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Missed Preeclampsia
A 24-year-old woman, gravida 1, para 1, aborta 0, presented to the ED complaining of a 1-day history of shortness of breath. Four days earlier, she had delivered a healthy baby boy via normal vaginal delivery and without complication. She denied chest pain, fever, or abdominal pain. She was otherwise in good health, stating that she was not taking any medications. She also denied smoking cigarettes. |
On physical examination, the patient’s vital signs were remarkable for the following: heart rate (HR), 86 beats/minute; blood pressure (BP), 164/94 mm Hg; respiratory rate, 18 breaths/minute; temperature, 98.6oF. Oxygen saturation was 96% on room air. The head, eye, ear, nose and throat examination was unremarkable. The lungs were clear to auscultation bilaterally, and HR and heart rhythm were normal. The abdomen was soft and nontender without guarding or rebound. The lower extremities were remarkable for 1+ pedal and pretibial edema bilaterally.
The patient presented to the same ED 2 days later, again with the chief complaint of shortness of breath. On examination, her BP was noted to be elevated and she had 1+ dependent edema bilaterally. Again, the EP was concerned for a PE and ordered a repeat CTA scan of the chest. This study, similar to the first, was read as normal, and showed no evidence of PE. The patient was diagnosed again with “shortness of breath of unknown etiology” and discharged home. The patient’s obstetrician-gynecologist (Ob/Gyn) was not consulted; however, the patient was encouraged to follow up with him.
The next day, the patient presented to the same ED via emergency medical services, this time with seizures; she had no prior history of a seizure disorder. On presentation to the ED, she was noted to be postictal, with an elevated BP and tachycardic with an HR of 104 beats/minute. On examination, the lungs were clear to auscultation and the lower extremities exhibited 1+ pedal and pretibial edema. A urinalysis revealed proteinuria. The patient was given 4 g of magnesium sulfate intravenously (IV) and her Ob/Gyn was consulted.
The patient was admitted to the hospital with a diagnosis of eclampsia. She was given an IV drip of magnesium and labetalol for the high BP. Unfortunately, the patient apparently had suffered an anoxic brain injury from the previous seizures and died on hospital day 3.
The family sued the treating EPs and the hospital for failure to diagnose preeclampsia on two separate ED presentations. They noted the patient’s Ob/Gyn was never consulted; no action was taken to treat the hypertension; and no urinalysis was ordered on either visit. The EPs and hospital settled the case prior to trial for several million dollars.
Discussion
This is an incredibly sad case, and the EPs and hospital were right to settle and not go to trial. While PE was a reasonable diagnosis to consider in this patient on her first ED visit, it should not have been the only one in the differential diagnosis. The EP became anchored to this single diagnosis and refused to consider other alternative diagnoses—even after the CTA scan of the chest ruled out PE. Moreover, it appears the EP either never considered the significance of the elevated BP and dependent edema or just ignored these findings. To repeat essentially the same exact workup on the second visit does not make sense—one should “cast a wider net, not the same net.”
The diagnosis of “shortness of breath of unknown etiology” is similarly unacceptable. While this is a common and accepted diagnosis when it pertains to abdominal pain, the same is not true for dyspnea.
Preeclampsia is characterized by hypertension (BP >140/90 mm Hg) and proteinuria; associated symptoms include edema and hyperreflexia. Postpartum preeclampsia occurs infrequently and can develop up to 4 weeks after delivery.1 In one 10-year retrospective case series, the incidence of preeclampsia in the postpartum period was 5.7%, and nearly 16% went on to develop eclampsia.2 In a retrospective study of 22 postpartum preeclamptic patients, the median time to presentation was 5 days postpartum.1 In a similar retrospective study of 152 patients, 90% of such patients presented within 7 days.3 The patient in this case initially presented on postpartum day 4.
Interestingly, in a study by Al-Safi et al,3 63% of postpartum preeclamptic patients had no antecedent diagnosis of hypertensive disease during pregnancy. These findings are consistent with the findings of others that 33% to 69% of such patients show no evidence of preeclampsia in the ante- or peripartum period.
