Emergency Medicine

More than half of patients with mild traumatic brain injury (TBI) and a negative head CT scan have not recovered completely 6 months after sustaining their injury, new data from the TRACK-TBI study shows.

“Seeing that more than half of the GCS [Glasgow Coma Score] 15, CT-negative TBI cohort in our study were not back to their preinjury baseline at 6 months was surprising and impacts the millions of Americans who suffer from concussions annually,” said lead author Debbie Madhok, MD, with department of emergency medicine, University of California, San Francisco.

“These results highlight the importance of improving care pathways for concussion, particularly from the emergency department,” Dr. Madhok said.

The findings were published online in JAMA Network Open.

The short- and long-term outcomes in the large group of patients who come into the ED with TBI, a GCS of 15, and without acute intracranial traumatic injury (defined as a negative head CT scan) remain poorly understood, the investigators noted. To investigate further, they evaluated outcomes at 2 weeks and 6 months in 991 of these patients (mean age, 38 years; 64% men) from the TRACK-TBI study.

Among the 751 (76%) participants followed up at 2 weeks after the injury, only 204 (27%) had functional recovery – with a Glasgow Outcome Scale-Extended (GOS-E) score of 8. The remaining 547 (73%) had incomplete recovery (GOS-E scores < 8).

Among the 659 patients (66%) followed up at 6 months after the injury, 287 (44%) had functional recovery and 372 (56%) had incomplete recovery.

Most patients who failed to recover completely reported they had not returned to their preinjury life (88%). They described trouble returning to social activities outside the home and disruptions in family relationships and friendships.

The researchers noted that the study population had a high rate of preinjury psychiatric comorbidities, and these patients were more likely to have incomplete recovery than those without psychiatric comorbidities. This aligns with results from previous studies, they added.

The investigators also noted that patients with mild TBI without acute intracranial trauma are typically managed by ED personnel.

“These findings highlight the importance of ED clinicians being aware of the risk of incomplete recovery for patients with a mild TBI (that is, GCS score of 15 and negative head CT scan) and providing accurate education and timely referral information before ED discharge,” they wrote.

The study was funded by grants from the National Foundation of Emergency Medicine, the National Institute of Neurological Disorders and Stroke, and the U.S. Department of Defense Traumatic Brain Injury Endpoints Development Initiative. Dr. Madhok has reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

More than half of patients with mild traumatic brain injury (TBI) and a negative head CT scan have not recovered completely 6 months after sustaining their injury, new data from the TRACK-TBI study shows.

“Seeing that more than half of the GCS [Glasgow Coma Score] 15, CT-negative TBI cohort in our study were not back to their preinjury baseline at 6 months was surprising and impacts the millions of Americans who suffer from concussions annually,” said lead author Debbie Madhok, MD, with department of emergency medicine, University of California, San Francisco.

“These results highlight the importance of improving care pathways for concussion, particularly from the emergency department,” Dr. Madhok said.

The findings were published online in JAMA Network Open.

The short- and long-term outcomes in the large group of patients who come into the ED with TBI, a GCS of 15, and without acute intracranial traumatic injury (defined as a negative head CT scan) remain poorly understood, the investigators noted. To investigate further, they evaluated outcomes at 2 weeks and 6 months in 991 of these patients (mean age, 38 years; 64% men) from the TRACK-TBI study.

Among the 751 (76%) participants followed up at 2 weeks after the injury, only 204 (27%) had functional recovery – with a Glasgow Outcome Scale-Extended (GOS-E) score of 8. The remaining 547 (73%) had incomplete recovery (GOS-E scores < 8).

Among the 659 patients (66%) followed up at 6 months after the injury, 287 (44%) had functional recovery and 372 (56%) had incomplete recovery.

Most patients who failed to recover completely reported they had not returned to their preinjury life (88%). They described trouble returning to social activities outside the home and disruptions in family relationships and friendships.

The researchers noted that the study population had a high rate of preinjury psychiatric comorbidities, and these patients were more likely to have incomplete recovery than those without psychiatric comorbidities. This aligns with results from previous studies, they added.

The investigators also noted that patients with mild TBI without acute intracranial trauma are typically managed by ED personnel.

“These findings highlight the importance of ED clinicians being aware of the risk of incomplete recovery for patients with a mild TBI (that is, GCS score of 15 and negative head CT scan) and providing accurate education and timely referral information before ED discharge,” they wrote.

The study was funded by grants from the National Foundation of Emergency Medicine, the National Institute of Neurological Disorders and Stroke, and the U.S. Department of Defense Traumatic Brain Injury Endpoints Development Initiative. Dr. Madhok has reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

More than half of patients with mild traumatic brain injury (TBI) and a negative head CT scan have not recovered completely 6 months after sustaining their injury, new data from the TRACK-TBI study shows.

“Seeing that more than half of the GCS [Glasgow Coma Score] 15, CT-negative TBI cohort in our study were not back to their preinjury baseline at 6 months was surprising and impacts the millions of Americans who suffer from concussions annually,” said lead author Debbie Madhok, MD, with department of emergency medicine, University of California, San Francisco.

“These results highlight the importance of improving care pathways for concussion, particularly from the emergency department,” Dr. Madhok said.

The findings were published online in JAMA Network Open.

The short- and long-term outcomes in the large group of patients who come into the ED with TBI, a GCS of 15, and without acute intracranial traumatic injury (defined as a negative head CT scan) remain poorly understood, the investigators noted. To investigate further, they evaluated outcomes at 2 weeks and 6 months in 991 of these patients (mean age, 38 years; 64% men) from the TRACK-TBI study.

Among the 751 (76%) participants followed up at 2 weeks after the injury, only 204 (27%) had functional recovery – with a Glasgow Outcome Scale-Extended (GOS-E) score of 8. The remaining 547 (73%) had incomplete recovery (GOS-E scores < 8).

Among the 659 patients (66%) followed up at 6 months after the injury, 287 (44%) had functional recovery and 372 (56%) had incomplete recovery.

Most patients who failed to recover completely reported they had not returned to their preinjury life (88%). They described trouble returning to social activities outside the home and disruptions in family relationships and friendships.

The researchers noted that the study population had a high rate of preinjury psychiatric comorbidities, and these patients were more likely to have incomplete recovery than those without psychiatric comorbidities. This aligns with results from previous studies, they added.

The investigators also noted that patients with mild TBI without acute intracranial trauma are typically managed by ED personnel.

“These findings highlight the importance of ED clinicians being aware of the risk of incomplete recovery for patients with a mild TBI (that is, GCS score of 15 and negative head CT scan) and providing accurate education and timely referral information before ED discharge,” they wrote.

The study was funded by grants from the National Foundation of Emergency Medicine, the National Institute of Neurological Disorders and Stroke, and the U.S. Department of Defense Traumatic Brain Injury Endpoints Development Initiative. Dr. Madhok has reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The study covered in this summary was published in medRxiv.org as a preprint and has not yet been peer reviewed.

Key takeaways

• Right ventricular (RV) dilation or dysfunction in patients hospitalized with acute COVID-19 is associated with an elevated risk for in-hospital death.
• The impact of RV dilation or dysfunction on in-hospital mortality is similar for patients with acute COVID-19 and those with influenza, pneumonia, or acute respiratory distress syndrome (ARDS), but COVID-19 patients have greater absolute in-hospital mortality.
• RV dilatation or dysfunction in patients with acute COVID-19 is associated with a diagnosis of venous thromboembolism and subsequent intubation and mechanical ventilation.

Why this matters

• Right ventricular dysfunction increases mortality risk in acute COVID-19, and this study shows that RV dilation and dysfunction among such hospitalized patients has a similar impact on risk for in-hospital death in acute COVID-19 and in other respiratory illnesses.
• The findings suggest that abnormal RV findings should be considered a mortality risk marker in patients with acute respiratory illness, especially COVID-19.

Study design

• The retrospective study involved 225 consecutive patients admitted for acute COVID-19 from March 2020 to February 2021 at four major hospitals in the same metropolitan region and a control group of 6,150 adults admitted to the hospital for influenza, pneumonia, or ARDS; mean age in the study cohort was 63 years.
• All participants underwent echocardiography during their hospitalization, including evaluation of any RV dilation or dysfunction.
• Associations between RV measurements and in-hospital mortality, the primary outcome, were adjusted for potential confounders.

Key results

• Patients in the COVID-19 group were more likely than were those in the control group to be male (66% vs. 54%; P < .001), to identify as Hispanic (38% vs. 15%; P < .001), and to have a higher mean body mass index (29.4 vs. 27.9 kg/m²; P = .008).
• Compared with the control group, patients in the COVID-19 group more often required admission to the intensive care unit (75% vs. 54%; P < .001), mechanical ventilation (P < .001), and initiation of renal replacement therapy (P = .002), and more often were diagnosed with deep-vein thrombosis or pulmonary embolism (25% vs. 14%; P < .001). The median length of hospital stay was 20 days in the COVID-19 group, compared with 10 days in the control group (P < .001).
• In-hospital mortality was 21.3% in the COVID-19 group and 11.8% in the control group (P = .001). Those hospitalized with COVID-19 had an adjusted relative risk (RR) of 1.54 (95% confidence interval [CI], 1.06-2.24; P = .02) for in-hospital mortality, compared with those hospitalized for other respiratory illnesses.
• Mild RV dilation was associated with an adjusted RR of 1.4 (95% CI, 1.17-1.69; P = .0003) for in-hospital death, and moderate to severe RV dilation was associated with an adjusted RR of 2.0 (95% CI, 1.62-2.47; P < .0001).
• The corresponding adjusted risks for mild RV dysfunction and greater-than-mild RV dysfunction were, respectively, 1.39 (95% CI, 1.10-1.77; P = .007) and 1.68 (95% CI, 1.17-2.42; P = .005).
• The RR for in-hospital mortality associated with RV dilation and dysfunction was similar in those with COVID-19 and those with other respiratory illness, but the former had a higher baseline risk that yielded a greater absolute risk in the COVID-19 group.

Limitations

• The study was based primarily on a retrospective review of electronic health records, which poses a risk for misclassification. 
• Echocardiography was performed without blinding operators to patient clinical status, and echocardiograms were interpreted in a single university hospital system, so were not externally validated.
• Because echocardiograms obtained during hospitalization could not be compared with previous echocardiograms, it could not be determined whether any of the patients had preexisting RV dilation or dysfunction.
• Strain imaging was not feasible in many cases.

Disclosures

• The study received no commercial funding.
• The authors disclosed no financial relationships.

This is a summary of a preprint research study, Association of Right Ventricular Dilation and Dysfunction on Echocardiogram With In-Hospital Mortality Among Patients Hospitalized with COVID-19 Compared With Other Acute Respiratory Illness, written by researchers at the University of California, San Francisco, department of medicine, and Zuckerberg San Francisco General Hospital, division of cardiology. A version of this article first appeared on Medscape.com.

The study covered in this summary was published in medRxiv.org as a preprint and has not yet been peer reviewed.

Key takeaways

• Right ventricular (RV) dilation or dysfunction in patients hospitalized with acute COVID-19 is associated with an elevated risk for in-hospital death.
• The impact of RV dilation or dysfunction on in-hospital mortality is similar for patients with acute COVID-19 and those with influenza, pneumonia, or acute respiratory distress syndrome (ARDS), but COVID-19 patients have greater absolute in-hospital mortality.
• RV dilatation or dysfunction in patients with acute COVID-19 is associated with a diagnosis of venous thromboembolism and subsequent intubation and mechanical ventilation.

Why this matters

• Right ventricular dysfunction increases mortality risk in acute COVID-19, and this study shows that RV dilation and dysfunction among such hospitalized patients has a similar impact on risk for in-hospital death in acute COVID-19 and in other respiratory illnesses.
• The findings suggest that abnormal RV findings should be considered a mortality risk marker in patients with acute respiratory illness, especially COVID-19.

Study design

• The retrospective study involved 225 consecutive patients admitted for acute COVID-19 from March 2020 to February 2021 at four major hospitals in the same metropolitan region and a control group of 6,150 adults admitted to the hospital for influenza, pneumonia, or ARDS; mean age in the study cohort was 63 years.
• All participants underwent echocardiography during their hospitalization, including evaluation of any RV dilation or dysfunction.
• Associations between RV measurements and in-hospital mortality, the primary outcome, were adjusted for potential confounders.

Key results

• Patients in the COVID-19 group were more likely than were those in the control group to be male (66% vs. 54%; P < .001), to identify as Hispanic (38% vs. 15%; P < .001), and to have a higher mean body mass index (29.4 vs. 27.9 kg/m²; P = .008).
• Compared with the control group, patients in the COVID-19 group more often required admission to the intensive care unit (75% vs. 54%; P < .001), mechanical ventilation (P < .001), and initiation of renal replacement therapy (P = .002), and more often were diagnosed with deep-vein thrombosis or pulmonary embolism (25% vs. 14%; P < .001). The median length of hospital stay was 20 days in the COVID-19 group, compared with 10 days in the control group (P < .001).
• In-hospital mortality was 21.3% in the COVID-19 group and 11.8% in the control group (P = .001). Those hospitalized with COVID-19 had an adjusted relative risk (RR) of 1.54 (95% confidence interval [CI], 1.06-2.24; P = .02) for in-hospital mortality, compared with those hospitalized for other respiratory illnesses.
• Mild RV dilation was associated with an adjusted RR of 1.4 (95% CI, 1.17-1.69; P = .0003) for in-hospital death, and moderate to severe RV dilation was associated with an adjusted RR of 2.0 (95% CI, 1.62-2.47; P < .0001).
• The corresponding adjusted risks for mild RV dysfunction and greater-than-mild RV dysfunction were, respectively, 1.39 (95% CI, 1.10-1.77; P = .007) and 1.68 (95% CI, 1.17-2.42; P = .005).
• The RR for in-hospital mortality associated with RV dilation and dysfunction was similar in those with COVID-19 and those with other respiratory illness, but the former had a higher baseline risk that yielded a greater absolute risk in the COVID-19 group.

Limitations

• The study was based primarily on a retrospective review of electronic health records, which poses a risk for misclassification. 
• Echocardiography was performed without blinding operators to patient clinical status, and echocardiograms were interpreted in a single university hospital system, so were not externally validated.
• Because echocardiograms obtained during hospitalization could not be compared with previous echocardiograms, it could not be determined whether any of the patients had preexisting RV dilation or dysfunction.
• Strain imaging was not feasible in many cases.

Disclosures

• The study received no commercial funding.
• The authors disclosed no financial relationships.

This is a summary of a preprint research study, Association of Right Ventricular Dilation and Dysfunction on Echocardiogram With In-Hospital Mortality Among Patients Hospitalized with COVID-19 Compared With Other Acute Respiratory Illness, written by researchers at the University of California, San Francisco, department of medicine, and Zuckerberg San Francisco General Hospital, division of cardiology. A version of this article first appeared on Medscape.com.

The study covered in this summary was published in medRxiv.org as a preprint and has not yet been peer reviewed.

Key takeaways

• Right ventricular (RV) dilation or dysfunction in patients hospitalized with acute COVID-19 is associated with an elevated risk for in-hospital death.
• The impact of RV dilation or dysfunction on in-hospital mortality is similar for patients with acute COVID-19 and those with influenza, pneumonia, or acute respiratory distress syndrome (ARDS), but COVID-19 patients have greater absolute in-hospital mortality.
• RV dilatation or dysfunction in patients with acute COVID-19 is associated with a diagnosis of venous thromboembolism and subsequent intubation and mechanical ventilation.

Why this matters

• Right ventricular dysfunction increases mortality risk in acute COVID-19, and this study shows that RV dilation and dysfunction among such hospitalized patients has a similar impact on risk for in-hospital death in acute COVID-19 and in other respiratory illnesses.
• The findings suggest that abnormal RV findings should be considered a mortality risk marker in patients with acute respiratory illness, especially COVID-19.

Study design

• The retrospective study involved 225 consecutive patients admitted for acute COVID-19 from March 2020 to February 2021 at four major hospitals in the same metropolitan region and a control group of 6,150 adults admitted to the hospital for influenza, pneumonia, or ARDS; mean age in the study cohort was 63 years.
• All participants underwent echocardiography during their hospitalization, including evaluation of any RV dilation or dysfunction.
• Associations between RV measurements and in-hospital mortality, the primary outcome, were adjusted for potential confounders.

