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Malpractice Counsel: Aneurysm, Falls

 

Sued If You Do, Sued If You Don’t

A 52-year-old woman presented to the ED with complaints of abdominal pain, vaginal bleeding, and left leg pain. The patient stated that the symptoms, which she had been experiencing over the past few days, were becoming progressively worse. She denied fevers, chills, nausea, vomiting, diarrhea, or constipation. Her surgical history was
remarkable for an appendectomy 30 years prior. The patient was not currently on any medications. Regarding social history, she denied alcohol or tobacco use. She also denied any allergies to medications.

On physical examination, all of the patient’s vital signs were normal. The head, eyes, ears, nose, and throat, and lung and heart examinations were also normal; however, on abdominal examination, she exhibited tenderness throughout the lower abdomen, but without guarding or rebound. There was no costovertebral angle tenderness of the back. The pelvic examination was remarkable for a small amount of blood from the cervical os and a slightly enlarged uterus. The adnexa were normal and without tenderness.

The emergency physician (EP) ordered a complete blood count, basic metabolic profile, and urinalysis. An intravenous (IV) catheter was placed, and the patient was administered an IV analgesic and antiemetic. A normal saline drip of 125 cc per hour was also ordered. In view of the abdominal pain and tenderness, the EP ordered a computed tomography (CT) scan of the abdomen and pelvis with IV contrast. Within a few minutes of receiving the IV contrast, the patient experienced a sharp increase in blood pressure, followed by an abrupt change in mental status. A stat noncontrast head CT scan revealed a subarachnoid hemorrhage (SAH), and a CT angiogram (CTA) of the head revealed a ruptured cerebral aneurysm. Although the patient was taken immediately to the operating room by neurosurgery services, she had permanent left-sided weakness; as a result, she was no longer able to perform her previous type of work.

The patient sued both the EP and the hospital, claiming that the CT scan was unnecessary and had it not been performed, she would not have experienced the stroke. The defense asserted that the CT scan with contrast was appropriate given the patient’s symptoms and physical findings, and that the contrast dye used was not the cause of the stroke. The jury awarded the plaintiff $3.6 million.

Discussion

This case is unique in that the EP was sued for ordering a CT scan. In the overwhelming majority of malpractice cases, EPs are sued for not obtaining a certain test—frequently a CT scan. It does not appear the jury in this case was correct in their judgment as there was no conceivable way the EP could have anticipated this type of unusual reaction, especially in a patient with no history of medication allergies.

This jury ruling places EPs in an untenable situation: If they order a test and anything bad happens, they will be sued. If they do not order a test and something bad happens, they will be sued. In legal theory, there must be proximal cause between what the physician did (ie, order the CT scan) and the bad outcome, or negligence (ie, SAH). For this case, the two events seem true-true and unrelated. The contrast dye clearly did not cause the cerebral aneurysm, which was a preexisting condition.

Emergency physicians are very familiar with the contraindications for obtaining studies with IV contrast dye. The most important concern is for some type of adverse reaction to the iodinated contrast media (ICM). While such reactions are typically lumped under “allergy,” this term is actually incorrect. Rather, two types of reactions can occur following exposure to ICM: idiosyncratic (more common) and nonidiosyncratic.1 A more accurate description of the idiosyncratic reaction is anaphylactoid. This type of reaction occurs within a few minutes of exposure, and no previous sensitization is necessary. Symptoms are classified as mild, moderate, or severe (Table).

Nonidiosyncratic reactions are due to direct toxic or osmolar effects. Symptoms include bradycardia, hypotension, vasovagal reactions, sensation of warmth, metallic taste in the mouth, and nausea and vomiting.1

Ironically, the majority of adverse reactions to ICM involve hypotension, not hypertension. This includes cardiovascular reactions to ICM, which typically involve bradycardia, peripheral vasodilation, and hypotension.1 The incidence and severity of an adverse reaction to ICM also depends on whether ionic or nonionic ICM was used. (Unfortunately, the type of ICM administered to the patient in this case was not disclosed.)

