Neurology

CORONADO, CALIF. – Among a large cohort of children referred for polysomnography, the presence of asthma reduced the likelihood of severe obstructive sleep apnea (OSA), while the presence of obesity increased it.

deyangeorgiev/thinkstockphotos.com

“We have a good idea that obesity and asthma independently increase the risk of OSA, but a lot of the time in the pediatric population, these risk factors are found comorbid,” Ajay Narayanan at the Triological Society’s Combined Sections Meeting. “For this study we asked, how does the presence of asthma change the likelihood of having severe OSA in a cohort of obese patients? Knowing that both asthma and obesity independently increase the risk for OSA, we hypothesized that when they were comorbid, asthma would have a synergistic effect with obesity, causing severe OSA.”

Mr. Narayanan, a third-year student at the University of Texas Southwestern Medical Center, Dallas, and his colleagues performed a retrospective chart review of 367 children aged 9-17 years referred for a full-night polysomnography (PSG) for suspicion of having OSA. Demographic variables recorded included race, body mass index, rhinitis, gastroesophageal reflux disease, and tonsillar hypertrophy. Sleep variables recorded included apnea hypopnea index (AHI), sleep efficiency, rapid eye movement, and the peripheral capillary oxygen saturation (SpO₂₎ nadir. The primary outcome was severe OSA defined as an AHI of 10 or greater on the PSG. They used logistic modeling to determine the association between asthma, obesity, and severe OSA.

The mean age of the study population was 14 years, 56% were male, and 43% were Hispanic. Of the 367 patients, 77 were neither obese nor asthmatic, 93 were nonobese but were asthmatic, 102 were obese but were nonasthmatic, and 95 were both obese and asthmatic. PSG results confirmed that obesity was associated with more signs of sleep apnea. For example, the nonobese, nonasthmatic group had a mean AHI of 11 events per hour, while the obese, nonasthmatic group had a mean AHI of 19 events per hour. “We observed a similar trend amongst our asthmatic population,” Mr. Narayanan said. “We observed an increase in the mean AHI amongst our asthmatic kids when we added obesity to the picture. Surprisingly, we found that asthma was associated with having fewer signs of sleep apnea.” Specifically, while the nonobese, nonasthmatic group had a mean AHI of 11 events per hour, those in the nonobese, asthmatic group had a mean of 5.6 events per hour (P = .005). “The finding was similar amongst our obese kids,” he said. “We saw a decrease in the mean AHI of our obese kids when we added asthma to the picture.”

On logistic regression analysis using obesity and asthma as independent variables, the researchers found that obesity increased the risk of severe OSA by 2.4-fold, but asthma decreased the odds of having severe OSA by about half (0.55). On multiple logistic regression controlling for commonly associated factors such as tonsillar hypertrophy, black race, and Hispanic ethnicity, obesity increased the risk of severe OSA by 2.2-fold, while asthma decreased the odds of having severe OSA by about half (0.51).

“In trying to explain this finding, we can turn to how these diseases are treated,” Mr. Narayanan said. “I say this because of the proven association between preexisting asthma and new onset OSA. Some of the reasons for this association include the tendency for airway collapsibility and systemwide inflammation seen in asthma, which then might contribute to the development of OSA. If we treat asthma symptoms early on, it might prevent the progression to sleep apnea down the line.”

Considering how prevalent comorbid asthma and OSA is, he continued, “we need to confirm that it is in fact well-controlled asthma that is associated with lowering the risk of severe OSA. Once we do this, we can ask the question: Can we use asthma pharmacotherapy to treat OSA? Some studies have shown that inhaled corticosteroids and montelukast (Singulair) may be effective treatment options for kids with OSA, but there’s definitely room for more research in this field, [such as determining] which patients would most benefit from this pharmacotherapy.” The researchers reported having no financial disclosures.

[email protected]

SOURCE: Narayanan A et al. Triological CSM, Abstracts.

CORONADO, CALIF. – Among a large cohort of children referred for polysomnography, the presence of asthma reduced the likelihood of severe obstructive sleep apnea (OSA), while the presence of obesity increased it.

deyangeorgiev/thinkstockphotos.com

“We have a good idea that obesity and asthma independently increase the risk of OSA, but a lot of the time in the pediatric population, these risk factors are found comorbid,” Ajay Narayanan at the Triological Society’s Combined Sections Meeting. “For this study we asked, how does the presence of asthma change the likelihood of having severe OSA in a cohort of obese patients? Knowing that both asthma and obesity independently increase the risk for OSA, we hypothesized that when they were comorbid, asthma would have a synergistic effect with obesity, causing severe OSA.”

Mr. Narayanan, a third-year student at the University of Texas Southwestern Medical Center, Dallas, and his colleagues performed a retrospective chart review of 367 children aged 9-17 years referred for a full-night polysomnography (PSG) for suspicion of having OSA. Demographic variables recorded included race, body mass index, rhinitis, gastroesophageal reflux disease, and tonsillar hypertrophy. Sleep variables recorded included apnea hypopnea index (AHI), sleep efficiency, rapid eye movement, and the peripheral capillary oxygen saturation (SpO₂₎ nadir. The primary outcome was severe OSA defined as an AHI of 10 or greater on the PSG. They used logistic modeling to determine the association between asthma, obesity, and severe OSA.

The mean age of the study population was 14 years, 56% were male, and 43% were Hispanic. Of the 367 patients, 77 were neither obese nor asthmatic, 93 were nonobese but were asthmatic, 102 were obese but were nonasthmatic, and 95 were both obese and asthmatic. PSG results confirmed that obesity was associated with more signs of sleep apnea. For example, the nonobese, nonasthmatic group had a mean AHI of 11 events per hour, while the obese, nonasthmatic group had a mean AHI of 19 events per hour. “We observed a similar trend amongst our asthmatic population,” Mr. Narayanan said. “We observed an increase in the mean AHI amongst our asthmatic kids when we added obesity to the picture. Surprisingly, we found that asthma was associated with having fewer signs of sleep apnea.” Specifically, while the nonobese, nonasthmatic group had a mean AHI of 11 events per hour, those in the nonobese, asthmatic group had a mean of 5.6 events per hour (P = .005). “The finding was similar amongst our obese kids,” he said. “We saw a decrease in the mean AHI of our obese kids when we added asthma to the picture.”

On logistic regression analysis using obesity and asthma as independent variables, the researchers found that obesity increased the risk of severe OSA by 2.4-fold, but asthma decreased the odds of having severe OSA by about half (0.55). On multiple logistic regression controlling for commonly associated factors such as tonsillar hypertrophy, black race, and Hispanic ethnicity, obesity increased the risk of severe OSA by 2.2-fold, while asthma decreased the odds of having severe OSA by about half (0.51).

“In trying to explain this finding, we can turn to how these diseases are treated,” Mr. Narayanan said. “I say this because of the proven association between preexisting asthma and new onset OSA. Some of the reasons for this association include the tendency for airway collapsibility and systemwide inflammation seen in asthma, which then might contribute to the development of OSA. If we treat asthma symptoms early on, it might prevent the progression to sleep apnea down the line.”

Considering how prevalent comorbid asthma and OSA is, he continued, “we need to confirm that it is in fact well-controlled asthma that is associated with lowering the risk of severe OSA. Once we do this, we can ask the question: Can we use asthma pharmacotherapy to treat OSA? Some studies have shown that inhaled corticosteroids and montelukast (Singulair) may be effective treatment options for kids with OSA, but there’s definitely room for more research in this field, [such as determining] which patients would most benefit from this pharmacotherapy.” The researchers reported having no financial disclosures.

[email protected]

SOURCE: Narayanan A et al. Triological CSM, Abstracts.

CORONADO, CALIF. – Among a large cohort of children referred for polysomnography, the presence of asthma reduced the likelihood of severe obstructive sleep apnea (OSA), while the presence of obesity increased it.

deyangeorgiev/thinkstockphotos.com

“We have a good idea that obesity and asthma independently increase the risk of OSA, but a lot of the time in the pediatric population, these risk factors are found comorbid,” Ajay Narayanan at the Triological Society’s Combined Sections Meeting. “For this study we asked, how does the presence of asthma change the likelihood of having severe OSA in a cohort of obese patients? Knowing that both asthma and obesity independently increase the risk for OSA, we hypothesized that when they were comorbid, asthma would have a synergistic effect with obesity, causing severe OSA.”

Mr. Narayanan, a third-year student at the University of Texas Southwestern Medical Center, Dallas, and his colleagues performed a retrospective chart review of 367 children aged 9-17 years referred for a full-night polysomnography (PSG) for suspicion of having OSA. Demographic variables recorded included race, body mass index, rhinitis, gastroesophageal reflux disease, and tonsillar hypertrophy. Sleep variables recorded included apnea hypopnea index (AHI), sleep efficiency, rapid eye movement, and the peripheral capillary oxygen saturation (SpO₂₎ nadir. The primary outcome was severe OSA defined as an AHI of 10 or greater on the PSG. They used logistic modeling to determine the association between asthma, obesity, and severe OSA.

The mean age of the study population was 14 years, 56% were male, and 43% were Hispanic. Of the 367 patients, 77 were neither obese nor asthmatic, 93 were nonobese but were asthmatic, 102 were obese but were nonasthmatic, and 95 were both obese and asthmatic. PSG results confirmed that obesity was associated with more signs of sleep apnea. For example, the nonobese, nonasthmatic group had a mean AHI of 11 events per hour, while the obese, nonasthmatic group had a mean AHI of 19 events per hour. “We observed a similar trend amongst our asthmatic population,” Mr. Narayanan said. “We observed an increase in the mean AHI amongst our asthmatic kids when we added obesity to the picture. Surprisingly, we found that asthma was associated with having fewer signs of sleep apnea.” Specifically, while the nonobese, nonasthmatic group had a mean AHI of 11 events per hour, those in the nonobese, asthmatic group had a mean of 5.6 events per hour (P = .005). “The finding was similar amongst our obese kids,” he said. “We saw a decrease in the mean AHI of our obese kids when we added asthma to the picture.”

On logistic regression analysis using obesity and asthma as independent variables, the researchers found that obesity increased the risk of severe OSA by 2.4-fold, but asthma decreased the odds of having severe OSA by about half (0.55). On multiple logistic regression controlling for commonly associated factors such as tonsillar hypertrophy, black race, and Hispanic ethnicity, obesity increased the risk of severe OSA by 2.2-fold, while asthma decreased the odds of having severe OSA by about half (0.51).

“In trying to explain this finding, we can turn to how these diseases are treated,” Mr. Narayanan said. “I say this because of the proven association between preexisting asthma and new onset OSA. Some of the reasons for this association include the tendency for airway collapsibility and systemwide inflammation seen in asthma, which then might contribute to the development of OSA. If we treat asthma symptoms early on, it might prevent the progression to sleep apnea down the line.”

Considering how prevalent comorbid asthma and OSA is, he continued, “we need to confirm that it is in fact well-controlled asthma that is associated with lowering the risk of severe OSA. Once we do this, we can ask the question: Can we use asthma pharmacotherapy to treat OSA? Some studies have shown that inhaled corticosteroids and montelukast (Singulair) may be effective treatment options for kids with OSA, but there’s definitely room for more research in this field, [such as determining] which patients would most benefit from this pharmacotherapy.” The researchers reported having no financial disclosures.

[email protected]

SOURCE: Narayanan A et al. Triological CSM, Abstracts.

HONOLULU – A combination of cilostazol and aspirin or clopidogrel reduces the risk of recurrent ischemic stroke, compared with aspirin or clopidogrel alone, among patients at high risk for recurrent stroke. The combination also entails a similar risk of major bleeding, compared with aspirin and clopidogrel alone, according to results from the Cilostazol Stroke Prevention Study for Antiplatelet Combination (CSPS.com).

Courtesy American Heart Association

Dual-antiplatelet therapy with aspirin and clopidogrel reduced the rate of recurrent stroke in previous studies. The benefit of this drug combination is relatively short-lived, however, and long-term concomitant use of aspirin and clopidogrel entails a risk of major bleeding. Other data have indicated that cilostazol, which is approved by the Food and Drug Administration to alleviate intermittent claudication in patients with peripheral vascular disease, prevents stroke recurrence without increasing the incidence of serious bleeding, compared with aspirin, said Kazunori Toyoda, MD, PhD, who presented the results of the CSPS.com trial at the International Stroke Conference sponsored by the American Heart Association.

Dr. Toyoda of the National Cerebral and Cardiovascular Center in Osaka, Japan, and his colleagues randomized 1,879 high-risk patients at 8-180 days after the onset of noncardioembolic ischemic stroke identified on MRI to receive 81 or 100 mg aspirin or 50 or 75 mg clopidogrel alone, or a combination of cilostazol 100 mg twice daily with aspirin or clopidogrel. They conducted their open-label, parallel-group trial at 292 sites in Japan from December 2013 through March 2017.

To be considered at high risk, participants had to meet one or more of the following criteria: 50% or greater stenosis of a major intracranial artery, 50% or greater stenosis of an extracranial artery, and two or more vascular risk factors. The trial’s primary efficacy outcome was the first recurrence of ischemic stroke. Safety outcomes included severe or life-threatening bleeding.

The investigators ended the trial early because of a delay in recruiting patients. They enrolled 1,884 and randomized 1,879 of an anticipated 4,000 patients. At randomization, 41% in the dual-therapy group received aspirin and 59% clopidogrel, and in the monotherapy group, 40% received aspirin and 60% clopidogrel. Baseline characteristics were similar between the treatment groups. The population’s mean age was 70. Approximately 30% of patients were women.

During a median follow-up period of 17 months, ischemic stroke recurred in 29 of 932 patients receiving dual therapy including cilostazol for an annual rate of 2.2% and in 64 of 947 patients receiving monotherapy for an annual rate of 4.5% (hazard ratio, 0.49; 95% confidence interval, 0.31-0.76; P = .001). Severe or life-threatening bleeding occurred in 8 patients (0.6% per year) receiving dual therapy and 13 patients (0.9% per year) receiving monotherapy (HR, 0.66; 95% CI, 0.27-1.60; P = .354).

The study was funded by Otsuka Pharmaceutical, which manufactures cilostazol. Dr. Toyoda reported receiving support from Bayer Yakuhin, Daiichi Sankyo, Bristol-Myers Squibb, and Nippon Boehringer Ingelheim.
 

[email protected]

SOURCE: Toyoda K et al. ISC 2019, Abstract LB3.

HONOLULU – A combination of cilostazol and aspirin or clopidogrel reduces the risk of recurrent ischemic stroke, compared with aspirin or clopidogrel alone, among patients at high risk for recurrent stroke. The combination also entails a similar risk of major bleeding, compared with aspirin and clopidogrel alone, according to results from the Cilostazol Stroke Prevention Study for Antiplatelet Combination (CSPS.com).

Courtesy American Heart Association

Dual-antiplatelet therapy with aspirin and clopidogrel reduced the rate of recurrent stroke in previous studies. The benefit of this drug combination is relatively short-lived, however, and long-term concomitant use of aspirin and clopidogrel entails a risk of major bleeding. Other data have indicated that cilostazol, which is approved by the Food and Drug Administration to alleviate intermittent claudication in patients with peripheral vascular disease, prevents stroke recurrence without increasing the incidence of serious bleeding, compared with aspirin, said Kazunori Toyoda, MD, PhD, who presented the results of the CSPS.com trial at the International Stroke Conference sponsored by the American Heart Association.

Dr. Toyoda of the National Cerebral and Cardiovascular Center in Osaka, Japan, and his colleagues randomized 1,879 high-risk patients at 8-180 days after the onset of noncardioembolic ischemic stroke identified on MRI to receive 81 or 100 mg aspirin or 50 or 75 mg clopidogrel alone, or a combination of cilostazol 100 mg twice daily with aspirin or clopidogrel. They conducted their open-label, parallel-group trial at 292 sites in Japan from December 2013 through March 2017.

To be considered at high risk, participants had to meet one or more of the following criteria: 50% or greater stenosis of a major intracranial artery, 50% or greater stenosis of an extracranial artery, and two or more vascular risk factors. The trial’s primary efficacy outcome was the first recurrence of ischemic stroke. Safety outcomes included severe or life-threatening bleeding.

The investigators ended the trial early because of a delay in recruiting patients. They enrolled 1,884 and randomized 1,879 of an anticipated 4,000 patients. At randomization, 41% in the dual-therapy group received aspirin and 59% clopidogrel, and in the monotherapy group, 40% received aspirin and 60% clopidogrel. Baseline characteristics were similar between the treatment groups. The population’s mean age was 70. Approximately 30% of patients were women.

During a median follow-up period of 17 months, ischemic stroke recurred in 29 of 932 patients receiving dual therapy including cilostazol for an annual rate of 2.2% and in 64 of 947 patients receiving monotherapy for an annual rate of 4.5% (hazard ratio, 0.49; 95% confidence interval, 0.31-0.76; P = .001). Severe or life-threatening bleeding occurred in 8 patients (0.6% per year) receiving dual therapy and 13 patients (0.9% per year) receiving monotherapy (HR, 0.66; 95% CI, 0.27-1.60; P = .354).

The study was funded by Otsuka Pharmaceutical, which manufactures cilostazol. Dr. Toyoda reported receiving support from Bayer Yakuhin, Daiichi Sankyo, Bristol-Myers Squibb, and Nippon Boehringer Ingelheim.
 

[email protected]

SOURCE: Toyoda K et al. ISC 2019, Abstract LB3.

HONOLULU – A combination of cilostazol and aspirin or clopidogrel reduces the risk of recurrent ischemic stroke, compared with aspirin or clopidogrel alone, among patients at high risk for recurrent stroke. The combination also entails a similar risk of major bleeding, compared with aspirin and clopidogrel alone, according to results from the Cilostazol Stroke Prevention Study for Antiplatelet Combination (CSPS.com).