Key results

• Patients in the COVID-19 group were more likely than were those in the control group to be male (66% vs. 54%; P < .001), to identify as Hispanic (38% vs. 15%; P < .001), and to have a higher mean body mass index (29.4 vs. 27.9 kg/m²; P = .008).
• Compared with the control group, patients in the COVID-19 group more often required admission to the intensive care unit (75% vs. 54%; P < .001), mechanical ventilation (P < .001), and initiation of renal replacement therapy (P = .002), and more often were diagnosed with deep-vein thrombosis or pulmonary embolism (25% vs. 14%; P < .001). The median length of hospital stay was 20 days in the COVID-19 group, compared with 10 days in the control group (P < .001).
• In-hospital mortality was 21.3% in the COVID-19 group and 11.8% in the control group (P = .001). Those hospitalized with COVID-19 had an adjusted relative risk (RR) of 1.54 (95% confidence interval [CI], 1.06-2.24; P = .02) for in-hospital mortality, compared with those hospitalized for other respiratory illnesses.
• Mild RV dilation was associated with an adjusted RR of 1.4 (95% CI, 1.17-1.69; P = .0003) for in-hospital death, and moderate to severe RV dilation was associated with an adjusted RR of 2.0 (95% CI, 1.62-2.47; P < .0001).
• The corresponding adjusted risks for mild RV dysfunction and greater-than-mild RV dysfunction were, respectively, 1.39 (95% CI, 1.10-1.77; P = .007) and 1.68 (95% CI, 1.17-2.42; P = .005).
• The RR for in-hospital mortality associated with RV dilation and dysfunction was similar in those with COVID-19 and those with other respiratory illness, but the former had a higher baseline risk that yielded a greater absolute risk in the COVID-19 group.

Limitations

• The study was based primarily on a retrospective review of electronic health records, which poses a risk for misclassification. 
• Echocardiography was performed without blinding operators to patient clinical status, and echocardiograms were interpreted in a single university hospital system, so were not externally validated.
• Because echocardiograms obtained during hospitalization could not be compared with previous echocardiograms, it could not be determined whether any of the patients had preexisting RV dilation or dysfunction.
• Strain imaging was not feasible in many cases.

Disclosures

• The study received no commercial funding.
• The authors disclosed no financial relationships.

This is a summary of a preprint research study, Association of Right Ventricular Dilation and Dysfunction on Echocardiogram With In-Hospital Mortality Among Patients Hospitalized with COVID-19 Compared With Other Acute Respiratory Illness, written by researchers at the University of California, San Francisco, department of medicine, and Zuckerberg San Francisco General Hospital, division of cardiology. A version of this article first appeared on Medscape.com.

DENVER – In line with recommendations, emergency departments dramatically reduced their use of opioids as treatments for headache over a recent 11-year period, a new study finds. But the use of diphenhydramine (Benadryl) more than doubled even though guidelines caution against it, while recommended drugs such triptans and corticosteroids were rarely prescribed.

From 2007-2010 to 2015-2018, researchers reported at the annual meeting of the American Headache Society, a database reveals that opioid use in headache cases at EDs fell from 54% to 28%. Diphenhydramine use grew from 17% to 36% (both (P < .001). The percentage of cases in which EDs sought neuroimaging stayed stable at about 36%, a number that the study authors described as too high.

“Future studies are warranted to identify strategies to promote evidence-based treatments for headaches and appropriate outpatient referrals for follow-up and to reduce unnecessary neuroimaging orders in EDs,” lead author Seonkyeong Yang, MS, of the University of Florida, Gainesville, said in an interview.

Ms. Yang said researchers launched the study to update previous data in light of changes in opioid prescribing and the 2016 release of American Headache Society guidelines for the treatment of acute migraines in the ED setting. The research was published in the Journal of Clinical Medicine.
 

Headache treatment in the ED

For the study, researchers analyzed data from the U.S. National Hospital Ambulatory Medical Care survey and focused on adults who had a primary discharge diagnosis of headache.

For the 2015-2018 period, per weighted numbers, the survey encompassed 10.2 million headaches mostly among people younger than 50 (71%), female (73%), and White (73%). Migraines made up 33% of the total, with nonspecified headache accounting for almost all of the remainder (63%).

In 68% of cases, two or more medications were administered in the ED. This number rose to 83% among patients with migraine. But most of the time (54%), no medications were prescribed at discharge.

Among recommended medications, antiemetics – the most commonly used class of drugs in these patients – were prescribed 59% of the time in both 2007-2010 and 2015-2018 (P = .88). Usage of acetaminophens and NSAIDs grew from 37% to 52% over that time period.

Despite recommendations, the use of ergot alkaloids/triptans and corticosteroids remained low (less than 6% of the time).

“Several factors may contribute to the underuse of triptans in EDs, including their cardiovascular contraindications, ED physicians’ unfamiliarity with injectable triptans, higher costs, and treatment failures with triptans before ED visits,” Ms. Yang said. “We observed an upward trend in dexamethasone use over time. However, it was still underutilized. [The corticosteroid was only used 3.5% of the time from 2015-2018.] The 2016 AHS guideline strongly recommends dexamethasone use to prevent migraine recurrence after ED discharge. Identifying patients at high risk of headache recurrence for dexamethasone use may further improve patient outcomes of acute headache management in ED settings.”

Ms. Yang also reported that the use of diphenhydramine grew even though it’s not recommended. “Diphenhydramine is more likely to be used to prevent akathisia, a side effect of some antiemetics [that is, dopamine receptor antagonists] in headache-related ED visits,” she said. “However, the 2016 AHS guideline recommends against diphenhydramine use due to its limited efficacy in relieving headache pain. In addition, there is also conflicting evidence on diphenhydramine’s efficacy in preventing akathisia when coadministered with antiemetics. Diphenhydramine use requires caution due to its sedative effect and abuse potential.”

As for medication combinations, Ms. Yang said “the most broadly used therapy among headache-related ED visits in 2007-2010 was an opioid with an antiemetic (21.0%), which decreased to 6.6% in 2015-2018. Meanwhile, the combined use of acetaminophen/NSAIDs with antiemetic and diphenhydramine increased substantially from 3.9% to 15.7% and became the most prevalent therapy in 2015-2018. Opioid monotherapy use gradually decreased during the study period [from 8.8% to 1.9%].”
 

Evidence-based treatments underutilized

Commenting on the findings, New York University Langone neurologist and headache researcher Mia Tova Minen, MD, MPH, noted in an interview that AHS guidelines do not indicate acetaminophen/NSAIDs, diphenhydramine, and corticosteroids for the acute treatment of migraine. “The recommended treatments are sumatriptan subcutaneous, IV metoclopramide, and IV prochlorperazine. Steroids can be helpful in the prevention of migraine recurrence but not for the acute treatment of the migraine itself,” she said. “We need to ensure that patients with migraine get the top evidence-based treatments for migraine.”

As for diphenhydramine, she said it “is not a treatment for headache disorders. It does not have proven efficacy. It is sometimes given to reduce side effects of more acute treatments of headache, but it can make patients fatigued and keep them in the ED longer.”
 

Overuse of neuroimaging

Ms. Yang also highlighted study data about the frequency of neuroimaging. “Understandably, ED physicians do not want to miss any life-threatening secondary headaches like stroke,” she said. “However, other factors also contribute to the overuse of neuroimaging in headache-related ED visits: patient demands, financial incentives, a busy ED practice where clinical evaluation is replaced by tests, and ED physicians’ unfamiliarity with ICHD-3 diagnostic criteria for primary headache disorders. There is still much room for improvement in neuroimaging use for headaches in ED settings.”

For her part, Dr. Minen said scans are often performed reflexively and can be overused. “A CT scan is really only good in the case of acute trauma to rule out a fracture or a bleed or if there are signs of an emergent neurologic emergency like herniation or if a MRI is contraindicated. An MRI of the brain is typically the best test to examine brain tissue, though sometimes vessel imaging is also warranted. In the case of no red flags and a normal neurologic exam, the use of neuroimaging is low yield.”

The research has no funding. Ms. Yang and two other authors disclosed research funding from Merck. Dr. Minen reports no disclosures.

DENVER – In line with recommendations, emergency departments dramatically reduced their use of opioids as treatments for headache over a recent 11-year period, a new study finds. But the use of diphenhydramine (Benadryl) more than doubled even though guidelines caution against it, while recommended drugs such triptans and corticosteroids were rarely prescribed.

From 2007-2010 to 2015-2018, researchers reported at the annual meeting of the American Headache Society, a database reveals that opioid use in headache cases at EDs fell from 54% to 28%. Diphenhydramine use grew from 17% to 36% (both (P < .001). The percentage of cases in which EDs sought neuroimaging stayed stable at about 36%, a number that the study authors described as too high.

“Future studies are warranted to identify strategies to promote evidence-based treatments for headaches and appropriate outpatient referrals for follow-up and to reduce unnecessary neuroimaging orders in EDs,” lead author Seonkyeong Yang, MS, of the University of Florida, Gainesville, said in an interview.

Ms. Yang said researchers launched the study to update previous data in light of changes in opioid prescribing and the 2016 release of American Headache Society guidelines for the treatment of acute migraines in the ED setting. The research was published in the Journal of Clinical Medicine.
 

Headache treatment in the ED

For the study, researchers analyzed data from the U.S. National Hospital Ambulatory Medical Care survey and focused on adults who had a primary discharge diagnosis of headache.

For the 2015-2018 period, per weighted numbers, the survey encompassed 10.2 million headaches mostly among people younger than 50 (71%), female (73%), and White (73%). Migraines made up 33% of the total, with nonspecified headache accounting for almost all of the remainder (63%).

In 68% of cases, two or more medications were administered in the ED. This number rose to 83% among patients with migraine. But most of the time (54%), no medications were prescribed at discharge.

Among recommended medications, antiemetics – the most commonly used class of drugs in these patients – were prescribed 59% of the time in both 2007-2010 and 2015-2018 (P = .88). Usage of acetaminophens and NSAIDs grew from 37% to 52% over that time period.

Despite recommendations, the use of ergot alkaloids/triptans and corticosteroids remained low (less than 6% of the time).

“Several factors may contribute to the underuse of triptans in EDs, including their cardiovascular contraindications, ED physicians’ unfamiliarity with injectable triptans, higher costs, and treatment failures with triptans before ED visits,” Ms. Yang said. “We observed an upward trend in dexamethasone use over time. However, it was still underutilized. [The corticosteroid was only used 3.5% of the time from 2015-2018.] The 2016 AHS guideline strongly recommends dexamethasone use to prevent migraine recurrence after ED discharge. Identifying patients at high risk of headache recurrence for dexamethasone use may further improve patient outcomes of acute headache management in ED settings.”

Ms. Yang also reported that the use of diphenhydramine grew even though it’s not recommended. “Diphenhydramine is more likely to be used to prevent akathisia, a side effect of some antiemetics [that is, dopamine receptor antagonists] in headache-related ED visits,” she said. “However, the 2016 AHS guideline recommends against diphenhydramine use due to its limited efficacy in relieving headache pain. In addition, there is also conflicting evidence on diphenhydramine’s efficacy in preventing akathisia when coadministered with antiemetics. Diphenhydramine use requires caution due to its sedative effect and abuse potential.”

As for medication combinations, Ms. Yang said “the most broadly used therapy among headache-related ED visits in 2007-2010 was an opioid with an antiemetic (21.0%), which decreased to 6.6% in 2015-2018. Meanwhile, the combined use of acetaminophen/NSAIDs with antiemetic and diphenhydramine increased substantially from 3.9% to 15.7% and became the most prevalent therapy in 2015-2018. Opioid monotherapy use gradually decreased during the study period [from 8.8% to 1.9%].”
 

Evidence-based treatments underutilized

Commenting on the findings, New York University Langone neurologist and headache researcher Mia Tova Minen, MD, MPH, noted in an interview that AHS guidelines do not indicate acetaminophen/NSAIDs, diphenhydramine, and corticosteroids for the acute treatment of migraine. “The recommended treatments are sumatriptan subcutaneous, IV metoclopramide, and IV prochlorperazine. Steroids can be helpful in the prevention of migraine recurrence but not for the acute treatment of the migraine itself,” she said. “We need to ensure that patients with migraine get the top evidence-based treatments for migraine.”

As for diphenhydramine, she said it “is not a treatment for headache disorders. It does not have proven efficacy. It is sometimes given to reduce side effects of more acute treatments of headache, but it can make patients fatigued and keep them in the ED longer.”
 

Overuse of neuroimaging

Ms. Yang also highlighted study data about the frequency of neuroimaging. “Understandably, ED physicians do not want to miss any life-threatening secondary headaches like stroke,” she said. “However, other factors also contribute to the overuse of neuroimaging in headache-related ED visits: patient demands, financial incentives, a busy ED practice where clinical evaluation is replaced by tests, and ED physicians’ unfamiliarity with ICHD-3 diagnostic criteria for primary headache disorders. There is still much room for improvement in neuroimaging use for headaches in ED settings.”

For her part, Dr. Minen said scans are often performed reflexively and can be overused. “A CT scan is really only good in the case of acute trauma to rule out a fracture or a bleed or if there are signs of an emergent neurologic emergency like herniation or if a MRI is contraindicated. An MRI of the brain is typically the best test to examine brain tissue, though sometimes vessel imaging is also warranted. In the case of no red flags and a normal neurologic exam, the use of neuroimaging is low yield.”

The research has no funding. Ms. Yang and two other authors disclosed research funding from Merck. Dr. Minen reports no disclosures.

DENVER – In line with recommendations, emergency departments dramatically reduced their use of opioids as treatments for headache over a recent 11-year period, a new study finds. But the use of diphenhydramine (Benadryl) more than doubled even though guidelines caution against it, while recommended drugs such triptans and corticosteroids were rarely prescribed.

From 2007-2010 to 2015-2018, researchers reported at the annual meeting of the American Headache Society, a database reveals that opioid use in headache cases at EDs fell from 54% to 28%. Diphenhydramine use grew from 17% to 36% (both (P < .001). The percentage of cases in which EDs sought neuroimaging stayed stable at about 36%, a number that the study authors described as too high.

“Future studies are warranted to identify strategies to promote evidence-based treatments for headaches and appropriate outpatient referrals for follow-up and to reduce unnecessary neuroimaging orders in EDs,” lead author Seonkyeong Yang, MS, of the University of Florida, Gainesville, said in an interview.

Ms. Yang said researchers launched the study to update previous data in light of changes in opioid prescribing and the 2016 release of American Headache Society guidelines for the treatment of acute migraines in the ED setting. The research was published in the Journal of Clinical Medicine.
 

Headache treatment in the ED

For the study, researchers analyzed data from the U.S. National Hospital Ambulatory Medical Care survey and focused on adults who had a primary discharge diagnosis of headache.

For the 2015-2018 period, per weighted numbers, the survey encompassed 10.2 million headaches mostly among people younger than 50 (71%), female (73%), and White (73%). Migraines made up 33% of the total, with nonspecified headache accounting for almost all of the remainder (63%).

In 68% of cases, two or more medications were administered in the ED. This number rose to 83% among patients with migraine. But most of the time (54%), no medications were prescribed at discharge.

Among recommended medications, antiemetics – the most commonly used class of drugs in these patients – were prescribed 59% of the time in both 2007-2010 and 2015-2018 (P = .88). Usage of acetaminophens and NSAIDs grew from 37% to 52% over that time period.

Despite recommendations, the use of ergot alkaloids/triptans and corticosteroids remained low (less than 6% of the time).

“Several factors may contribute to the underuse of triptans in EDs, including their cardiovascular contraindications, ED physicians’ unfamiliarity with injectable triptans, higher costs, and treatment failures with triptans before ED visits,” Ms. Yang said. “We observed an upward trend in dexamethasone use over time. However, it was still underutilized. [The corticosteroid was only used 3.5% of the time from 2015-2018.] The 2016 AHS guideline strongly recommends dexamethasone use to prevent migraine recurrence after ED discharge. Identifying patients at high risk of headache recurrence for dexamethasone use may further improve patient outcomes of acute headache management in ED settings.”

Ms. Yang also reported that the use of diphenhydramine grew even though it’s not recommended. “Diphenhydramine is more likely to be used to prevent akathisia, a side effect of some antiemetics [that is, dopamine receptor antagonists] in headache-related ED visits,” she said. “However, the 2016 AHS guideline recommends against diphenhydramine use due to its limited efficacy in relieving headache pain. In addition, there is also conflicting evidence on diphenhydramine’s efficacy in preventing akathisia when coadministered with antiemetics. Diphenhydramine use requires caution due to its sedative effect and abuse potential.”