The incidence and severity of adverse reactions to ICM are less with nonionic compared to ionic ICM. More than 90% of adverse reactions to nonionic ICM are anaphlyactoid.2 In general, adverse reactions occur in 4% to 12% of patients receiving ionic ICM compared to 1% to 3% of those receiving nonionic ICM.2 In a study of more than 300,000 contrast administrations, Katayama et al,3 found the overall risk for severe adverse reaction to be 0.2% for ionic ICM compared to 0.04% for nonionic ICM.

 

 

The bottom line in this case is that the patient’s event was a very rare and completely unforeseen result temporally related to the contrast CT scan ordered to evaluate the etiology of this patient’s abdominal pain.

  

 

Falls

A 67-year-old woman with a chief complaint of lightheadedness and dizziness was transferred from a dialysis center to the ED by emergency medical services (EMS). She stated that her symptoms came on suddenly right after she had completed her scheduled dialysis.

As the patient was being rolled on a stretcher from the ambulance to the ED entrance, the stretcher collapsed and tipped over, causing the patient to fall and strike her head on the pavement. The patient suffered a severe intraparenchymal brain hemorrhage, requiring intubation, ventilation, and admission to the intensive care unit. On the second day of admission, the patient’s family signed “do not resuscitate” orders and, in accordance with their wishes, life support was withdrawn and the patient died.

The family sued the ambulance company, stating the patient’s death was a direct result of negligent training and supervision of EMS personnel. The plaintiff further claimed the incident was caused by the failure to properly secure a locking mechanism on the stretcher, which caused it to tip. The ambulance company disputed the liability, asserting that what occurred was a tragic accident, not negligence. The jury found in favor of the plaintiff and awarded $1.5 million.

Discussion

While this is not a true ED case since the patient’s fall occurred just outside the ED, it does emphasize the importance of falls and the challenges of fall prevention within the hospital—including the ED. The incidence of falls within hospitals ranges from 1.3 to 9 falls per 1,000 occupied bed days (OBD).1 This incidence, however, is not evenly distributed across hospital departments. Not surprisingly, the highest rates are reported in areas such as geriatric, neurology, and rehabilitation units.1 The highest rates, 17 to 67 per 1,000 OBDs, appear to occur in geropsychiatric units,2,3 and a significant number of such patient falls are serious, with some type of injury resulting from the fall in 30% to 51% of cases.1 The percentage of falls resulting in a fracture ranges from 1% to 3%.1

As previously noted, the ED is not immune to patient falls. A review of one academic medical center ED with 75,000 annual visits found an incidence of 1.3 falls per month, 31% of which resulted in patient injury.4

Some relatively simple steps can be taken to reduce the incidence of falls. For example, identifying patients at high risk of falling (eg, patients who are elderly, confused, dizzy) and ensuring other care-team workers are aware of the risk, can be very helpful.4,5 In addition, brightly colored signs on the stretcher or colored wrist bands indicating the patient is at high-risk for falls helps to engage the entire healthcare team in fall-prevention measures.4 Sitters with high-risk patients can also help minimize fall risk.

Although side rails on hospital beds are intended to increase patient safety, their use is not without controversy. Most hospitals require staff to have side rails up for obvious reasons. Some hospitals, however, are concerned that the use of side rails can cause a fall from a higher position and increase the risk of injury when a patient attempts to get out of bed. Additional important steps include ensuring that all wet surfaces are quickly identified and cleaned, and making sure everyone is aware of the importance of fall-prevention measures.

 The employment of the abovementioned fall-prevention measures is especially important in relation to the aging US population. As the number of elderly patients in the United States continues to grow, the risk of patient falls is expected to increase. Therefore, hospitals should be proactive in implementing preventive measures to reduce the risk of patient falls and injury.  

References

- Sued If You Do, Sued If You Don't

 

  1. Siddiqi NH, Lin EC. Contrast medium reactions. http://emedicine.medscape.com/article. Updated September 29, 2015. Accessed October 8, 2015.
  2. Cochran ST. Anaphylactoid reactions to radiocontrast media. Curr Allergy Asthma Rep. 2005;5(1):28-31.
  3. Katayama H, Yamaguchi K, Kozuka T, Takashima T, Seez P, Matsuura K. Adverse reactions to ionic and nonionic contrast media. A report from the Japanese Committee on the Safety of Contrast Media. Radiology. 1990;175(3):621-128.