The clinical presentation of postpartum preeclampsia is similar to preeclampsia complicating pregnancy after gestation week 20. In the study by Al-Safi et al,3 headache was the most common presenting symptom (69%), followed by shortness of breath (30%), blurry vision (21%), nausea (12.5%), and epigastric abdominal pain (5%). Similarly, Yancey et al1 found headache (82%) to be the most common presenting symptom in their series. Unfortunately, it is not known whether the patient in this case complained of headache or blurred vision as the published records note neither their presence nor absence.
The management of patients with preeclampsia includes IV magnesium to prevent seizures (ie, eclampsia) and BP control.1 A bolus of 4 to 6 g IV magnesium sulfate over 15 to 30 minutes is recommended, followed by an infusion of 2 g/h IV. Historically, IV hydralazine has been used to manage preeclamptic patients with a BP greater than 160/110 mm Hg. More recently, however, IV labetalol has become popular.5 All such patients require admission to the hospital with Ob/Gyn involvement.
Missed Subdural Hematoma
A 59-year-old man presented to the ED with a chief complaint of headache, the onset of which he stated started gradually 2 days prior. He noted the headache was worse than normal but without associated nausea, vomiting, fever, chills, or change in vision. His past medical history was significant for a lower extremity deep vein thrombosis 3 months prior, for which he was taking warfarin.
The patient’s vital signs were all normal. The physical examination, including a thorough neurological examination, was also normal. The EP ordered a prothrombin time (PT), an international normalized ratio (INR), and a noncontrast CT scan of the head. The PT/INR results were therapeutic at 22 seconds and 2.3. The CT scan was interpreted by radiology services as normal. The patient’s headache was treated with IV prochlorperazine and diphenhydramine. After treatment, the patient reported feeling better and was discharged home with instructions to follow up with his primary care physician.
Over the next several months, the patient presented to the same ED on seven different occasions, each time with the chief complaint of headache. At each of these presentations, the history and physical examination were documented as unremarkable, with no history of trauma. The thoroughness, however, of the documentation varied considerably for each ED encounter. No head CT scan was ordered on the subsequent seven visits, and at each presentation, the patient was treated symptomatically and discharged home.
Two days after his eighth visit to the same hospital ED, the patient presented to a different ED, again with a chief complaint of headache. The EP at this ED ordered a noncontrast CT of the head, which demonstrated a left subdural hematoma. The patient was admitted to the hospital, given IV vitamin K and fresh frozen plasma, and underwent evacuation of the hematoma by neurosurgery. The patient’s hospital course was unremarkable, and he was discharged home without any focal weakness.
The patient, however, claimed that he suffered cognitive impairment as a result of the missed diagnosis. He sued treating EPs at the first ED as well as the hospital for failure to timely diagnose the subdural hematoma, stating that a CT scan should have been performed at each of his ED visits since he was on warfarin. The defense claimed that a CT scan was not warranted for each visit, and that the timing of when and how the brain bleed started was uncertain. At trial, a defense verdict was returned.
Discussion
It is well known that patients receiving warfarin are at an increased risk for intracranial hemorrhage (ICH) following blunt head trauma.1 The recommendation is that all such patients have a noncontrast CT scan of the head to rule out intracranial bleeding. This is due to the fact that 60% of patients presenting with an immediate traumatic intracranial hemorrhage will have a normal mental status on examination; and 11% will have no history of loss of consciousness, a normal mental status examination, and no physical evidence of trauma above the clavicles.1 In a study by Hart et al,2 subdural hematoma accounted for 44% of all ICH in these types of patients.
More controversial is how to manage patients on warfarin who experience blunt head trauma and have a normal CT scan of the head. Because of the fear for delayed traumatic ICH, many clinicians recommend admitting such patients for neurological observation and repeat head CT scan the next morning.3 Additionally, some clinicians even recommend reversing the warfarin anticoagulation in such patients. 4 These recommendations, though, are based on expert consensus rather than on rigorous, prospective multicenter studies.1 These strategies are also problematic, since such multiple repeat CT scans would not only be incredibly expensive but also would expose the patient to high doses of radiation to the brain. Moreover, the Centers for Medicare and Medicaid Services has now made CT brain scan imaging of patients presenting to the ED with complaint of nontraumatic headache a quality measure they follow. Their goal is to decrease the number of “unnecessary” head CT scans.
The patient in this case denied any history of trauma on the subsequent seven ED visits. Unfortunately, as pointed out, even minor trauma can result in ICH, and patients may not recall the occurrence of the event.