As for medication combinations, Ms. Yang said “the most broadly used therapy among headache-related ED visits in 2007-2010 was an opioid with an antiemetic (21.0%), which decreased to 6.6% in 2015-2018. Meanwhile, the combined use of acetaminophen/NSAIDs with antiemetic and diphenhydramine increased substantially from 3.9% to 15.7% and became the most prevalent therapy in 2015-2018. Opioid monotherapy use gradually decreased during the study period [from 8.8% to 1.9%].”
 

Evidence-based treatments underutilized

Commenting on the findings, New York University Langone neurologist and headache researcher Mia Tova Minen, MD, MPH, noted in an interview that AHS guidelines do not indicate acetaminophen/NSAIDs, diphenhydramine, and corticosteroids for the acute treatment of migraine. “The recommended treatments are sumatriptan subcutaneous, IV metoclopramide, and IV prochlorperazine. Steroids can be helpful in the prevention of migraine recurrence but not for the acute treatment of the migraine itself,” she said. “We need to ensure that patients with migraine get the top evidence-based treatments for migraine.”

As for diphenhydramine, she said it “is not a treatment for headache disorders. It does not have proven efficacy. It is sometimes given to reduce side effects of more acute treatments of headache, but it can make patients fatigued and keep them in the ED longer.”
 

Overuse of neuroimaging

Ms. Yang also highlighted study data about the frequency of neuroimaging. “Understandably, ED physicians do not want to miss any life-threatening secondary headaches like stroke,” she said. “However, other factors also contribute to the overuse of neuroimaging in headache-related ED visits: patient demands, financial incentives, a busy ED practice where clinical evaluation is replaced by tests, and ED physicians’ unfamiliarity with ICHD-3 diagnostic criteria for primary headache disorders. There is still much room for improvement in neuroimaging use for headaches in ED settings.”

For her part, Dr. Minen said scans are often performed reflexively and can be overused. “A CT scan is really only good in the case of acute trauma to rule out a fracture or a bleed or if there are signs of an emergent neurologic emergency like herniation or if a MRI is contraindicated. An MRI of the brain is typically the best test to examine brain tissue, though sometimes vessel imaging is also warranted. In the case of no red flags and a normal neurologic exam, the use of neuroimaging is low yield.”

The research has no funding. Ms. Yang and two other authors disclosed research funding from Merck. Dr. Minen reports no disclosures.

Intravenous thrombolysis (IVT) for acute stroke appears safe for patients who have recently received direct oral anticoagulant (DOAC) therapy, a new observational study suggests, prompting researchers to ask whether guidelines that restrict its use should be updated.

Researchers found that DOAC users were significantly less likely to develop symptomatic intracerebral hemorrhage (sICH) after IVT, and there was no difference in functional independence at 3 months, compared with patients who received IVT but who did not receive DOAC.

“At the moment, the guidelines really pose a barrier and stop sign in front of the most important medical reperfusion therapy, which is thrombolysis,” said principal investigator Jan Purrucker, MD, professor of neurology at Heidelberg University Hospital.

“The main question we have to answer is, is IVT safe in patients with acute ischemic stroke who were pretreated with direct oral anticoagulants or not?”

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022, Lyon, France.
 

A ‘daily clinical problem’

As many as 20% of patients with atrial fibrillation experience ischemic stroke while receiving DOAC therapy. Reperfusion therapy with intravenous alteplase is considered standard of care for acute ischemic stroke, but current guidelines recommend against the use of IVT for patients who have recently received a DOAC, owing to safety concerns that researchers say are not backed by strong clinical evidence.

A recent study found no significant difference in sICH among patients who received IV alteplase for acute ischemic stroke within 7 days of receiving therapy with non–vitamin K antagonist oral anticoagulants.

“In our daily clinical practice, we face a lot of patients who have received oral anticoagulation, many with atrial fibrillation, but a lot of other indicators as well, and they suffer from ischemic stroke,” Dr. Purrucker said. “They usually are ineligible for medical reperfusion therapy because of quite strict guideline recommendations at the moment. This is a daily clinical problem.”

Dr. Purrucker and colleagues in New Zealand and Switzerland launched an international, observational, multicenter cohort study to examine the issue.

Researchers collected data on patients with ischemic stroke who had last received DOAC therapy 48 hours or less before the event or whose last intake was unknown and who had received IVT. They included 20,448 patients, 830 of whom were receiving DOAC therapy at the time of stroke onset.

Among the DOAC users, 30% received DOAC reversal prior to IVT, 27% had their DOAC level measured, and 42% received IVT without reversal treatment or knowledge of DOAC levels.

Overall, 4.5% of patients developed sICH. Compared with the control group, DOAC users were half as likely to develop sICH (adjusted odds ratio, 0.47; P = .003).

There was no significant difference between groups in independent outcome at 3 months, defined as a Modified Rankin Scale score of 1 to 3 (aOR, 1.21; 95% confidence interval, 0.99-1.49).

This finding held across patient subgroups, including patients for whom selection methods differed and patients with very recent intake of less than 12 hours.

“The question is whether we are so confident in these data that we would change our clinical practice now,” Dr. Purrucker said.
 

Infrastructure needed

While the findings are promising, more data are needed to strengthen the argument for revising current IVT guidelines, said Ho-Yan Yvonne Chun, PhD, honorary senior clinical lecturer with the Centre for Clinical Brain Sciences at the University of Edinburgh and a consultant in stroke medicine for NHS Lothian and Borders General Hospital, who commented on the findings.

“The study sample are a highly selected group of patients from selected centers that have the infrastructure to offer DOAC level checking and DOAC reversal,” Dr. Chun said. “The selected centers are not representative of the majority of hospitals that offer IVT to stroke patients with acute stroke.”

Most hospitals lack the equipment necessary to test DOAC levels and don’t have immediate access to DOAC reversal agents, Dr. Chun said. In those centers, she added, the administration of IVT could be delayed, which might affect clinical outcomes.

“Infrastructure needs to be in place to ensure timely delivery of IVT to these patients,” Dr. Chun added. “This means that in real-world practice, hospitals need to have right logistical pathway in place in order to provide timely DOAC level checking and DOAC reversal agents.”

Dr. Chun added that “large pragmatic clinical trials, preferably multicentered, are needed to provide the definitive evidence on the safety and effectiveness of using these approaches to select patients with prior DOAC use for IVT.”

But such a study may not be feasible, Dr. Purrucker said. Among the hurdles he noted are the large sample size needed for such a trial, uncertainty regarding funding, and patient selection bias, resulting from the fact that such studies would likely exclude patients eligible for mechanical thrombectomy or those eligible for reversal treatment.

In light of earlier studies, including preclinical data that support the safety of DOACs in IVT, and these new data, Dr. Purrucker said he hopes a change in guidelines might be taken up in the future.

“But it should be good academic practice to first let the results be externally evaluated, for example, during the manuscript submission process,” he said. “But once published, guideline working groups will have to evaluate the recent and new evidence and might reconsider previous recommendations.”

The study received no commercial funding. Dr. Purrucker and Dr. Chun reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Intravenous thrombolysis (IVT) for acute stroke appears safe for patients who have recently received direct oral anticoagulant (DOAC) therapy, a new observational study suggests, prompting researchers to ask whether guidelines that restrict its use should be updated.

Researchers found that DOAC users were significantly less likely to develop symptomatic intracerebral hemorrhage (sICH) after IVT, and there was no difference in functional independence at 3 months, compared with patients who received IVT but who did not receive DOAC.

“At the moment, the guidelines really pose a barrier and stop sign in front of the most important medical reperfusion therapy, which is thrombolysis,” said principal investigator Jan Purrucker, MD, professor of neurology at Heidelberg University Hospital.

“The main question we have to answer is, is IVT safe in patients with acute ischemic stroke who were pretreated with direct oral anticoagulants or not?”

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022, Lyon, France.
 

A ‘daily clinical problem’

As many as 20% of patients with atrial fibrillation experience ischemic stroke while receiving DOAC therapy. Reperfusion therapy with intravenous alteplase is considered standard of care for acute ischemic stroke, but current guidelines recommend against the use of IVT for patients who have recently received a DOAC, owing to safety concerns that researchers say are not backed by strong clinical evidence.

A recent study found no significant difference in sICH among patients who received IV alteplase for acute ischemic stroke within 7 days of receiving therapy with non–vitamin K antagonist oral anticoagulants.

“In our daily clinical practice, we face a lot of patients who have received oral anticoagulation, many with atrial fibrillation, but a lot of other indicators as well, and they suffer from ischemic stroke,” Dr. Purrucker said. “They usually are ineligible for medical reperfusion therapy because of quite strict guideline recommendations at the moment. This is a daily clinical problem.”

Dr. Purrucker and colleagues in New Zealand and Switzerland launched an international, observational, multicenter cohort study to examine the issue.

Researchers collected data on patients with ischemic stroke who had last received DOAC therapy 48 hours or less before the event or whose last intake was unknown and who had received IVT. They included 20,448 patients, 830 of whom were receiving DOAC therapy at the time of stroke onset.

Among the DOAC users, 30% received DOAC reversal prior to IVT, 27% had their DOAC level measured, and 42% received IVT without reversal treatment or knowledge of DOAC levels.

Overall, 4.5% of patients developed sICH. Compared with the control group, DOAC users were half as likely to develop sICH (adjusted odds ratio, 0.47; P = .003).

There was no significant difference between groups in independent outcome at 3 months, defined as a Modified Rankin Scale score of 1 to 3 (aOR, 1.21; 95% confidence interval, 0.99-1.49).

This finding held across patient subgroups, including patients for whom selection methods differed and patients with very recent intake of less than 12 hours.

“The question is whether we are so confident in these data that we would change our clinical practice now,” Dr. Purrucker said.
 

Infrastructure needed

While the findings are promising, more data are needed to strengthen the argument for revising current IVT guidelines, said Ho-Yan Yvonne Chun, PhD, honorary senior clinical lecturer with the Centre for Clinical Brain Sciences at the University of Edinburgh and a consultant in stroke medicine for NHS Lothian and Borders General Hospital, who commented on the findings.

“The study sample are a highly selected group of patients from selected centers that have the infrastructure to offer DOAC level checking and DOAC reversal,” Dr. Chun said. “The selected centers are not representative of the majority of hospitals that offer IVT to stroke patients with acute stroke.”

Most hospitals lack the equipment necessary to test DOAC levels and don’t have immediate access to DOAC reversal agents, Dr. Chun said. In those centers, she added, the administration of IVT could be delayed, which might affect clinical outcomes.

“Infrastructure needs to be in place to ensure timely delivery of IVT to these patients,” Dr. Chun added. “This means that in real-world practice, hospitals need to have right logistical pathway in place in order to provide timely DOAC level checking and DOAC reversal agents.”

Dr. Chun added that “large pragmatic clinical trials, preferably multicentered, are needed to provide the definitive evidence on the safety and effectiveness of using these approaches to select patients with prior DOAC use for IVT.”

But such a study may not be feasible, Dr. Purrucker said. Among the hurdles he noted are the large sample size needed for such a trial, uncertainty regarding funding, and patient selection bias, resulting from the fact that such studies would likely exclude patients eligible for mechanical thrombectomy or those eligible for reversal treatment.

In light of earlier studies, including preclinical data that support the safety of DOACs in IVT, and these new data, Dr. Purrucker said he hopes a change in guidelines might be taken up in the future.

“But it should be good academic practice to first let the results be externally evaluated, for example, during the manuscript submission process,” he said. “But once published, guideline working groups will have to evaluate the recent and new evidence and might reconsider previous recommendations.”

The study received no commercial funding. Dr. Purrucker and Dr. Chun reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Intravenous thrombolysis (IVT) for acute stroke appears safe for patients who have recently received direct oral anticoagulant (DOAC) therapy, a new observational study suggests, prompting researchers to ask whether guidelines that restrict its use should be updated.

Researchers found that DOAC users were significantly less likely to develop symptomatic intracerebral hemorrhage (sICH) after IVT, and there was no difference in functional independence at 3 months, compared with patients who received IVT but who did not receive DOAC.

“At the moment, the guidelines really pose a barrier and stop sign in front of the most important medical reperfusion therapy, which is thrombolysis,” said principal investigator Jan Purrucker, MD, professor of neurology at Heidelberg University Hospital.

“The main question we have to answer is, is IVT safe in patients with acute ischemic stroke who were pretreated with direct oral anticoagulants or not?”

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022, Lyon, France.
 

A ‘daily clinical problem’

As many as 20% of patients with atrial fibrillation experience ischemic stroke while receiving DOAC therapy. Reperfusion therapy with intravenous alteplase is considered standard of care for acute ischemic stroke, but current guidelines recommend against the use of IVT for patients who have recently received a DOAC, owing to safety concerns that researchers say are not backed by strong clinical evidence.

A recent study found no significant difference in sICH among patients who received IV alteplase for acute ischemic stroke within 7 days of receiving therapy with non–vitamin K antagonist oral anticoagulants.

“In our daily clinical practice, we face a lot of patients who have received oral anticoagulation, many with atrial fibrillation, but a lot of other indicators as well, and they suffer from ischemic stroke,” Dr. Purrucker said. “They usually are ineligible for medical reperfusion therapy because of quite strict guideline recommendations at the moment. This is a daily clinical problem.”

Dr. Purrucker and colleagues in New Zealand and Switzerland launched an international, observational, multicenter cohort study to examine the issue.

Researchers collected data on patients with ischemic stroke who had last received DOAC therapy 48 hours or less before the event or whose last intake was unknown and who had received IVT. They included 20,448 patients, 830 of whom were receiving DOAC therapy at the time of stroke onset.

Among the DOAC users, 30% received DOAC reversal prior to IVT, 27% had their DOAC level measured, and 42% received IVT without reversal treatment or knowledge of DOAC levels.

Overall, 4.5% of patients developed sICH. Compared with the control group, DOAC users were half as likely to develop sICH (adjusted odds ratio, 0.47; P = .003).

There was no significant difference between groups in independent outcome at 3 months, defined as a Modified Rankin Scale score of 1 to 3 (aOR, 1.21; 95% confidence interval, 0.99-1.49).

This finding held across patient subgroups, including patients for whom selection methods differed and patients with very recent intake of less than 12 hours.

“The question is whether we are so confident in these data that we would change our clinical practice now,” Dr. Purrucker said.
 

Infrastructure needed

While the findings are promising, more data are needed to strengthen the argument for revising current IVT guidelines, said Ho-Yan Yvonne Chun, PhD, honorary senior clinical lecturer with the Centre for Clinical Brain Sciences at the University of Edinburgh and a consultant in stroke medicine for NHS Lothian and Borders General Hospital, who commented on the findings.

“The study sample are a highly selected group of patients from selected centers that have the infrastructure to offer DOAC level checking and DOAC reversal,” Dr. Chun said. “The selected centers are not representative of the majority of hospitals that offer IVT to stroke patients with acute stroke.”

Most hospitals lack the equipment necessary to test DOAC levels and don’t have immediate access to DOAC reversal agents, Dr. Chun said. In those centers, she added, the administration of IVT could be delayed, which might affect clinical outcomes.

“Infrastructure needs to be in place to ensure timely delivery of IVT to these patients,” Dr. Chun added. “This means that in real-world practice, hospitals need to have right logistical pathway in place in order to provide timely DOAC level checking and DOAC reversal agents.”

Dr. Chun added that “large pragmatic clinical trials, preferably multicentered, are needed to provide the definitive evidence on the safety and effectiveness of using these approaches to select patients with prior DOAC use for IVT.”

But such a study may not be feasible, Dr. Purrucker said. Among the hurdles he noted are the large sample size needed for such a trial, uncertainty regarding funding, and patient selection bias, resulting from the fact that such studies would likely exclude patients eligible for mechanical thrombectomy or those eligible for reversal treatment.

In light of earlier studies, including preclinical data that support the safety of DOACs in IVT, and these new data, Dr. Purrucker said he hopes a change in guidelines might be taken up in the future.

“But it should be good academic practice to first let the results be externally evaluated, for example, during the manuscript submission process,” he said. “But once published, guideline working groups will have to evaluate the recent and new evidence and might reconsider previous recommendations.”