- Falls 

 

  1. Oliver D, Healey F, Haines TP. Preventing falls and fall-related injuries in hospitals. Clin Geriatr Med. 2010;26(4):645-692.
  2. Nyberg L, Gustafson Y, Janson A, Sandman PO, Eriksson S. Incidence of falls in three different types of geriatric care. A Swedish prospective study. Scand J Soc Med. 1997;25(1):8-13.
  3. Weintraub D, Spurlock M. Change in the rate of restraint use and falls on a psychogeriatric inpatient unit: impact of the health care financing administration’s new restraint and seclusion standards for hospitals. J Geriatr Psychiatry Neurol. 2002;15(2):91-94.
  4. Rosenthal A. Preventing falls in the emergency department: a program that works (Abstract). Virginia Henderson Global Nursing e-Repository Web site. http://www.nursinglibrary.org/vhl/handle/10755/162669. Accessed October 7, 2015.
  5. Alexander D, Kinsley TL, Waszinski C. Journey to a safe environment: fall precaution in an emergency department at a level I trauma center. J Emerg Nurs. 2013;39(4):346-352.
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Sued If You Do, Sued If You Don’t

A 52-year-old woman presented to the ED with complaints of abdominal pain, vaginal bleeding, and left leg pain. The patient stated that the symptoms, which she had been experiencing over the past few days, were becoming progressively worse. She denied fevers, chills, nausea, vomiting, diarrhea, or constipation. Her surgical history was
remarkable for an appendectomy 30 years prior. The patient was not currently on any medications. Regarding social history, she denied alcohol or tobacco use. She also denied any allergies to medications.

On physical examination, all of the patient’s vital signs were normal. The head, eyes, ears, nose, and throat, and lung and heart examinations were also normal; however, on abdominal examination, she exhibited tenderness throughout the lower abdomen, but without guarding or rebound. There was no costovertebral angle tenderness of the back. The pelvic examination was remarkable for a small amount of blood from the cervical os and a slightly enlarged uterus. The adnexa were normal and without tenderness.

The emergency physician (EP) ordered a complete blood count, basic metabolic profile, and urinalysis. An intravenous (IV) catheter was placed, and the patient was administered an IV analgesic and antiemetic. A normal saline drip of 125 cc per hour was also ordered. In view of the abdominal pain and tenderness, the EP ordered a computed tomography (CT) scan of the abdomen and pelvis with IV contrast. Within a few minutes of receiving the IV contrast, the patient experienced a sharp increase in blood pressure, followed by an abrupt change in mental status. A stat noncontrast head CT scan revealed a subarachnoid hemorrhage (SAH), and a CT angiogram (CTA) of the head revealed a ruptured cerebral aneurysm. Although the patient was taken immediately to the operating room by neurosurgery services, she had permanent left-sided weakness; as a result, she was no longer able to perform her previous type of work.

The patient sued both the EP and the hospital, claiming that the CT scan was unnecessary and had it not been performed, she would not have experienced the stroke. The defense asserted that the CT scan with contrast was appropriate given the patient’s symptoms and physical findings, and that the contrast dye used was not the cause of the stroke. The jury awarded the plaintiff $3.6 million.

Discussion

This case is unique in that the EP was sued for ordering a CT scan. In the overwhelming majority of malpractice cases, EPs are sued for not obtaining a certain test—frequently a CT scan. It does not appear the jury in this case was correct in their judgment as there was no conceivable way the EP could have anticipated this type of unusual reaction, especially in a patient with no history of medication allergies.

This jury ruling places EPs in an untenable situation: If they order a test and anything bad happens, they will be sued. If they do not order a test and something bad happens, they will be sued. In legal theory, there must be proximal cause between what the physician did (ie, order the CT scan) and the bad outcome, or negligence (ie, SAH). For this case, the two events seem true-true and unrelated. The contrast dye clearly did not cause the cerebral aneurysm, which was a preexisting condition.

