlfriend just prior to arrival. She had punched the patient in the face with her fist, resulting in the lip laceration. The patient denied any loss of consciousness or other pain. He did, however, smell of alcohol and was emotionally labile, crying one moment and yelling the next.
The patient was instructed to remove all of his clothes, change into a hospital gown and give all of his belongings to hospital security. He removed his clothes, but refused to turn them over to security. This prompted a physical altercation between the patient and hospital security. Three hospital security guards wrestled the patient to the ground and placed him face down; one guard placed the patient in a choke hold while the other two guards sat on top of him. Within a few moments, the patient became unresponsive. He was placed immediately on a stretcher and intubated by the EP. After successful intubation and bagging with 100% O2, the patient regained a palpable pulse, but remained unresponsive.
The patient was admitted to the intensive care unit, but never regained consciousness and died 5 days later. The cause of death was thought to be anoxic brain injury due to asphyxiation. The family of the patient sued the hospital and the EP for causing asphyxiation and death in this patient seeking medical care. The hospital denied responsibility for the death because the patient both instigated the altercation and had a preexisting heart condition. According to published reports, a $2.5 million settlement was reached.
Discussion
This unfortunate case did not involve the EP; all of the important events transpired prior to the EP’s initial interaction with the patient. There are not enough details to explain how this situation escalated so rapidly, or why hospital security felt this was the best way to subdue the patient.
Unfortunately, EPs are no strangers to agitated patients. Behavioral emergencies account for approximately 5% of all ED visits, and these usually involve some form of violence or agitation.1 Every physician and nurse working in the ED must be prepared to deal with patients who have the potential to become violent. Clearly, training of all patient-care personnel to handle such patients in the ED is important to ensuring both staff and patient safety. Having the patient undress and change into a hospital gown is the correct first step. This allows for removal of real or potential weapons, and makes it much less likely for the patient to leave before his or her evaluation and management is complete. Doing this properly, however, is key. Providing the patient with a warm blanket or food, or just talking to him or her in a calm and reassuring voice, can often prevent escalation. Simply arguing with the patient rarely works, and often has the opposite desired effect.
If the situation continues to escalate, and it appears either physical or chemical restraint will be necessary, a “show of force” should be made. A restraint team consisting of at least five trained members should be assembled, with the EP acting as the team leader. The team should all enter the room at the same time, explain what will happen, and then move quickly.1 The leader should move to the head of the bed and direct the team, while the remaining four members each take a limb. To preserve the physician-patient relationship, it is best if the EP is not actively involved in placing the physical restraints.
The choke hold should only be considered as a method of last resort. Many police departments in the country prohibit use of the choke hold because of complications such as those observed in this case. The use of choke holds became a topic of intense debate this summer with the death of Eric Garner in Staten Island, New York; it was thought that his pre-existing conditions of obesity, asthma, and heart disease were all aggravated by the choke hold. Although obese patients are often at a higher risk for complications due to pre-existing issues with adequate oxygenation, it is unclear whether the patient in this case was obese.
An alternative strategy in handling an agitated patient would be the use of a taser by trained security personnel. In one study, 99.75% of tasered patients had no significant injury as a result of the device.2 In 2009, the American Medical Association found that tasers, “when used appropriately, can save lives during interventions that would have otherwise involved the use of deadly force.” While the safety of patients and the ED staff (nurses, physicians, and technicians) is paramount, the clinician should always adhere to the principle of “primum non nocere”—“first, do no harm.”
Carbon Monoxide Poisoning
A 72-year-old man was brought to the ED by paramedics with inability to move his left leg and difficulty speaking. The patient had been heating his home with a generator placed inside the house during an ice storm, and paramedics reported a strong smell of gas inside the house.
The patient was unable to describe the time of onset of his symptoms. He complained of headache, slurred speech, and inability to move his left leg. He also said he felt the urge to urinate, but was unable to do so. He denied chest pain or shortness of breath. His medical history was significant only for hypertension, which was controlled with hydrochlorothiazide and lisinopril. He admitted to smoking a few cigarettes daily, but denied any alcohol use.