The study received no commercial funding. Dr. Purrucker and Dr. Chun reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

A qualitative analysis of 20 people with head and neck cancer (HNC) has led to recommendations for improvements in care.

HNC has a high burden of treatment-related adverse events, along with frequent trouble with speech, swallowing, facial disfigurement, and psychological distress.

Among cancer patients, “they have the highest rates of emergency department use and hospitalization during treatment. They also have the highest rates of psychological distress. We have some Ontario data that shows they’ve got the highest rates of suicide and self-harm. So I think this is a really special population that we need to support,” Christopher Noel, MD, PhD, said in an interview. Dr. Noel was the lead author of the study, which was published in JAMA Otolaryngology – Head & Neck Surgery.

These issues can strongly affect quality of life, and even patient outcomes. “Even a 1-day interruption in treatment has been shown to impact oncologic outcomes. This is a very big issue whether you’re a surgeon, a medical oncologist, or a radiation oncologist,” said Dr. Noel, who is a resident physician at the University of Toronto.

He advocates that physicians interview patients and review the results in a structured way and then act on it. “If we just rely on patient [provided] communication, we’re going to miss about 50% of patient symptoms,” he said.

The researchers aimed for the patient’s perspective on treatment. “What is the patient’s perception of going through head neck cancer and their treatment, and managing their symptoms at home? And where do they think that we could do better?” Dr. Noel asked.

The most pressing issue was that patients felt their emotional and informational needs often were not met. That challenge is even harder for patients who have trouble communicating, which in turn makes them more prone to isolation and loneliness. Many felt that they had to get the information on their own. “They wanted it to be a more effortless process,” said Dr. Noel.

He described one patient with oropharynx cancer who was able to talk to people about her grief over her diagnosis, but treatment led to her throat becoming swollen and she lost the ability to communicate. “She felt very isolated and lonely. She really highlighted the emotional and psychosocial barriers in cancer care. Her treatment inherently leaves her feeling very isolated and lonely, and she had such a hard time connecting with a psychotherapist,” Dr. Noel said.

Another common issue revolved around efforts to communicate about symptoms and adverse effects of treatment. Resources often aren’t available on evenings or weekends, and it can take time for a nurse to call them back. Patients wanted to see more modern approaches, such as use of email or apps.

The patients in the study recommended 11 health care improvements.

• 1. Nurse navigator teams should have hours extended to evenings and weekends.
• 2. Patient communication methods should be expanded, using methods like email or apps.
• 3. HNC resources should be more broadly disseminated.
• 4. Education and information approaches should be individualized to the patient.
• 5. All HNC patients should be offered psychological resources.
• 6. Mental health needs should be assessed repeatedly throughout treatment and extended care.
• 7. Physicians should recognize the added symptom burden often faced by patients who travel extensively for treatment.
• 8. Partners and caregivers should be included as part of the treatment team.
• 9. Share symptom data with patients, which can improve engagement.
• 10. Review symptom scores and act on them regularly.
• 11. A member of the care team should be identified to oversee symptom management.

Dr. Noel had no relevant financial disclosures.

A qualitative analysis of 20 people with head and neck cancer (HNC) has led to recommendations for improvements in care.

HNC has a high burden of treatment-related adverse events, along with frequent trouble with speech, swallowing, facial disfigurement, and psychological distress.

Among cancer patients, “they have the highest rates of emergency department use and hospitalization during treatment. They also have the highest rates of psychological distress. We have some Ontario data that shows they’ve got the highest rates of suicide and self-harm. So I think this is a really special population that we need to support,” Christopher Noel, MD, PhD, said in an interview. Dr. Noel was the lead author of the study, which was published in JAMA Otolaryngology – Head & Neck Surgery.

These issues can strongly affect quality of life, and even patient outcomes. “Even a 1-day interruption in treatment has been shown to impact oncologic outcomes. This is a very big issue whether you’re a surgeon, a medical oncologist, or a radiation oncologist,” said Dr. Noel, who is a resident physician at the University of Toronto.

He advocates that physicians interview patients and review the results in a structured way and then act on it. “If we just rely on patient [provided] communication, we’re going to miss about 50% of patient symptoms,” he said.

The researchers aimed for the patient’s perspective on treatment. “What is the patient’s perception of going through head neck cancer and their treatment, and managing their symptoms at home? And where do they think that we could do better?” Dr. Noel asked.

The most pressing issue was that patients felt their emotional and informational needs often were not met. That challenge is even harder for patients who have trouble communicating, which in turn makes them more prone to isolation and loneliness. Many felt that they had to get the information on their own. “They wanted it to be a more effortless process,” said Dr. Noel.

He described one patient with oropharynx cancer who was able to talk to people about her grief over her diagnosis, but treatment led to her throat becoming swollen and she lost the ability to communicate. “She felt very isolated and lonely. She really highlighted the emotional and psychosocial barriers in cancer care. Her treatment inherently leaves her feeling very isolated and lonely, and she had such a hard time connecting with a psychotherapist,” Dr. Noel said.

Another common issue revolved around efforts to communicate about symptoms and adverse effects of treatment. Resources often aren’t available on evenings or weekends, and it can take time for a nurse to call them back. Patients wanted to see more modern approaches, such as use of email or apps.

The patients in the study recommended 11 health care improvements.

• 1. Nurse navigator teams should have hours extended to evenings and weekends.
• 2. Patient communication methods should be expanded, using methods like email or apps.
• 3. HNC resources should be more broadly disseminated.
• 4. Education and information approaches should be individualized to the patient.
• 5. All HNC patients should be offered psychological resources.
• 6. Mental health needs should be assessed repeatedly throughout treatment and extended care.
• 7. Physicians should recognize the added symptom burden often faced by patients who travel extensively for treatment.
• 8. Partners and caregivers should be included as part of the treatment team.
• 9. Share symptom data with patients, which can improve engagement.
• 10. Review symptom scores and act on them regularly.
• 11. A member of the care team should be identified to oversee symptom management.

Dr. Noel had no relevant financial disclosures.

A qualitative analysis of 20 people with head and neck cancer (HNC) has led to recommendations for improvements in care.

HNC has a high burden of treatment-related adverse events, along with frequent trouble with speech, swallowing, facial disfigurement, and psychological distress.

Among cancer patients, “they have the highest rates of emergency department use and hospitalization during treatment. They also have the highest rates of psychological distress. We have some Ontario data that shows they’ve got the highest rates of suicide and self-harm. So I think this is a really special population that we need to support,” Christopher Noel, MD, PhD, said in an interview. Dr. Noel was the lead author of the study, which was published in JAMA Otolaryngology – Head & Neck Surgery.

These issues can strongly affect quality of life, and even patient outcomes. “Even a 1-day interruption in treatment has been shown to impact oncologic outcomes. This is a very big issue whether you’re a surgeon, a medical oncologist, or a radiation oncologist,” said Dr. Noel, who is a resident physician at the University of Toronto.

He advocates that physicians interview patients and review the results in a structured way and then act on it. “If we just rely on patient [provided] communication, we’re going to miss about 50% of patient symptoms,” he said.

The researchers aimed for the patient’s perspective on treatment. “What is the patient’s perception of going through head neck cancer and their treatment, and managing their symptoms at home? And where do they think that we could do better?” Dr. Noel asked.

The most pressing issue was that patients felt their emotional and informational needs often were not met. That challenge is even harder for patients who have trouble communicating, which in turn makes them more prone to isolation and loneliness. Many felt that they had to get the information on their own. “They wanted it to be a more effortless process,” said Dr. Noel.

He described one patient with oropharynx cancer who was able to talk to people about her grief over her diagnosis, but treatment led to her throat becoming swollen and she lost the ability to communicate. “She felt very isolated and lonely. She really highlighted the emotional and psychosocial barriers in cancer care. Her treatment inherently leaves her feeling very isolated and lonely, and she had such a hard time connecting with a psychotherapist,” Dr. Noel said.

Another common issue revolved around efforts to communicate about symptoms and adverse effects of treatment. Resources often aren’t available on evenings or weekends, and it can take time for a nurse to call them back. Patients wanted to see more modern approaches, such as use of email or apps.

The patients in the study recommended 11 health care improvements.

• 1. Nurse navigator teams should have hours extended to evenings and weekends.
• 2. Patient communication methods should be expanded, using methods like email or apps.
• 3. HNC resources should be more broadly disseminated.
• 4. Education and information approaches should be individualized to the patient.
• 5. All HNC patients should be offered psychological resources.
• 6. Mental health needs should be assessed repeatedly throughout treatment and extended care.
• 7. Physicians should recognize the added symptom burden often faced by patients who travel extensively for treatment.
• 8. Partners and caregivers should be included as part of the treatment team.
• 9. Share symptom data with patients, which can improve engagement.
• 10. Review symptom scores and act on them regularly.
• 11. A member of the care team should be identified to oversee symptom management.

Dr. Noel had no relevant financial disclosures.

The use of a robotic-assisted device to perform transcranial Doppler ultrasound greatly improved the detection of right-to-left cardiac shunts in patients with presumed embolic strokes compared with the current standard of care – transthoracic echocardiography – in a new study.

Being far easier to perform than regular transcranial Doppler ultrasound, it’s hoped that use of the robotic device will enable many more patients to undergo the more sensitive transcranial screening modality and increase the number of shunts identified.

“I believe robot-assisted transcranial Doppler ultrasound can fill the gap between the gold standard transcranial Doppler and transthoracic echocardiography, which is the current standard of care,” said lead author Mark Rubin, MD.  

Dr. Rubin, who is assistant professor of neurology at University of Tennessee Health Science Center, Memphis, presented results of the BUBL study at the International Stroke Conference (ISC) 2022, where they were greeted with applause from the floor.
 

An improvement in the current standard of care

Dr. Rubin explained that patients with suspected embolic stroke are routinely screened for shunts in the heart, such as patent foramen ovale (PFO), that allow blood to flow from the right chamber to the left chamber and can lead to clots from the venous system, accessing the arterial system, then traveling to the brain and causing a stroke.

The current standard of care in screening for such shunts is the use of transthoracic echocardiography (TTE), a widely available and easy to perform, non-invasive procedure. “But we have known for decades that TTE does not pick up these shunts very well. With a sensitivity of only around 45%, it identifies less than half of the patients affected,” Dr. Rubin noted.  

The more sensitive transesophageal echocardiography (TEE) gives much better results, but it is an invasive and unpleasant procedure with the ultrasound probe being passed down the throat, and the patient needing to be sedated, so it’s not appropriate for everyone, he noted.

“Transcranial Doppler ultrasound (TCD) also gives excellent results, with a sensitivity of about 96% for detecting PFO, but this procedure is difficult to perform and requires a great deal of skill in placing the probes in the right position and interpreting the signal,” Dr. Rubin said. “TCD has been around for decades, but it hasn’t caught on, as it is too difficult to do. It takes a lot of time to learn the technique.”

“With the robotic-assisted transcranial Doppler device, we can achieve the sensitivity of TCD without needing expert operators. This should vastly improve accessibility to this technology,” he said. “With such technology we can make significant strides into more accurate diagnoses on the cause of stroke, which should lead to better preventive treatments in those found to have right-to-left shunts.”  
 

Robotic detection of shunts

For the BUBL study, the robotic TCD technique was compared with the standard TTE in 129 patients who had a diagnosis of presumed embolic stroke or transient ischemic attack (TIA), with all patients undergoing both procedures.  

The robotic TCD device resembles a giant pair of headphones containing the ultrasound probes, which are attached to a frame. In the study, it was operated by a health care professional without TCD skills. Each ultrasound probe independently scans the temporal area autonomously – with angling and positive pressure against the scalp akin to a sonographer – to find and optimize bilateral middle cerebral artery signals, Dr. Rubin explained.

The primary endpoint was the detection of a right-to-left shunt. This occurred in 82 of the 129 patients (63.6%) with the robotic TCD device but in only 27 patients (20.9%) when TTE was used. This gives an absolute difference of 42.6% (95% confidence interval, 28.6%-56.7%; P < .001), which Dr. Rubin described as “astounding.”

However, he said he was not surprised by these results.

“In my experience with transcranial Doppler, I find shunts in patients every day that have not been seen with transthoracic echo,” he commented.

He noted that a previous meta-analysis has suggested a similar difference between TCD and transthoracic echo, but the current study provides prospectively collected data produced in a clinical trial setting and is therefore more reliable. 

“What I hope comes from this is that more patients will be able to undergo transcranial Doppler, which is a far superior screening technique for identifying right-to-left shunts. There is so much evidence to support the use of transcranial Doppler, but with this new artificial-intelligence robotic device, we don’t need an expert to use it,” Dr. Rubin said.   

He explained that finding a right-to-left shunt in stroke patients is particularly important, as it can direct treatment strategies to reduce future risk of recurrent strokes.

“If a patient has a large shunt, then they have a high risk of having another stroke, and the PFO should be closed.”

In this study, the robotic-assisted TCD detected three times as many large shunts that were considered “intervenable,” compared with transthoracic echo, identifying these shunts in 35 patients (27%) compared to just 13 (10%) with TTE.

“Of the 35 patients with intervenable shunts detected with robotic transcranial Doppler, TTE was completely negative in 18 of them and only suggested a small shunt in the others. So, the standard of care (TTE) missed half the patients with intervenable PFOs,” Dr. Rubin reported.
 

Study should ‘dramatically change’ practice

Commenting on the study, Patrick Lyden, MD, professor of physiology and neuroscience and of neurology, University of Southern California, Los Angeles, said: “Most clinicians hesitate to use transcranial Doppler given the need for specialized technical expertise to obtain a reliable result. This study showed that a robotic transcranial Doppler device – which can be applied by any cardiac non-invasive lab technician – provides reliable and rigorous data.”

He added: “This result will dramatically change the typical evaluation of patients with suspected PFO: In place of an invasive transesophageal echo that requires anesthesia and a cardiologist, most patients can have a non-invasive, robotic-guided transcranial Doppler and get the same diagnostic benefit.”

Dr. Lyden also pointed out that the cost of TCD is typically one-tenth that of TEE, although he said the cost of the robotic guided TCD “is not clear.”

A representative of the company that makes the robotic assisted device, NovaSignal, says the cost of the equipment is approximately $250,000, but “understanding the importance of the technology, we work with each hospital to meet their unique needs.”

The company adds that it currently has “over 45 commercial solutions deployed across 25 centers with 3-4 times growth expected year over year.”

The study was supported by NovaSignal, the company which makes the robotic device. Dr. Rubin reports acting as a consultant for the NovaSignal.

A version of this article first appeared on Medscape.com.

The use of a robotic-assisted device to perform transcranial Doppler ultrasound greatly improved the detection of right-to-left cardiac shunts in patients with presumed embolic strokes compared with the current standard of care – transthoracic echocardiography – in a new study.

Being far easier to perform than regular transcranial Doppler ultrasound, it’s hoped that use of the robotic device will enable many more patients to undergo the more sensitive transcranial screening modality and increase the number of shunts identified.

“I believe robot-assisted transcranial Doppler ultrasound can fill the gap between the gold standard transcranial Doppler and transthoracic echocardiography, which is the current standard of care,” said lead author Mark Rubin, MD.  

Dr. Rubin, who is assistant professor of neurology at University of Tennessee Health Science Center, Memphis, presented results of the BUBL study at the International Stroke Conference (ISC) 2022, where they were greeted with applause from the floor.
 

An improvement in the current standard of care

Dr. Rubin explained that patients with suspected embolic stroke are routinely screened for shunts in the heart, such as patent foramen ovale (PFO), that allow blood to flow from the right chamber to the left chamber and can lead to clots from the venous system, accessing the arterial system, then traveling to the brain and causing a stroke.

The current standard of care in screening for such shunts is the use of transthoracic echocardiography (TTE), a widely available and easy to perform, non-invasive procedure. “But we have known for decades that TTE does not pick up these shunts very well. With a sensitivity of only around 45%, it identifies less than half of the patients affected,” Dr. Rubin noted.  

The more sensitive transesophageal echocardiography (TEE) gives much better results, but it is an invasive and unpleasant procedure with the ultrasound probe being passed down the throat, and the patient needing to be sedated, so it’s not appropriate for everyone, he noted.

“Transcranial Doppler ultrasound (TCD) also gives excellent results, with a sensitivity of about 96% for detecting PFO, but this procedure is difficult to perform and requires a great deal of skill in placing the probes in the right position and interpreting the signal,” Dr. Rubin said. “TCD has been around for decades, but it hasn’t caught on, as it is too difficult to do. It takes a lot of time to learn the technique.”