Courtesy American Heart Association

Dual-antiplatelet therapy with aspirin and clopidogrel reduced the rate of recurrent stroke in previous studies. The benefit of this drug combination is relatively short-lived, however, and long-term concomitant use of aspirin and clopidogrel entails a risk of major bleeding. Other data have indicated that cilostazol, which is approved by the Food and Drug Administration to alleviate intermittent claudication in patients with peripheral vascular disease, prevents stroke recurrence without increasing the incidence of serious bleeding, compared with aspirin, said Kazunori Toyoda, MD, PhD, who presented the results of the CSPS.com trial at the International Stroke Conference sponsored by the American Heart Association.

Dr. Toyoda of the National Cerebral and Cardiovascular Center in Osaka, Japan, and his colleagues randomized 1,879 high-risk patients at 8-180 days after the onset of noncardioembolic ischemic stroke identified on MRI to receive 81 or 100 mg aspirin or 50 or 75 mg clopidogrel alone, or a combination of cilostazol 100 mg twice daily with aspirin or clopidogrel. They conducted their open-label, parallel-group trial at 292 sites in Japan from December 2013 through March 2017.

To be considered at high risk, participants had to meet one or more of the following criteria: 50% or greater stenosis of a major intracranial artery, 50% or greater stenosis of an extracranial artery, and two or more vascular risk factors. The trial’s primary efficacy outcome was the first recurrence of ischemic stroke. Safety outcomes included severe or life-threatening bleeding.

The investigators ended the trial early because of a delay in recruiting patients. They enrolled 1,884 and randomized 1,879 of an anticipated 4,000 patients. At randomization, 41% in the dual-therapy group received aspirin and 59% clopidogrel, and in the monotherapy group, 40% received aspirin and 60% clopidogrel. Baseline characteristics were similar between the treatment groups. The population’s mean age was 70. Approximately 30% of patients were women.

During a median follow-up period of 17 months, ischemic stroke recurred in 29 of 932 patients receiving dual therapy including cilostazol for an annual rate of 2.2% and in 64 of 947 patients receiving monotherapy for an annual rate of 4.5% (hazard ratio, 0.49; 95% confidence interval, 0.31-0.76; P = .001). Severe or life-threatening bleeding occurred in 8 patients (0.6% per year) receiving dual therapy and 13 patients (0.9% per year) receiving monotherapy (HR, 0.66; 95% CI, 0.27-1.60; P = .354).

The study was funded by Otsuka Pharmaceutical, which manufactures cilostazol. Dr. Toyoda reported receiving support from Bayer Yakuhin, Daiichi Sankyo, Bristol-Myers Squibb, and Nippon Boehringer Ingelheim.
 

[email protected]

SOURCE: Toyoda K et al. ISC 2019, Abstract LB3.

HONOLULU – In patients who were hyperglycemic following an acute ischemic stroke, intensive insulin control using a continuous insulin drip and an aggressive blood glucose target of 80-130 mg/dL provided no incremental benefit in clinical outcome, compared with a more standard approach of serial, subcutaneous insulin injections and a moderate blood glucose target in a multicenter, U.S. trial with more than 1,100 patients.

Mitchel L. Zoler/MDedge News

The results also highlighted the potential downside to aggressive insulin treatment, with an associated 2.6% incidence of severe hypoglycemia, defined as blood glucose falling below 40 mg/dL, Karen C. Johnston, MD, said at the International Stroke Conference sponsored by the American Heart Association.

“Our data suggest that subcutaneously administered insulin with a target blood glucose level of less than 180 mg/dL is the preferred treatment” because it produces similar efficacy without causing any episodes of severe hypoglycemia, concluded Dr. Johnston, professor and chair of neurology at the University of Virginia in Charlottesville. “There should be no further debate” over the potential superiority of a glucose target substantially below 180 mg/dL, she added in an interview.

Continuing to use a glucose target of less than 180 mg/dL and treating patients with subcutaneous insulin injections every 6 hours to achieve this will mean substantially less resource use and precludes the need for keeping patients in intensive care beds as is needed with an insulin drip, Dr. Johnston noted. A treatment target of less than 180 mg/dL is also consistent with the most recent American Heart Association stroke treatment guidelines, which listed a blood glucose target of 140-180 mg/dL as a class IIa recommendation (Stroke. 2018 March;49[3]:e66-99).

The SHINE (Stroke Hyperglycemia Insulin Network Effort) trial enrolled 1,151 adults diagnosed with an acute ischemic stroke at 63 U.S. centers during 2012-2018, excluding patients with type 1 diabetes. Patients had to enter the study within 12 hours of their last known well time, and with an elevated blood glucose level, above 110 mg/dL in patients with type 2 diabetes or at or above 150 mg/dL in other patients. The median glucose level of enrolled patients was about 188 mg/dL. Enrolled patients averaged 66 years old, and about 80% had type 2 diabetes. The median time from last known well to randomization was just over 7 hours. Almost two-thirds of the patients received thrombolytic treatment, and about 13% underwent thrombectomy.

During up to 72 hours of treatment following enrollment the patients in the standard-treatment arm showed a fairly steady average blood glucose level of 179 mg/dL; patients in the intensive arm showed a steady average of 118 mg/dL.

The study’s primary end point was the percentage of patients with a favorable outcome 90 days after enrollment based on their modified Rankin scale score at that time, with the scores that qualified for this end point varying depending on stroke severity at baseline. The percentage of patients achieving this was 20.5% among the intensive patients and 21.6% among those who received standard insulin treatment, a difference that was not statistically significant.

The findings left open the question of how to better manage acute ischemic stroke patients who present with hyperglycemia.

“Hyperglycemic stroke patients have worse outcomes than stroke patients without hyperglycemia. More aggressively treating the hyperglycemia did not help these patients, We need to figure out what will help them,” Dr. Johnson said.

[email protected]

SOURCE: Johnston KC et al. ISC 2019, Abstract LB1.

HONOLULU – In patients who were hyperglycemic following an acute ischemic stroke, intensive insulin control using a continuous insulin drip and an aggressive blood glucose target of 80-130 mg/dL provided no incremental benefit in clinical outcome, compared with a more standard approach of serial, subcutaneous insulin injections and a moderate blood glucose target in a multicenter, U.S. trial with more than 1,100 patients.

Mitchel L. Zoler/MDedge News

The results also highlighted the potential downside to aggressive insulin treatment, with an associated 2.6% incidence of severe hypoglycemia, defined as blood glucose falling below 40 mg/dL, Karen C. Johnston, MD, said at the International Stroke Conference sponsored by the American Heart Association.

“Our data suggest that subcutaneously administered insulin with a target blood glucose level of less than 180 mg/dL is the preferred treatment” because it produces similar efficacy without causing any episodes of severe hypoglycemia, concluded Dr. Johnston, professor and chair of neurology at the University of Virginia in Charlottesville. “There should be no further debate” over the potential superiority of a glucose target substantially below 180 mg/dL, she added in an interview.

Continuing to use a glucose target of less than 180 mg/dL and treating patients with subcutaneous insulin injections every 6 hours to achieve this will mean substantially less resource use and precludes the need for keeping patients in intensive care beds as is needed with an insulin drip, Dr. Johnston noted. A treatment target of less than 180 mg/dL is also consistent with the most recent American Heart Association stroke treatment guidelines, which listed a blood glucose target of 140-180 mg/dL as a class IIa recommendation (Stroke. 2018 March;49[3]:e66-99).

The SHINE (Stroke Hyperglycemia Insulin Network Effort) trial enrolled 1,151 adults diagnosed with an acute ischemic stroke at 63 U.S. centers during 2012-2018, excluding patients with type 1 diabetes. Patients had to enter the study within 12 hours of their last known well time, and with an elevated blood glucose level, above 110 mg/dL in patients with type 2 diabetes or at or above 150 mg/dL in other patients. The median glucose level of enrolled patients was about 188 mg/dL. Enrolled patients averaged 66 years old, and about 80% had type 2 diabetes. The median time from last known well to randomization was just over 7 hours. Almost two-thirds of the patients received thrombolytic treatment, and about 13% underwent thrombectomy.

During up to 72 hours of treatment following enrollment the patients in the standard-treatment arm showed a fairly steady average blood glucose level of 179 mg/dL; patients in the intensive arm showed a steady average of 118 mg/dL.

The study’s primary end point was the percentage of patients with a favorable outcome 90 days after enrollment based on their modified Rankin scale score at that time, with the scores that qualified for this end point varying depending on stroke severity at baseline. The percentage of patients achieving this was 20.5% among the intensive patients and 21.6% among those who received standard insulin treatment, a difference that was not statistically significant.

The findings left open the question of how to better manage acute ischemic stroke patients who present with hyperglycemia.

“Hyperglycemic stroke patients have worse outcomes than stroke patients without hyperglycemia. More aggressively treating the hyperglycemia did not help these patients, We need to figure out what will help them,” Dr. Johnson said.

[email protected]

SOURCE: Johnston KC et al. ISC 2019, Abstract LB1.

HONOLULU – In patients who were hyperglycemic following an acute ischemic stroke, intensive insulin control using a continuous insulin drip and an aggressive blood glucose target of 80-130 mg/dL provided no incremental benefit in clinical outcome, compared with a more standard approach of serial, subcutaneous insulin injections and a moderate blood glucose target in a multicenter, U.S. trial with more than 1,100 patients.

Mitchel L. Zoler/MDedge News

The results also highlighted the potential downside to aggressive insulin treatment, with an associated 2.6% incidence of severe hypoglycemia, defined as blood glucose falling below 40 mg/dL, Karen C. Johnston, MD, said at the International Stroke Conference sponsored by the American Heart Association.

“Our data suggest that subcutaneously administered insulin with a target blood glucose level of less than 180 mg/dL is the preferred treatment” because it produces similar efficacy without causing any episodes of severe hypoglycemia, concluded Dr. Johnston, professor and chair of neurology at the University of Virginia in Charlottesville. “There should be no further debate” over the potential superiority of a glucose target substantially below 180 mg/dL, she added in an interview.

Continuing to use a glucose target of less than 180 mg/dL and treating patients with subcutaneous insulin injections every 6 hours to achieve this will mean substantially less resource use and precludes the need for keeping patients in intensive care beds as is needed with an insulin drip, Dr. Johnston noted. A treatment target of less than 180 mg/dL is also consistent with the most recent American Heart Association stroke treatment guidelines, which listed a blood glucose target of 140-180 mg/dL as a class IIa recommendation (Stroke. 2018 March;49[3]:e66-99).

The SHINE (Stroke Hyperglycemia Insulin Network Effort) trial enrolled 1,151 adults diagnosed with an acute ischemic stroke at 63 U.S. centers during 2012-2018, excluding patients with type 1 diabetes. Patients had to enter the study within 12 hours of their last known well time, and with an elevated blood glucose level, above 110 mg/dL in patients with type 2 diabetes or at or above 150 mg/dL in other patients. The median glucose level of enrolled patients was about 188 mg/dL. Enrolled patients averaged 66 years old, and about 80% had type 2 diabetes. The median time from last known well to randomization was just over 7 hours. Almost two-thirds of the patients received thrombolytic treatment, and about 13% underwent thrombectomy.

During up to 72 hours of treatment following enrollment the patients in the standard-treatment arm showed a fairly steady average blood glucose level of 179 mg/dL; patients in the intensive arm showed a steady average of 118 mg/dL.

The study’s primary end point was the percentage of patients with a favorable outcome 90 days after enrollment based on their modified Rankin scale score at that time, with the scores that qualified for this end point varying depending on stroke severity at baseline. The percentage of patients achieving this was 20.5% among the intensive patients and 21.6% among those who received standard insulin treatment, a difference that was not statistically significant.

The findings left open the question of how to better manage acute ischemic stroke patients who present with hyperglycemia.

“Hyperglycemic stroke patients have worse outcomes than stroke patients without hyperglycemia. More aggressively treating the hyperglycemia did not help these patients, We need to figure out what will help them,” Dr. Johnson said.

[email protected]

SOURCE: Johnston KC et al. ISC 2019, Abstract LB1.

A plasma proteomic study has identified new biomarkers of Alzheimer’s disease pathology in cognitively unimpaired individuals, researchers reported in Science Advances.

Kheng guan Toh/Thinkstock

“To our knowledge, this is the first time that a multianalyte plasma biomarker panel for an Alzheimer’s disease–related phenotype has been found and independently replicated by a nontargeted mass spectrometry approach,” said Nicholas J. Ashton, PhD, of King’s College London and the University of Gothenburg in Sweden, and his research colleagues.

Blood-based measures that predict amyloid-beta burden in preclinical Alzheimer’s disease have the potential to help investigators conduct clinical trials and aid in diagnostic management. However, this novel approach needs to be validated and translated “to a simpler automated platform suitable for wider utility,” the investigators noted. In addition, it is unclear whether their classifier can track changes in amyloid-beta or differentiate between other diseases with amyloid-beta pathology.

Advances in mass spectrometry technology have renewed interest in the analysis of plasma proteins in patients with various diseases. To assess whether proteomic discovery in plasma can help predict amyloid-beta burden in preclinical Alzheimer’s disease, Dr. Ashton and his colleagues studied 238 cognitively unimpaired individuals from the Australian Imaging, Biomarker and Lifestyle Flagship Study of Ageing (AIBL) and the Kerr Anglican Retirement Village Initiative in Ageing Health (KARVIAH). The participants had undergone PET to determine their amyloid-beta status. In the AIBL cohort (n = 144), 100 participants were amyloid-beta negative, and 44 were amyloid-beta positive. In the KARVIAH cohort (n = 94), 59 participants were amyloid-beta negative, and 35 were amyloid-beta positive. There were significantly more APOE4 carriers in the amyloid-beta–positive groups than in the amyloid-beta–negative groups. In addition, the amyloid-beta–positive groups tended to be older.

A support vector machine analysis created classifiers predicting amyloid-beta positivity in the AIBL cohort using demographics, proteins, or both. The researchers then tested each classifier in the KARVIAH dataset to identify which model best predicted amyloid-beta positivity. The optimal model included 10 protein features (prothrombin, adhesion G protein–coupled receptor, amyloid-beta A4 protein, NGN2, DNAH10, REST, NfL, RPS6KA3, GPSM2, FHAD1) and two demographic features (APOE4 count and age).

The classifier achieved a testing area under the receiver operator characteristic curve of 0.891 in the KARVIAH cohort to predict amyloid-beta positivity in cognitively unimpaired individuals with a sensitivity of 0.78 and specificity of 0.77.

The 10 protein features “represent a diverse array of pathways,” and the highest ranked feature was the serine protease prothrombin, which is a precursor to thrombin, the authors noted. “Multiple lines of evidence support that cerebrovascular disease may play a role in AD and that amyloid-beta may be involved in thrombosis, fibrinolysis, and inflammation via its interaction with the coagulation cascade,” the researchers wrote.

Two of the biomarkers – amyloid-beta A4 protein and NfL – have been examined in prior research and had a greater effect size in a secondary analysis that included participants with mild cognitive impairment and Alzheimer’s disease. This finding confirms “their connection with the more established disease state,” Dr. Ashton and colleagues said. In the secondary analysis, the optimal classifier included one demographic factor (APOE4 count) and nine protein features, eight of which also were used in the cognitively unimpaired classifier.

The study was funded in part by the National Institute for Health Research Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King’s College London, and many authors reported additional research support from various institutions. One author is an employee of Johnson & Johnson and a named inventor on unrelated biomarker intellectual property owned by Proteome Science and King’s College London.

[email protected]

SOURCE: Ashton NJ et al. Sci Adv. 2019 Feb 6. doi: 10.1126/sciadv.aau7220.

A plasma proteomic study has identified new biomarkers of Alzheimer’s disease pathology in cognitively unimpaired individuals, researchers reported in Science Advances.

Kheng guan Toh/Thinkstock

“To our knowledge, this is the first time that a multianalyte plasma biomarker panel for an Alzheimer’s disease–related phenotype has been found and independently replicated by a nontargeted mass spectrometry approach,” said Nicholas J. Ashton, PhD, of King’s College London and the University of Gothenburg in Sweden, and his research colleagues.

Blood-based measures that predict amyloid-beta burden in preclinical Alzheimer’s disease have the potential to help investigators conduct clinical trials and aid in diagnostic management. However, this novel approach needs to be validated and translated “to a simpler automated platform suitable for wider utility,” the investigators noted. In addition, it is unclear whether their classifier can track changes in amyloid-beta or differentiate between other diseases with amyloid-beta pathology.

Advances in mass spectrometry technology have renewed interest in the analysis of plasma proteins in patients with various diseases. To assess whether proteomic discovery in plasma can help predict amyloid-beta burden in preclinical Alzheimer’s disease, Dr. Ashton and his colleagues studied 238 cognitively unimpaired individuals from the Australian Imaging, Biomarker and Lifestyle Flagship Study of Ageing (AIBL) and the Kerr Anglican Retirement Village Initiative in Ageing Health (KARVIAH). The participants had undergone PET to determine their amyloid-beta status. In the AIBL cohort (n = 144), 100 participants were amyloid-beta negative, and 44 were amyloid-beta positive. In the KARVIAH cohort (n = 94), 59 participants were amyloid-beta negative, and 35 were amyloid-beta positive. There were significantly more APOE4 carriers in the amyloid-beta–positive groups than in the amyloid-beta–negative groups. In addition, the amyloid-beta–positive groups tended to be older.