For patients on warfarin who present with headache, a very careful history must be taken—including inquiring about minor traumatic events. Even then, as has been shown, patients may have not experienced a loss of consciousness, have a normal mental status examination, and exhibit no external evidence of head trauma. The clinician is forced to use her or his own best judgment when evaluating such patients in the ED.
Interestingly, the risk of ICH secondary to blunt head trauma in patients on warfarin is increased if they are on concomitant aspirin therapy.2 Similarly, the risk of ICH following head trauma in patients on clopidogrel is greater than for those patients taking warfarin,1 and the risk of ICH in patients taking dabigatran is less than if taking warfarin.2
Reference - Missed Preeclampsia
- Yancey LM, Withers E, Barnes K, Abbott J. Postpartum preeclampsia: emergency department presentation and management. J Emerg Med. 2011;40(4):380-384.
- Matthys LA, Coppage KH, Lambers DS, Barton JR, Sibai BM. Delayed postpartum preeclampsia: an experience of 151 cases. Am J Obstet Gynecol. 2004;190(5):1464-1466.
- Al-Safi Z, Imudia AN, Filetti LC, Hobson DT, Bahado-Singh RO, Awonuga AO. Delayed postpartum preeclampsia and eclampsia: demographics, clinical course, and complications. Obstet Gynecol. 2011;118(5):1102-1107.
- Chames MC, Livingston JC, Ivester TS, Barton JR, Sibai BM. Late postpartum eclampsia: a preventable disease? Am J Obstet Gynecol. 2002;186(6):1174-1177.
- Graeber B, Vanderwal T, Stiller RJ, Werdmann MJ. Late postpartum eclampsia as an obstetric complication seen in the ED. Am J Emerg Med. 2005;23(2):168-170.
Reference - Missed Subdural Hematoma
- Nishijima DK, Offerman SR, Ballard DW, et al; Clinical Research in Emergency Services and Treatment (CREST) Network. Immediate and delayed traumatic intracranial hemorrhage in patients with head trauma and preinjury warfarin or clopidogrel use. Ann Emerg Med. 2012;59(6):460-468.
- Hart RG, Diener HC, Yang S, Connolly SJ, Wallentin L, et al. Intracranial hemorrhage in atrial fibrillation patients during anticoagulation with warfarin or dabigatran: the RE-LY trial. Stroke. 2012;43(6): 1511-1517.
- Vos PE, Battistin L, Birbamer G, et al; European Federation of Neurological Societies. EFNS guideline on mild traumatic brain injury: report of an EFNS task force. Eur J Neurol. 2002;9(3):207-219.
- Coimbra R, Hoyt DB, Anjaria DJ, Potenza BM, Fortlage D, Hollingsworth-Fridlund P. Reversal of anticoagulation in trauma: a North-American survey on clinical practices among trauma surgeons. J Trauma. 2005;59(2):375-382.
Missed Preeclampsia
A 24-year-old woman, gravida 1, para 1, aborta 0, presented to the ED complaining of a 1-day history of shortness of breath. Four days earlier, she had delivered a healthy baby boy via normal vaginal delivery and without complication. She denied chest pain, fever, or abdominal pain. She was otherwise in good health, stating that she was not taking any medications. She also denied smoking cigarettes. |
On physical examination, the patient’s vital signs were remarkable for the following: heart rate (HR), 86 beats/minute; blood pressure (BP), 164/94 mm Hg; respiratory rate, 18 breaths/minute; temperature, 98.6oF. Oxygen saturation was 96% on room air. The head, eye, ear, nose and throat examination was unremarkable. The lungs were clear to auscultation bilaterally, and HR and heart rhythm were normal. The abdomen was soft and nontender without guarding or rebound. The lower extremities were remarkable for 1+ pedal and pretibial edema bilaterally.
The patient presented to the same ED 2 days later, again with the chief complaint of shortness of breath. On examination, her BP was noted to be elevated and she had 1+ dependent edema bilaterally. Again, the EP was concerned for a PE and ordered a repeat CTA scan of the chest. This study, similar to the first, was read as normal, and showed no evidence of PE. The patient was diagnosed again with “shortness of breath of unknown etiology” and discharged home. The patient’s obstetrician-gynecologist (Ob/Gyn) was not consulted; however, the patient was encouraged to follow up with him.