“With the robotic-assisted transcranial Doppler device, we can achieve the sensitivity of TCD without needing expert operators. This should vastly improve accessibility to this technology,” he said. “With such technology we can make significant strides into more accurate diagnoses on the cause of stroke, which should lead to better preventive treatments in those found to have right-to-left shunts.”  
 

Robotic detection of shunts

For the BUBL study, the robotic TCD technique was compared with the standard TTE in 129 patients who had a diagnosis of presumed embolic stroke or transient ischemic attack (TIA), with all patients undergoing both procedures.  

The robotic TCD device resembles a giant pair of headphones containing the ultrasound probes, which are attached to a frame. In the study, it was operated by a health care professional without TCD skills. Each ultrasound probe independently scans the temporal area autonomously – with angling and positive pressure against the scalp akin to a sonographer – to find and optimize bilateral middle cerebral artery signals, Dr. Rubin explained.

The primary endpoint was the detection of a right-to-left shunt. This occurred in 82 of the 129 patients (63.6%) with the robotic TCD device but in only 27 patients (20.9%) when TTE was used. This gives an absolute difference of 42.6% (95% confidence interval, 28.6%-56.7%; P < .001), which Dr. Rubin described as “astounding.”

However, he said he was not surprised by these results.

“In my experience with transcranial Doppler, I find shunts in patients every day that have not been seen with transthoracic echo,” he commented.

He noted that a previous meta-analysis has suggested a similar difference between TCD and transthoracic echo, but the current study provides prospectively collected data produced in a clinical trial setting and is therefore more reliable. 

“What I hope comes from this is that more patients will be able to undergo transcranial Doppler, which is a far superior screening technique for identifying right-to-left shunts. There is so much evidence to support the use of transcranial Doppler, but with this new artificial-intelligence robotic device, we don’t need an expert to use it,” Dr. Rubin said.   

He explained that finding a right-to-left shunt in stroke patients is particularly important, as it can direct treatment strategies to reduce future risk of recurrent strokes.

“If a patient has a large shunt, then they have a high risk of having another stroke, and the PFO should be closed.”

In this study, the robotic-assisted TCD detected three times as many large shunts that were considered “intervenable,” compared with transthoracic echo, identifying these shunts in 35 patients (27%) compared to just 13 (10%) with TTE.

“Of the 35 patients with intervenable shunts detected with robotic transcranial Doppler, TTE was completely negative in 18 of them and only suggested a small shunt in the others. So, the standard of care (TTE) missed half the patients with intervenable PFOs,” Dr. Rubin reported.
 

Study should ‘dramatically change’ practice

Commenting on the study, Patrick Lyden, MD, professor of physiology and neuroscience and of neurology, University of Southern California, Los Angeles, said: “Most clinicians hesitate to use transcranial Doppler given the need for specialized technical expertise to obtain a reliable result. This study showed that a robotic transcranial Doppler device – which can be applied by any cardiac non-invasive lab technician – provides reliable and rigorous data.”

He added: “This result will dramatically change the typical evaluation of patients with suspected PFO: In place of an invasive transesophageal echo that requires anesthesia and a cardiologist, most patients can have a non-invasive, robotic-guided transcranial Doppler and get the same diagnostic benefit.”

Dr. Lyden also pointed out that the cost of TCD is typically one-tenth that of TEE, although he said the cost of the robotic guided TCD “is not clear.”

A representative of the company that makes the robotic assisted device, NovaSignal, says the cost of the equipment is approximately $250,000, but “understanding the importance of the technology, we work with each hospital to meet their unique needs.”

The company adds that it currently has “over 45 commercial solutions deployed across 25 centers with 3-4 times growth expected year over year.”

The study was supported by NovaSignal, the company which makes the robotic device. Dr. Rubin reports acting as a consultant for the NovaSignal.

A version of this article first appeared on Medscape.com.

The use of a robotic-assisted device to perform transcranial Doppler ultrasound greatly improved the detection of right-to-left cardiac shunts in patients with presumed embolic strokes compared with the current standard of care – transthoracic echocardiography – in a new study.

Being far easier to perform than regular transcranial Doppler ultrasound, it’s hoped that use of the robotic device will enable many more patients to undergo the more sensitive transcranial screening modality and increase the number of shunts identified.

“I believe robot-assisted transcranial Doppler ultrasound can fill the gap between the gold standard transcranial Doppler and transthoracic echocardiography, which is the current standard of care,” said lead author Mark Rubin, MD.  

Dr. Rubin, who is assistant professor of neurology at University of Tennessee Health Science Center, Memphis, presented results of the BUBL study at the International Stroke Conference (ISC) 2022, where they were greeted with applause from the floor.
 

An improvement in the current standard of care

Dr. Rubin explained that patients with suspected embolic stroke are routinely screened for shunts in the heart, such as patent foramen ovale (PFO), that allow blood to flow from the right chamber to the left chamber and can lead to clots from the venous system, accessing the arterial system, then traveling to the brain and causing a stroke.

The current standard of care in screening for such shunts is the use of transthoracic echocardiography (TTE), a widely available and easy to perform, non-invasive procedure. “But we have known for decades that TTE does not pick up these shunts very well. With a sensitivity of only around 45%, it identifies less than half of the patients affected,” Dr. Rubin noted.  

The more sensitive transesophageal echocardiography (TEE) gives much better results, but it is an invasive and unpleasant procedure with the ultrasound probe being passed down the throat, and the patient needing to be sedated, so it’s not appropriate for everyone, he noted.

“Transcranial Doppler ultrasound (TCD) also gives excellent results, with a sensitivity of about 96% for detecting PFO, but this procedure is difficult to perform and requires a great deal of skill in placing the probes in the right position and interpreting the signal,” Dr. Rubin said. “TCD has been around for decades, but it hasn’t caught on, as it is too difficult to do. It takes a lot of time to learn the technique.”

“With the robotic-assisted transcranial Doppler device, we can achieve the sensitivity of TCD without needing expert operators. This should vastly improve accessibility to this technology,” he said. “With such technology we can make significant strides into more accurate diagnoses on the cause of stroke, which should lead to better preventive treatments in those found to have right-to-left shunts.”  
 

Robotic detection of shunts

For the BUBL study, the robotic TCD technique was compared with the standard TTE in 129 patients who had a diagnosis of presumed embolic stroke or transient ischemic attack (TIA), with all patients undergoing both procedures.  

The robotic TCD device resembles a giant pair of headphones containing the ultrasound probes, which are attached to a frame. In the study, it was operated by a health care professional without TCD skills. Each ultrasound probe independently scans the temporal area autonomously – with angling and positive pressure against the scalp akin to a sonographer – to find and optimize bilateral middle cerebral artery signals, Dr. Rubin explained.

The primary endpoint was the detection of a right-to-left shunt. This occurred in 82 of the 129 patients (63.6%) with the robotic TCD device but in only 27 patients (20.9%) when TTE was used. This gives an absolute difference of 42.6% (95% confidence interval, 28.6%-56.7%; P < .001), which Dr. Rubin described as “astounding.”

However, he said he was not surprised by these results.

“In my experience with transcranial Doppler, I find shunts in patients every day that have not been seen with transthoracic echo,” he commented.

He noted that a previous meta-analysis has suggested a similar difference between TCD and transthoracic echo, but the current study provides prospectively collected data produced in a clinical trial setting and is therefore more reliable. 

“What I hope comes from this is that more patients will be able to undergo transcranial Doppler, which is a far superior screening technique for identifying right-to-left shunts. There is so much evidence to support the use of transcranial Doppler, but with this new artificial-intelligence robotic device, we don’t need an expert to use it,” Dr. Rubin said.   

He explained that finding a right-to-left shunt in stroke patients is particularly important, as it can direct treatment strategies to reduce future risk of recurrent strokes.

“If a patient has a large shunt, then they have a high risk of having another stroke, and the PFO should be closed.”

In this study, the robotic-assisted TCD detected three times as many large shunts that were considered “intervenable,” compared with transthoracic echo, identifying these shunts in 35 patients (27%) compared to just 13 (10%) with TTE.

“Of the 35 patients with intervenable shunts detected with robotic transcranial Doppler, TTE was completely negative in 18 of them and only suggested a small shunt in the others. So, the standard of care (TTE) missed half the patients with intervenable PFOs,” Dr. Rubin reported.
 

Study should ‘dramatically change’ practice

Commenting on the study, Patrick Lyden, MD, professor of physiology and neuroscience and of neurology, University of Southern California, Los Angeles, said: “Most clinicians hesitate to use transcranial Doppler given the need for specialized technical expertise to obtain a reliable result. This study showed that a robotic transcranial Doppler device – which can be applied by any cardiac non-invasive lab technician – provides reliable and rigorous data.”

He added: “This result will dramatically change the typical evaluation of patients with suspected PFO: In place of an invasive transesophageal echo that requires anesthesia and a cardiologist, most patients can have a non-invasive, robotic-guided transcranial Doppler and get the same diagnostic benefit.”

Dr. Lyden also pointed out that the cost of TCD is typically one-tenth that of TEE, although he said the cost of the robotic guided TCD “is not clear.”

A representative of the company that makes the robotic assisted device, NovaSignal, says the cost of the equipment is approximately $250,000, but “understanding the importance of the technology, we work with each hospital to meet their unique needs.”

The company adds that it currently has “over 45 commercial solutions deployed across 25 centers with 3-4 times growth expected year over year.”

The study was supported by NovaSignal, the company which makes the robotic device. Dr. Rubin reports acting as a consultant for the NovaSignal.

A version of this article first appeared on Medscape.com.

The Onyx Liquid Embolic System (Medtronic) effectively occludes cerebral arteriovenous malformations (cAVMs), new observational data suggest. In a prospective, real-world study of more than 100 patients, use of the Onyx system was associated with a cure rate of 86% for cAVMs smaller than 3 cm.

“Endovascular treatment using Onyx is able to achieve, on its own, a very efficient cure rate with a low morbidity and mortality rate,” said investigator Laurent Spelle, MD, PhD, professor of neuroradiology at Paris-Saclay University and chair of NEURI, the Brain Vascular Center, Bicêtre Hospital, also in Paris.

Dr. Spelle presented the findings at the International Stroke Conference sponsored by the American Heart Association.
 

Prospective, multicenter study

Currently, the main treatment options for cAVM are embolization, neurosurgery, and radiosurgery. The Onyx liquid system, one method of providing embolization, uses a biocompatible ethylene vinyl alcohol copolymer.

It has been used in Europe for 22 years as a curative treatment and as a treatment before radiosurgery or neurosurgery. In the United States, Onyx is indicated for presurgical and preradiotherapy treatment only.

For this analysis, the researchers conducted a prospective, multicenter study to evaluate the long-term safety and efficacy of Onyx for the embolization of cAVM as curative treatment or preoperative preparation.

They enrolled 165 patients in the nonrandomized, observational study, which was conducted at 15 hospitals in France. Eligible participants had an untreated cAVM.

Patients were assigned to one of three groups, according to the hospital’s standard of care. One group underwent embolization with Onyx as curative treatment, one received Onyx as preparation for neurosurgery, and one underwent embolization with Onyx as preparation for radiosurgery.

The study’s safety endpoints were device- and procedure-related serious adverse events at 1 month after each embolization. The efficacy endpoints were recovery at 12 months after the last embolization or neurosurgery, or at a minimum of 36 months after radiosurgery.

The researchers defined morbidity as a worsening of modified Rankin Scale score of 2 or more points for patients presenting with baseline mRS of 0 or 1, or a worsening of 1 or more points for patients with an mRS of 2 or greater at baseline. An independent clinical events committee and core laboratory adjudicated the results.
 

‘A fantastic result’

In all, 140 patients were prospectively included, and 212 embolization procedures were performed. The population’s mean age was 41.4 years, and 60% of participants were men. About 61% of patients presented with symptoms, the most common of which were progressive neurologic deficit (41.2%) and headache (36.5%).

Approximately 64% of the cAVMs were ruptured. Most (75.7%) were smaller than 3 cm, and the remainder were between 3 and 6 cm. Most patients (59.3%) did not have an aneurysm.

Eight (3.8%) adverse events were associated with the use of Onyx. The rate of procedure-related neurologic serious adverse events was 7.1% within 1 month post embolization. Three deaths occurred (2.1%), one of which was considered device or procedure related.

A total of 87 patients underwent embolization alone, 14 of whom did not complete the study (2 died, 5 were lost to follow-up, and 7 withdrew). Of the 73 who completed the study, 58 (79.5%) had complete occlusion and full recovery at last follow-up. An additional 6.8% had 99% occlusion.

In addition, 3.4% of the population had significant morbidity, and 18.4% presented at baseline with mRS scores of 3-5. Of the latter group, 81.3% had mRS scores of 0-2 at last visit.

Of 21 patients who underwent subsequent neurosurgery, 18 completed follow-up. Of this group, 94.4% had complete occlusion. Of 32 patients receiving subsequent radiosurgery, 54.8% had complete occlusion, which was “a little bit disappointing,” said Dr. Spelle.

Overall, most patients (92.9%) had improved or stable mRS score. The overall mortality rate was 2.9%, and the rate of significant morbidity was 4.3%.

The rate of improved or stable mRS score was 94.3% for patients who underwent embolization alone, 85.7% for patients who also underwent neurosurgery, and 93.75% for patients who also underwent radiosurgery.

The mortality rate was 3.4% for patients who underwent embolization alone, 4.8% for patients who also underwent neurosurgery, and 0% for patients who also underwent radiosurgery.

The rate of significant morbidity was 2.3% for patients who underwent embolization alone, 9.5% for those who also underwent neurosurgery, and 6.25% for those who also underwent radiosurgery.

“We knew that this treatment was very effective, but this effectiveness was only known in a limited number of centers with a very high level of expertise,” said Dr. Spelle. “We were very pleasantly surprised that a larger-scale, multicenter study conducted in 15 different hospitals in France could achieve such a fantastic result.”

The study sites, however, were all departments in university hospitals with great experience in endovascular treatment of cAVM, he added.
 

Effective in unruptured AVMs?

Commenting on the findings, Mitchell Elkind, MD, professor of neurology and epidemiology, Columbia University, New York, said: “Arteriovenous malformations remain a relatively uncommon but serious cerebrovascular disorder. Any additional tool in the armamentarium to treat these lesions is welcome.”

The study results are encouraging, said Dr. Elkind, who was not involved in the study. They suggest that Onyx embolization can play an important role in the care of these patients. The treatment is associated with “low morbidity and excellent efficacy, particularly in combination with other surgical and radiographic approaches.”

The lack of a direct comparison with alternative embolization materials is a limitation of the study, however. “It is hard to compare Onyx to other agents based on these results,” said Dr. Elkind.

“It is also notable that one-third of the patients in the study had unruptured AVMs, which at least in one randomized trial, ARUBA, were not clearly shown to benefit from an intervention at all,” he continued.

It would have been valuable for the researchers to stratify the study results by ruptured versus unruptured AVMs, Dr. Elkind said.

The study was funded by Medtronic. Dr. Spelle reported receiving honoraria from the company. Dr. Elkind disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The Onyx Liquid Embolic System (Medtronic) effectively occludes cerebral arteriovenous malformations (cAVMs), new observational data suggest. In a prospective, real-world study of more than 100 patients, use of the Onyx system was associated with a cure rate of 86% for cAVMs smaller than 3 cm.

“Endovascular treatment using Onyx is able to achieve, on its own, a very efficient cure rate with a low morbidity and mortality rate,” said investigator Laurent Spelle, MD, PhD, professor of neuroradiology at Paris-Saclay University and chair of NEURI, the Brain Vascular Center, Bicêtre Hospital, also in Paris.

Dr. Spelle presented the findings at the International Stroke Conference sponsored by the American Heart Association.
 

Prospective, multicenter study

Currently, the main treatment options for cAVM are embolization, neurosurgery, and radiosurgery. The Onyx liquid system, one method of providing embolization, uses a biocompatible ethylene vinyl alcohol copolymer.

It has been used in Europe for 22 years as a curative treatment and as a treatment before radiosurgery or neurosurgery. In the United States, Onyx is indicated for presurgical and preradiotherapy treatment only.