A support vector machine analysis created classifiers predicting amyloid-beta positivity in the AIBL cohort using demographics, proteins, or both. The researchers then tested each classifier in the KARVIAH dataset to identify which model best predicted amyloid-beta positivity. The optimal model included 10 protein features (prothrombin, adhesion G protein–coupled receptor, amyloid-beta A4 protein, NGN2, DNAH10, REST, NfL, RPS6KA3, GPSM2, FHAD1) and two demographic features (APOE4 count and age).

The classifier achieved a testing area under the receiver operator characteristic curve of 0.891 in the KARVIAH cohort to predict amyloid-beta positivity in cognitively unimpaired individuals with a sensitivity of 0.78 and specificity of 0.77.

The 10 protein features “represent a diverse array of pathways,” and the highest ranked feature was the serine protease prothrombin, which is a precursor to thrombin, the authors noted. “Multiple lines of evidence support that cerebrovascular disease may play a role in AD and that amyloid-beta may be involved in thrombosis, fibrinolysis, and inflammation via its interaction with the coagulation cascade,” the researchers wrote.

Two of the biomarkers – amyloid-beta A4 protein and NfL – have been examined in prior research and had a greater effect size in a secondary analysis that included participants with mild cognitive impairment and Alzheimer’s disease. This finding confirms “their connection with the more established disease state,” Dr. Ashton and colleagues said. In the secondary analysis, the optimal classifier included one demographic factor (APOE4 count) and nine protein features, eight of which also were used in the cognitively unimpaired classifier.

The study was funded in part by the National Institute for Health Research Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King’s College London, and many authors reported additional research support from various institutions. One author is an employee of Johnson & Johnson and a named inventor on unrelated biomarker intellectual property owned by Proteome Science and King’s College London.

[email protected]

SOURCE: Ashton NJ et al. Sci Adv. 2019 Feb 6. doi: 10.1126/sciadv.aau7220.

A plasma proteomic study has identified new biomarkers of Alzheimer’s disease pathology in cognitively unimpaired individuals, researchers reported in Science Advances.

Kheng guan Toh/Thinkstock

“To our knowledge, this is the first time that a multianalyte plasma biomarker panel for an Alzheimer’s disease–related phenotype has been found and independently replicated by a nontargeted mass spectrometry approach,” said Nicholas J. Ashton, PhD, of King’s College London and the University of Gothenburg in Sweden, and his research colleagues.

Blood-based measures that predict amyloid-beta burden in preclinical Alzheimer’s disease have the potential to help investigators conduct clinical trials and aid in diagnostic management. However, this novel approach needs to be validated and translated “to a simpler automated platform suitable for wider utility,” the investigators noted. In addition, it is unclear whether their classifier can track changes in amyloid-beta or differentiate between other diseases with amyloid-beta pathology.

Advances in mass spectrometry technology have renewed interest in the analysis of plasma proteins in patients with various diseases. To assess whether proteomic discovery in plasma can help predict amyloid-beta burden in preclinical Alzheimer’s disease, Dr. Ashton and his colleagues studied 238 cognitively unimpaired individuals from the Australian Imaging, Biomarker and Lifestyle Flagship Study of Ageing (AIBL) and the Kerr Anglican Retirement Village Initiative in Ageing Health (KARVIAH). The participants had undergone PET to determine their amyloid-beta status. In the AIBL cohort (n = 144), 100 participants were amyloid-beta negative, and 44 were amyloid-beta positive. In the KARVIAH cohort (n = 94), 59 participants were amyloid-beta negative, and 35 were amyloid-beta positive. There were significantly more APOE4 carriers in the amyloid-beta–positive groups than in the amyloid-beta–negative groups. In addition, the amyloid-beta–positive groups tended to be older.

A support vector machine analysis created classifiers predicting amyloid-beta positivity in the AIBL cohort using demographics, proteins, or both. The researchers then tested each classifier in the KARVIAH dataset to identify which model best predicted amyloid-beta positivity. The optimal model included 10 protein features (prothrombin, adhesion G protein–coupled receptor, amyloid-beta A4 protein, NGN2, DNAH10, REST, NfL, RPS6KA3, GPSM2, FHAD1) and two demographic features (APOE4 count and age).

The classifier achieved a testing area under the receiver operator characteristic curve of 0.891 in the KARVIAH cohort to predict amyloid-beta positivity in cognitively unimpaired individuals with a sensitivity of 0.78 and specificity of 0.77.

The 10 protein features “represent a diverse array of pathways,” and the highest ranked feature was the serine protease prothrombin, which is a precursor to thrombin, the authors noted. “Multiple lines of evidence support that cerebrovascular disease may play a role in AD and that amyloid-beta may be involved in thrombosis, fibrinolysis, and inflammation via its interaction with the coagulation cascade,” the researchers wrote.

Two of the biomarkers – amyloid-beta A4 protein and NfL – have been examined in prior research and had a greater effect size in a secondary analysis that included participants with mild cognitive impairment and Alzheimer’s disease. This finding confirms “their connection with the more established disease state,” Dr. Ashton and colleagues said. In the secondary analysis, the optimal classifier included one demographic factor (APOE4 count) and nine protein features, eight of which also were used in the cognitively unimpaired classifier.

The study was funded in part by the National Institute for Health Research Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King’s College London, and many authors reported additional research support from various institutions. One author is an employee of Johnson & Johnson and a named inventor on unrelated biomarker intellectual property owned by Proteome Science and King’s College London.

[email protected]

SOURCE: Ashton NJ et al. Sci Adv. 2019 Feb 6. doi: 10.1126/sciadv.aau7220.

Functional MRI can measure patterns of connectivity to determine levels of consciousness in nonresponsive patients with brain injury, according to results from a multicenter, cross-sectional, observational study.

E. Tagliazucchi & A. Demertzi

Blood oxygen level–dependent (BOLD) fMRI showed that brain-wide coordination patterns of high complexity became increasingly common moving from unresponsive patients to those with minimal consciousness to healthy individuals, reported lead author Athena Demertzi, PhD, of GIGA Research Institute at the University of Liège in Belgium, and her colleagues.

“Finding reliable markers indicating the presence or absence of consciousness represents an outstanding open problem for science,” the investigators wrote in Science Advances.

In medicine, an fMRI-based measure of consciousness could supplement behavioral assessments of awareness and guide therapeutic strategies; more broadly, image-based markers could help elucidate the nature of consciousness itself.

“We postulate that consciousness has specific characteristics that are based on the temporal dynamics of ongoing brain activity and its coordination over distant cortical regions,” the investigators wrote. “Our hypothesis stems from the common stance of various contemporary theories which propose that consciousness relates to a dynamic process of self-sustained, coordinated brain-scale activity assisting the tuning to a constantly evolving environment, rather than in static descriptions of brain function.”

There is a need for a reliable way of distinguishing consciousness from unconscious states, the investigators said. “Given that nonresponsiveness can be associated with a variety of brain lesions, varying levels of vigilance, and covert cognition, we highlight the need to determine a common set of features capable of accounting for the capacity to sustain conscious experience.”

To search for patterns of brain signal coordination that correlate with consciousness, four independent research centers performed BOLD fMRI scans of participants at rest or under anesthesia with propofol. Of 159 total participants, 47 were healthy individuals and 112 were patients in a vegetative state/with unresponsive wakefulness syndrome (UWS) or in a minimally conscious state (MCS), based on standardized behavioral assessments. The main data analysis, which included 125 participants, assessed BOLD fMRI signal coordination between six brain networks known to have roles in cognitive and functional processes.

The researchers’ analysis revealed four distinct and recurring brain-wide coordination patterns ranging on a scale from highest activity (pattern 1) to lowest activity (pattern 4). Pattern 1, which exhibited most long-distance edges, spatial complexity, efficiency, and community structure, became increasingly common when moving from UWS patients to MCS patients to healthy control individuals (UWS < MCS < HC, rho = 0.7, Spearman rank correlation between rate and group, P less than 1 x 10^-16).

In contrast, pattern 4, characterized by low interareal coordination, showed an inverse trend; it became less common when moving from vegetative patients to healthy individuals (UWS > MCS > HC, Spearman rank correlation between rate and group, rho = –0.6, P less than 1 x 10^-11). Although patterns 2 and 3 occurred with equal frequency across all groups, the investigators noted that switching between patterns was most common and predictably sequential in healthy individuals, versus patients with UWS, who were least likely to switch patterns. A total of 23 patients who were scanned under propofol anesthesia were equally likely to exhibit pattern 4, regardless of health status, suggesting that pattern 4 depends upon fixed anatomical pathways. Results were not affected by scanning site or other patient characteristics, such as age, gender, etiology, or chronicity.

“We conclude that these patterns of transient brain signal coordination are characteristic of conscious and unconscious brain states,” the investigators wrote, “warranting future research concerning their relationship to ongoing conscious content, and the possibility of modifying their prevalence by external perturbations, both in healthy and pathological individuals, as well as across species.”

The study was funded by a James S. McDonnell Foundation Collaborative Activity Award, INSERM, the Belgian National Funds for Scientific Research, the Canada Excellence Research Chairs program, and others. The authors declared having no conflicts of interest.

SOURCE: Demertzi A et al. Sci Adv. 2019 Feb 6. doi: 10.1126/sciadv.aat7603.

Functional MRI can measure patterns of connectivity to determine levels of consciousness in nonresponsive patients with brain injury, according to results from a multicenter, cross-sectional, observational study.

E. Tagliazucchi &amp; A. Demertzi

Blood oxygen level–dependent (BOLD) fMRI showed that brain-wide coordination patterns of high complexity became increasingly common moving from unresponsive patients to those with minimal consciousness to healthy individuals, reported lead author Athena Demertzi, PhD, of GIGA Research Institute at the University of Liège in Belgium, and her colleagues.

“Finding reliable markers indicating the presence or absence of consciousness represents an outstanding open problem for science,” the investigators wrote in Science Advances.

In medicine, an fMRI-based measure of consciousness could supplement behavioral assessments of awareness and guide therapeutic strategies; more broadly, image-based markers could help elucidate the nature of consciousness itself.

“We postulate that consciousness has specific characteristics that are based on the temporal dynamics of ongoing brain activity and its coordination over distant cortical regions,” the investigators wrote. “Our hypothesis stems from the common stance of various contemporary theories which propose that consciousness relates to a dynamic process of self-sustained, coordinated brain-scale activity assisting the tuning to a constantly evolving environment, rather than in static descriptions of brain function.”

There is a need for a reliable way of distinguishing consciousness from unconscious states, the investigators said. “Given that nonresponsiveness can be associated with a variety of brain lesions, varying levels of vigilance, and covert cognition, we highlight the need to determine a common set of features capable of accounting for the capacity to sustain conscious experience.”

To search for patterns of brain signal coordination that correlate with consciousness, four independent research centers performed BOLD fMRI scans of participants at rest or under anesthesia with propofol. Of 159 total participants, 47 were healthy individuals and 112 were patients in a vegetative state/with unresponsive wakefulness syndrome (UWS) or in a minimally conscious state (MCS), based on standardized behavioral assessments. The main data analysis, which included 125 participants, assessed BOLD fMRI signal coordination between six brain networks known to have roles in cognitive and functional processes.

The researchers’ analysis revealed four distinct and recurring brain-wide coordination patterns ranging on a scale from highest activity (pattern 1) to lowest activity (pattern 4). Pattern 1, which exhibited most long-distance edges, spatial complexity, efficiency, and community structure, became increasingly common when moving from UWS patients to MCS patients to healthy control individuals (UWS < MCS < HC, rho = 0.7, Spearman rank correlation between rate and group, P less than 1 x 10^-16).

In contrast, pattern 4, characterized by low interareal coordination, showed an inverse trend; it became less common when moving from vegetative patients to healthy individuals (UWS > MCS > HC, Spearman rank correlation between rate and group, rho = –0.6, P less than 1 x 10^-11). Although patterns 2 and 3 occurred with equal frequency across all groups, the investigators noted that switching between patterns was most common and predictably sequential in healthy individuals, versus patients with UWS, who were least likely to switch patterns. A total of 23 patients who were scanned under propofol anesthesia were equally likely to exhibit pattern 4, regardless of health status, suggesting that pattern 4 depends upon fixed anatomical pathways. Results were not affected by scanning site or other patient characteristics, such as age, gender, etiology, or chronicity.

“We conclude that these patterns of transient brain signal coordination are characteristic of conscious and unconscious brain states,” the investigators wrote, “warranting future research concerning their relationship to ongoing conscious content, and the possibility of modifying their prevalence by external perturbations, both in healthy and pathological individuals, as well as across species.”

The study was funded by a James S. McDonnell Foundation Collaborative Activity Award, INSERM, the Belgian National Funds for Scientific Research, the Canada Excellence Research Chairs program, and others. The authors declared having no conflicts of interest.

SOURCE: Demertzi A et al. Sci Adv. 2019 Feb 6. doi: 10.1126/sciadv.aat7603.

Functional MRI can measure patterns of connectivity to determine levels of consciousness in nonresponsive patients with brain injury, according to results from a multicenter, cross-sectional, observational study.

E. Tagliazucchi &amp; A. Demertzi

Blood oxygen level–dependent (BOLD) fMRI showed that brain-wide coordination patterns of high complexity became increasingly common moving from unresponsive patients to those with minimal consciousness to healthy individuals, reported lead author Athena Demertzi, PhD, of GIGA Research Institute at the University of Liège in Belgium, and her colleagues.

“Finding reliable markers indicating the presence or absence of consciousness represents an outstanding open problem for science,” the investigators wrote in Science Advances.

In medicine, an fMRI-based measure of consciousness could supplement behavioral assessments of awareness and guide therapeutic strategies; more broadly, image-based markers could help elucidate the nature of consciousness itself.

“We postulate that consciousness has specific characteristics that are based on the temporal dynamics of ongoing brain activity and its coordination over distant cortical regions,” the investigators wrote. “Our hypothesis stems from the common stance of various contemporary theories which propose that consciousness relates to a dynamic process of self-sustained, coordinated brain-scale activity assisting the tuning to a constantly evolving environment, rather than in static descriptions of brain function.”

There is a need for a reliable way of distinguishing consciousness from unconscious states, the investigators said. “Given that nonresponsiveness can be associated with a variety of brain lesions, varying levels of vigilance, and covert cognition, we highlight the need to determine a common set of features capable of accounting for the capacity to sustain conscious experience.”

To search for patterns of brain signal coordination that correlate with consciousness, four independent research centers performed BOLD fMRI scans of participants at rest or under anesthesia with propofol. Of 159 total participants, 47 were healthy individuals and 112 were patients in a vegetative state/with unresponsive wakefulness syndrome (UWS) or in a minimally conscious state (MCS), based on standardized behavioral assessments. The main data analysis, which included 125 participants, assessed BOLD fMRI signal coordination between six brain networks known to have roles in cognitive and functional processes.

The researchers’ analysis revealed four distinct and recurring brain-wide coordination patterns ranging on a scale from highest activity (pattern 1) to lowest activity (pattern 4). Pattern 1, which exhibited most long-distance edges, spatial complexity, efficiency, and community structure, became increasingly common when moving from UWS patients to MCS patients to healthy control individuals (UWS < MCS < HC, rho = 0.7, Spearman rank correlation between rate and group, P less than 1 x 10^-16).

In contrast, pattern 4, characterized by low interareal coordination, showed an inverse trend; it became less common when moving from vegetative patients to healthy individuals (UWS > MCS > HC, Spearman rank correlation between rate and group, rho = –0.6, P less than 1 x 10^-11). Although patterns 2 and 3 occurred with equal frequency across all groups, the investigators noted that switching between patterns was most common and predictably sequential in healthy individuals, versus patients with UWS, who were least likely to switch patterns. A total of 23 patients who were scanned under propofol anesthesia were equally likely to exhibit pattern 4, regardless of health status, suggesting that pattern 4 depends upon fixed anatomical pathways. Results were not affected by scanning site or other patient characteristics, such as age, gender, etiology, or chronicity.

“We conclude that these patterns of transient brain signal coordination are characteristic of conscious and unconscious brain states,” the investigators wrote, “warranting future research concerning their relationship to ongoing conscious content, and the possibility of modifying their prevalence by external perturbations, both in healthy and pathological individuals, as well as across species.”

The study was funded by a James S. McDonnell Foundation Collaborative Activity Award, INSERM, the Belgian National Funds for Scientific Research, the Canada Excellence Research Chairs program, and others. The authors declared having no conflicts of interest.

SOURCE: Demertzi A et al. Sci Adv. 2019 Feb 6. doi: 10.1126/sciadv.aat7603.

Evidence that American football can lead to chronic traumatic encephalopathy (CTE), continues to grow. As a result, some parents are opting to sign their sons up for other sports.

©james boulette/Thinkstock

In the 2017-2018 school year, 6.6% fewer high school athletes participated in tackle football than did 8 years before according to the National Federation of State High School Associations. As the movement away from football continues, a pronounced shift is occurring in the prevalence of young black men in the game.

Many black parents encourage their sons to play football as a way to protect them gang activity. In addition, the sport can be their sole option for securing a college education for their children, an article in the Atlantic said. A recent survey of 50,000 8th-, 10th-, and 12th-grade students found that tackle football is predominantly the domain of black youth.

“This divergence paints a troubling picture of how economic opportunity – or a lack thereof – governs which boys are incentivized to put their body and brain at risk to play. Depending on where families live, and what other options are available to them, they see either a game that is too violent to consider or one that is necessary and important, if risky. Millions of Americans still watch football; NFL ratings were up this season,” Alana Semuels wrote in the article. “That a distinct portion of families won’t let their children play creates a disturbing future for the country’s most popular game.”

“Without a reversal in economic fortunes for poor communities across the country, football could one day become a sport played almost exclusively by black athletes, while still enjoyed by everyone. Black athletes – who already make up the majority of players in the most dangerous on-field positions – would continue to suffer from long-term brain damage, their life cut short by dementia and the scourge of CTE,” she wrote.