The next day, the patient presented to the same ED via emergency medical services, this time with seizures; she had no prior history of a seizure disorder. On presentation to the ED, she was noted to be postictal, with an elevated BP and tachycardic with an HR of 104 beats/minute. On examination, the lungs were clear to auscultation and the lower extremities exhibited 1+ pedal and pretibial edema. A urinalysis revealed proteinuria. The patient was given 4 g of magnesium sulfate intravenously (IV) and her Ob/Gyn was consulted.
The patient was admitted to the hospital with a diagnosis of eclampsia. She was given an IV drip of magnesium and labetalol for the high BP. Unfortunately, the patient apparently had suffered an anoxic brain injury from the previous seizures and died on hospital day 3.
The family sued the treating EPs and the hospital for failure to diagnose preeclampsia on two separate ED presentations. They noted the patient’s Ob/Gyn was never consulted; no action was taken to treat the hypertension; and no urinalysis was ordered on either visit. The EPs and hospital settled the case prior to trial for several million dollars.
Discussion
This is an incredibly sad case, and the EPs and hospital were right to settle and not go to trial. While PE was a reasonable diagnosis to consider in this patient on her first ED visit, it should not have been the only one in the differential diagnosis. The EP became anchored to this single diagnosis and refused to consider other alternative diagnoses—even after the CTA scan of the chest ruled out PE. Moreover, it appears the EP either never considered the significance of the elevated BP and dependent edema or just ignored these findings. To repeat essentially the same exact workup on the second visit does not make sense—one should “cast a wider net, not the same net.”
The diagnosis of “shortness of breath of unknown etiology” is similarly unacceptable. While this is a common and accepted diagnosis when it pertains to abdominal pain, the same is not true for dyspnea.
Preeclampsia is characterized by hypertension (BP >140/90 mm Hg) and proteinuria; associated symptoms include edema and hyperreflexia. Postpartum preeclampsia occurs infrequently and can develop up to 4 weeks after delivery.1 In one 10-year retrospective case series, the incidence of preeclampsia in the postpartum period was 5.7%, and nearly 16% went on to develop eclampsia.2 In a retrospective study of 22 postpartum preeclamptic patients, the median time to presentation was 5 days postpartum.1 In a similar retrospective study of 152 patients, 90% of such patients presented within 7 days.3 The patient in this case initially presented on postpartum day 4.
Interestingly, in a study by Al-Safi et al,3 63% of postpartum preeclamptic patients had no antecedent diagnosis of hypertensive disease during pregnancy. These findings are consistent with the findings of others that 33% to 69% of such patients show no evidence of preeclampsia in the ante- or peripartum period.
The clinical presentation of postpartum preeclampsia is similar to preeclampsia complicating pregnancy after gestation week 20. In the study by Al-Safi et al,3 headache was the most common presenting symptom (69%), followed by shortness of breath (30%), blurry vision (21%), nausea (12.5%), and epigastric abdominal pain (5%). Similarly, Yancey et al1 found headache (82%) to be the most common presenting symptom in their series. Unfortunately, it is not known whether the patient in this case complained of headache or blurred vision as the published records note neither their presence nor absence.
The management of patients with preeclampsia includes IV magnesium to prevent seizures (ie, eclampsia) and BP control.1 A bolus of 4 to 6 g IV magnesium sulfate over 15 to 30 minutes is recommended, followed by an infusion of 2 g/h IV. Historically, IV hydralazine has been used to manage preeclamptic patients with a BP greater than 160/110 mm Hg. More recently, however, IV labetalol has become popular.5 All such patients require admission to the hospital with Ob/Gyn involvement.
Missed Subdural Hematoma
A 59-year-old man presented to the ED with a chief complaint of headache, the onset of which he stated started gradually 2 days prior. He noted the headache was worse than normal but without associated nausea, vomiting, fever, chills, or change in vision. His past medical history was significant for a lower extremity deep vein thrombosis 3 months prior, for which he was taking warfarin.
The patient’s vital signs were all normal. The physical examination, including a thorough neurological examination, was also normal. The EP ordered a prothrombin time (PT), an international normalized ratio (INR), and a noncontrast CT scan of the head. The PT/INR results were therapeutic at 22 seconds and 2.3. The CT scan was interpreted by radiology services as normal. The patient’s headache was treated with IV prochlorperazine and diphenhydramine. After treatment, the patient reported feeling better and was discharged home with instructions to follow up with his primary care physician.