For this analysis, the researchers conducted a prospective, multicenter study to evaluate the long-term safety and efficacy of Onyx for the embolization of cAVM as curative treatment or preoperative preparation.

They enrolled 165 patients in the nonrandomized, observational study, which was conducted at 15 hospitals in France. Eligible participants had an untreated cAVM.

Patients were assigned to one of three groups, according to the hospital’s standard of care. One group underwent embolization with Onyx as curative treatment, one received Onyx as preparation for neurosurgery, and one underwent embolization with Onyx as preparation for radiosurgery.

The study’s safety endpoints were device- and procedure-related serious adverse events at 1 month after each embolization. The efficacy endpoints were recovery at 12 months after the last embolization or neurosurgery, or at a minimum of 36 months after radiosurgery.

The researchers defined morbidity as a worsening of modified Rankin Scale score of 2 or more points for patients presenting with baseline mRS of 0 or 1, or a worsening of 1 or more points for patients with an mRS of 2 or greater at baseline. An independent clinical events committee and core laboratory adjudicated the results.
 

‘A fantastic result’

In all, 140 patients were prospectively included, and 212 embolization procedures were performed. The population’s mean age was 41.4 years, and 60% of participants were men. About 61% of patients presented with symptoms, the most common of which were progressive neurologic deficit (41.2%) and headache (36.5%).

Approximately 64% of the cAVMs were ruptured. Most (75.7%) were smaller than 3 cm, and the remainder were between 3 and 6 cm. Most patients (59.3%) did not have an aneurysm.

Eight (3.8%) adverse events were associated with the use of Onyx. The rate of procedure-related neurologic serious adverse events was 7.1% within 1 month post embolization. Three deaths occurred (2.1%), one of which was considered device or procedure related.

A total of 87 patients underwent embolization alone, 14 of whom did not complete the study (2 died, 5 were lost to follow-up, and 7 withdrew). Of the 73 who completed the study, 58 (79.5%) had complete occlusion and full recovery at last follow-up. An additional 6.8% had 99% occlusion.

In addition, 3.4% of the population had significant morbidity, and 18.4% presented at baseline with mRS scores of 3-5. Of the latter group, 81.3% had mRS scores of 0-2 at last visit.

Of 21 patients who underwent subsequent neurosurgery, 18 completed follow-up. Of this group, 94.4% had complete occlusion. Of 32 patients receiving subsequent radiosurgery, 54.8% had complete occlusion, which was “a little bit disappointing,” said Dr. Spelle.

Overall, most patients (92.9%) had improved or stable mRS score. The overall mortality rate was 2.9%, and the rate of significant morbidity was 4.3%.

The rate of improved or stable mRS score was 94.3% for patients who underwent embolization alone, 85.7% for patients who also underwent neurosurgery, and 93.75% for patients who also underwent radiosurgery.

The mortality rate was 3.4% for patients who underwent embolization alone, 4.8% for patients who also underwent neurosurgery, and 0% for patients who also underwent radiosurgery.

The rate of significant morbidity was 2.3% for patients who underwent embolization alone, 9.5% for those who also underwent neurosurgery, and 6.25% for those who also underwent radiosurgery.

“We knew that this treatment was very effective, but this effectiveness was only known in a limited number of centers with a very high level of expertise,” said Dr. Spelle. “We were very pleasantly surprised that a larger-scale, multicenter study conducted in 15 different hospitals in France could achieve such a fantastic result.”

The study sites, however, were all departments in university hospitals with great experience in endovascular treatment of cAVM, he added.
 

Effective in unruptured AVMs?

Commenting on the findings, Mitchell Elkind, MD, professor of neurology and epidemiology, Columbia University, New York, said: “Arteriovenous malformations remain a relatively uncommon but serious cerebrovascular disorder. Any additional tool in the armamentarium to treat these lesions is welcome.”

The study results are encouraging, said Dr. Elkind, who was not involved in the study. They suggest that Onyx embolization can play an important role in the care of these patients. The treatment is associated with “low morbidity and excellent efficacy, particularly in combination with other surgical and radiographic approaches.”

The lack of a direct comparison with alternative embolization materials is a limitation of the study, however. “It is hard to compare Onyx to other agents based on these results,” said Dr. Elkind.

“It is also notable that one-third of the patients in the study had unruptured AVMs, which at least in one randomized trial, ARUBA, were not clearly shown to benefit from an intervention at all,” he continued.

It would have been valuable for the researchers to stratify the study results by ruptured versus unruptured AVMs, Dr. Elkind said.

The study was funded by Medtronic. Dr. Spelle reported receiving honoraria from the company. Dr. Elkind disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The Onyx Liquid Embolic System (Medtronic) effectively occludes cerebral arteriovenous malformations (cAVMs), new observational data suggest. In a prospective, real-world study of more than 100 patients, use of the Onyx system was associated with a cure rate of 86% for cAVMs smaller than 3 cm.

“Endovascular treatment using Onyx is able to achieve, on its own, a very efficient cure rate with a low morbidity and mortality rate,” said investigator Laurent Spelle, MD, PhD, professor of neuroradiology at Paris-Saclay University and chair of NEURI, the Brain Vascular Center, Bicêtre Hospital, also in Paris.

Dr. Spelle presented the findings at the International Stroke Conference sponsored by the American Heart Association.
 

Prospective, multicenter study

Currently, the main treatment options for cAVM are embolization, neurosurgery, and radiosurgery. The Onyx liquid system, one method of providing embolization, uses a biocompatible ethylene vinyl alcohol copolymer.

It has been used in Europe for 22 years as a curative treatment and as a treatment before radiosurgery or neurosurgery. In the United States, Onyx is indicated for presurgical and preradiotherapy treatment only.

For this analysis, the researchers conducted a prospective, multicenter study to evaluate the long-term safety and efficacy of Onyx for the embolization of cAVM as curative treatment or preoperative preparation.

They enrolled 165 patients in the nonrandomized, observational study, which was conducted at 15 hospitals in France. Eligible participants had an untreated cAVM.

Patients were assigned to one of three groups, according to the hospital’s standard of care. One group underwent embolization with Onyx as curative treatment, one received Onyx as preparation for neurosurgery, and one underwent embolization with Onyx as preparation for radiosurgery.

The study’s safety endpoints were device- and procedure-related serious adverse events at 1 month after each embolization. The efficacy endpoints were recovery at 12 months after the last embolization or neurosurgery, or at a minimum of 36 months after radiosurgery.

The researchers defined morbidity as a worsening of modified Rankin Scale score of 2 or more points for patients presenting with baseline mRS of 0 or 1, or a worsening of 1 or more points for patients with an mRS of 2 or greater at baseline. An independent clinical events committee and core laboratory adjudicated the results.
 

‘A fantastic result’

In all, 140 patients were prospectively included, and 212 embolization procedures were performed. The population’s mean age was 41.4 years, and 60% of participants were men. About 61% of patients presented with symptoms, the most common of which were progressive neurologic deficit (41.2%) and headache (36.5%).

Approximately 64% of the cAVMs were ruptured. Most (75.7%) were smaller than 3 cm, and the remainder were between 3 and 6 cm. Most patients (59.3%) did not have an aneurysm.

Eight (3.8%) adverse events were associated with the use of Onyx. The rate of procedure-related neurologic serious adverse events was 7.1% within 1 month post embolization. Three deaths occurred (2.1%), one of which was considered device or procedure related.

A total of 87 patients underwent embolization alone, 14 of whom did not complete the study (2 died, 5 were lost to follow-up, and 7 withdrew). Of the 73 who completed the study, 58 (79.5%) had complete occlusion and full recovery at last follow-up. An additional 6.8% had 99% occlusion.

In addition, 3.4% of the population had significant morbidity, and 18.4% presented at baseline with mRS scores of 3-5. Of the latter group, 81.3% had mRS scores of 0-2 at last visit.

Of 21 patients who underwent subsequent neurosurgery, 18 completed follow-up. Of this group, 94.4% had complete occlusion. Of 32 patients receiving subsequent radiosurgery, 54.8% had complete occlusion, which was “a little bit disappointing,” said Dr. Spelle.

Overall, most patients (92.9%) had improved or stable mRS score. The overall mortality rate was 2.9%, and the rate of significant morbidity was 4.3%.

The rate of improved or stable mRS score was 94.3% for patients who underwent embolization alone, 85.7% for patients who also underwent neurosurgery, and 93.75% for patients who also underwent radiosurgery.

The mortality rate was 3.4% for patients who underwent embolization alone, 4.8% for patients who also underwent neurosurgery, and 0% for patients who also underwent radiosurgery.

The rate of significant morbidity was 2.3% for patients who underwent embolization alone, 9.5% for those who also underwent neurosurgery, and 6.25% for those who also underwent radiosurgery.

“We knew that this treatment was very effective, but this effectiveness was only known in a limited number of centers with a very high level of expertise,” said Dr. Spelle. “We were very pleasantly surprised that a larger-scale, multicenter study conducted in 15 different hospitals in France could achieve such a fantastic result.”

The study sites, however, were all departments in university hospitals with great experience in endovascular treatment of cAVM, he added.
 

Effective in unruptured AVMs?

Commenting on the findings, Mitchell Elkind, MD, professor of neurology and epidemiology, Columbia University, New York, said: “Arteriovenous malformations remain a relatively uncommon but serious cerebrovascular disorder. Any additional tool in the armamentarium to treat these lesions is welcome.”

The study results are encouraging, said Dr. Elkind, who was not involved in the study. They suggest that Onyx embolization can play an important role in the care of these patients. The treatment is associated with “low morbidity and excellent efficacy, particularly in combination with other surgical and radiographic approaches.”

The lack of a direct comparison with alternative embolization materials is a limitation of the study, however. “It is hard to compare Onyx to other agents based on these results,” said Dr. Elkind.

“It is also notable that one-third of the patients in the study had unruptured AVMs, which at least in one randomized trial, ARUBA, were not clearly shown to benefit from an intervention at all,” he continued.

It would have been valuable for the researchers to stratify the study results by ruptured versus unruptured AVMs, Dr. Elkind said.

The study was funded by Medtronic. Dr. Spelle reported receiving honoraria from the company. Dr. Elkind disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The thrombolytic tenecteplase may have a role in reestablishing blood flow in patients with large-vessel acute ischemic stroke up to 24 hours after stroke onset selected by perfusion imaging, a new trial from China suggests.

The phase 2a CHABLIS trial was presented at the International Stroke Conference by Xin Cheng, MD, associate professor of neurology at the Huashan Hospital of Fudan University and the National Center for Neurological Disorders in Shanghai, China.

“These results are the first to be reported with tenecteplase in the extended time window and suggest that it may be feasible to extend the time window of intravenous thrombolysis to 24 hours after last known well through perfusion imaging selection,” she concluded at the conference presented by the American Stroke Association, a division of the American Heart Association.

Dr. Cheng noted that alteplase (tissue plasminogen activator) is the standard of care for thrombolysis in stroke, with a time window of up to 4.5 hours after stroke onset. However, the recent EXTEND trial suggested benefit of alteplase in patients who were between 4.5 and 9 hours of stroke onset and who had hypoperfused but salvageable regions of brain detected on automated perfusion imaging.

Tenecteplase is a genetically modified variant of alteplase. It has received regulatory approval for treatment of myocardial infarction. Dr. Cheng said there is increasing interest in tenecteplase as an alternative to alteplase, mainly because of its practical advantages (single bolus, rather than 1-hour infusion) and its having a number of hypothetical advantages over alteplase, including greater fibrin specificity and lesser likelihood of fibrinogen depletion.

Until now, studies of tenecteplase in stroke have included patients in the traditional time window, which has been no longer than 6 hours from stroke onset, she added.

For the current CHABLIS trial, the Chinese researchers investigated the use of tenecteplase administered to ischemic stroke patients at 4.5-24 hours from time of their being last seen well who were selected by significant penumbral mismatch on perfusion imaging. The trial included 86 patients who had an anterior large-vessel occlusion or severe stenosis identified on head and neck CT angiography and penumbral mismatch on CT perfusion imaging. They were randomized to one of two doses of tenecteplase, 0.25 mg/kg or 0.32 mg/kg.

The primary outcome was the achievement of reperfusion without symptomatic intracranial hemorrhage at 24-48 hours after thrombolysis. This occurred in 32% of the 0.25-mg/kg group versus 23.3% of the 0.32-mg/kg group.

Recanalization at 4-6 hours occurred in 44% of both groups.

In terms of neurologic outcomes, an excellent functional outcome, defined as a Modified Rankin Scale (mRS) score of 0-1 at 90 days, was achieved in 28% of the 0.25-mg/kg group and 49% of the 0.32-mg/kg group. A good functional outcome (mRS, 0-2) occurred in 46% of the 0.25-mg/kg group versus 60% of the 0.32-mg/kg group.

Limitations of the study included a small sample size and the lack of a control group. In addition, the study included only Chinese patients, who are known to have different stroke etiologies in comparison with White patients, Dr. Cheng noted.

In the subset of patients who received tenecteplase and who underwent endovascular therapy, fewer patients (8.8%) reached the primary outcome measure of reperfusion without symptomatic ICH, compared with those who received only tenecteplase (40.4%).

“In our study, tenecteplase seems to be quite effective and safe in patients who do not need endovascular therapy,” Dr. Cheng said. “More research is needed to understand why tenecteplase was less effective in restoring blood flow and more likely to result in symptomatic brain bleeding among those who had endovascular therapy.”

The researchers have now started a phase 2b trial, CHABLIS-2. This is a randomized, multicenter, controlled, open-label study of the 0.25-mg/kg dose of tenecteplase.

Commenting on the current study at an ISC press conference, Tudor G. Jovin, MD, chair of neurology at Cooper University Hospital, Cherry Hill, New Jersey, said: “This is very important study looking at the question of using thrombolysis out to 24 hours, and it does suggest a benefit, but we don’t know the best dose yet.”

He noted that his hospital system has already switched from alteplase to tenecteplase in the treatment of stroke, and several other centers are also making this switch. “In our center, we use the 0.25-mg/kg dose, but we don’t routinely treat patients beyond the 4.5-hour time window,” Dr. Jovin reported.

“The signals are there for a longer treatment window,” he said. “But this study was not aiming to directly answer whether tenecteplase is better than no treatment or alteplase, or its use with endovascular therapy.”

Noting that there are similar randomized trials ongoing in the United States and other countries exploring the same doses of tenecteplase, he said he thought the “dose and approach is applicable to U.S. practice.”

The CHABLIS study was funded by national key research and development program of China from the Science and Technology Ministry. Tenecteplase was provided by Guangzhou Recomgen Biotech.

A version of this article first appeared on Medscape.com.

The thrombolytic tenecteplase may have a role in reestablishing blood flow in patients with large-vessel acute ischemic stroke up to 24 hours after stroke onset selected by perfusion imaging, a new trial from China suggests.

The phase 2a CHABLIS trial was presented at the International Stroke Conference by Xin Cheng, MD, associate professor of neurology at the Huashan Hospital of Fudan University and the National Center for Neurological Disorders in Shanghai, China.

“These results are the first to be reported with tenecteplase in the extended time window and suggest that it may be feasible to extend the time window of intravenous thrombolysis to 24 hours after last known well through perfusion imaging selection,” she concluded at the conference presented by the American Stroke Association, a division of the American Heart Association.

Dr. Cheng noted that alteplase (tissue plasminogen activator) is the standard of care for thrombolysis in stroke, with a time window of up to 4.5 hours after stroke onset. However, the recent EXTEND trial suggested benefit of alteplase in patients who were between 4.5 and 9 hours of stroke onset and who had hypoperfused but salvageable regions of brain detected on automated perfusion imaging.

Tenecteplase is a genetically modified variant of alteplase. It has received regulatory approval for treatment of myocardial infarction. Dr. Cheng said there is increasing interest in tenecteplase as an alternative to alteplase, mainly because of its practical advantages (single bolus, rather than 1-hour infusion) and its having a number of hypothetical advantages over alteplase, including greater fibrin specificity and lesser likelihood of fibrinogen depletion.

Until now, studies of tenecteplase in stroke have included patients in the traditional time window, which has been no longer than 6 hours from stroke onset, she added.

For the current CHABLIS trial, the Chinese researchers investigated the use of tenecteplase administered to ischemic stroke patients at 4.5-24 hours from time of their being last seen well who were selected by significant penumbral mismatch on perfusion imaging. The trial included 86 patients who had an anterior large-vessel occlusion or severe stenosis identified on head and neck CT angiography and penumbral mismatch on CT perfusion imaging. They were randomized to one of two doses of tenecteplase, 0.25 mg/kg or 0.32 mg/kg.