Meanwhile, numerous outlets reported that Super Bowl LIII garnered the lowest ratings since 2008.
 

Psychiatric hospital set to close

In both Kansas and Missouri, a shortage in mental health care has become evident, according to an article in the Kansas City Star. And now the Two Rivers Behavioral Health System, a private psychiatric hospital in southeast Kansas City, Mo., is closing its doors. The result will be a loss of 129 jobs and 105 fewer mental health beds in the city.

Patients currently in the facility will be relocated, and their care will continue. But for those who come after, care will now be tougher to find.

Two Rivers, owned by Pennsylvania-based Universal Health Services, treats children and adults. It had 2,347 discharges in 2017 and almost $28 million in revenue but had a net loss of about $3.4 million. The facility has been under scrutiny in the past two decades over its treatment of patients, with accusations about the bolstering of false memories concerning involvements in satanic cults and the treatment of a convicted sex offender who assaulted another patient. The most recent state inspection showed that Two Rivers had failed to provide a safe environment for six patients who were considered suicide risks. The patients had unsupervised access to the nurses’ station, as well as access to pens that could have been used for stabbing and a charging cord that could have been used for strangulation.

In an interview with the Star, Mark Stringer, director of the Missouri Department of Mental Health, said private psychiatric hospitals like Two Rivers are finding it harder to keep functioning, partly because of nursing shortages. Private facilities are not subsidized like state mental hospitals and are unable to secure staff from other facilities.

“There is a general worry about the availability of psychiatric services for people in crisis; there’s just no doubt about that,” Mr. Stringer said. “The loss of beds certainly hurts.”
 

New center offers ‘kind patient care’

In Nashville, Tenn., a new mental illness crisis treatment center is open. The center offers a 24/7 option for those with mental health issues who have run afoul of the law. Instead of incarceration, they can receive treatment, the Tennessean reported.

Estimates are that more than 1 million residents of Tennessee aged 18 years and older have a mental health or substance use disorder. About 25% of those residents having a serious mental health illness.

The new facility includes a crisis walk-in center and a unit where those in the throes of a mental health crisis can seek care. A goal is to get people suffering from an urgent mental illness crisis connected to help faster, especially when they come into contact with police.

“It’s very important to come to a place that’s going to get you help,” Bonnie Kelly said in the article. Ms. Kelly, who reportedly has bipolar disorder, has been arrested several times for disorderly conduct tied to her condition. “It means everything. It is good, kind patient care, rather than just getting you out of the way.”

Aside from benefiting those in need of mental health care, the center will ease the strain on Nashville police, who currently spend more than 5,000 hours each year responding to mental health–related calls. The officers must remain with the person until transfer to a jail or mental health facility is done.

“As a city, we are recognizing that there is a need, and we are investing in that,” East Precinct Commander David Imhof said in the article. “We are helping a population that has had no voice in the past.” Right now, fewer than 60% of patients discharged from state mental health facilities receive any sort of coverage. The result can be cycles of release, arrest, and incarceration.
 

Agency aims to protect patients

The Oregon Health Authority has stepped in to prevent numerous state-funded mental health facilities run by the same contractor from booting out patients with severe mental health problems.

The contractor is Kepro, a Pennsylvania-based company. Since December, the health authority has reversed decisions to release 17 patients, according to an article in the Oregonian. The harder line follows revelations by the newspaper of serious harm to patients who had been released before they were capable of caring for themselves.

Kepro was hired by the health authority and paid $27 million to evaluate the medical needs of mental health patients in Oregon. As part of the evaluation, 215 of 250 patients were deemed unqualified to remain in care.

One was Ruane Oliverio, who has schizophrenia, who was kicked out of a locked facility in Portland last June. Clinicians had warned against her release, insisting that her mental state remained too vulnerable. After being hospitalized multiple times, she was sent to the Oregon State Hospital, the highest and most expensive level of care. She was one of those targeted for release. This decision was reversed, and she continues to receive care.
 

Coalition seeks mental health care for refugees

A new coalition called Matters Involving Neuro-Disorders, or MIND, is trying to help refugees with mental health conditions. The effort is a response to several mental health-related deaths of refugees during 2014-2016, a video produced by the San Diego Union-Tribune said.

“Refugees are brought to this country to help them rebuild their lives,” said Justin Mudekereza, executive director of New Neighbor Relief, a nonprofit organization dedicated to helping refugees adjust to their new lives in the United States. “They have gone through a lot in their countries, then from there, they went to refugee camps, where they spend 15-20 years or more before they got a chance to come to this country.”

Sheila S. Mitra-Sarkar, PhD, of the Institute of Public Urban Affairs at San Diego State University, described the need for a “comprehensive solution” to help refugees adapt to their new society, learn English, find housing and employment, and thrive.

“When I see a patient or someone who seems to have a psychological issue ... I look at everything that goes around them,” said John C. Kuek, PhD, of La Maestra Community Health Centers in San Diego. “I’m looking at the housing issue, the employment issue, and translational issue – meaning they have some family back home and they have a live family here to care for.”

Evidence that American football can lead to chronic traumatic encephalopathy (CTE), continues to grow. As a result, some parents are opting to sign their sons up for other sports.

©james boulette/Thinkstock

In the 2017-2018 school year, 6.6% fewer high school athletes participated in tackle football than did 8 years before according to the National Federation of State High School Associations. As the movement away from football continues, a pronounced shift is occurring in the prevalence of young black men in the game.

Many black parents encourage their sons to play football as a way to protect them gang activity. In addition, the sport can be their sole option for securing a college education for their children, an article in the Atlantic said. A recent survey of 50,000 8th-, 10th-, and 12th-grade students found that tackle football is predominantly the domain of black youth.

“This divergence paints a troubling picture of how economic opportunity – or a lack thereof – governs which boys are incentivized to put their body and brain at risk to play. Depending on where families live, and what other options are available to them, they see either a game that is too violent to consider or one that is necessary and important, if risky. Millions of Americans still watch football; NFL ratings were up this season,” Alana Semuels wrote in the article. “That a distinct portion of families won’t let their children play creates a disturbing future for the country’s most popular game.”

“Without a reversal in economic fortunes for poor communities across the country, football could one day become a sport played almost exclusively by black athletes, while still enjoyed by everyone. Black athletes – who already make up the majority of players in the most dangerous on-field positions – would continue to suffer from long-term brain damage, their life cut short by dementia and the scourge of CTE,” she wrote.

Meanwhile, numerous outlets reported that Super Bowl LIII garnered the lowest ratings since 2008.
 

Psychiatric hospital set to close

In both Kansas and Missouri, a shortage in mental health care has become evident, according to an article in the Kansas City Star. And now the Two Rivers Behavioral Health System, a private psychiatric hospital in southeast Kansas City, Mo., is closing its doors. The result will be a loss of 129 jobs and 105 fewer mental health beds in the city.

Patients currently in the facility will be relocated, and their care will continue. But for those who come after, care will now be tougher to find.

Two Rivers, owned by Pennsylvania-based Universal Health Services, treats children and adults. It had 2,347 discharges in 2017 and almost $28 million in revenue but had a net loss of about $3.4 million. The facility has been under scrutiny in the past two decades over its treatment of patients, with accusations about the bolstering of false memories concerning involvements in satanic cults and the treatment of a convicted sex offender who assaulted another patient. The most recent state inspection showed that Two Rivers had failed to provide a safe environment for six patients who were considered suicide risks. The patients had unsupervised access to the nurses’ station, as well as access to pens that could have been used for stabbing and a charging cord that could have been used for strangulation.

In an interview with the Star, Mark Stringer, director of the Missouri Department of Mental Health, said private psychiatric hospitals like Two Rivers are finding it harder to keep functioning, partly because of nursing shortages. Private facilities are not subsidized like state mental hospitals and are unable to secure staff from other facilities.

“There is a general worry about the availability of psychiatric services for people in crisis; there’s just no doubt about that,” Mr. Stringer said. “The loss of beds certainly hurts.”
 

New center offers ‘kind patient care’

In Nashville, Tenn., a new mental illness crisis treatment center is open. The center offers a 24/7 option for those with mental health issues who have run afoul of the law. Instead of incarceration, they can receive treatment, the Tennessean reported.

Estimates are that more than 1 million residents of Tennessee aged 18 years and older have a mental health or substance use disorder. About 25% of those residents having a serious mental health illness.

The new facility includes a crisis walk-in center and a unit where those in the throes of a mental health crisis can seek care. A goal is to get people suffering from an urgent mental illness crisis connected to help faster, especially when they come into contact with police.

“It’s very important to come to a place that’s going to get you help,” Bonnie Kelly said in the article. Ms. Kelly, who reportedly has bipolar disorder, has been arrested several times for disorderly conduct tied to her condition. “It means everything. It is good, kind patient care, rather than just getting you out of the way.”

Aside from benefiting those in need of mental health care, the center will ease the strain on Nashville police, who currently spend more than 5,000 hours each year responding to mental health–related calls. The officers must remain with the person until transfer to a jail or mental health facility is done.

“As a city, we are recognizing that there is a need, and we are investing in that,” East Precinct Commander David Imhof said in the article. “We are helping a population that has had no voice in the past.” Right now, fewer than 60% of patients discharged from state mental health facilities receive any sort of coverage. The result can be cycles of release, arrest, and incarceration.
 

Agency aims to protect patients

The Oregon Health Authority has stepped in to prevent numerous state-funded mental health facilities run by the same contractor from booting out patients with severe mental health problems.

The contractor is Kepro, a Pennsylvania-based company. Since December, the health authority has reversed decisions to release 17 patients, according to an article in the Oregonian. The harder line follows revelations by the newspaper of serious harm to patients who had been released before they were capable of caring for themselves.

Kepro was hired by the health authority and paid $27 million to evaluate the medical needs of mental health patients in Oregon. As part of the evaluation, 215 of 250 patients were deemed unqualified to remain in care.

One was Ruane Oliverio, who has schizophrenia, who was kicked out of a locked facility in Portland last June. Clinicians had warned against her release, insisting that her mental state remained too vulnerable. After being hospitalized multiple times, she was sent to the Oregon State Hospital, the highest and most expensive level of care. She was one of those targeted for release. This decision was reversed, and she continues to receive care.
 

Coalition seeks mental health care for refugees

A new coalition called Matters Involving Neuro-Disorders, or MIND, is trying to help refugees with mental health conditions. The effort is a response to several mental health-related deaths of refugees during 2014-2016, a video produced by the San Diego Union-Tribune said.

“Refugees are brought to this country to help them rebuild their lives,” said Justin Mudekereza, executive director of New Neighbor Relief, a nonprofit organization dedicated to helping refugees adjust to their new lives in the United States. “They have gone through a lot in their countries, then from there, they went to refugee camps, where they spend 15-20 years or more before they got a chance to come to this country.”

Sheila S. Mitra-Sarkar, PhD, of the Institute of Public Urban Affairs at San Diego State University, described the need for a “comprehensive solution” to help refugees adapt to their new society, learn English, find housing and employment, and thrive.

“When I see a patient or someone who seems to have a psychological issue ... I look at everything that goes around them,” said John C. Kuek, PhD, of La Maestra Community Health Centers in San Diego. “I’m looking at the housing issue, the employment issue, and translational issue – meaning they have some family back home and they have a live family here to care for.”

Evidence that American football can lead to chronic traumatic encephalopathy (CTE), continues to grow. As a result, some parents are opting to sign their sons up for other sports.

©james boulette/Thinkstock

In the 2017-2018 school year, 6.6% fewer high school athletes participated in tackle football than did 8 years before according to the National Federation of State High School Associations. As the movement away from football continues, a pronounced shift is occurring in the prevalence of young black men in the game.

Many black parents encourage their sons to play football as a way to protect them gang activity. In addition, the sport can be their sole option for securing a college education for their children, an article in the Atlantic said. A recent survey of 50,000 8th-, 10th-, and 12th-grade students found that tackle football is predominantly the domain of black youth.

“This divergence paints a troubling picture of how economic opportunity – or a lack thereof – governs which boys are incentivized to put their body and brain at risk to play. Depending on where families live, and what other options are available to them, they see either a game that is too violent to consider or one that is necessary and important, if risky. Millions of Americans still watch football; NFL ratings were up this season,” Alana Semuels wrote in the article. “That a distinct portion of families won’t let their children play creates a disturbing future for the country’s most popular game.”

“Without a reversal in economic fortunes for poor communities across the country, football could one day become a sport played almost exclusively by black athletes, while still enjoyed by everyone. Black athletes – who already make up the majority of players in the most dangerous on-field positions – would continue to suffer from long-term brain damage, their life cut short by dementia and the scourge of CTE,” she wrote.

Meanwhile, numerous outlets reported that Super Bowl LIII garnered the lowest ratings since 2008.
 

Psychiatric hospital set to close

In both Kansas and Missouri, a shortage in mental health care has become evident, according to an article in the Kansas City Star. And now the Two Rivers Behavioral Health System, a private psychiatric hospital in southeast Kansas City, Mo., is closing its doors. The result will be a loss of 129 jobs and 105 fewer mental health beds in the city.

Patients currently in the facility will be relocated, and their care will continue. But for those who come after, care will now be tougher to find.

Two Rivers, owned by Pennsylvania-based Universal Health Services, treats children and adults. It had 2,347 discharges in 2017 and almost $28 million in revenue but had a net loss of about $3.4 million. The facility has been under scrutiny in the past two decades over its treatment of patients, with accusations about the bolstering of false memories concerning involvements in satanic cults and the treatment of a convicted sex offender who assaulted another patient. The most recent state inspection showed that Two Rivers had failed to provide a safe environment for six patients who were considered suicide risks. The patients had unsupervised access to the nurses’ station, as well as access to pens that could have been used for stabbing and a charging cord that could have been used for strangulation.

In an interview with the Star, Mark Stringer, director of the Missouri Department of Mental Health, said private psychiatric hospitals like Two Rivers are finding it harder to keep functioning, partly because of nursing shortages. Private facilities are not subsidized like state mental hospitals and are unable to secure staff from other facilities.

“There is a general worry about the availability of psychiatric services for people in crisis; there’s just no doubt about that,” Mr. Stringer said. “The loss of beds certainly hurts.”
 

New center offers ‘kind patient care’

In Nashville, Tenn., a new mental illness crisis treatment center is open. The center offers a 24/7 option for those with mental health issues who have run afoul of the law. Instead of incarceration, they can receive treatment, the Tennessean reported.

Estimates are that more than 1 million residents of Tennessee aged 18 years and older have a mental health or substance use disorder. About 25% of those residents having a serious mental health illness.

The new facility includes a crisis walk-in center and a unit where those in the throes of a mental health crisis can seek care. A goal is to get people suffering from an urgent mental illness crisis connected to help faster, especially when they come into contact with police.

“It’s very important to come to a place that’s going to get you help,” Bonnie Kelly said in the article. Ms. Kelly, who reportedly has bipolar disorder, has been arrested several times for disorderly conduct tied to her condition. “It means everything. It is good, kind patient care, rather than just getting you out of the way.”

Aside from benefiting those in need of mental health care, the center will ease the strain on Nashville police, who currently spend more than 5,000 hours each year responding to mental health–related calls. The officers must remain with the person until transfer to a jail or mental health facility is done.

“As a city, we are recognizing that there is a need, and we are investing in that,” East Precinct Commander David Imhof said in the article. “We are helping a population that has had no voice in the past.” Right now, fewer than 60% of patients discharged from state mental health facilities receive any sort of coverage. The result can be cycles of release, arrest, and incarceration.
 

Agency aims to protect patients

The Oregon Health Authority has stepped in to prevent numerous state-funded mental health facilities run by the same contractor from booting out patients with severe mental health problems.

The contractor is Kepro, a Pennsylvania-based company. Since December, the health authority has reversed decisions to release 17 patients, according to an article in the Oregonian. The harder line follows revelations by the newspaper of serious harm to patients who had been released before they were capable of caring for themselves.

Kepro was hired by the health authority and paid $27 million to evaluate the medical needs of mental health patients in Oregon. As part of the evaluation, 215 of 250 patients were deemed unqualified to remain in care.

One was Ruane Oliverio, who has schizophrenia, who was kicked out of a locked facility in Portland last June. Clinicians had warned against her release, insisting that her mental state remained too vulnerable. After being hospitalized multiple times, she was sent to the Oregon State Hospital, the highest and most expensive level of care. She was one of those targeted for release. This decision was reversed, and she continues to receive care.
 

Coalition seeks mental health care for refugees

A new coalition called Matters Involving Neuro-Disorders, or MIND, is trying to help refugees with mental health conditions. The effort is a response to several mental health-related deaths of refugees during 2014-2016, a video produced by the San Diego Union-Tribune said.

“Refugees are brought to this country to help them rebuild their lives,” said Justin Mudekereza, executive director of New Neighbor Relief, a nonprofit organization dedicated to helping refugees adjust to their new lives in the United States. “They have gone through a lot in their countries, then from there, they went to refugee camps, where they spend 15-20 years or more before they got a chance to come to this country.”

Sheila S. Mitra-Sarkar, PhD, of the Institute of Public Urban Affairs at San Diego State University, described the need for a “comprehensive solution” to help refugees adapt to their new society, learn English, find housing and employment, and thrive.

“When I see a patient or someone who seems to have a psychological issue ... I look at everything that goes around them,” said John C. Kuek, PhD, of La Maestra Community Health Centers in San Diego. “I’m looking at the housing issue, the employment issue, and translational issue – meaning they have some family back home and they have a live family here to care for.”