Over the next several months, the patient presented to the same ED on seven different occasions, each time with the chief complaint of headache. At each of these presentations, the history and physical examination were documented as unremarkable, with no history of trauma. The thoroughness, however, of the documentation varied considerably for each ED encounter. No head CT scan was ordered on the subsequent seven visits, and at each presentation, the patient was treated symptomatically and discharged home.
Two days after his eighth visit to the same hospital ED, the patient presented to a different ED, again with a chief complaint of headache. The EP at this ED ordered a noncontrast CT of the head, which demonstrated a left subdural hematoma. The patient was admitted to the hospital, given IV vitamin K and fresh frozen plasma, and underwent evacuation of the hematoma by neurosurgery. The patient’s hospital course was unremarkable, and he was discharged home without any focal weakness.
The patient, however, claimed that he suffered cognitive impairment as a result of the missed diagnosis. He sued treating EPs at the first ED as well as the hospital for failure to timely diagnose the subdural hematoma, stating that a CT scan should have been performed at each of his ED visits since he was on warfarin. The defense claimed that a CT scan was not warranted for each visit, and that the timing of when and how the brain bleed started was uncertain. At trial, a defense verdict was returned.
Discussion
It is well known that patients receiving warfarin are at an increased risk for intracranial hemorrhage (ICH) following blunt head trauma.1 The recommendation is that all such patients have a noncontrast CT scan of the head to rule out intracranial bleeding. This is due to the fact that 60% of patients presenting with an immediate traumatic intracranial hemorrhage will have a normal mental status on examination; and 11% will have no history of loss of consciousness, a normal mental status examination, and no physical evidence of trauma above the clavicles.1 In a study by Hart et al,2 subdural hematoma accounted for 44% of all ICH in these types of patients.
More controversial is how to manage patients on warfarin who experience blunt head trauma and have a normal CT scan of the head. Because of the fear for delayed traumatic ICH, many clinicians recommend admitting such patients for neurological observation and repeat head CT scan the next morning.3 Additionally, some clinicians even recommend reversing the warfarin anticoagulation in such patients. 4 These recommendations, though, are based on expert consensus rather than on rigorous, prospective multicenter studies.1 These strategies are also problematic, since such multiple repeat CT scans would not only be incredibly expensive but also would expose the patient to high doses of radiation to the brain. Moreover, the Centers for Medicare and Medicaid Services has now made CT brain scan imaging of patients presenting to the ED with complaint of nontraumatic headache a quality measure they follow. Their goal is to decrease the number of “unnecessary” head CT scans.
The patient in this case denied any history of trauma on the subsequent seven ED visits. Unfortunately, as pointed out, even minor trauma can result in ICH, and patients may not recall the occurrence of the event.
For patients on warfarin who present with headache, a very careful history must be taken—including inquiring about minor traumatic events. Even then, as has been shown, patients may have not experienced a loss of consciousness, have a normal mental status examination, and exhibit no external evidence of head trauma. The clinician is forced to use her or his own best judgment when evaluating such patients in the ED.
Interestingly, the risk of ICH secondary to blunt head trauma in patients on warfarin is increased if they are on concomitant aspirin therapy.2 Similarly, the risk of ICH following head trauma in patients on clopidogrel is greater than for those patients taking warfarin,1 and the risk of ICH in patients taking dabigatran is less than if taking warfarin.2
Missed Preeclampsia
A 24-year-old woman, gravida 1, para 1, aborta 0, presented to the ED complaining of a 1-day history of shortness of breath. Four days earlier, she had delivered a healthy baby boy via normal vaginal delivery and without complication. She denied chest pain, fever, or abdominal pain. She was otherwise in good health, stating that she was not taking any medications. She also denied smoking cigarettes. |
On physical examination, the patient’s vital signs were remarkable for the following: heart rate (HR), 86 beats/minute; blood pressure (BP), 164/94 mm Hg; respiratory rate, 18 breaths/minute; temperature, 98.6oF. Oxygen saturation was 96% on room air. The head, eye, ear, nose and throat examination was unremarkable. The lungs were clear to auscultation bilaterally, and HR and heart rhythm were normal. The abdomen was soft and nontender without guarding or rebound. The lower extremities were remarkable for 1+ pedal and pretibial edema bilaterally.