On physical examination, the patient’s vital signs were: blood pressure (BP) 162/98 mm Hg; heart rate (HR), 110 beats/minute; respiratory rate (RR), 20 breaths/minute; and temperature (T), 98.6˚F. The patient had 100% oxygen (O2) saturation on 4L O2 via nasal cannula. The head, eyes, ears, nose, and throat examination was normal. There was no facial droop; his speech was slurred, but he was easily understandable. The cardiopulmonary examination revealed tachycardia without murmurs, rubs, or gallop; the lungs were clear to auscultation bilaterally. The neurological examination revealed 5/5 motor strength in the upper extremities and symmetrical; there was no pronator drift. The left leg had 2/5 motor strength compared to 5/5 in the right lower extremity. There was also fullness and tenderness over his suprapubic region.
The emergency physician (EP) ordered a complete blood count, basic metabolic profile, carboxyhemoglobin (COHb) test, electrocardiogram (ECG), portable chest X-ray (CXR), and a noncontrast computed tomography (CT) scan of the head. Since the history and physical examination suggested urinary retention, a Foley catheter was placed; a total of 1,200 cc of clear urine was obtained, after which the patient expressed a feeling of relief.
The patient’s COHb level was 8.5%. The portable CXR and CT scan of the head were both reported as normal by the radiologist. Likewise, the results of the rest of the laboratory evaluation were normal. The ECG revealed sinus tachycardia without evidence of strain or injury.
The EP diagnosed an acute cerebrovascular accident (CVA) and admitted the patient to the hospital. He did not feel that carbon monoxide (CO) contributed to the event given the low level in a cigarette smoker. After an uneventful hospital stay, the patient was transferred to a physical rehabilitation unit. He was ultimately discharged with a neurogenic bladder and weak left leg.
The patient sued the EP for negligence in the failure to diagnose CO poisoning and prompt initiation of 100% O2 therapy. The EP argued that CO poisoning had been properly ruled out and that the diagnosis of CVA was correct. The defense also claimed that even if the patient had suffered CO poisoning, the length of the exposure would have led to the same outcome. A defense verdict was returned.
Discussion
Carbon monoxide poisoning is one of the leading causes of poisoning morbidity and mortality in the United States. This is in part due to the fact that CO is a colorless, odorless, and tasteless gas. The peak incidence for CO poisoning is in the fall and winter, when people are more likely to use space heaters, wood burning stoves, or portable generators inside without adequate ventilation.
The clinical presentation of CO poisoning can range from mild (eg, headache, flu-like symptoms) to devastating (eg, coma, death). The central nervous system is the organ system that is most sensitive to CO poisoning. Symptoms can range from a dull frontal headache, dizziness, and ataxia, to syncope, seizures, focal neurological deficit, and coma. In fact, the most serious complication of CO poisoning may be persistent or delayed neurological or neurocognitive sequelae, which can occur in up to 50% of patients with symptomatic acute poisoning.1 Unfortunately, COHb levels and symptoms do not always correlate well. In fact, particular COHb levels are not predictive of symptoms or outcome.1
The treatment for CO poisoning consists of administering 100% O2 as soon as the diagnosis is considered. If 100% O2 is administered, the half-life of COHb can be reduced from 5 hours (room air) to approximately 1 hour.1 While some argue that treatment with hyperbaric O2 (HBO) therapy should be considered standard of care, it has not yet been determined which patient population benefits from HBO therapy; moreover, there is currently no established optimum timing of therapy. Regardless, the jury came to the correct decision in this case as it is impossible to determine, with any degree of medical certainty, if the patient’s neurological deficits were due to the natural course of an ischemic stroke, or if CO contributed to or was the sole cause of the CVA.
Death in the Emergency Department
A 43-year-old man presented to the ED with the chief complaint of a lower lip laceration. The patient stated he had gotten into an altercation with his girlfriend just prior to arrival. She had punched the patient in the face with her fist, resulting in the lip laceration. The patient denied any loss of consciousness or other pain. He did, however, smell of alcohol and was emotionally labile, crying one moment and yelling the next.
The patient was instructed to remove all of his clothes, change into a hospital gown and give all of his belongings to hospital security. He removed his clothes, but refused to turn them over to security. This prompted a physical altercation between the patient and hospital security. Three hospital security guards wrestled the patient to the ground and placed him face down; one guard placed the patient in a choke hold while the other two guards sat on top of him. Within a few moments, the patient became unresponsive. He was placed immediately on a stretcher and intubated by the EP. After successful intubation and bagging with 100% O2, the patient regained a palpable pulse, but remained unresponsive.