LAS VEGAS – Focused ultrasound (FUS) thalamotomy and deep brain stimulation (DBS) of the ventral intermediate nucleus of the thalamus provide similar benefits for patients with essential tremor, according to two presentations delivered at the annual meeting of the North American Neuromodulation Society. The techniques’ surgical procedures, associated risks, and adverse event profiles may influence neurologists and patients in their choice of treatment.

FUS allows neurosurgeons to apply thermal ablation to create a lesion on the thalamus. MRI guidance enables precise control of the lesion location (within approximately 1 mm) and of the treatment intensity. The surgery can be performed with high-resolution stereotactic framing.

DBS entails the surgical implantation of a neurostimulator and attached leads and electrodes. The neurosurgeon drills a hole of approximately 14 mm in diameter into the skull so that the electrode can be inserted stereotactically while the patient is awake or asleep. The neurostimulator is installed separately.


 

Both treatments provide functional benefits

In 2016, W. Jeff Elias, MD, director of stereotactic and functional neurosurgery at the University of Virginia in Charlottesville, and his colleagues published the results of a randomized controlled trial that compared FUS with sham treatment in 76 patients with essential tremor. At three months, hand tremor had improved by approximately 50% among treated patients, but controls had no significant benefit(N Engl J Med. 2016 Aug 25;375[8]:730-9). The improvement among treated patients was maintained for 12 months. Disability and quality of life also improved after FUS.

A study by Schuurman et al. published in 2000 (N Engl J Med. 2000 Feb 17;342[7]:461-8) showed that DBS and FUS had similar efficacy at 1 year, said Kathryn L. Holloway, MD, professor of neurosurgery at Virginia Commonwealth University in Richmond. It included 45 patients with Parkinson’s disease, 13 with essential tremor, and 10 with multiple sclerosis who were randomized 1:1 to FUS or DBS. The primary outcome was activities of daily living, and blinded physicians assessed patient videos. Most of the patients who improved had received DBS, and most of the ones who worsened had received FUS, said Dr. Holloway. Among patients with essential tremor, tremor improved by between 94% and 100% with either treatment.

To find more recent data about these treatments, Dr. Holloway searched the literature for studies of FUS or DBS for essential tremor. She analyzed only studies that included unselected populations, blinded evaluations within 1 or 2 years of surgery, and tremor scores for the treated side. She found two studies of FUS, including Dr. Elias’s 2016 trial and a 2018 follow-up (Ann Neurol. 2018 Jan;83[1]:107-14). Dr. Holloway also identified three trials of DBS.

In these studies, reduction of hand tremor was 55% with FUS and between 63% and 69% with DBS. Reduction of postural tremor was approximately 72% with FUS and approximately 67% with DBS. Reduction of action tremor was about 52% with FUS and between 65% and 71% with DBS. Overall, DBS appears to be more effective, said Dr. Holloway.

A 2015 study (Mov Disord. 2015 Dec;30[14]:1937-43) that compared bilateral DBS, unilateral DBS, and unilateral FUS for essential tremor indicated that the treatments provide similar benefits on hand tremor, disability, and quality of life, said Dr. Elias. FUS is inferior to DBS, however, for total tremor and axial tremor.

Furthermore, the efficacy of FUS wanes over time, said Dr. Elias. He and his colleagues conducted a pilot study of 15 patients with essential tremor who received FUS (N Engl J Med. 2013 Aug 15;369[7]:640-8). At 6 years, 6 of 13 patients whose data were available still had a 50% improvement in tremor. “Some went on to [receive] DBS,” said Dr. Elias. “Functional improvements persisted more than the tremor improvement.”


 

Adverse events

In their 2016 trial of FUS, Dr. Elias and his colleagues observed 210 adverse events, which is approximately “what you would expect with a modern day, FDA-monitored clinical trial.” Sensory effects and gait disturbance accounted for most of the thalamotomy-related adverse events. Sensory problems such as numbness or parestheisa persisted at 1 year in 14% of treated patients, and gait disturbance persisted at 1 year in 9%. The investigators did not observe any hemorrhages, infections, or cavitation-related effects from FUS.

In a 2018 analysis of five clinical trials of FUS for essential tremor, Fishman et al. found that 79% of adverse events were mild and 1% were severe (Mov Disord. 2018 May;33[5]:843-7). The risk of a severe adverse event therefore can be considered low, and it may decrease as neurosurgeons gain experience with the procedure, said Dr. Elias.

In the 2000 Schuurman et al. study, the researchers observed significantly fewer adverse events overall among patients with Parkinson’s disease or essential tremor who received DBS, compared with patients who received FUS. Cognitive deterioration, severe dysarthria, and severe ataxia were more common in the FUS group than in the DBS group. Dr. Holloway’s analysis of adverse events in the five more recent trials that she identified yielded similar results.

Although MRI-guided FUS is a precise way to make lesions, functional areas in the thalamus overlap, which makes it more difficult to target only the intended region, said Dr. Holloway. The functional overlap thus increases the risk of adverse events (e.g., sensory impairments, dysarthria, or ataxia). The adverse events that result from FUS may last as long as a year. “Patients will put up anything for about a month after surgery, and then they start to get annoyed,” said Dr. Holloway.

In addition, Schuurman et al. found that FUS entailed a greater risk of permanent side effects, compared with DBS. “That’s the key point here,” said Dr. Holloway. Most of the adverse effects in the DBS group were resolved by adjusting or turning off the stimulator. Hardware issues resulting from DBS are frustrating, but reversible, but a patient with an adverse event after FUS often is “stuck with it,” said Dr. Holloway. The Schuurman et al. data indicated that, in terms of adverse events, “thalamotomy was inferior to DBS,” she added.

Implantation of DBS entails the risks inherent to surgeries that open the skull (such as seizures, air embolism, and hemorrhage). DBS entails a 2% risk of hemorrhage or infection, said Dr. Elias. Furthermore, as much as 15% of patients who undergo DBS implantation require additional surgery.

“FUS is not going to cause a life-threatening hemorrhage, but DBS certainly can,” said Dr. Holloway.


 

Managing disease progression

Essential tremor is a progressive disease, and older patients are more likely to have exponential progression than linear progression. Data, such as those published by Zhang et al. (J Neurosurg. 2010 Jun;112[6]:1271-6), indicate that DBS can “keep up with the progression of the disease,” said Dr. Holloway. The authors found that tremor scores did not change significantly over approximately 5 years when patients with essential tremor who had received DBS implantation had periodic assessments and increases in stimulation parameters when appropriate.

If a patient with essential tremor undergoes FUS thalamotomy and has subsequent disease progression, DBS may be considered for reducing tremor, said Dr. Holloway. Most adverse events resulting from DBS implantation are reversible with adjustment of the stimulation parameters. A second thalamotomy, however, could cause severe dysarthria and other irreversible adverse events. “Only DBS can safely address tremor progression,” said Dr. Holloway.

[email protected]

LAS VEGAS – Focused ultrasound (FUS) thalamotomy and deep brain stimulation (DBS) of the ventral intermediate nucleus of the thalamus provide similar benefits for patients with essential tremor, according to two presentations delivered at the annual meeting of the North American Neuromodulation Society. The techniques’ surgical procedures, associated risks, and adverse event profiles may influence neurologists and patients in their choice of treatment.

FUS allows neurosurgeons to apply thermal ablation to create a lesion on the thalamus. MRI guidance enables precise control of the lesion location (within approximately 1 mm) and of the treatment intensity. The surgery can be performed with high-resolution stereotactic framing.

DBS entails the surgical implantation of a neurostimulator and attached leads and electrodes. The neurosurgeon drills a hole of approximately 14 mm in diameter into the skull so that the electrode can be inserted stereotactically while the patient is awake or asleep. The neurostimulator is installed separately.


 

Both treatments provide functional benefits

In 2016, W. Jeff Elias, MD, director of stereotactic and functional neurosurgery at the University of Virginia in Charlottesville, and his colleagues published the results of a randomized controlled trial that compared FUS with sham treatment in 76 patients with essential tremor. At three months, hand tremor had improved by approximately 50% among treated patients, but controls had no significant benefit(N Engl J Med. 2016 Aug 25;375[8]:730-9). The improvement among treated patients was maintained for 12 months. Disability and quality of life also improved after FUS.

A study by Schuurman et al. published in 2000 (N Engl J Med. 2000 Feb 17;342[7]:461-8) showed that DBS and FUS had similar efficacy at 1 year, said Kathryn L. Holloway, MD, professor of neurosurgery at Virginia Commonwealth University in Richmond. It included 45 patients with Parkinson’s disease, 13 with essential tremor, and 10 with multiple sclerosis who were randomized 1:1 to FUS or DBS. The primary outcome was activities of daily living, and blinded physicians assessed patient videos. Most of the patients who improved had received DBS, and most of the ones who worsened had received FUS, said Dr. Holloway. Among patients with essential tremor, tremor improved by between 94% and 100% with either treatment.

To find more recent data about these treatments, Dr. Holloway searched the literature for studies of FUS or DBS for essential tremor. She analyzed only studies that included unselected populations, blinded evaluations within 1 or 2 years of surgery, and tremor scores for the treated side. She found two studies of FUS, including Dr. Elias’s 2016 trial and a 2018 follow-up (Ann Neurol. 2018 Jan;83[1]:107-14). Dr. Holloway also identified three trials of DBS.

In these studies, reduction of hand tremor was 55% with FUS and between 63% and 69% with DBS. Reduction of postural tremor was approximately 72% with FUS and approximately 67% with DBS. Reduction of action tremor was about 52% with FUS and between 65% and 71% with DBS. Overall, DBS appears to be more effective, said Dr. Holloway.

A 2015 study (Mov Disord. 2015 Dec;30[14]:1937-43) that compared bilateral DBS, unilateral DBS, and unilateral FUS for essential tremor indicated that the treatments provide similar benefits on hand tremor, disability, and quality of life, said Dr. Elias. FUS is inferior to DBS, however, for total tremor and axial tremor.

Furthermore, the efficacy of FUS wanes over time, said Dr. Elias. He and his colleagues conducted a pilot study of 15 patients with essential tremor who received FUS (N Engl J Med. 2013 Aug 15;369[7]:640-8). At 6 years, 6 of 13 patients whose data were available still had a 50% improvement in tremor. “Some went on to [receive] DBS,” said Dr. Elias. “Functional improvements persisted more than the tremor improvement.”


 

Adverse events

In their 2016 trial of FUS, Dr. Elias and his colleagues observed 210 adverse events, which is approximately “what you would expect with a modern day, FDA-monitored clinical trial.” Sensory effects and gait disturbance accounted for most of the thalamotomy-related adverse events. Sensory problems such as numbness or parestheisa persisted at 1 year in 14% of treated patients, and gait disturbance persisted at 1 year in 9%. The investigators did not observe any hemorrhages, infections, or cavitation-related effects from FUS.

In a 2018 analysis of five clinical trials of FUS for essential tremor, Fishman et al. found that 79% of adverse events were mild and 1% were severe (Mov Disord. 2018 May;33[5]:843-7). The risk of a severe adverse event therefore can be considered low, and it may decrease as neurosurgeons gain experience with the procedure, said Dr. Elias.

In the 2000 Schuurman et al. study, the researchers observed significantly fewer adverse events overall among patients with Parkinson’s disease or essential tremor who received DBS, compared with patients who received FUS. Cognitive deterioration, severe dysarthria, and severe ataxia were more common in the FUS group than in the DBS group. Dr. Holloway’s analysis of adverse events in the five more recent trials that she identified yielded similar results.

Although MRI-guided FUS is a precise way to make lesions, functional areas in the thalamus overlap, which makes it more difficult to target only the intended region, said Dr. Holloway. The functional overlap thus increases the risk of adverse events (e.g., sensory impairments, dysarthria, or ataxia). The adverse events that result from FUS may last as long as a year. “Patients will put up anything for about a month after surgery, and then they start to get annoyed,” said Dr. Holloway.

In addition, Schuurman et al. found that FUS entailed a greater risk of permanent side effects, compared with DBS. “That’s the key point here,” said Dr. Holloway. Most of the adverse effects in the DBS group were resolved by adjusting or turning off the stimulator. Hardware issues resulting from DBS are frustrating, but reversible, but a patient with an adverse event after FUS often is “stuck with it,” said Dr. Holloway. The Schuurman et al. data indicated that, in terms of adverse events, “thalamotomy was inferior to DBS,” she added.

Implantation of DBS entails the risks inherent to surgeries that open the skull (such as seizures, air embolism, and hemorrhage). DBS entails a 2% risk of hemorrhage or infection, said Dr. Elias. Furthermore, as much as 15% of patients who undergo DBS implantation require additional surgery.

“FUS is not going to cause a life-threatening hemorrhage, but DBS certainly can,” said Dr. Holloway.


 

Managing disease progression

Essential tremor is a progressive disease, and older patients are more likely to have exponential progression than linear progression. Data, such as those published by Zhang et al. (J Neurosurg. 2010 Jun;112[6]:1271-6), indicate that DBS can “keep up with the progression of the disease,” said Dr. Holloway. The authors found that tremor scores did not change significantly over approximately 5 years when patients with essential tremor who had received DBS implantation had periodic assessments and increases in stimulation parameters when appropriate.

If a patient with essential tremor undergoes FUS thalamotomy and has subsequent disease progression, DBS may be considered for reducing tremor, said Dr. Holloway. Most adverse events resulting from DBS implantation are reversible with adjustment of the stimulation parameters. A second thalamotomy, however, could cause severe dysarthria and other irreversible adverse events. “Only DBS can safely address tremor progression,” said Dr. Holloway.

[email protected]

LAS VEGAS – Focused ultrasound (FUS) thalamotomy and deep brain stimulation (DBS) of the ventral intermediate nucleus of the thalamus provide similar benefits for patients with essential tremor, according to two presentations delivered at the annual meeting of the North American Neuromodulation Society. The techniques’ surgical procedures, associated risks, and adverse event profiles may influence neurologists and patients in their choice of treatment.

FUS allows neurosurgeons to apply thermal ablation to create a lesion on the thalamus. MRI guidance enables precise control of the lesion location (within approximately 1 mm) and of the treatment intensity. The surgery can be performed with high-resolution stereotactic framing.

DBS entails the surgical implantation of a neurostimulator and attached leads and electrodes. The neurosurgeon drills a hole of approximately 14 mm in diameter into the skull so that the electrode can be inserted stereotactically while the patient is awake or asleep. The neurostimulator is installed separately.


 

Both treatments provide functional benefits

In 2016, W. Jeff Elias, MD, director of stereotactic and functional neurosurgery at the University of Virginia in Charlottesville, and his colleagues published the results of a randomized controlled trial that compared FUS with sham treatment in 76 patients with essential tremor. At three months, hand tremor had improved by approximately 50% among treated patients, but controls had no significant benefit(N Engl J Med. 2016 Aug 25;375[8]:730-9). The improvement among treated patients was maintained for 12 months. Disability and quality of life also improved after FUS.

A study by Schuurman et al. published in 2000 (N Engl J Med. 2000 Feb 17;342[7]:461-8) showed that DBS and FUS had similar efficacy at 1 year, said Kathryn L. Holloway, MD, professor of neurosurgery at Virginia Commonwealth University in Richmond. It included 45 patients with Parkinson’s disease, 13 with essential tremor, and 10 with multiple sclerosis who were randomized 1:1 to FUS or DBS. The primary outcome was activities of daily living, and blinded physicians assessed patient videos. Most of the patients who improved had received DBS, and most of the ones who worsened had received FUS, said Dr. Holloway. Among patients with essential tremor, tremor improved by between 94% and 100% with either treatment.

To find more recent data about these treatments, Dr. Holloway searched the literature for studies of FUS or DBS for essential tremor. She analyzed only studies that included unselected populations, blinded evaluations within 1 or 2 years of surgery, and tremor scores for the treated side. She found two studies of FUS, including Dr. Elias’s 2016 trial and a 2018 follow-up (Ann Neurol. 2018 Jan;83[1]:107-14). Dr. Holloway also identified three trials of DBS.

In these studies, reduction of hand tremor was 55% with FUS and between 63% and 69% with DBS. Reduction of postural tremor was approximately 72% with FUS and approximately 67% with DBS. Reduction of action tremor was about 52% with FUS and between 65% and 71% with DBS. Overall, DBS appears to be more effective, said Dr. Holloway.

A 2015 study (Mov Disord. 2015 Dec;30[14]:1937-43) that compared bilateral DBS, unilateral DBS, and unilateral FUS for essential tremor indicated that the treatments provide similar benefits on hand tremor, disability, and quality of life, said Dr. Elias. FUS is inferior to DBS, however, for total tremor and axial tremor.

Furthermore, the efficacy of FUS wanes over time, said Dr. Elias. He and his colleagues conducted a pilot study of 15 patients with essential tremor who received FUS (N Engl J Med. 2013 Aug 15;369[7]:640-8). At 6 years, 6 of 13 patients whose data were available still had a 50% improvement in tremor. “Some went on to [receive] DBS,” said Dr. Elias. “Functional improvements persisted more than the tremor improvement.”


 

Adverse events

In their 2016 trial of FUS, Dr. Elias and his colleagues observed 210 adverse events, which is approximately “what you would expect with a modern day, FDA-monitored clinical trial.” Sensory effects and gait disturbance accounted for most of the thalamotomy-related adverse events. Sensory problems such as numbness or parestheisa persisted at 1 year in 14% of treated patients, and gait disturbance persisted at 1 year in 9%. The investigators did not observe any hemorrhages, infections, or cavitation-related effects from FUS.

In a 2018 analysis of five clinical trials of FUS for essential tremor, Fishman et al. found that 79% of adverse events were mild and 1% were severe (Mov Disord. 2018 May;33[5]:843-7). The risk of a severe adverse event therefore can be considered low, and it may decrease as neurosurgeons gain experience with the procedure, said Dr. Elias.