The patient presented to the same ED 2 days later, again with the chief complaint of shortness of breath. On examination, her BP was noted to be elevated and she had 1+ dependent edema bilaterally. Again, the EP was concerned for a PE and ordered a repeat CTA scan of the chest. This study, similar to the first, was read as normal, and showed no evidence of PE. The patient was diagnosed again with “shortness of breath of unknown etiology” and discharged home. The patient’s obstetrician-gynecologist (Ob/Gyn) was not consulted; however, the patient was encouraged to follow up with him.
The next day, the patient presented to the same ED via emergency medical services, this time with seizures; she had no prior history of a seizure disorder. On presentation to the ED, she was noted to be postictal, with an elevated BP and tachycardic with an HR of 104 beats/minute. On examination, the lungs were clear to auscultation and the lower extremities exhibited 1+ pedal and pretibial edema. A urinalysis revealed proteinuria. The patient was given 4 g of magnesium sulfate intravenously (IV) and her Ob/Gyn was consulted.
The patient was admitted to the hospital with a diagnosis of eclampsia. She was given an IV drip of magnesium and labetalol for the high BP. Unfortunately, the patient apparently had suffered an anoxic brain injury from the previous seizures and died on hospital day 3.
The family sued the treating EPs and the hospital for failure to diagnose preeclampsia on two separate ED presentations. They noted the patient’s Ob/Gyn was never consulted; no action was taken to treat the hypertension; and no urinalysis was ordered on either visit. The EPs and hospital settled the case prior to trial for several million dollars.
Discussion
This is an incredibly sad case, and the EPs and hospital were right to settle and not go to trial. While PE was a reasonable diagnosis to consider in this patient on her first ED visit, it should not have been the only one in the differential diagnosis. The EP became anchored to this single diagnosis and refused to consider other alternative diagnoses—even after the CTA scan of the chest ruled out PE. Moreover, it appears the EP either never considered the significance of the elevated BP and dependent edema or just ignored these findings. To repeat essentially the same exact workup on the second visit does not make sense—one should “cast a wider net, not the same net.”
The diagnosis of “shortness of breath of unknown etiology” is similarly unacceptable. While this is a common and accepted diagnosis when it pertains to abdominal pain, the same is not true for dyspnea.
Preeclampsia is characterized by hypertension (BP >140/90 mm Hg) and proteinuria; associated symptoms include edema and hyperreflexia. Postpartum preeclampsia occurs infrequently and can develop up to 4 weeks after delivery.1 In one 10-year retrospective case series, the incidence of preeclampsia in the postpartum period was 5.7%, and nearly 16% went on to develop eclampsia.2 In a retrospective study of 22 postpartum preeclamptic patients, the median time to presentation was 5 days postpartum.1 In a similar retrospective study of 152 patients, 90% of such patients presented within 7 days.3 The patient in this case initially presented on postpartum day 4.
Interestingly, in a study by Al-Safi et al,3 63% of postpartum preeclamptic patients had no antecedent diagnosis of hypertensive disease during pregnancy. These findings are consistent with the findings of others that 33% to 69% of such patients show no evidence of preeclampsia in the ante- or peripartum period.
The clinical presentation of postpartum preeclampsia is similar to preeclampsia complicating pregnancy after gestation week 20. In the study by Al-Safi et al,3 headache was the most common presenting symptom (69%), followed by shortness of breath (30%), blurry vision (21%), nausea (12.5%), and epigastric abdominal pain (5%). Similarly, Yancey et al1 found headache (82%) to be the most common presenting symptom in their series. Unfortunately, it is not known whether the patient in this case complained of headache or blurred vision as the published records note neither their presence nor absence.
The management of patients with preeclampsia includes IV magnesium to prevent seizures (ie, eclampsia) and BP control.1 A bolus of 4 to 6 g IV magnesium sulfate over 15 to 30 minutes is recommended, followed by an infusion of 2 g/h IV. Historically, IV hydralazine has been used to manage preeclamptic patients with a BP greater than 160/110 mm Hg. More recently, however, IV labetalol has become popular.5 All such patients require admission to the hospital with Ob/Gyn involvement.