The primary outcome was the achievement of reperfusion without symptomatic intracranial hemorrhage at 24-48 hours after thrombolysis. This occurred in 32% of the 0.25-mg/kg group versus 23.3% of the 0.32-mg/kg group.

Recanalization at 4-6 hours occurred in 44% of both groups.

In terms of neurologic outcomes, an excellent functional outcome, defined as a Modified Rankin Scale (mRS) score of 0-1 at 90 days, was achieved in 28% of the 0.25-mg/kg group and 49% of the 0.32-mg/kg group. A good functional outcome (mRS, 0-2) occurred in 46% of the 0.25-mg/kg group versus 60% of the 0.32-mg/kg group.

Limitations of the study included a small sample size and the lack of a control group. In addition, the study included only Chinese patients, who are known to have different stroke etiologies in comparison with White patients, Dr. Cheng noted.

In the subset of patients who received tenecteplase and who underwent endovascular therapy, fewer patients (8.8%) reached the primary outcome measure of reperfusion without symptomatic ICH, compared with those who received only tenecteplase (40.4%).

“In our study, tenecteplase seems to be quite effective and safe in patients who do not need endovascular therapy,” Dr. Cheng said. “More research is needed to understand why tenecteplase was less effective in restoring blood flow and more likely to result in symptomatic brain bleeding among those who had endovascular therapy.”

The researchers have now started a phase 2b trial, CHABLIS-2. This is a randomized, multicenter, controlled, open-label study of the 0.25-mg/kg dose of tenecteplase.

Commenting on the current study at an ISC press conference, Tudor G. Jovin, MD, chair of neurology at Cooper University Hospital, Cherry Hill, New Jersey, said: “This is very important study looking at the question of using thrombolysis out to 24 hours, and it does suggest a benefit, but we don’t know the best dose yet.”

He noted that his hospital system has already switched from alteplase to tenecteplase in the treatment of stroke, and several other centers are also making this switch. “In our center, we use the 0.25-mg/kg dose, but we don’t routinely treat patients beyond the 4.5-hour time window,” Dr. Jovin reported.

“The signals are there for a longer treatment window,” he said. “But this study was not aiming to directly answer whether tenecteplase is better than no treatment or alteplase, or its use with endovascular therapy.”

Noting that there are similar randomized trials ongoing in the United States and other countries exploring the same doses of tenecteplase, he said he thought the “dose and approach is applicable to U.S. practice.”

The CHABLIS study was funded by national key research and development program of China from the Science and Technology Ministry. Tenecteplase was provided by Guangzhou Recomgen Biotech.

A version of this article first appeared on Medscape.com.

The thrombolytic tenecteplase may have a role in reestablishing blood flow in patients with large-vessel acute ischemic stroke up to 24 hours after stroke onset selected by perfusion imaging, a new trial from China suggests.

The phase 2a CHABLIS trial was presented at the International Stroke Conference by Xin Cheng, MD, associate professor of neurology at the Huashan Hospital of Fudan University and the National Center for Neurological Disorders in Shanghai, China.

“These results are the first to be reported with tenecteplase in the extended time window and suggest that it may be feasible to extend the time window of intravenous thrombolysis to 24 hours after last known well through perfusion imaging selection,” she concluded at the conference presented by the American Stroke Association, a division of the American Heart Association.

Dr. Cheng noted that alteplase (tissue plasminogen activator) is the standard of care for thrombolysis in stroke, with a time window of up to 4.5 hours after stroke onset. However, the recent EXTEND trial suggested benefit of alteplase in patients who were between 4.5 and 9 hours of stroke onset and who had hypoperfused but salvageable regions of brain detected on automated perfusion imaging.

Tenecteplase is a genetically modified variant of alteplase. It has received regulatory approval for treatment of myocardial infarction. Dr. Cheng said there is increasing interest in tenecteplase as an alternative to alteplase, mainly because of its practical advantages (single bolus, rather than 1-hour infusion) and its having a number of hypothetical advantages over alteplase, including greater fibrin specificity and lesser likelihood of fibrinogen depletion.

Until now, studies of tenecteplase in stroke have included patients in the traditional time window, which has been no longer than 6 hours from stroke onset, she added.

For the current CHABLIS trial, the Chinese researchers investigated the use of tenecteplase administered to ischemic stroke patients at 4.5-24 hours from time of their being last seen well who were selected by significant penumbral mismatch on perfusion imaging. The trial included 86 patients who had an anterior large-vessel occlusion or severe stenosis identified on head and neck CT angiography and penumbral mismatch on CT perfusion imaging. They were randomized to one of two doses of tenecteplase, 0.25 mg/kg or 0.32 mg/kg.

The primary outcome was the achievement of reperfusion without symptomatic intracranial hemorrhage at 24-48 hours after thrombolysis. This occurred in 32% of the 0.25-mg/kg group versus 23.3% of the 0.32-mg/kg group.

Recanalization at 4-6 hours occurred in 44% of both groups.

In terms of neurologic outcomes, an excellent functional outcome, defined as a Modified Rankin Scale (mRS) score of 0-1 at 90 days, was achieved in 28% of the 0.25-mg/kg group and 49% of the 0.32-mg/kg group. A good functional outcome (mRS, 0-2) occurred in 46% of the 0.25-mg/kg group versus 60% of the 0.32-mg/kg group.

Limitations of the study included a small sample size and the lack of a control group. In addition, the study included only Chinese patients, who are known to have different stroke etiologies in comparison with White patients, Dr. Cheng noted.

In the subset of patients who received tenecteplase and who underwent endovascular therapy, fewer patients (8.8%) reached the primary outcome measure of reperfusion without symptomatic ICH, compared with those who received only tenecteplase (40.4%).

“In our study, tenecteplase seems to be quite effective and safe in patients who do not need endovascular therapy,” Dr. Cheng said. “More research is needed to understand why tenecteplase was less effective in restoring blood flow and more likely to result in symptomatic brain bleeding among those who had endovascular therapy.”

The researchers have now started a phase 2b trial, CHABLIS-2. This is a randomized, multicenter, controlled, open-label study of the 0.25-mg/kg dose of tenecteplase.

Commenting on the current study at an ISC press conference, Tudor G. Jovin, MD, chair of neurology at Cooper University Hospital, Cherry Hill, New Jersey, said: “This is very important study looking at the question of using thrombolysis out to 24 hours, and it does suggest a benefit, but we don’t know the best dose yet.”

He noted that his hospital system has already switched from alteplase to tenecteplase in the treatment of stroke, and several other centers are also making this switch. “In our center, we use the 0.25-mg/kg dose, but we don’t routinely treat patients beyond the 4.5-hour time window,” Dr. Jovin reported.

“The signals are there for a longer treatment window,” he said. “But this study was not aiming to directly answer whether tenecteplase is better than no treatment or alteplase, or its use with endovascular therapy.”

Noting that there are similar randomized trials ongoing in the United States and other countries exploring the same doses of tenecteplase, he said he thought the “dose and approach is applicable to U.S. practice.”

The CHABLIS study was funded by national key research and development program of China from the Science and Technology Ministry. Tenecteplase was provided by Guangzhou Recomgen Biotech.

A version of this article first appeared on Medscape.com.

The risk for acute ischemic stroke in patients with COVID-19 appears to be significantly elevated in the first 3 days after the infection, new research shows.

The study among Medicare beneficiaries with COVID-19 also showed that stroke risk is higher for relatively young older adults, those aged 65 to 74 years, and those without a history of stroke.

The study highlights the impact COVID-19 has on the cardiovascular system, said study author Quanhe Yang, PhD, senior scientist, Division for Heart Disease and Stroke Prevention, Centers for Disease Control and Prevention, Atlanta.

“Clinicians and patients should understand that stroke might be one of the very important clinical consequences of COVID-19.”

The study was presented during the hybrid International Stroke Conference held in New Orleans and online. The meeting was presented by the American Stroke Association, a division of the American Heart Association.

Stroke is the fifth leading cause of death in the U.S. As an increasing number of people become infected with COVID-19, “it’s important to determine if there’s a relationship between COVID and the risk of stroke,” said Dr. Yang.

Findings from prior research examining the link between stroke and COVID-19 have been inconsistent, he noted. Some studies found an association while others did not, and in still others, the association was not as strong as expected.

Many factors may contribute to these inconsistent findings, said Dr. Yang, including differences in study design, inclusion criteria, comparison groups, sample sizes, and countries where the research was carried out. Dr. Yang pointed out that many of these studies were done in the early stages of the pandemic or didn’t include older adults, the population most at risk for stroke.

The current study included 19,553 Medicare beneficiaries aged 65 years and older diagnosed with COVID-19 and hospitalized with acute ischemic stroke. The median age at diagnosis of COVID-19 was 80.5 years, 57.5% were women, and more than 75% were non-Hispanic Whites.

To ensure the stroke occurred after a COVID infection, researchers used a self-controlled case series study design, a “within person” comparison between the risk period and the control period.

They divided the study period (Jan. 1, 2019 to Feb. 28, 2021) into the exposure or stroke risk periods after the COVID diagnosis (0-3 days; 4-7 days; 8-15 days; and 15-28 days) and control periods.

Strokes that occurred 7 days before or 28 days after a COVID diagnosis served as a control period. “Any stroke that occurred outside the risk window is in the control period,” explained Dr. Yang.

He added that the control period provides a baseline. “Without COVID-19, this is what I would expect” in terms of the number of strokes.

To estimate the incidence rate ratio (IRR), investigators compared the incidence of acute ischemic stroke in the various risk periods with control periods.

The IRR was 10.97 (95% confidence interval, 10.30-11.68) at 0-3 days. The risk then quickly declined but stayed higher than the control period. The IRRs were: 1.59 (95% CI, 1.35-1.87) at 4-7 days; 1.23 (95% CI, 1.07-1.41) at 8-14 days; and 1.06 (95% CI, 0.95-1.18) at 15-28 days.

The temporary increase in stroke risk early after an infection isn’t novel; the pattern has been observed with influenza, respiratory infections, and shingles, said Dr. Yang. “But COVID-19 appears to be particularly risky.”

Although the mechanism driving the early increased stroke risk isn’t fully understood, it’s likely tied to an “exaggerated inflammatory response,” said Dr. Yang. This can trigger the cascade of events setting the stage for a stroke – a hypercoagulation state leading to the formation of blood clots that then block arteries to the brain, he said.

It’s also possible the infection directly affects endothelial cells, leading to rupture of plaque, again blocking arteries and raising stroke risks, added Dr. Yang.

The association was stronger among younger beneficiaries, aged 65 to 74 years, compared with those 85 years and older, a finding Dr. Yang said was somewhat surprising. But he noted other studies have found stroke patients with COVID are younger than stroke patients without COVID – by some 5 to 6 years.

“If COVID-19 disproportionately affects younger patients, that may explain the stronger association,” said Dr. Yang. “Stroke risk increases tremendously with age, so if you’re a younger age, your baseline stroke risk is lower.”

The association was also stronger among beneficiaries without a history of stroke. Again, this could be related to the stronger association among younger patients who are less likely to have suffered a stroke. The association was largely consistent across sex and race/ethnicities. 

Dr. Yang stressed that the findings need to be confirmed with further studies.

The study was carried out before widespread use of vaccinations in the U.S. Once those data are available, Dr. Yang and his colleagues plan to determine if vaccinations modify the association between COVID-19 and stroke risk.

The new results contribute to the mounting evidence that a COVID-19 infection “can actually affect multiple human organs structurally or functionally in addition to the impact on [the] respiratory system,” said Dr. Yang.

Some dates of COVID-19 diagnoses may be incorrect due to limited test availability, particularly early in the pandemic. Another limitation of the study was possible misclassification from the use of Medicare real-time preliminary claims.

In a provided statement, Louise D. McCullough, MD, PhD, chair of the ISC 2022 and professor and chair of neurology, McGovern Medical School, University of Texas Health Science Center at Houston, noted that the study focused on older adults because it was examining Medicare beneficiaries.

“But everyone is likely at risk for stroke after COVID,” she said. “Any infection is linked to stroke risk, probably because any infection will cause inflammation, and inflammation can cause clots or thrombus, which is the cause of stroke.”

There was no outside funding for the study. No relevant conflicts of interest were disclosed.

A version of this article first appeared on Medscape.com.

The risk for acute ischemic stroke in patients with COVID-19 appears to be significantly elevated in the first 3 days after the infection, new research shows.

The study among Medicare beneficiaries with COVID-19 also showed that stroke risk is higher for relatively young older adults, those aged 65 to 74 years, and those without a history of stroke.

The study highlights the impact COVID-19 has on the cardiovascular system, said study author Quanhe Yang, PhD, senior scientist, Division for Heart Disease and Stroke Prevention, Centers for Disease Control and Prevention, Atlanta.

“Clinicians and patients should understand that stroke might be one of the very important clinical consequences of COVID-19.”

The study was presented during the hybrid International Stroke Conference held in New Orleans and online. The meeting was presented by the American Stroke Association, a division of the American Heart Association.

Stroke is the fifth leading cause of death in the U.S. As an increasing number of people become infected with COVID-19, “it’s important to determine if there’s a relationship between COVID and the risk of stroke,” said Dr. Yang.

Findings from prior research examining the link between stroke and COVID-19 have been inconsistent, he noted. Some studies found an association while others did not, and in still others, the association was not as strong as expected.

Many factors may contribute to these inconsistent findings, said Dr. Yang, including differences in study design, inclusion criteria, comparison groups, sample sizes, and countries where the research was carried out. Dr. Yang pointed out that many of these studies were done in the early stages of the pandemic or didn’t include older adults, the population most at risk for stroke.

The current study included 19,553 Medicare beneficiaries aged 65 years and older diagnosed with COVID-19 and hospitalized with acute ischemic stroke. The median age at diagnosis of COVID-19 was 80.5 years, 57.5% were women, and more than 75% were non-Hispanic Whites.

To ensure the stroke occurred after a COVID infection, researchers used a self-controlled case series study design, a “within person” comparison between the risk period and the control period.

They divided the study period (Jan. 1, 2019 to Feb. 28, 2021) into the exposure or stroke risk periods after the COVID diagnosis (0-3 days; 4-7 days; 8-15 days; and 15-28 days) and control periods.

Strokes that occurred 7 days before or 28 days after a COVID diagnosis served as a control period. “Any stroke that occurred outside the risk window is in the control period,” explained Dr. Yang.

He added that the control period provides a baseline. “Without COVID-19, this is what I would expect” in terms of the number of strokes.

To estimate the incidence rate ratio (IRR), investigators compared the incidence of acute ischemic stroke in the various risk periods with control periods.

The IRR was 10.97 (95% confidence interval, 10.30-11.68) at 0-3 days. The risk then quickly declined but stayed higher than the control period. The IRRs were: 1.59 (95% CI, 1.35-1.87) at 4-7 days; 1.23 (95% CI, 1.07-1.41) at 8-14 days; and 1.06 (95% CI, 0.95-1.18) at 15-28 days.

The temporary increase in stroke risk early after an infection isn’t novel; the pattern has been observed with influenza, respiratory infections, and shingles, said Dr. Yang. “But COVID-19 appears to be particularly risky.”

Although the mechanism driving the early increased stroke risk isn’t fully understood, it’s likely tied to an “exaggerated inflammatory response,” said Dr. Yang. This can trigger the cascade of events setting the stage for a stroke – a hypercoagulation state leading to the formation of blood clots that then block arteries to the brain, he said.

It’s also possible the infection directly affects endothelial cells, leading to rupture of plaque, again blocking arteries and raising stroke risks, added Dr. Yang.

The association was stronger among younger beneficiaries, aged 65 to 74 years, compared with those 85 years and older, a finding Dr. Yang said was somewhat surprising. But he noted other studies have found stroke patients with COVID are younger than stroke patients without COVID – by some 5 to 6 years.

“If COVID-19 disproportionately affects younger patients, that may explain the stronger association,” said Dr. Yang. “Stroke risk increases tremendously with age, so if you’re a younger age, your baseline stroke risk is lower.”

The association was also stronger among beneficiaries without a history of stroke. Again, this could be related to the stronger association among younger patients who are less likely to have suffered a stroke. The association was largely consistent across sex and race/ethnicities. 