In the 2000 Schuurman et al. study, the researchers observed significantly fewer adverse events overall among patients with Parkinson’s disease or essential tremor who received DBS, compared with patients who received FUS. Cognitive deterioration, severe dysarthria, and severe ataxia were more common in the FUS group than in the DBS group. Dr. Holloway’s analysis of adverse events in the five more recent trials that she identified yielded similar results.

Although MRI-guided FUS is a precise way to make lesions, functional areas in the thalamus overlap, which makes it more difficult to target only the intended region, said Dr. Holloway. The functional overlap thus increases the risk of adverse events (e.g., sensory impairments, dysarthria, or ataxia). The adverse events that result from FUS may last as long as a year. “Patients will put up anything for about a month after surgery, and then they start to get annoyed,” said Dr. Holloway.

In addition, Schuurman et al. found that FUS entailed a greater risk of permanent side effects, compared with DBS. “That’s the key point here,” said Dr. Holloway. Most of the adverse effects in the DBS group were resolved by adjusting or turning off the stimulator. Hardware issues resulting from DBS are frustrating, but reversible, but a patient with an adverse event after FUS often is “stuck with it,” said Dr. Holloway. The Schuurman et al. data indicated that, in terms of adverse events, “thalamotomy was inferior to DBS,” she added.

Implantation of DBS entails the risks inherent to surgeries that open the skull (such as seizures, air embolism, and hemorrhage). DBS entails a 2% risk of hemorrhage or infection, said Dr. Elias. Furthermore, as much as 15% of patients who undergo DBS implantation require additional surgery.

“FUS is not going to cause a life-threatening hemorrhage, but DBS certainly can,” said Dr. Holloway.


 

Managing disease progression

Essential tremor is a progressive disease, and older patients are more likely to have exponential progression than linear progression. Data, such as those published by Zhang et al. (J Neurosurg. 2010 Jun;112[6]:1271-6), indicate that DBS can “keep up with the progression of the disease,” said Dr. Holloway. The authors found that tremor scores did not change significantly over approximately 5 years when patients with essential tremor who had received DBS implantation had periodic assessments and increases in stimulation parameters when appropriate.

If a patient with essential tremor undergoes FUS thalamotomy and has subsequent disease progression, DBS may be considered for reducing tremor, said Dr. Holloway. Most adverse events resulting from DBS implantation are reversible with adjustment of the stimulation parameters. A second thalamotomy, however, could cause severe dysarthria and other irreversible adverse events. “Only DBS can safely address tremor progression,” said Dr. Holloway.

[email protected]

Statin therapy appears to reduce the risk of major vascular events for patients of all age groups, but there is less evidence that older patients with evidence of occlusive vascular disease benefit from the treatment, according to a recent meta-analysis of 28 trials from the Cholesterol Treatment Trialists’ Collaboration published in The Lancet.

Louise Koenig/MDedge News

Statins are “useful and affordable drug[s] that reduce heart attacks and strokes in older patients. Until now there has been an evidence gap and we wanted to look at their efficacy and safety in older people,” Jordan Fulcher, BSc (Med), MBBS, from the Cholesterol Treatment Trialists’ (CTT) Collaboration and the University of Sydney stated in a press release. “Our analysis indicates that major cardiovascular events were reduced by about a fifth, per mmol/L lower LDL cholesterol, by statin therapy across all age groups. Despite previous concerns, we found no adverse effect on cancer or nonvascular mortality in any age group.”

The researchers examined 186,854 participants from 28 CTT trials undergoing statin therapy, of whom 14,483 (8%) were older than 75 years. Patients were divided into six groups based on age and examined the risk of major cardiovascular events such as stroke, coronary revascularization and major coronary events, as well as the incidence of cancer and vascular mortality.

Among all age groups, there was a significant reduction in major vascular events, with a 21% proportional per 1.0-mmol/L reduction in LDL cholesterol (risk ratio, 0.79; 95% confidence interval, 0.77-0.81) among patients receiving statin therapy or a more intensive statin regimen, and there was a 24% proportional reduction (RR, 0.76; 95% CI, 0.73-0.79) of major coronary events per 1.0-mmol/L reduction in LDL cholesterol, with older age resulting in a lower proportional reduction of major coronary events (P = .009). The researchers also found a proportional reduction of coronary revascularization procedures by 25% (RR, 0.75; 95% CI, 0.73-0.78) and stroke by 16% (RR, 0.84; 95% CI, 0.80-0.89) among patients of any age group receiving statin therapy or more intensive statin regimen, with no significant differences between age groups.

There was a 12% proportional reduction in vascular mortality per 1.0-mmol/L reduction in LDL cholesterol (RR, 0.88; 95% CI, 0.85-0.91), but this statistic did not remain significant after the researchers excluded four trials that included patients with heart failure or who were receiving renal dialysis. After excluding these trials from the overall analysis, the researchers found the smaller proportional reductions persisted for older patients for major coronary events (P = .01) but was no longer significant for major vascular events.

The researchers noted their study was limited by the highly selected patient population, low percentage of patients older than 75 years, including trials with efficacy endpoints where some nonserious adverse events may not have been recorded, and not including some trials in the meta-analysis if they were not part of the CTT.

This study was funded by Australian National Health and Medical Research Council, National Institute for Health Research Oxford Biomedical Research Centre, UK Medical Research Council, and British Heart Foundation. The authors have reported personal fees, grants, and consulting fees from Abbott, Aegerion, Amgen, Arisaph, AstraZeneca, Bayer, Beckmann, Berlin-Chemie, Boehringer Ingelheim, Daiichi Sankyo, Dalcor, DuPont, Esperion, GlaxoSmithKline, ISIS Pharmaceuticals, Kowa, Mylan, Pfizer, Roche, Sanofi, Singulex, The Medicines Company, and Vatera Capital, as well as the British Heart Foundation, Cancer Research UK, National Institute for Health Research Oxford Biomedical Research Centre, Medical Research Council, Nuffield Department of Population Health, Weill Cornell Medicine, and UK Biobank.

SOURCE: Fulcher J et al. Lancet. 2019;393:407-15.

Statin therapy appears to reduce the risk of major vascular events for patients of all age groups, but there is less evidence that older patients with evidence of occlusive vascular disease benefit from the treatment, according to a recent meta-analysis of 28 trials from the Cholesterol Treatment Trialists’ Collaboration published in The Lancet.

Louise Koenig/MDedge News

Statins are “useful and affordable drug[s] that reduce heart attacks and strokes in older patients. Until now there has been an evidence gap and we wanted to look at their efficacy and safety in older people,” Jordan Fulcher, BSc (Med), MBBS, from the Cholesterol Treatment Trialists’ (CTT) Collaboration and the University of Sydney stated in a press release. “Our analysis indicates that major cardiovascular events were reduced by about a fifth, per mmol/L lower LDL cholesterol, by statin therapy across all age groups. Despite previous concerns, we found no adverse effect on cancer or nonvascular mortality in any age group.”

The researchers examined 186,854 participants from 28 CTT trials undergoing statin therapy, of whom 14,483 (8%) were older than 75 years. Patients were divided into six groups based on age and examined the risk of major cardiovascular events such as stroke, coronary revascularization and major coronary events, as well as the incidence of cancer and vascular mortality.

Among all age groups, there was a significant reduction in major vascular events, with a 21% proportional per 1.0-mmol/L reduction in LDL cholesterol (risk ratio, 0.79; 95% confidence interval, 0.77-0.81) among patients receiving statin therapy or a more intensive statin regimen, and there was a 24% proportional reduction (RR, 0.76; 95% CI, 0.73-0.79) of major coronary events per 1.0-mmol/L reduction in LDL cholesterol, with older age resulting in a lower proportional reduction of major coronary events (P = .009). The researchers also found a proportional reduction of coronary revascularization procedures by 25% (RR, 0.75; 95% CI, 0.73-0.78) and stroke by 16% (RR, 0.84; 95% CI, 0.80-0.89) among patients of any age group receiving statin therapy or more intensive statin regimen, with no significant differences between age groups.

There was a 12% proportional reduction in vascular mortality per 1.0-mmol/L reduction in LDL cholesterol (RR, 0.88; 95% CI, 0.85-0.91), but this statistic did not remain significant after the researchers excluded four trials that included patients with heart failure or who were receiving renal dialysis. After excluding these trials from the overall analysis, the researchers found the smaller proportional reductions persisted for older patients for major coronary events (P = .01) but was no longer significant for major vascular events.

The researchers noted their study was limited by the highly selected patient population, low percentage of patients older than 75 years, including trials with efficacy endpoints where some nonserious adverse events may not have been recorded, and not including some trials in the meta-analysis if they were not part of the CTT.

This study was funded by Australian National Health and Medical Research Council, National Institute for Health Research Oxford Biomedical Research Centre, UK Medical Research Council, and British Heart Foundation. The authors have reported personal fees, grants, and consulting fees from Abbott, Aegerion, Amgen, Arisaph, AstraZeneca, Bayer, Beckmann, Berlin-Chemie, Boehringer Ingelheim, Daiichi Sankyo, Dalcor, DuPont, Esperion, GlaxoSmithKline, ISIS Pharmaceuticals, Kowa, Mylan, Pfizer, Roche, Sanofi, Singulex, The Medicines Company, and Vatera Capital, as well as the British Heart Foundation, Cancer Research UK, National Institute for Health Research Oxford Biomedical Research Centre, Medical Research Council, Nuffield Department of Population Health, Weill Cornell Medicine, and UK Biobank.

SOURCE: Fulcher J et al. Lancet. 2019;393:407-15.

Statin therapy appears to reduce the risk of major vascular events for patients of all age groups, but there is less evidence that older patients with evidence of occlusive vascular disease benefit from the treatment, according to a recent meta-analysis of 28 trials from the Cholesterol Treatment Trialists’ Collaboration published in The Lancet.

Louise Koenig/MDedge News

Statins are “useful and affordable drug[s] that reduce heart attacks and strokes in older patients. Until now there has been an evidence gap and we wanted to look at their efficacy and safety in older people,” Jordan Fulcher, BSc (Med), MBBS, from the Cholesterol Treatment Trialists’ (CTT) Collaboration and the University of Sydney stated in a press release. “Our analysis indicates that major cardiovascular events were reduced by about a fifth, per mmol/L lower LDL cholesterol, by statin therapy across all age groups. Despite previous concerns, we found no adverse effect on cancer or nonvascular mortality in any age group.”

The researchers examined 186,854 participants from 28 CTT trials undergoing statin therapy, of whom 14,483 (8%) were older than 75 years. Patients were divided into six groups based on age and examined the risk of major cardiovascular events such as stroke, coronary revascularization and major coronary events, as well as the incidence of cancer and vascular mortality.

Among all age groups, there was a significant reduction in major vascular events, with a 21% proportional per 1.0-mmol/L reduction in LDL cholesterol (risk ratio, 0.79; 95% confidence interval, 0.77-0.81) among patients receiving statin therapy or a more intensive statin regimen, and there was a 24% proportional reduction (RR, 0.76; 95% CI, 0.73-0.79) of major coronary events per 1.0-mmol/L reduction in LDL cholesterol, with older age resulting in a lower proportional reduction of major coronary events (P = .009). The researchers also found a proportional reduction of coronary revascularization procedures by 25% (RR, 0.75; 95% CI, 0.73-0.78) and stroke by 16% (RR, 0.84; 95% CI, 0.80-0.89) among patients of any age group receiving statin therapy or more intensive statin regimen, with no significant differences between age groups.

There was a 12% proportional reduction in vascular mortality per 1.0-mmol/L reduction in LDL cholesterol (RR, 0.88; 95% CI, 0.85-0.91), but this statistic did not remain significant after the researchers excluded four trials that included patients with heart failure or who were receiving renal dialysis. After excluding these trials from the overall analysis, the researchers found the smaller proportional reductions persisted for older patients for major coronary events (P = .01) but was no longer significant for major vascular events.

The researchers noted their study was limited by the highly selected patient population, low percentage of patients older than 75 years, including trials with efficacy endpoints where some nonserious adverse events may not have been recorded, and not including some trials in the meta-analysis if they were not part of the CTT.

This study was funded by Australian National Health and Medical Research Council, National Institute for Health Research Oxford Biomedical Research Centre, UK Medical Research Council, and British Heart Foundation. The authors have reported personal fees, grants, and consulting fees from Abbott, Aegerion, Amgen, Arisaph, AstraZeneca, Bayer, Beckmann, Berlin-Chemie, Boehringer Ingelheim, Daiichi Sankyo, Dalcor, DuPont, Esperion, GlaxoSmithKline, ISIS Pharmaceuticals, Kowa, Mylan, Pfizer, Roche, Sanofi, Singulex, The Medicines Company, and Vatera Capital, as well as the British Heart Foundation, Cancer Research UK, National Institute for Health Research Oxford Biomedical Research Centre, Medical Research Council, Nuffield Department of Population Health, Weill Cornell Medicine, and UK Biobank.

SOURCE: Fulcher J et al. Lancet. 2019;393:407-15.

Department of Medicine, Massachusetts General Hospital, Boston

Case

A 75 year-old woman with a history of hypertension, diabetes mellitus, heart failure and nonvalvular atrial fibrillation (CHA₂DS₂-VASc score, 8) on anticoagulation is admitted with weakness and dysarthria. Exam is notable for hypertension and right-sided hemiparesis. CT of the head shows an intraparenchymal hemorrhage in the left putamen. Her anticoagulation is reversed and blood pressure well controlled. She is discharged 12 days later.

Brief overview of the issue

Intracranial hemorrhage (ICH) is the second most common cause of stroke and is associated with high morbidity and mortality.¹ It is estimated that 10%-15% of spontaneous ICH cases occur in patients on therapeutic anticoagulation for atrial fibrillation.² As our population ages and more people develop atrial fibrillation, anticoagulation for primary or secondary prevention of embolic stroke also will likely increase, placing more people at risk for ICH. Even stringently controlled therapeutic international normalized ratios (INRs) between 2 and 3 may double the risk of ICH.³

Patients with ICH require close monitoring and treatment, including blood pressure control, reversal of anticoagulation, reduction of intracranial pressure and, at times, neurosurgery.⁴ Although anticoagulation is discontinued and reversed at the onset of ICH, no clear consensus exists as to when it is safe to resume it. Although anticoagulation decreases the risk of stroke/thromboembolism, it may also increase the amount of bleeding associated with the initial ICH or lead to its recurrence.

Factors that may contribute to rebleeding include uncontrolled hypertension, advanced age, time to resumption of anticoagulation, and lobar location of ICH (i.e., in cerebral cortex and/or underlying white matter).⁵ Traditionally, lobar ICH has high incidence of cerebral amyloid angiopathy and has been associated with higher bleeding rates than has deep ICH (i.e., involving the thalami, basal ganglia, cerebellum, or brainstem) where cerebral amyloid angiopathy is rare and ICH is usually from hypertensive vessel disease. However, in patients with active thromboembolic disease, high-risk atrial fibrillation, and mechanical valves, withholding anticoagulation could place them at high risk of stroke.

Two questions should be addressed in the case presented: Is it safe to restart therapeutic anticoagulation; and if so, what is the optimal time interval between ICH and reinitiation of anticoagulation?

Overview of the data

There is limited guidance from major professional societies regarding the reinitiation of anticoagulation and the optimal timing of safely resuming anticoagulation in patients with prior ICH.

Current European Stroke Organization guidelines provide no specific recommendations for anticoagulation resumption after ICH.⁷ The American Heart Association/American Stroke Association guideline has a class IIA (weak) recommendation to avoid anticoagulation in spontaneous lobar ICH and a class IIB (very weak) recommendation to consider resuming anticoagulation in nonlobar ICH on a case-by-case basis.⁴

Two recent meta-analyses have examined outcomes of resuming anticoagulation after ICH. In a meta-analysis of 5,300 patients with nonlobar ICH involving eight retrospective studies, Murthy et al. evaluated the risk of thromboembolic events (described as a composite outcome of MI and stroke) and the risk of recurrent ICH.⁸ They reported that resumption of therapeutic anticoagulation was associated with a decrease in the rate of thromboembolic events (6.7% vs. 17.6%; risk ratio, 0.35; 95% confidence interval, 0.25-0.45) with no significant change in the rate of repeat ICH (8.7% vs. 7.8%).

A second meta-analysis of three retrospective trials conducted by Biffi et al. examined anticoagulation resumption in 1,012 patients with ICH solely in the setting of thromboprophylaxis for nonvalvular atrial fibrillation.⁹ Reinitiation of anticoagulation after ICH was associated with decreased mortality (hazard ratio, 0.27; 95% CI, 0.19-0.40; P less than .0001), improved functional outcome (HR, 4.15; 95% CI, 2.92-5.90; P less than .0001), and reduction in all-cause stroke recurrence (HR 0.47; 95% CI, 0.36-0.64; P less than .0001). There was no significant difference in the rate of recurrent ICH when anticoagulation was resumed. Despite the notion that patients with cerebral amyloid angiopathy are at high risk of rebleeding, this positive association still held irrespective of lobar vs. nonlobar location of ICH.

Collectively, these studies suggest that resumption of anticoagulation may be effective in decreasing the rates of thromboembolism, as well as provide a functional and mortality benefit without increasing the risk of rebleeding, irrespective of the location of the bleed.