Emergency physicians are very familiar with the contraindications for obtaining studies with IV contrast dye. The most important concern is for some type of adverse reaction to the iodinated contrast media (ICM). While such reactions are typically lumped under “allergy,” this term is actually incorrect. Rather, two types of reactions can occur following exposure to ICM: idiosyncratic (more common) and nonidiosyncratic.1 A more accurate description of the idiosyncratic reaction is anaphylactoid. This type of reaction occurs within a few minutes of exposure, and no previous sensitization is necessary. Symptoms are classified as mild, moderate, or severe (Table).

Nonidiosyncratic reactions are due to direct toxic or osmolar effects. Symptoms include bradycardia, hypotension, vasovagal reactions, sensation of warmth, metallic taste in the mouth, and nausea and vomiting.1

Ironically, the majority of adverse reactions to ICM involve hypotension, not hypertension. This includes cardiovascular reactions to ICM, which typically involve bradycardia, peripheral vasodilation, and hypotension.1 The incidence and severity of an adverse reaction to ICM also depends on whether ionic or nonionic ICM was used. (Unfortunately, the type of ICM administered to the patient in this case was not disclosed.)

The incidence and severity of adverse reactions to ICM are less with nonionic compared to ionic ICM. More than 90% of adverse reactions to nonionic ICM are anaphlyactoid.2 In general, adverse reactions occur in 4% to 12% of patients receiving ionic ICM compared to 1% to 3% of those receiving nonionic ICM.2 In a study of more than 300,000 contrast administrations, Katayama et al,3 found the overall risk for severe adverse reaction to be 0.2% for ionic ICM compared to 0.04% for nonionic ICM.

 

 

The bottom line in this case is that the patient’s event was a very rare and completely unforeseen result temporally related to the contrast CT scan ordered to evaluate the etiology of this patient’s abdominal pain.

  

 

Falls

A 67-year-old woman with a chief complaint of lightheadedness and dizziness was transferred from a dialysis center to the ED by emergency medical services (EMS). She stated that her symptoms came on suddenly right after she had completed her scheduled dialysis.

As the patient was being rolled on a stretcher from the ambulance to the ED entrance, the stretcher collapsed and tipped over, causing the patient to fall and strike her head on the pavement. The patient suffered a severe intraparenchymal brain hemorrhage, requiring intubation, ventilation, and admission to the intensive care unit. On the second day of admission, the patient’s family signed “do not resuscitate” orders and, in accordance with their wishes, life support was withdrawn and the patient died.

The family sued the ambulance company, stating the patient’s death was a direct result of negligent training and supervision of EMS personnel. The plaintiff further claimed the incident was caused by the failure to properly secure a locking mechanism on the stretcher, which caused it to tip. The ambulance company disputed the liability, asserting that what occurred was a tragic accident, not negligence. The jury found in favor of the plaintiff and awarded $1.5 million.

Discussion

While this is not a true ED case since the patient’s fall occurred just outside the ED, it does emphasize the importance of falls and the challenges of fall prevention within the hospital—including the ED. The incidence of falls within hospitals ranges from 1.3 to 9 falls per 1,000 occupied bed days (OBD).1 This incidence, however, is not evenly distributed across hospital departments. Not surprisingly, the highest rates are reported in areas such as geriatric, neurology, and rehabilitation units.1 The highest rates, 17 to 67 per 1,000 OBDs, appear to occur in geropsychiatric units,2,3 and a significant number of such patient falls are serious, with some type of injury resulting from the fall in 30% to 51% of cases.1 The percentage of falls resulting in a fracture ranges from 1% to 3%.1

As previously noted, the ED is not immune to patient falls. A review of one academic medical center ED with 75,000 annual visits found an incidence of 1.3 falls per month, 31% of which resulted in patient injury.4

Some relatively simple steps can be taken to reduce the incidence of falls. For example, identifying patients at high risk of falling (eg, patients who are elderly, confused, dizzy) and ensuring other care-team workers are aware of the risk, can be very helpful.4,5 In addition, brightly colored signs on the stretcher or colored wrist bands indicating the patient is at high-risk for falls helps to engage the entire healthcare team in fall-prevention measures.4 Sitters with high-risk patients can also help minimize fall risk.