The patient was admitted to the intensive care unit, but never regained consciousness and died 5 days later. The cause of death was thought to be anoxic brain injury due to asphyxiation. The family of the patient sued the hospital and the EP for causing asphyxiation and death in this patient seeking medical care. The hospital denied responsibility for the death because the patient both instigated the altercation and had a preexisting heart condition. According to published reports, a $2.5 million settlement was reached.
Discussion
This unfortunate case did not involve the EP; all of the important events transpired prior to the EP’s initial interaction with the patient. There are not enough details to explain how this situation escalated so rapidly, or why hospital security felt this was the best way to subdue the patient.
Unfortunately, EPs are no strangers to agitated patients. Behavioral emergencies account for approximately 5% of all ED visits, and these usually involve some form of violence or agitation.1 Every physician and nurse working in the ED must be prepared to deal with patients who have the potential to become violent. Clearly, training of all patient-care personnel to handle such patients in the ED is important to ensuring both staff and patient safety. Having the patient undress and change into a hospital gown is the correct first step. This allows for removal of real or potential weapons, and makes it much less likely for the patient to leave before his or her evaluation and management is complete. Doing this properly, however, is key. Providing the patient with a warm blanket or food, or just talking to him or her in a calm and reassuring voice, can often prevent escalation. Simply arguing with the patient rarely works, and often has the opposite desired effect.
If the situation continues to escalate, and it appears either physical or chemical restraint will be necessary, a “show of force” should be made. A restraint team consisting of at least five trained members should be assembled, with the EP acting as the team leader. The team should all enter the room at the same time, explain what will happen, and then move quickly.1 The leader should move to the head of the bed and direct the team, while the remaining four members each take a limb. To preserve the physician-patient relationship, it is best if the EP is not actively involved in placing the physical restraints.
The choke hold should only be considered as a method of last resort. Many police departments in the country prohibit use of the choke hold because of complications such as those observed in this case. The use of choke holds became a topic of intense debate this summer with the death of Eric Garner in Staten Island, New York; it was thought that his pre-existing conditions of obesity, asthma, and heart disease were all aggravated by the choke hold. Although obese patients are often at a higher risk for complications due to pre-existing issues with adequate oxygenation, it is unclear whether the patient in this case was obese.
An alternative strategy in handling an agitated patient would be the use of a taser by trained security personnel. In one study, 99.75% of tasered patients had no significant injury as a result of the device.2 In 2009, the American Medical Association found that tasers, “when used appropriately, can save lives during interventions that would have otherwise involved the use of deadly force.” While the safety of patients and the ED staff (nurses, physicians, and technicians) is paramount, the clinician should always adhere to the principle of “primum non nocere”—“first, do no harm.”
Reference - Carbon Monoxide Poisoning
- Tomaszewski C: Carbon monoxide. In: Nelson LS, Lewin NA, Howland MA, Hoffman RS, Goldfrank LR, Flomenbaum NE, eds. Goldfrank’s Toxicologic Emergencies. 9th ed. New York, NY: McGraw Hill; 2011:1658.
Reference - Death in the Emergency Department
- Rossi J, Swan MC, Issacs ED. The violent or agitated patient. Emerg Med Clin North Am. 2010;28(1):235-256.
- Bozeman WP, Hauda WE 2nd, Heck JJ, Graham DD Jr, Martin BP, Winslow JE. Safety and injury profile of conducted electrical weapons used by law enforcement officers against criminal suspects. Ann Emerg Med. 2009;53(4):480-489.
Reference - Carbon Monoxide Poisoning
- Tomaszewski C: Carbon monoxide. In: Nelson LS, Lewin NA, Howland MA, Hoffman RS, Goldfrank LR, Flomenbaum NE, eds. Goldfrank’s Toxicologic Emergencies. 9th ed. New York, NY: McGraw Hill; 2011:1658.
Reference - Death in the Emergency Department
- Rossi J, Swan MC, Issacs ED. The violent or agitated patient. Emerg Med Clin North Am. 2010;28(1):235-256.
- Bozeman WP, Hauda WE 2nd, Heck JJ, Graham DD Jr, Martin BP, Winslow JE. Safety and injury profile of conducted electrical weapons used by law enforcement officers against criminal suspects. Ann Emerg Med. 2009;53(4):480-489.