Less is known about the optimal timing of resumption of therapeutic anticoagulation, with data ranging from 72 hours to 30 weeks.¹⁰ The American Heart Association/American Stroke Association has a class IIB (very weak) recommendation to avoid anticoagulation for at least 4 weeks in patients without mechanical heart valves.⁴ The median time to resumption of therapeutic anticoagulation in aforementioned meta-analyses ranged from 10 to 44 days.^8,9

A recent observational study of 2,619 ICH survivors explored the relationship between the timing of reinitiation of anticoagulation and the incidence of thrombotic events (defined as ischemic stroke or death because of MI or systemic arterial thromboembolism) and hemorrhagic events (defined as recurrent ICH or bleeding event leading to death) occurring at least 28 days after initial ICH in patients with atrial fibrillation.¹¹

A decrease in thrombotic events was demonstrated if anticoagulation was started 4-16 weeks after ICH. However, when anticoagulation was started more than 16 weeks after ICH, no benefit was seen. Additionally, there was no significant difference in hemorrhagic events between men and women who resumed anticoagulation. In patients with high venous thromboembolism risk based on CHA₂DS₂-VASc score, resumption of anticoagulation was associated with a decreased predicted incidence of vascular death and nonfatal stroke, with the greatest benefit observed when anticoagulation was started at 7-8 weeks after ICH.

Unfortunately, published literature to date on anticoagulation after ICH is based entirely on retrospective studies – not randomized, controlled studies – making it more likely that anticoagulation would have been resumed in healthier patients, not those left debilitated by the ICH.

Furthermore, information on the location and size of the hemorrhages – which may serve as another confounding factor – often has not been reported. This is important since patients with smaller hemorrhages in less precarious areas also may be more likely to have resumption of anticoagulation. Another limitation of the current literature is that warfarin is the most common anticoagulant studied, with few studies involving the increasingly prescribed newer direct oral anticoagulants. It is also important to stress that a causal relationship between use of anticoagulants and certain outcomes or adverse effects following ICH may be more difficult to invoke in the absence of randomized controlled study designs.

Application of the data to our patient

Resumption of anticoagulation in our patient with ICH requires balancing the risk of hemorrhage expansion and recurrent ICH with the risk of thromboembolic disease.

Our patient is at higher risk of bleeding because of her advanced age, but adequate control of her blood pressure and nonlobar location of her ICH in the basal ganglia also may decrease her risk of recurrent ICH. Her high CHA₂DS₂-VASc score places her at high risk of thromboembolic event and stroke, making it more likely for reinitiation of anticoagulation to confer a mortality benefit.

Based on AHA guidelines,⁴ we should wait at least 4 weeks, or possibly wait until weeks 7-8 after ICH when the greatest benefit may be expected based on prediction models.¹¹

Bottom line

It would likely be safe to resume anticoagulation 4-8 weeks after ICH in our patient.

Dr. Gibson, Dr. Restrepo, Dr. Sasidhara, and Dr. Manian are hospitalists at Massachusetts General Hospital, Boston.

References

1. An SJ et al. Epidemiology, risk factors, and clinical features of intracerebral hemorrhage: An update. J Stroke. 2017 Jan;19:3-10.

2. Horstmann S et al. Intracerebral hemorrhage during anticoagulation with vitamin K antagonists: a consecutive observational study. J Neurol. 2013 Aug;260:2046-51.

3. Rosand J et al. The effect of warfarin and intensity of anticoagulation on outcome of intracerebral hemorrhage. Arch Intern Med. 2004 Apr 26;164:880-4.

4. Hemphill JC et al. Guidelines for the management of spontaneous intracerebral hemorrhage. Stroke. 2015 Jul;46:2032-60.

5. Aguillar MI et al. Update in intracerebral hemorrhage. Neurohospitalist. 2011;1:148-59.

6. Hill MD et al. Rate of stroke recurrence in patients with primary intracerebral hemorrhage. Stroke. 2000;31:123-7.

7. Steiner T et al. European Stroke Organization (ESO) guidelines for the management of spontaneous cerebral hemorrhage. Int J Stroke. 2014;9:840-55.

8. Murthy SB et al. Restarting anticoagulation therapy after intracranial hemorrhage: A systematic review and meta-analysis. Stroke. 2017 Jun;48:1594-600.

9. Biffi A et al. Oral anticoagulation and functional outcome after intracerebral hemorrhage. Ann Neurol. 2017 Nov;82:755-65.

10. Witt DM. What to do after the bleed: Resuming anticoagulation after major bleeding. Hematology Am Soc Hematol Educ Program. 2016 Dec 2;206:620-4.

11. Pennlert J et al. Optimal timing of anticoagulant treatment after intracerebral hemorrhage in patients with atrial fibrillation. Stroke. 2017 Feb;48:314-20.

Key Points

• Robust scientific data on when to resume anticoagulation after ICH does not exist.
• Retrospective studies have shown that anticoagulation resumption after 4-8 weeks decreases the risk of thromboembolic events, decreases mortality, and improves functional status following ICH with no significant change in the risk of its recurrence.
• Prospective, randomized controlled trials are needed to explore risks/benefits of anticoagulation resumption and better define its optimal timing in relation to ICH.

Quiz

Which of the following is false regarding ICH?

A. Lobar ICHs are usually associated with cerebral amyloid angiopathy which are prone to bleeding.

B. Randomized, controlled studies have helped guide the decision as to when to resume anticoagulation in patients with ICH.

C. Current guidelines suggest deferring therapeutic anticoagulation for at least 4 weeks following ICH.

D. Resumption of anticoagulation after 4-8 weeks does not lead to increased risk of rebleeding in patients with prior ICH.



The false answer is B: Current recommendations regarding resumption of anticoagulation in patients with ICH are based solely on retrospective observational studies; there are no randomized, control trials to date.

A is true: In contrast to hypertensive vessel disease associated with deep ICH, lobar hemorrhages are usually associated with cerebral amyloid angiopathy, which are more prone to bleeding.

C is true: The AHA/ASA has a class IIB recommendation to avoid anticoagulation for at least 4 weeks after ICH in patients without mechanical heart valves.

D is true: Several studies have shown that resumption of anticoagulation 4-8 weeks after ICH does not increase the risk of rebleeding.




 

Department of Medicine, Massachusetts General Hospital, Boston

Case

A 75 year-old woman with a history of hypertension, diabetes mellitus, heart failure and nonvalvular atrial fibrillation (CHA₂DS₂-VASc score, 8) on anticoagulation is admitted with weakness and dysarthria. Exam is notable for hypertension and right-sided hemiparesis. CT of the head shows an intraparenchymal hemorrhage in the left putamen. Her anticoagulation is reversed and blood pressure well controlled. She is discharged 12 days later.

Brief overview of the issue

Intracranial hemorrhage (ICH) is the second most common cause of stroke and is associated with high morbidity and mortality.¹ It is estimated that 10%-15% of spontaneous ICH cases occur in patients on therapeutic anticoagulation for atrial fibrillation.² As our population ages and more people develop atrial fibrillation, anticoagulation for primary or secondary prevention of embolic stroke also will likely increase, placing more people at risk for ICH. Even stringently controlled therapeutic international normalized ratios (INRs) between 2 and 3 may double the risk of ICH.³

Patients with ICH require close monitoring and treatment, including blood pressure control, reversal of anticoagulation, reduction of intracranial pressure and, at times, neurosurgery.⁴ Although anticoagulation is discontinued and reversed at the onset of ICH, no clear consensus exists as to when it is safe to resume it. Although anticoagulation decreases the risk of stroke/thromboembolism, it may also increase the amount of bleeding associated with the initial ICH or lead to its recurrence.

Factors that may contribute to rebleeding include uncontrolled hypertension, advanced age, time to resumption of anticoagulation, and lobar location of ICH (i.e., in cerebral cortex and/or underlying white matter).⁵ Traditionally, lobar ICH has high incidence of cerebral amyloid angiopathy and has been associated with higher bleeding rates than has deep ICH (i.e., involving the thalami, basal ganglia, cerebellum, or brainstem) where cerebral amyloid angiopathy is rare and ICH is usually from hypertensive vessel disease. However, in patients with active thromboembolic disease, high-risk atrial fibrillation, and mechanical valves, withholding anticoagulation could place them at high risk of stroke.

Two questions should be addressed in the case presented: Is it safe to restart therapeutic anticoagulation; and if so, what is the optimal time interval between ICH and reinitiation of anticoagulation?

Overview of the data

There is limited guidance from major professional societies regarding the reinitiation of anticoagulation and the optimal timing of safely resuming anticoagulation in patients with prior ICH.

Current European Stroke Organization guidelines provide no specific recommendations for anticoagulation resumption after ICH.⁷ The American Heart Association/American Stroke Association guideline has a class IIA (weak) recommendation to avoid anticoagulation in spontaneous lobar ICH and a class IIB (very weak) recommendation to consider resuming anticoagulation in nonlobar ICH on a case-by-case basis.⁴

Two recent meta-analyses have examined outcomes of resuming anticoagulation after ICH. In a meta-analysis of 5,300 patients with nonlobar ICH involving eight retrospective studies, Murthy et al. evaluated the risk of thromboembolic events (described as a composite outcome of MI and stroke) and the risk of recurrent ICH.⁸ They reported that resumption of therapeutic anticoagulation was associated with a decrease in the rate of thromboembolic events (6.7% vs. 17.6%; risk ratio, 0.35; 95% confidence interval, 0.25-0.45) with no significant change in the rate of repeat ICH (8.7% vs. 7.8%).

A second meta-analysis of three retrospective trials conducted by Biffi et al. examined anticoagulation resumption in 1,012 patients with ICH solely in the setting of thromboprophylaxis for nonvalvular atrial fibrillation.⁹ Reinitiation of anticoagulation after ICH was associated with decreased mortality (hazard ratio, 0.27; 95% CI, 0.19-0.40; P less than .0001), improved functional outcome (HR, 4.15; 95% CI, 2.92-5.90; P less than .0001), and reduction in all-cause stroke recurrence (HR 0.47; 95% CI, 0.36-0.64; P less than .0001). There was no significant difference in the rate of recurrent ICH when anticoagulation was resumed. Despite the notion that patients with cerebral amyloid angiopathy are at high risk of rebleeding, this positive association still held irrespective of lobar vs. nonlobar location of ICH.

Collectively, these studies suggest that resumption of anticoagulation may be effective in decreasing the rates of thromboembolism, as well as provide a functional and mortality benefit without increasing the risk of rebleeding, irrespective of the location of the bleed.

Less is known about the optimal timing of resumption of therapeutic anticoagulation, with data ranging from 72 hours to 30 weeks.¹⁰ The American Heart Association/American Stroke Association has a class IIB (very weak) recommendation to avoid anticoagulation for at least 4 weeks in patients without mechanical heart valves.⁴ The median time to resumption of therapeutic anticoagulation in aforementioned meta-analyses ranged from 10 to 44 days.^8,9

A recent observational study of 2,619 ICH survivors explored the relationship between the timing of reinitiation of anticoagulation and the incidence of thrombotic events (defined as ischemic stroke or death because of MI or systemic arterial thromboembolism) and hemorrhagic events (defined as recurrent ICH or bleeding event leading to death) occurring at least 28 days after initial ICH in patients with atrial fibrillation.¹¹

A decrease in thrombotic events was demonstrated if anticoagulation was started 4-16 weeks after ICH. However, when anticoagulation was started more than 16 weeks after ICH, no benefit was seen. Additionally, there was no significant difference in hemorrhagic events between men and women who resumed anticoagulation. In patients with high venous thromboembolism risk based on CHA₂DS₂-VASc score, resumption of anticoagulation was associated with a decreased predicted incidence of vascular death and nonfatal stroke, with the greatest benefit observed when anticoagulation was started at 7-8 weeks after ICH.

Unfortunately, published literature to date on anticoagulation after ICH is based entirely on retrospective studies – not randomized, controlled studies – making it more likely that anticoagulation would have been resumed in healthier patients, not those left debilitated by the ICH.

Furthermore, information on the location and size of the hemorrhages – which may serve as another confounding factor – often has not been reported. This is important since patients with smaller hemorrhages in less precarious areas also may be more likely to have resumption of anticoagulation. Another limitation of the current literature is that warfarin is the most common anticoagulant studied, with few studies involving the increasingly prescribed newer direct oral anticoagulants. It is also important to stress that a causal relationship between use of anticoagulants and certain outcomes or adverse effects following ICH may be more difficult to invoke in the absence of randomized controlled study designs.

Application of the data to our patient

Resumption of anticoagulation in our patient with ICH requires balancing the risk of hemorrhage expansion and recurrent ICH with the risk of thromboembolic disease.

Our patient is at higher risk of bleeding because of her advanced age, but adequate control of her blood pressure and nonlobar location of her ICH in the basal ganglia also may decrease her risk of recurrent ICH. Her high CHA₂DS₂-VASc score places her at high risk of thromboembolic event and stroke, making it more likely for reinitiation of anticoagulation to confer a mortality benefit.

Based on AHA guidelines,⁴ we should wait at least 4 weeks, or possibly wait until weeks 7-8 after ICH when the greatest benefit may be expected based on prediction models.¹¹

Bottom line

It would likely be safe to resume anticoagulation 4-8 weeks after ICH in our patient.

Dr. Gibson, Dr. Restrepo, Dr. Sasidhara, and Dr. Manian are hospitalists at Massachusetts General Hospital, Boston.

References

1. An SJ et al. Epidemiology, risk factors, and clinical features of intracerebral hemorrhage: An update. J Stroke. 2017 Jan;19:3-10.

2. Horstmann S et al. Intracerebral hemorrhage during anticoagulation with vitamin K antagonists: a consecutive observational study. J Neurol. 2013 Aug;260:2046-51.

3. Rosand J et al. The effect of warfarin and intensity of anticoagulation on outcome of intracerebral hemorrhage. Arch Intern Med. 2004 Apr 26;164:880-4.

4. Hemphill JC et al. Guidelines for the management of spontaneous intracerebral hemorrhage. Stroke. 2015 Jul;46:2032-60.

5. Aguillar MI et al. Update in intracerebral hemorrhage. Neurohospitalist. 2011;1:148-59.

6. Hill MD et al. Rate of stroke recurrence in patients with primary intracerebral hemorrhage. Stroke. 2000;31:123-7.

7. Steiner T et al. European Stroke Organization (ESO) guidelines for the management of spontaneous cerebral hemorrhage. Int J Stroke. 2014;9:840-55.

8. Murthy SB et al. Restarting anticoagulation therapy after intracranial hemorrhage: A systematic review and meta-analysis. Stroke. 2017 Jun;48:1594-600.

9. Biffi A et al. Oral anticoagulation and functional outcome after intracerebral hemorrhage. Ann Neurol. 2017 Nov;82:755-65.

10. Witt DM. What to do after the bleed: Resuming anticoagulation after major bleeding. Hematology Am Soc Hematol Educ Program. 2016 Dec 2;206:620-4.

11. Pennlert J et al. Optimal timing of anticoagulant treatment after intracerebral hemorrhage in patients with atrial fibrillation. Stroke. 2017 Feb;48:314-20.

Key Points

• Robust scientific data on when to resume anticoagulation after ICH does not exist.
• Retrospective studies have shown that anticoagulation resumption after 4-8 weeks decreases the risk of thromboembolic events, decreases mortality, and improves functional status following ICH with no significant change in the risk of its recurrence.
• Prospective, randomized controlled trials are needed to explore risks/benefits of anticoagulation resumption and better define its optimal timing in relation to ICH.

Quiz

Which of the following is false regarding ICH?

A. Lobar ICHs are usually associated with cerebral amyloid angiopathy which are prone to bleeding.

B. Randomized, controlled studies have helped guide the decision as to when to resume anticoagulation in patients with ICH.

C. Current guidelines suggest deferring therapeutic anticoagulation for at least 4 weeks following ICH.

D. Resumption of anticoagulation after 4-8 weeks does not lead to increased risk of rebleeding in patients with prior ICH.



The false answer is B: Current recommendations regarding resumption of anticoagulation in patients with ICH are based solely on retrospective observational studies; there are no randomized, control trials to date.

A is true: In contrast to hypertensive vessel disease associated with deep ICH, lobar hemorrhages are usually associated with cerebral amyloid angiopathy, which are more prone to bleeding.

C is true: The AHA/ASA has a class IIB recommendation to avoid anticoagulation for at least 4 weeks after ICH in patients without mechanical heart valves.

D is true: Several studies have shown that resumption of anticoagulation 4-8 weeks after ICH does not increase the risk of rebleeding.




 

Department of Medicine, Massachusetts General Hospital, Boston

Case

A 75 year-old woman with a history of hypertension, diabetes mellitus, heart failure and nonvalvular atrial fibrillation (CHA₂DS₂-VASc score, 8) on anticoagulation is admitted with weakness and dysarthria. Exam is notable for hypertension and right-sided hemiparesis. CT of the head shows an intraparenchymal hemorrhage in the left putamen. Her anticoagulation is reversed and blood pressure well controlled. She is discharged 12 days later.

Brief overview of the issue

Intracranial hemorrhage (ICH) is the second most common cause of stroke and is associated with high morbidity and mortality.¹ It is estimated that 10%-15% of spontaneous ICH cases occur in patients on therapeutic anticoagulation for atrial fibrillation.² As our population ages and more people develop atrial fibrillation, anticoagulation for primary or secondary prevention of embolic stroke also will likely increase, placing more people at risk for ICH. Even stringently controlled therapeutic international normalized ratios (INRs) between 2 and 3 may double the risk of ICH.³

Patients with ICH require close monitoring and treatment, including blood pressure control, reversal of anticoagulation, reduction of intracranial pressure and, at times, neurosurgery.⁴ Although anticoagulation is discontinued and reversed at the onset of ICH, no clear consensus exists as to when it is safe to resume it. Although anticoagulation decreases the risk of stroke/thromboembolism, it may also increase the amount of bleeding associated with the initial ICH or lead to its recurrence.