Although side rails on hospital beds are intended to increase patient safety, their use is not without controversy. Most hospitals require staff to have side rails up for obvious reasons. Some hospitals, however, are concerned that the use of side rails can cause a fall from a higher position and increase the risk of injury when a patient attempts to get out of bed. Additional important steps include ensuring that all wet surfaces are quickly identified and cleaned, and making sure everyone is aware of the importance of fall-prevention measures.

 The employment of the abovementioned fall-prevention measures is especially important in relation to the aging US population. As the number of elderly patients in the United States continues to grow, the risk of patient falls is expected to increase. Therefore, hospitals should be proactive in implementing preventive measures to reduce the risk of patient falls and injury.  

 

Sued If You Do, Sued If You Don’t

A 52-year-old woman presented to the ED with complaints of abdominal pain, vaginal bleeding, and left leg pain. The patient stated that the symptoms, which she had been experiencing over the past few days, were becoming progressively worse. She denied fevers, chills, nausea, vomiting, diarrhea, or constipation. Her surgical history was
remarkable for an appendectomy 30 years prior. The patient was not currently on any medications. Regarding social history, she denied alcohol or tobacco use. She also denied any allergies to medications.

On physical examination, all of the patient’s vital signs were normal. The head, eyes, ears, nose, and throat, and lung and heart examinations were also normal; however, on abdominal examination, she exhibited tenderness throughout the lower abdomen, but without guarding or rebound. There was no costovertebral angle tenderness of the back. The pelvic examination was remarkable for a small amount of blood from the cervical os and a slightly enlarged uterus. The adnexa were normal and without tenderness.

The emergency physician (EP) ordered a complete blood count, basic metabolic profile, and urinalysis. An intravenous (IV) catheter was placed, and the patient was administered an IV analgesic and antiemetic. A normal saline drip of 125 cc per hour was also ordered. In view of the abdominal pain and tenderness, the EP ordered a computed tomography (CT) scan of the abdomen and pelvis with IV contrast. Within a few minutes of receiving the IV contrast, the patient experienced a sharp increase in blood pressure, followed by an abrupt change in mental status. A stat noncontrast head CT scan revealed a subarachnoid hemorrhage (SAH), and a CT angiogram (CTA) of the head revealed a ruptured cerebral aneurysm. Although the patient was taken immediately to the operating room by neurosurgery services, she had permanent left-sided weakness; as a result, she was no longer able to perform her previous type of work.

The patient sued both the EP and the hospital, claiming that the CT scan was unnecessary and had it not been performed, she would not have experienced the stroke. The defense asserted that the CT scan with contrast was appropriate given the patient’s symptoms and physical findings, and that the contrast dye used was not the cause of the stroke. The jury awarded the plaintiff $3.6 million.

Discussion

This case is unique in that the EP was sued for ordering a CT scan. In the overwhelming majority of malpractice cases, EPs are sued for not obtaining a certain test—frequently a CT scan. It does not appear the jury in this case was correct in their judgment as there was no conceivable way the EP could have anticipated this type of unusual reaction, especially in a patient with no history of medication allergies.

This jury ruling places EPs in an untenable situation: If they order a test and anything bad happens, they will be sued. If they do not order a test and something bad happens, they will be sued. In legal theory, there must be proximal cause between what the physician did (ie, order the CT scan) and the bad outcome, or negligence (ie, SAH). For this case, the two events seem true-true and unrelated. The contrast dye clearly did not cause the cerebral aneurysm, which was a preexisting condition.