Missed Subdural Hematoma
A 59-year-old man presented to the ED with a chief complaint of headache, the onset of which he stated started gradually 2 days prior. He noted the headache was worse than normal but without associated nausea, vomiting, fever, chills, or change in vision. His past medical history was significant for a lower extremity deep vein thrombosis 3 months prior, for which he was taking warfarin.
The patient’s vital signs were all normal. The physical examination, including a thorough neurological examination, was also normal. The EP ordered a prothrombin time (PT), an international normalized ratio (INR), and a noncontrast CT scan of the head. The PT/INR results were therapeutic at 22 seconds and 2.3. The CT scan was interpreted by radiology services as normal. The patient’s headache was treated with IV prochlorperazine and diphenhydramine. After treatment, the patient reported feeling better and was discharged home with instructions to follow up with his primary care physician.
Over the next several months, the patient presented to the same ED on seven different occasions, each time with the chief complaint of headache. At each of these presentations, the history and physical examination were documented as unremarkable, with no history of trauma. The thoroughness, however, of the documentation varied considerably for each ED encounter. No head CT scan was ordered on the subsequent seven visits, and at each presentation, the patient was treated symptomatically and discharged home.
Two days after his eighth visit to the same hospital ED, the patient presented to a different ED, again with a chief complaint of headache. The EP at this ED ordered a noncontrast CT of the head, which demonstrated a left subdural hematoma. The patient was admitted to the hospital, given IV vitamin K and fresh frozen plasma, and underwent evacuation of the hematoma by neurosurgery. The patient’s hospital course was unremarkable, and he was discharged home without any focal weakness.
The patient, however, claimed that he suffered cognitive impairment as a result of the missed diagnosis. He sued treating EPs at the first ED as well as the hospital for failure to timely diagnose the subdural hematoma, stating that a CT scan should have been performed at each of his ED visits since he was on warfarin. The defense claimed that a CT scan was not warranted for each visit, and that the timing of when and how the brain bleed started was uncertain. At trial, a defense verdict was returned.
Discussion
It is well known that patients receiving warfarin are at an increased risk for intracranial hemorrhage (ICH) following blunt head trauma.1 The recommendation is that all such patients have a noncontrast CT scan of the head to rule out intracranial bleeding. This is due to the fact that 60% of patients presenting with an immediate traumatic intracranial hemorrhage will have a normal mental status on examination; and 11% will have no history of loss of consciousness, a normal mental status examination, and no physical evidence of trauma above the clavicles.1 In a study by Hart et al,2 subdural hematoma accounted for 44% of all ICH in these types of patients.
More controversial is how to manage patients on warfarin who experience blunt head trauma and have a normal CT scan of the head. Because of the fear for delayed traumatic ICH, many clinicians recommend admitting such patients for neurological observation and repeat head CT scan the next morning.3 Additionally, some clinicians even recommend reversing the warfarin anticoagulation in such patients. 4 These recommendations, though, are based on expert consensus rather than on rigorous, prospective multicenter studies.1 These strategies are also problematic, since such multiple repeat CT scans would not only be incredibly expensive but also would expose the patient to high doses of radiation to the brain. Moreover, the Centers for Medicare and Medicaid Services has now made CT brain scan imaging of patients presenting to the ED with complaint of nontraumatic headache a quality measure they follow. Their goal is to decrease the number of “unnecessary” head CT scans.
The patient in this case denied any history of trauma on the subsequent seven ED visits. Unfortunately, as pointed out, even minor trauma can result in ICH, and patients may not recall the occurrence of the event.
For patients on warfarin who present with headache, a very careful history must be taken—including inquiring about minor traumatic events. Even then, as has been shown, patients may have not experienced a loss of consciousness, have a normal mental status examination, and exhibit no external evidence of head trauma. The clinician is forced to use her or his own best judgment when evaluating such patients in the ED.
Interestingly, the risk of ICH secondary to blunt head trauma in patients on warfarin is increased if they are on concomitant aspirin therapy.2 Similarly, the risk of ICH following head trauma in patients on clopidogrel is greater than for those patients taking warfarin,1 and the risk of ICH in patients taking dabigatran is less than if taking warfarin.2
Reference - Missed Preeclampsia
- Yancey LM, Withers E, Barnes K, Abbott J. Postpartum preeclampsia: emergency department presentation and management. J Emerg Med. 2011;40(4):380-384.