Factors that may contribute to rebleeding include uncontrolled hypertension, advanced age, time to resumption of anticoagulation, and lobar location of ICH (i.e., in cerebral cortex and/or underlying white matter).⁵ Traditionally, lobar ICH has high incidence of cerebral amyloid angiopathy and has been associated with higher bleeding rates than has deep ICH (i.e., involving the thalami, basal ganglia, cerebellum, or brainstem) where cerebral amyloid angiopathy is rare and ICH is usually from hypertensive vessel disease. However, in patients with active thromboembolic disease, high-risk atrial fibrillation, and mechanical valves, withholding anticoagulation could place them at high risk of stroke.

Two questions should be addressed in the case presented: Is it safe to restart therapeutic anticoagulation; and if so, what is the optimal time interval between ICH and reinitiation of anticoagulation?

Overview of the data

There is limited guidance from major professional societies regarding the reinitiation of anticoagulation and the optimal timing of safely resuming anticoagulation in patients with prior ICH.

Current European Stroke Organization guidelines provide no specific recommendations for anticoagulation resumption after ICH.⁷ The American Heart Association/American Stroke Association guideline has a class IIA (weak) recommendation to avoid anticoagulation in spontaneous lobar ICH and a class IIB (very weak) recommendation to consider resuming anticoagulation in nonlobar ICH on a case-by-case basis.⁴

Two recent meta-analyses have examined outcomes of resuming anticoagulation after ICH. In a meta-analysis of 5,300 patients with nonlobar ICH involving eight retrospective studies, Murthy et al. evaluated the risk of thromboembolic events (described as a composite outcome of MI and stroke) and the risk of recurrent ICH.⁸ They reported that resumption of therapeutic anticoagulation was associated with a decrease in the rate of thromboembolic events (6.7% vs. 17.6%; risk ratio, 0.35; 95% confidence interval, 0.25-0.45) with no significant change in the rate of repeat ICH (8.7% vs. 7.8%).

A second meta-analysis of three retrospective trials conducted by Biffi et al. examined anticoagulation resumption in 1,012 patients with ICH solely in the setting of thromboprophylaxis for nonvalvular atrial fibrillation.⁹ Reinitiation of anticoagulation after ICH was associated with decreased mortality (hazard ratio, 0.27; 95% CI, 0.19-0.40; P less than .0001), improved functional outcome (HR, 4.15; 95% CI, 2.92-5.90; P less than .0001), and reduction in all-cause stroke recurrence (HR 0.47; 95% CI, 0.36-0.64; P less than .0001). There was no significant difference in the rate of recurrent ICH when anticoagulation was resumed. Despite the notion that patients with cerebral amyloid angiopathy are at high risk of rebleeding, this positive association still held irrespective of lobar vs. nonlobar location of ICH.

Collectively, these studies suggest that resumption of anticoagulation may be effective in decreasing the rates of thromboembolism, as well as provide a functional and mortality benefit without increasing the risk of rebleeding, irrespective of the location of the bleed.

Less is known about the optimal timing of resumption of therapeutic anticoagulation, with data ranging from 72 hours to 30 weeks.¹⁰ The American Heart Association/American Stroke Association has a class IIB (very weak) recommendation to avoid anticoagulation for at least 4 weeks in patients without mechanical heart valves.⁴ The median time to resumption of therapeutic anticoagulation in aforementioned meta-analyses ranged from 10 to 44 days.^8,9

A recent observational study of 2,619 ICH survivors explored the relationship between the timing of reinitiation of anticoagulation and the incidence of thrombotic events (defined as ischemic stroke or death because of MI or systemic arterial thromboembolism) and hemorrhagic events (defined as recurrent ICH or bleeding event leading to death) occurring at least 28 days after initial ICH in patients with atrial fibrillation.¹¹

A decrease in thrombotic events was demonstrated if anticoagulation was started 4-16 weeks after ICH. However, when anticoagulation was started more than 16 weeks after ICH, no benefit was seen. Additionally, there was no significant difference in hemorrhagic events between men and women who resumed anticoagulation. In patients with high venous thromboembolism risk based on CHA₂DS₂-VASc score, resumption of anticoagulation was associated with a decreased predicted incidence of vascular death and nonfatal stroke, with the greatest benefit observed when anticoagulation was started at 7-8 weeks after ICH.

Unfortunately, published literature to date on anticoagulation after ICH is based entirely on retrospective studies – not randomized, controlled studies – making it more likely that anticoagulation would have been resumed in healthier patients, not those left debilitated by the ICH.

Furthermore, information on the location and size of the hemorrhages – which may serve as another confounding factor – often has not been reported. This is important since patients with smaller hemorrhages in less precarious areas also may be more likely to have resumption of anticoagulation. Another limitation of the current literature is that warfarin is the most common anticoagulant studied, with few studies involving the increasingly prescribed newer direct oral anticoagulants. It is also important to stress that a causal relationship between use of anticoagulants and certain outcomes or adverse effects following ICH may be more difficult to invoke in the absence of randomized controlled study designs.

Application of the data to our patient

Resumption of anticoagulation in our patient with ICH requires balancing the risk of hemorrhage expansion and recurrent ICH with the risk of thromboembolic disease.

Our patient is at higher risk of bleeding because of her advanced age, but adequate control of her blood pressure and nonlobar location of her ICH in the basal ganglia also may decrease her risk of recurrent ICH. Her high CHA₂DS₂-VASc score places her at high risk of thromboembolic event and stroke, making it more likely for reinitiation of anticoagulation to confer a mortality benefit.

Based on AHA guidelines,⁴ we should wait at least 4 weeks, or possibly wait until weeks 7-8 after ICH when the greatest benefit may be expected based on prediction models.¹¹

Bottom line

It would likely be safe to resume anticoagulation 4-8 weeks after ICH in our patient.

Dr. Gibson, Dr. Restrepo, Dr. Sasidhara, and Dr. Manian are hospitalists at Massachusetts General Hospital, Boston.

References

1. An SJ et al. Epidemiology, risk factors, and clinical features of intracerebral hemorrhage: An update. J Stroke. 2017 Jan;19:3-10.

2. Horstmann S et al. Intracerebral hemorrhage during anticoagulation with vitamin K antagonists: a consecutive observational study. J Neurol. 2013 Aug;260:2046-51.

3. Rosand J et al. The effect of warfarin and intensity of anticoagulation on outcome of intracerebral hemorrhage. Arch Intern Med. 2004 Apr 26;164:880-4.

4. Hemphill JC et al. Guidelines for the management of spontaneous intracerebral hemorrhage. Stroke. 2015 Jul;46:2032-60.

5. Aguillar MI et al. Update in intracerebral hemorrhage. Neurohospitalist. 2011;1:148-59.

6. Hill MD et al. Rate of stroke recurrence in patients with primary intracerebral hemorrhage. Stroke. 2000;31:123-7.

7. Steiner T et al. European Stroke Organization (ESO) guidelines for the management of spontaneous cerebral hemorrhage. Int J Stroke. 2014;9:840-55.

8. Murthy SB et al. Restarting anticoagulation therapy after intracranial hemorrhage: A systematic review and meta-analysis. Stroke. 2017 Jun;48:1594-600.

9. Biffi A et al. Oral anticoagulation and functional outcome after intracerebral hemorrhage. Ann Neurol. 2017 Nov;82:755-65.

10. Witt DM. What to do after the bleed: Resuming anticoagulation after major bleeding. Hematology Am Soc Hematol Educ Program. 2016 Dec 2;206:620-4.

11. Pennlert J et al. Optimal timing of anticoagulant treatment after intracerebral hemorrhage in patients with atrial fibrillation. Stroke. 2017 Feb;48:314-20.

Key Points

• Robust scientific data on when to resume anticoagulation after ICH does not exist.
• Retrospective studies have shown that anticoagulation resumption after 4-8 weeks decreases the risk of thromboembolic events, decreases mortality, and improves functional status following ICH with no significant change in the risk of its recurrence.
• Prospective, randomized controlled trials are needed to explore risks/benefits of anticoagulation resumption and better define its optimal timing in relation to ICH.

Quiz

Which of the following is false regarding ICH?

A. Lobar ICHs are usually associated with cerebral amyloid angiopathy which are prone to bleeding.

B. Randomized, controlled studies have helped guide the decision as to when to resume anticoagulation in patients with ICH.

C. Current guidelines suggest deferring therapeutic anticoagulation for at least 4 weeks following ICH.

D. Resumption of anticoagulation after 4-8 weeks does not lead to increased risk of rebleeding in patients with prior ICH.



The false answer is B: Current recommendations regarding resumption of anticoagulation in patients with ICH are based solely on retrospective observational studies; there are no randomized, control trials to date.

A is true: In contrast to hypertensive vessel disease associated with deep ICH, lobar hemorrhages are usually associated with cerebral amyloid angiopathy, which are more prone to bleeding.

C is true: The AHA/ASA has a class IIB recommendation to avoid anticoagulation for at least 4 weeks after ICH in patients without mechanical heart valves.

D is true: Several studies have shown that resumption of anticoagulation 4-8 weeks after ICH does not increase the risk of rebleeding.




 

Mild aerobic exercise significantly shortened recovery time from sports-related concussion in adolescent athletes, compared with a stretching program in a randomized trial of 103 participants.

YanLev/ThinkStock

Sports-related concussion (SRC) remains a major public health problem with no effective treatment, wrote John J. Leddy, MD, of the State University of New York at Buffalo, and his colleagues.

Exercise tolerance after SRC has not been well studied. However, given the demonstrated benefits of aerobic exercise training on autonomic nervous system regulation, cerebral blood flow regulation, cardiovascular physiology, and brain neuroplasticity, the researchers hypothesized that exercise at a level that does not exacerbate symptoms might facilitate recovery in concussion patients.

In a study published in JAMA Pediatrics, the researchers randomized 103 adolescent athletes aged 13-18 years to a program of subsymptom aerobic exercise or a placebo stretching program. The participants were enrolled in the study within 10 days of an SRC, and were followed for 30 days or until recovery.

Athletes in the aerobic exercise group recovered in a median of 13 days, compared with 17 days for those in the stretching group (P = .009). Recovery was defined as “symptom resolution to normal,” based on normal physical and neurological examinations, “further confirmed by demonstration of the ability to exercise to exhaustion without exacerbation of symptoms” according to the Buffalo Concussion Treadmill Test, the researchers wrote.

No demographic differences or difference in previous concussions, time from injury until treatment, initial symptom severity score, initial exercise treadmill test, or physical exam were noted between the groups.

The average age of the participants was 15 years, 47% were female. The athletes performed the aerobic exercise or stretching programs approximately 20 minutes per day, and reported their daily symptoms and compliance via a website. The aerobic exercise consisted of walking or jogging on a treadmill or outdoors, or riding a stationary bike while wearing a heart rate monitor to maintain a target heart rate. The target heart rate was calculated as 80% of the heart rate at symptom exacerbation during the Buffalo Concussion Treadmill Test at each participant’s initial visit.

No adverse events related to the exercise intervention were reported, which supports the safety of subsymptom threshhold exercise, in the study population, Dr. Leddy and his associates noted.

The researchers also found lower rates of persistent symptoms at 1 month in the exercise group, compared with the stretching group (two participants vs. seven participants), but this difference was not statistically significant.

The study findings were limited by several factors, including the unblinded design and failure to address the mechanism of action for the effects of exercise. In addition, the results are not generalizable to younger children or other demographic groups, including those with concussions from causes other than sports and adults with heart conditions, the researchers noted.

However, “the results of this study should give clinicians confidence that moderate levels of physical activity, including prescribed subsymptom threshold aerobic exercise, after the first 48 hours following SRC can safely and significantly speed recovery,” Dr. Leddy and his associates concluded.

The study was supported by grants from the National Institutes of Health. The researchers had no financial conflicts to disclose.
 

[email protected]

SOURCE: Leddy JJ et al. JAMA Pediatr. 2019 Feb 4. doi: 10.1001/jamapediatrics.2018.4397.

Mild aerobic exercise significantly shortened recovery time from sports-related concussion in adolescent athletes, compared with a stretching program in a randomized trial of 103 participants.

YanLev/ThinkStock

Sports-related concussion (SRC) remains a major public health problem with no effective treatment, wrote John J. Leddy, MD, of the State University of New York at Buffalo, and his colleagues.

Exercise tolerance after SRC has not been well studied. However, given the demonstrated benefits of aerobic exercise training on autonomic nervous system regulation, cerebral blood flow regulation, cardiovascular physiology, and brain neuroplasticity, the researchers hypothesized that exercise at a level that does not exacerbate symptoms might facilitate recovery in concussion patients.

In a study published in JAMA Pediatrics, the researchers randomized 103 adolescent athletes aged 13-18 years to a program of subsymptom aerobic exercise or a placebo stretching program. The participants were enrolled in the study within 10 days of an SRC, and were followed for 30 days or until recovery.

Athletes in the aerobic exercise group recovered in a median of 13 days, compared with 17 days for those in the stretching group (P = .009). Recovery was defined as “symptom resolution to normal,” based on normal physical and neurological examinations, “further confirmed by demonstration of the ability to exercise to exhaustion without exacerbation of symptoms” according to the Buffalo Concussion Treadmill Test, the researchers wrote.

No demographic differences or difference in previous concussions, time from injury until treatment, initial symptom severity score, initial exercise treadmill test, or physical exam were noted between the groups.

The average age of the participants was 15 years, 47% were female. The athletes performed the aerobic exercise or stretching programs approximately 20 minutes per day, and reported their daily symptoms and compliance via a website. The aerobic exercise consisted of walking or jogging on a treadmill or outdoors, or riding a stationary bike while wearing a heart rate monitor to maintain a target heart rate. The target heart rate was calculated as 80% of the heart rate at symptom exacerbation during the Buffalo Concussion Treadmill Test at each participant’s initial visit.

No adverse events related to the exercise intervention were reported, which supports the safety of subsymptom threshhold exercise, in the study population, Dr. Leddy and his associates noted.

The researchers also found lower rates of persistent symptoms at 1 month in the exercise group, compared with the stretching group (two participants vs. seven participants), but this difference was not statistically significant.

The study findings were limited by several factors, including the unblinded design and failure to address the mechanism of action for the effects of exercise. In addition, the results are not generalizable to younger children or other demographic groups, including those with concussions from causes other than sports and adults with heart conditions, the researchers noted.

However, “the results of this study should give clinicians confidence that moderate levels of physical activity, including prescribed subsymptom threshold aerobic exercise, after the first 48 hours following SRC can safely and significantly speed recovery,” Dr. Leddy and his associates concluded.

The study was supported by grants from the National Institutes of Health. The researchers had no financial conflicts to disclose.
 

[email protected]

SOURCE: Leddy JJ et al. JAMA Pediatr. 2019 Feb 4. doi: 10.1001/jamapediatrics.2018.4397.

Mild aerobic exercise significantly shortened recovery time from sports-related concussion in adolescent athletes, compared with a stretching program in a randomized trial of 103 participants.

YanLev/ThinkStock

Sports-related concussion (SRC) remains a major public health problem with no effective treatment, wrote John J. Leddy, MD, of the State University of New York at Buffalo, and his colleagues.

Exercise tolerance after SRC has not been well studied. However, given the demonstrated benefits of aerobic exercise training on autonomic nervous system regulation, cerebral blood flow regulation, cardiovascular physiology, and brain neuroplasticity, the researchers hypothesized that exercise at a level that does not exacerbate symptoms might facilitate recovery in concussion patients.

In a study published in JAMA Pediatrics, the researchers randomized 103 adolescent athletes aged 13-18 years to a program of subsymptom aerobic exercise or a placebo stretching program. The participants were enrolled in the study within 10 days of an SRC, and were followed for 30 days or until recovery.

Athletes in the aerobic exercise group recovered in a median of 13 days, compared with 17 days for those in the stretching group (P = .009). Recovery was defined as “symptom resolution to normal,” based on normal physical and neurological examinations, “further confirmed by demonstration of the ability to exercise to exhaustion without exacerbation of symptoms” according to the Buffalo Concussion Treadmill Test, the researchers wrote.

No demographic differences or difference in previous concussions, time from injury until treatment, initial symptom severity score, initial exercise treadmill test, or physical exam were noted between the groups.

The average age of the participants was 15 years, 47% were female. The athletes performed the aerobic exercise or stretching programs approximately 20 minutes per day, and reported their daily symptoms and compliance via a website. The aerobic exercise consisted of walking or jogging on a treadmill or outdoors, or riding a stationary bike while wearing a heart rate monitor to maintain a target heart rate. The target heart rate was calculated as 80% of the heart rate at symptom exacerbation during the Buffalo Concussion Treadmill Test at each participant’s initial visit.

No adverse events related to the exercise intervention were reported, which supports the safety of subsymptom threshhold exercise, in the study population, Dr. Leddy and his associates noted.

The researchers also found lower rates of persistent symptoms at 1 month in the exercise group, compared with the stretching group (two participants vs. seven participants), but this difference was not statistically significant.

The study findings were limited by several factors, including the unblinded design and failure to address the mechanism of action for the effects of exercise. In addition, the results are not generalizable to younger children or other demographic groups, including those with concussions from causes other than sports and adults with heart conditions, the researchers noted.

However, “the results of this study should give clinicians confidence that moderate levels of physical activity, including prescribed subsymptom threshold aerobic exercise, after the first 48 hours following SRC can safely and significantly speed recovery,” Dr. Leddy and his associates concluded.

The study was supported by grants from the National Institutes of Health. The researchers had no financial conflicts to disclose.
 

[email protected]

SOURCE: Leddy JJ et al. JAMA Pediatr. 2019 Feb 4. doi: 10.1001/jamapediatrics.2018.4397.