Emergency physicians are very familiar with the contraindications for obtaining studies with IV contrast dye. The most important concern is for some type of adverse reaction to the iodinated contrast media (ICM). While such reactions are typically lumped under “allergy,” this term is actually incorrect. Rather, two types of reactions can occur following exposure to ICM: idiosyncratic (more common) and nonidiosyncratic.1 A more accurate description of the idiosyncratic reaction is anaphylactoid. This type of reaction occurs within a few minutes of exposure, and no previous sensitization is necessary. Symptoms are classified as mild, moderate, or severe (Table).

Nonidiosyncratic reactions are due to direct toxic or osmolar effects. Symptoms include bradycardia, hypotension, vasovagal reactions, sensation of warmth, metallic taste in the mouth, and nausea and vomiting.1

Ironically, the majority of adverse reactions to ICM involve hypotension, not hypertension. This includes cardiovascular reactions to ICM, which typically involve bradycardia, peripheral vasodilation, and hypotension.1 The incidence and severity of an adverse reaction to ICM also depends on whether ionic or nonionic ICM was used. (Unfortunately, the type of ICM administered to the patient in this case was not disclosed.)

The incidence and severity of adverse reactions to ICM are less with nonionic compared to ionic ICM. More than 90% of adverse reactions to nonionic ICM are anaphlyactoid.2 In general, adverse reactions occur in 4% to 12% of patients receiving ionic ICM compared to 1% to 3% of those receiving nonionic ICM.2 In a study of more than 300,000 contrast administrations, Katayama et al,3 found the overall risk for severe adverse reaction to be 0.2% for ionic ICM compared to 0.04% for nonionic ICM.

 

 

The bottom line in this case is that the patient’s event was a very rare and completely unforeseen result temporally related to the contrast CT scan ordered to evaluate the etiology of this patient’s abdominal pain.

  

 

Falls

A 67-year-old woman with a chief complaint of lightheadedness and dizziness was transferred from a dialysis center to the ED by emergency medical services (EMS). She stated that her symptoms came on suddenly right after she had completed her scheduled dialysis.

As the patient was being rolled on a stretcher from the ambulance to the ED entrance, the stretcher collapsed and tipped over, causing the patient to fall and strike her head on the pavement. The patient suffered a severe intraparenchymal brain hemorrhage, requiring intubation, ventilation, and admission to the intensive care unit. On the second day of admission, the patient’s family signed “do not resuscitate” orders and, in accordance with their wishes, life support was withdrawn and the patient died.

The family sued the ambulance company, stating the patient’s death was a direct result of negligent training and supervision of EMS personnel. The plaintiff further claimed the incident was caused by the failure to properly secure a locking mechanism on the stretcher, which caused it to tip. The ambulance company disputed the liability, asserting that what occurred was a tragic accident, not negligence. The jury found in favor of the plaintiff and awarded $1.5 million.

Discussion

While this is not a true ED case since the patient’s fall occurred just outside the ED, it does emphasize the importance of falls and the challenges of fall prevention within the hospital—including the ED. The incidence of falls within hospitals ranges from 1.3 to 9 falls per 1,000 occupied bed days (OBD).1 This incidence, however, is not evenly distributed across hospital departments. Not surprisingly, the highest rates are reported in areas such as geriatric, neurology, and rehabilitation units.1 The highest rates, 17 to 67 per 1,000 OBDs, appear to occur in geropsychiatric units,2,3 and a significant number of such patient falls are serious, with some type of injury resulting from the fall in 30% to 51% of cases.1 The percentage of falls resulting in a fracture ranges from 1% to 3%.1

As previously noted, the ED is not immune to patient falls. A review of one academic medical center ED with 75,000 annual visits found an incidence of 1.3 falls per month, 31% of which resulted in patient injury.4

Some relatively simple steps can be taken to reduce the incidence of falls. For example, identifying patients at high risk of falling (eg, patients who are elderly, confused, dizzy) and ensuring other care-team workers are aware of the risk, can be very helpful.4,5 In addition, brightly colored signs on the stretcher or colored wrist bands indicating the patient is at high-risk for falls helps to engage the entire healthcare team in fall-prevention measures.4 Sitters with high-risk patients can also help minimize fall risk.