- Matthys LA, Coppage KH, Lambers DS, Barton JR, Sibai BM. Delayed postpartum preeclampsia: an experience of 151 cases. Am J Obstet Gynecol. 2004;190(5):1464-1466.
- Al-Safi Z, Imudia AN, Filetti LC, Hobson DT, Bahado-Singh RO, Awonuga AO. Delayed postpartum preeclampsia and eclampsia: demographics, clinical course, and complications. Obstet Gynecol. 2011;118(5):1102-1107.
- Chames MC, Livingston JC, Ivester TS, Barton JR, Sibai BM. Late postpartum eclampsia: a preventable disease? Am J Obstet Gynecol. 2002;186(6):1174-1177.
- Graeber B, Vanderwal T, Stiller RJ, Werdmann MJ. Late postpartum eclampsia as an obstetric complication seen in the ED. Am J Emerg Med. 2005;23(2):168-170.
Reference - Missed Subdural Hematoma
- Nishijima DK, Offerman SR, Ballard DW, et al; Clinical Research in Emergency Services and Treatment (CREST) Network. Immediate and delayed traumatic intracranial hemorrhage in patients with head trauma and preinjury warfarin or clopidogrel use. Ann Emerg Med. 2012;59(6):460-468.
- Hart RG, Diener HC, Yang S, Connolly SJ, Wallentin L, et al. Intracranial hemorrhage in atrial fibrillation patients during anticoagulation with warfarin or dabigatran: the RE-LY trial. Stroke. 2012;43(6): 1511-1517.
- Vos PE, Battistin L, Birbamer G, et al; European Federation of Neurological Societies. EFNS guideline on mild traumatic brain injury: report of an EFNS task force. Eur J Neurol. 2002;9(3):207-219.
- Coimbra R, Hoyt DB, Anjaria DJ, Potenza BM, Fortlage D, Hollingsworth-Fridlund P. Reversal of anticoagulation in trauma: a North-American survey on clinical practices among trauma surgeons. J Trauma. 2005;59(2):375-382.
Reference - Missed Preeclampsia
- Yancey LM, Withers E, Barnes K, Abbott J. Postpartum preeclampsia: emergency department presentation and management. J Emerg Med. 2011;40(4):380-384.
- Matthys LA, Coppage KH, Lambers DS, Barton JR, Sibai BM. Delayed postpartum preeclampsia: an experience of 151 cases. Am J Obstet Gynecol. 2004;190(5):1464-1466.
- Al-Safi Z, Imudia AN, Filetti LC, Hobson DT, Bahado-Singh RO, Awonuga AO. Delayed postpartum preeclampsia and eclampsia: demographics, clinical course, and complications. Obstet Gynecol. 2011;118(5):1102-1107.
- Chames MC, Livingston JC, Ivester TS, Barton JR, Sibai BM. Late postpartum eclampsia: a preventable disease? Am J Obstet Gynecol. 2002;186(6):1174-1177.
- Graeber B, Vanderwal T, Stiller RJ, Werdmann MJ. Late postpartum eclampsia as an obstetric complication seen in the ED. Am J Emerg Med. 2005;23(2):168-170.
Reference - Missed Subdural Hematoma
- Nishijima DK, Offerman SR, Ballard DW, et al; Clinical Research in Emergency Services and Treatment (CREST) Network. Immediate and delayed traumatic intracranial hemorrhage in patients with head trauma and preinjury warfarin or clopidogrel use. Ann Emerg Med. 2012;59(6):460-468.
- Hart RG, Diener HC, Yang S, Connolly SJ, Wallentin L, et al. Intracranial hemorrhage in atrial fibrillation patients during anticoagulation with warfarin or dabigatran: the RE-LY trial. Stroke. 2012;43(6): 1511-1517.
- Vos PE, Battistin L, Birbamer G, et al; European Federation of Neurological Societies. EFNS guideline on mild traumatic brain injury: report of an EFNS task force. Eur J Neurol. 2002;9(3):207-219.
- Coimbra R, Hoyt DB, Anjaria DJ, Potenza BM, Fortlage D, Hollingsworth-Fridlund P. Reversal of anticoagulation in trauma: a North-American survey on clinical practices among trauma surgeons. J Trauma. 2005;59(2):375-382.