Dr. Yang stressed that the findings need to be confirmed with further studies.

The study was carried out before widespread use of vaccinations in the U.S. Once those data are available, Dr. Yang and his colleagues plan to determine if vaccinations modify the association between COVID-19 and stroke risk.

The new results contribute to the mounting evidence that a COVID-19 infection “can actually affect multiple human organs structurally or functionally in addition to the impact on [the] respiratory system,” said Dr. Yang.

Some dates of COVID-19 diagnoses may be incorrect due to limited test availability, particularly early in the pandemic. Another limitation of the study was possible misclassification from the use of Medicare real-time preliminary claims.

In a provided statement, Louise D. McCullough, MD, PhD, chair of the ISC 2022 and professor and chair of neurology, McGovern Medical School, University of Texas Health Science Center at Houston, noted that the study focused on older adults because it was examining Medicare beneficiaries.

“But everyone is likely at risk for stroke after COVID,” she said. “Any infection is linked to stroke risk, probably because any infection will cause inflammation, and inflammation can cause clots or thrombus, which is the cause of stroke.”

There was no outside funding for the study. No relevant conflicts of interest were disclosed.

A version of this article first appeared on Medscape.com.

The risk for acute ischemic stroke in patients with COVID-19 appears to be significantly elevated in the first 3 days after the infection, new research shows.

The study among Medicare beneficiaries with COVID-19 also showed that stroke risk is higher for relatively young older adults, those aged 65 to 74 years, and those without a history of stroke.

The study highlights the impact COVID-19 has on the cardiovascular system, said study author Quanhe Yang, PhD, senior scientist, Division for Heart Disease and Stroke Prevention, Centers for Disease Control and Prevention, Atlanta.

“Clinicians and patients should understand that stroke might be one of the very important clinical consequences of COVID-19.”

The study was presented during the hybrid International Stroke Conference held in New Orleans and online. The meeting was presented by the American Stroke Association, a division of the American Heart Association.

Stroke is the fifth leading cause of death in the U.S. As an increasing number of people become infected with COVID-19, “it’s important to determine if there’s a relationship between COVID and the risk of stroke,” said Dr. Yang.

Findings from prior research examining the link between stroke and COVID-19 have been inconsistent, he noted. Some studies found an association while others did not, and in still others, the association was not as strong as expected.

Many factors may contribute to these inconsistent findings, said Dr. Yang, including differences in study design, inclusion criteria, comparison groups, sample sizes, and countries where the research was carried out. Dr. Yang pointed out that many of these studies were done in the early stages of the pandemic or didn’t include older adults, the population most at risk for stroke.

The current study included 19,553 Medicare beneficiaries aged 65 years and older diagnosed with COVID-19 and hospitalized with acute ischemic stroke. The median age at diagnosis of COVID-19 was 80.5 years, 57.5% were women, and more than 75% were non-Hispanic Whites.

To ensure the stroke occurred after a COVID infection, researchers used a self-controlled case series study design, a “within person” comparison between the risk period and the control period.

They divided the study period (Jan. 1, 2019 to Feb. 28, 2021) into the exposure or stroke risk periods after the COVID diagnosis (0-3 days; 4-7 days; 8-15 days; and 15-28 days) and control periods.

Strokes that occurred 7 days before or 28 days after a COVID diagnosis served as a control period. “Any stroke that occurred outside the risk window is in the control period,” explained Dr. Yang.

He added that the control period provides a baseline. “Without COVID-19, this is what I would expect” in terms of the number of strokes.

To estimate the incidence rate ratio (IRR), investigators compared the incidence of acute ischemic stroke in the various risk periods with control periods.

The IRR was 10.97 (95% confidence interval, 10.30-11.68) at 0-3 days. The risk then quickly declined but stayed higher than the control period. The IRRs were: 1.59 (95% CI, 1.35-1.87) at 4-7 days; 1.23 (95% CI, 1.07-1.41) at 8-14 days; and 1.06 (95% CI, 0.95-1.18) at 15-28 days.

The temporary increase in stroke risk early after an infection isn’t novel; the pattern has been observed with influenza, respiratory infections, and shingles, said Dr. Yang. “But COVID-19 appears to be particularly risky.”

Although the mechanism driving the early increased stroke risk isn’t fully understood, it’s likely tied to an “exaggerated inflammatory response,” said Dr. Yang. This can trigger the cascade of events setting the stage for a stroke – a hypercoagulation state leading to the formation of blood clots that then block arteries to the brain, he said.

It’s also possible the infection directly affects endothelial cells, leading to rupture of plaque, again blocking arteries and raising stroke risks, added Dr. Yang.

The association was stronger among younger beneficiaries, aged 65 to 74 years, compared with those 85 years and older, a finding Dr. Yang said was somewhat surprising. But he noted other studies have found stroke patients with COVID are younger than stroke patients without COVID – by some 5 to 6 years.

“If COVID-19 disproportionately affects younger patients, that may explain the stronger association,” said Dr. Yang. “Stroke risk increases tremendously with age, so if you’re a younger age, your baseline stroke risk is lower.”

The association was also stronger among beneficiaries without a history of stroke. Again, this could be related to the stronger association among younger patients who are less likely to have suffered a stroke. The association was largely consistent across sex and race/ethnicities. 

Dr. Yang stressed that the findings need to be confirmed with further studies.

The study was carried out before widespread use of vaccinations in the U.S. Once those data are available, Dr. Yang and his colleagues plan to determine if vaccinations modify the association between COVID-19 and stroke risk.

The new results contribute to the mounting evidence that a COVID-19 infection “can actually affect multiple human organs structurally or functionally in addition to the impact on [the] respiratory system,” said Dr. Yang.

Some dates of COVID-19 diagnoses may be incorrect due to limited test availability, particularly early in the pandemic. Another limitation of the study was possible misclassification from the use of Medicare real-time preliminary claims.

In a provided statement, Louise D. McCullough, MD, PhD, chair of the ISC 2022 and professor and chair of neurology, McGovern Medical School, University of Texas Health Science Center at Houston, noted that the study focused on older adults because it was examining Medicare beneficiaries.

“But everyone is likely at risk for stroke after COVID,” she said. “Any infection is linked to stroke risk, probably because any infection will cause inflammation, and inflammation can cause clots or thrombus, which is the cause of stroke.”

There was no outside funding for the study. No relevant conflicts of interest were disclosed.

A version of this article first appeared on Medscape.com.

Two illicit drugs are contributing to a sharp rise in fentanyl-related deaths, a new study from the Centers for Disease Control and Prevention shows.

Para-fluorofentanyl, a schedule I substance often found in heroin packets and counterfeit pills, is making a comeback on the illicit drug market, Jordan Trecki, PhD, and associates reported in the Centers for Disease Control and Prevention’s Morbidity and Mortality Weekly Report (2022 Jan 28;71[4]:153-5). U.S. medical examiner reports and national law enforcement seizure data point to a rise in encounters of this drug along with metonitazene, a benzimidazole-opioid, in combination with fentanyl.

On their own, para-fluorofentanyl and metonitazene can kill the user through respiratory depression. Combinations of these substances and other opioids, including fentanyl-related compounds or adulterants, “pose an even greater potential harm to the patient than previously observed,” reported Dr. Trecki, a pharmacologist affiliated with the Drug Enforcement Administration, and colleagues.

Opioids contribute to about 75% of all U.S. drug overdose deaths, which rose by 28.5% during 2020-2021, according to the National Center for Health Statistics. And fentanyl is replacing heroin as the primary drug of use, said addiction specialist Brian Fuehrlein, MD, PhD, in an interview.

“For patients with stimulant use disorder and even cannabis use disorder, fentanyl is becoming more and more common as an adulterant in those substances, often resulting in inadvertent use. Hence, fentanyl and fentanyl-like drugs and fentanyl analogues are becoming increasingly common and important,” said Dr. Fuehrlein, director of the psychiatric emergency room at the VA Connecticut Healthcare System. He was not involved with the MMWR study.
 

Tennessee data reflect national problem

Recent data from a medical examiner in Knoxville, Tenn., illustrate what might be happening nationwide with those two emerging substances.

Over the last 2 years, the Knox County Regional Forensic Center has identified para-fluorofentanyl in the toxicology results of drug overdose victims, and metonitazene – either on its own or in combination with fentanyl and para-fluorofentanyl. Fentanyl appeared in 562 or 73% of 770 unintentional drug overdose deaths from November 2020 to August 2021. Forty-eight of these cases involved para-fluorofentanyl, and 26 involved metonitazene.

“Although the percentage of law enforcement encounters with these substances in Tennessee decreased relative to the national total percentage within this time frame, the increase in encounters both within Tennessee and nationally reflect an increased distribution of para-fluorofentanyl and metonitazene throughout the United States,” the authors reported.
 

How to identify substances, manage overdoses

The authors encouraged physicians, labs, and medical examiners to be on the lookout for these two substances either in the emergency department or when identifying the cause of drug overdose deaths.

They also advised that stronger opioids, such as fentanyl, para-fluorofentanyl, metonitazene, or other benzimidazoles may warrant additional doses of the opioid-reversal drug naloxone.

While he hasn’t personally seen any of these drugs in his practice, “I would assume that these are on the rise due to inexpensive cost to manufacture and potency of effect,” said Dr. Fuehrlein, also an associate professor of psychiatry at Yale University, New Haven, Conn.

The need for additional naloxone to manage acute overdoses is a key takeaway of the MMWR paper, he added. Clinicians should also educate patients about harm reduction strategies to avoid overdose death when using potentially powerful and unknown drugs. “Things like start low and go slow, buy from the same supplier, do not use opioids with alcohol or benzos, have Narcan available, do not use alone, etc.”

Dr. Fuehrlein had no disclosures.

Two illicit drugs are contributing to a sharp rise in fentanyl-related deaths, a new study from the Centers for Disease Control and Prevention shows.

Para-fluorofentanyl, a schedule I substance often found in heroin packets and counterfeit pills, is making a comeback on the illicit drug market, Jordan Trecki, PhD, and associates reported in the Centers for Disease Control and Prevention’s Morbidity and Mortality Weekly Report (2022 Jan 28;71[4]:153-5). U.S. medical examiner reports and national law enforcement seizure data point to a rise in encounters of this drug along with metonitazene, a benzimidazole-opioid, in combination with fentanyl.

On their own, para-fluorofentanyl and metonitazene can kill the user through respiratory depression. Combinations of these substances and other opioids, including fentanyl-related compounds or adulterants, “pose an even greater potential harm to the patient than previously observed,” reported Dr. Trecki, a pharmacologist affiliated with the Drug Enforcement Administration, and colleagues.

Opioids contribute to about 75% of all U.S. drug overdose deaths, which rose by 28.5% during 2020-2021, according to the National Center for Health Statistics. And fentanyl is replacing heroin as the primary drug of use, said addiction specialist Brian Fuehrlein, MD, PhD, in an interview.

“For patients with stimulant use disorder and even cannabis use disorder, fentanyl is becoming more and more common as an adulterant in those substances, often resulting in inadvertent use. Hence, fentanyl and fentanyl-like drugs and fentanyl analogues are becoming increasingly common and important,” said Dr. Fuehrlein, director of the psychiatric emergency room at the VA Connecticut Healthcare System. He was not involved with the MMWR study.
 

Tennessee data reflect national problem

Recent data from a medical examiner in Knoxville, Tenn., illustrate what might be happening nationwide with those two emerging substances.

Over the last 2 years, the Knox County Regional Forensic Center has identified para-fluorofentanyl in the toxicology results of drug overdose victims, and metonitazene – either on its own or in combination with fentanyl and para-fluorofentanyl. Fentanyl appeared in 562 or 73% of 770 unintentional drug overdose deaths from November 2020 to August 2021. Forty-eight of these cases involved para-fluorofentanyl, and 26 involved metonitazene.

“Although the percentage of law enforcement encounters with these substances in Tennessee decreased relative to the national total percentage within this time frame, the increase in encounters both within Tennessee and nationally reflect an increased distribution of para-fluorofentanyl and metonitazene throughout the United States,” the authors reported.
 

How to identify substances, manage overdoses

The authors encouraged physicians, labs, and medical examiners to be on the lookout for these two substances either in the emergency department or when identifying the cause of drug overdose deaths.

They also advised that stronger opioids, such as fentanyl, para-fluorofentanyl, metonitazene, or other benzimidazoles may warrant additional doses of the opioid-reversal drug naloxone.

While he hasn’t personally seen any of these drugs in his practice, “I would assume that these are on the rise due to inexpensive cost to manufacture and potency of effect,” said Dr. Fuehrlein, also an associate professor of psychiatry at Yale University, New Haven, Conn.

The need for additional naloxone to manage acute overdoses is a key takeaway of the MMWR paper, he added. Clinicians should also educate patients about harm reduction strategies to avoid overdose death when using potentially powerful and unknown drugs. “Things like start low and go slow, buy from the same supplier, do not use opioids with alcohol or benzos, have Narcan available, do not use alone, etc.”

Dr. Fuehrlein had no disclosures.

Two illicit drugs are contributing to a sharp rise in fentanyl-related deaths, a new study from the Centers for Disease Control and Prevention shows.

Para-fluorofentanyl, a schedule I substance often found in heroin packets and counterfeit pills, is making a comeback on the illicit drug market, Jordan Trecki, PhD, and associates reported in the Centers for Disease Control and Prevention’s Morbidity and Mortality Weekly Report (2022 Jan 28;71[4]:153-5). U.S. medical examiner reports and national law enforcement seizure data point to a rise in encounters of this drug along with metonitazene, a benzimidazole-opioid, in combination with fentanyl.

On their own, para-fluorofentanyl and metonitazene can kill the user through respiratory depression. Combinations of these substances and other opioids, including fentanyl-related compounds or adulterants, “pose an even greater potential harm to the patient than previously observed,” reported Dr. Trecki, a pharmacologist affiliated with the Drug Enforcement Administration, and colleagues.

Opioids contribute to about 75% of all U.S. drug overdose deaths, which rose by 28.5% during 2020-2021, according to the National Center for Health Statistics. And fentanyl is replacing heroin as the primary drug of use, said addiction specialist Brian Fuehrlein, MD, PhD, in an interview.

“For patients with stimulant use disorder and even cannabis use disorder, fentanyl is becoming more and more common as an adulterant in those substances, often resulting in inadvertent use. Hence, fentanyl and fentanyl-like drugs and fentanyl analogues are becoming increasingly common and important,” said Dr. Fuehrlein, director of the psychiatric emergency room at the VA Connecticut Healthcare System. He was not involved with the MMWR study.
 

Tennessee data reflect national problem

Recent data from a medical examiner in Knoxville, Tenn., illustrate what might be happening nationwide with those two emerging substances.

Over the last 2 years, the Knox County Regional Forensic Center has identified para-fluorofentanyl in the toxicology results of drug overdose victims, and metonitazene – either on its own or in combination with fentanyl and para-fluorofentanyl. Fentanyl appeared in 562 or 73% of 770 unintentional drug overdose deaths from November 2020 to August 2021. Forty-eight of these cases involved para-fluorofentanyl, and 26 involved metonitazene.

“Although the percentage of law enforcement encounters with these substances in Tennessee decreased relative to the national total percentage within this time frame, the increase in encounters both within Tennessee and nationally reflect an increased distribution of para-fluorofentanyl and metonitazene throughout the United States,” the authors reported.
 

How to identify substances, manage overdoses

The authors encouraged physicians, labs, and medical examiners to be on the lookout for these two substances either in the emergency department or when identifying the cause of drug overdose deaths.

They also advised that stronger opioids, such as fentanyl, para-fluorofentanyl, metonitazene, or other benzimidazoles may warrant additional doses of the opioid-reversal drug naloxone.

While he hasn’t personally seen any of these drugs in his practice, “I would assume that these are on the rise due to inexpensive cost to manufacture and potency of effect,” said Dr. Fuehrlein, also an associate professor of psychiatry at Yale University, New Haven, Conn.

The need for additional naloxone to manage acute overdoses is a key takeaway of the MMWR paper, he added. Clinicians should also educate patients about harm reduction strategies to avoid overdose death when using potentially powerful and unknown drugs. “Things like start low and go slow, buy from the same supplier, do not use opioids with alcohol or benzos, have Narcan available, do not use alone, etc.”

Dr. Fuehrlein had no disclosures.