Although side rails on hospital beds are intended to increase patient safety, their use is not without controversy. Most hospitals require staff to have side rails up for obvious reasons. Some hospitals, however, are concerned that the use of side rails can cause a fall from a higher position and increase the risk of injury when a patient attempts to get out of bed. Additional important steps include ensuring that all wet surfaces are quickly identified and cleaned, and making sure everyone is aware of the importance of fall-prevention measures.

 The employment of the abovementioned fall-prevention measures is especially important in relation to the aging US population. As the number of elderly patients in the United States continues to grow, the risk of patient falls is expected to increase. Therefore, hospitals should be proactive in implementing preventive measures to reduce the risk of patient falls and injury.  

References

- Sued If You Do, Sued If You Don't

 

  1. Siddiqi NH, Lin EC. Contrast medium reactions. http://emedicine.medscape.com/article. Updated September 29, 2015. Accessed October 8, 2015.
  2. Cochran ST. Anaphylactoid reactions to radiocontrast media. Curr Allergy Asthma Rep. 2005;5(1):28-31.
  3. Katayama H, Yamaguchi K, Kozuka T, Takashima T, Seez P, Matsuura K. Adverse reactions to ionic and nonionic contrast media. A report from the Japanese Committee on the Safety of Contrast Media. Radiology. 1990;175(3):621-128.

- Falls 

 

  1. Oliver D, Healey F, Haines TP. Preventing falls and fall-related injuries in hospitals. Clin Geriatr Med. 2010;26(4):645-692.
  2. Nyberg L, Gustafson Y, Janson A, Sandman PO, Eriksson S. Incidence of falls in three different types of geriatric care. A Swedish prospective study. Scand J Soc Med. 1997;25(1):8-13.
  3. Weintraub D, Spurlock M. Change in the rate of restraint use and falls on a psychogeriatric inpatient unit: impact of the health care financing administration’s new restraint and seclusion standards for hospitals. J Geriatr Psychiatry Neurol. 2002;15(2):91-94.
  4. Rosenthal A. Preventing falls in the emergency department: a program that works (Abstract). Virginia Henderson Global Nursing e-Repository Web site. http://www.nursinglibrary.org/vhl/handle/10755/162669. Accessed October 7, 2015.
  5. Alexander D, Kinsley TL, Waszinski C. Journey to a safe environment: fall precaution in an emergency department at a level I trauma center. J Emerg Nurs. 2013;39(4):346-352.
References

- Sued If You Do, Sued If You Don't

 

  1. Siddiqi NH, Lin EC. Contrast medium reactions. http://emedicine.medscape.com/article. Updated September 29, 2015. Accessed October 8, 2015.
  2. Cochran ST. Anaphylactoid reactions to radiocontrast media. Curr Allergy Asthma Rep. 2005;5(1):28-31.
  3. Katayama H, Yamaguchi K, Kozuka T, Takashima T, Seez P, Matsuura K. Adverse reactions to ionic and nonionic contrast media. A report from the Japanese Committee on the Safety of Contrast Media. Radiology. 1990;175(3):621-128.

- Falls 

 

  1. Oliver D, Healey F, Haines TP. Preventing falls and fall-related injuries in hospitals. Clin Geriatr Med. 2010;26(4):645-692.
  2. Nyberg L, Gustafson Y, Janson A, Sandman PO, Eriksson S. Incidence of falls in three different types of geriatric care. A Swedish prospective study. Scand J Soc Med. 1997;25(1):8-13.
  3. Weintraub D, Spurlock M. Change in the rate of restraint use and falls on a psychogeriatric inpatient unit: impact of the health care financing administration’s new restraint and seclusion standards for hospitals. J Geriatr Psychiatry Neurol. 2002;15(2):91-94.
  4. Rosenthal A. Preventing falls in the emergency department: a program that works (Abstract). Virginia Henderson Global Nursing e-Repository Web site. http://www.nursinglibrary.org/vhl/handle/10755/162669. Accessed October 7, 2015.
  5. Alexander D, Kinsley TL, Waszinski C. Journey to a safe environment: fall precaution in an emergency department at a level I trauma center. J Emerg Nurs. 2013;39(4):346-352.
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