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Ultrasound-facilitated endovascular thrombolysis 'a game changer' in acute pulmonary embolism

WASHINGTON – Ultrasound-facilitated, catheter-directed, low-dose fibrinolysis for acute massive or submassive pulmonary embolism significantly improves right ventricular function, reduces pulmonary hypertension and angiographic evidence of obstruction, and lessens the risk of fibrinolysis-associated intracranial hemorrhage, according to a prospective multicenter clinical trial.

"By minimizing the risk of intracranial bleeding, ultrasound-facilitated, catheter-directed, low-dose fibrinolysis represents a potential game changer in the treatment of high-risk pulmonary embolism patients," Dr. Gregory Piazza said in presenting the results of the SEATTLE II study at the annual meeting of the American College of Cardiology.

Bruce Jancin/Frontline Medical News
Dr. Gregory Piazza

Full-dose systemic fibrinolysis has long been the go-to advanced therapy for high-risk pulmonary embolism (PE), but physicians are leery of the associated 2%-3% risk of catastrophic intracranial hemorrhage, noted Dr. Piazza, a cardiologist at Brigham and Women’s Hospital and Harvard University, Boston.

SEATTLE II was a single-arm, 21-site, prospective study in which 150 patients with high-risk PE underwent treatment using the commercially available EKOS EkoSonic Endovascular System.

Twenty-one percent of patients had massive PE, defined as presentation with syncope, cardiogenic shock, resuscitated cardiac arrest, or persistent hypotension. The remaining 79% had submassive PE, with normal blood pressure but evidence of right ventricular dysfunction. All participants had to have a right ventricular/left ventricular ratio (RV/LV) of 0.9 or greater on the same chest CT scan used in diagnosing the PE. This CT documentation of right ventricular dysfunction has been associated in a meta-analysis of patients with submassive PE with a 7.4-fold increased risk of death due to PE compared to normotensive PE patients with normal right ventricular function (J. Thromb. Haemost. 2013;11:1823-32).

The primary endpoint was change in RV/LV on chest CT from baseline to 48 hours after initiation of fibrinolysis. This ratio improved from 1.55 to 1.13, for a statistically and clinically significant 27% reduction. A similar-size improvement was seen in pulmonary artery systolic pressure – a secondary efficacy endpoint – which decreased from 51.4 mm Hg before treatment to 37.5 mm Hg post procedure and 36.9 mm Hg at 48 hours. Both efficacy endpoints improved to a similar extent regardless of whether patients had massive or submassive PE.

The mean Modified Miller Pulmonary Artery Angiographic Obstruction Score improved by 30%, from 22.5 pretreatment to 15.8 at 48 hours.

Three in-hospital deaths occurred. One was due to massive PE which occurred before the fibrinolysis procedure could be completed. The others were not directly attributable to PE: One involved overwhelming sepsis and the other was due to progressive respiratory failure. Major bleeding occurred in 11% of patients; however, 16 of the 17 events were classified as GUSTO moderate bleeds, with only a single GUSTO severe hemorrhage.

There were no intracranial hemorrhages.

The fibrinolytic agent used in SEATTLE II was tissue plasminogen activator, delivered at 1 mg/hr for a total dose of 24 mg. Patients with unilateral PE received a single device and 24 hours of infusion time. The 86% of patients who had bilateral disease got two devices and 12 hours of therapy.

The proprietary EKOS system consists of two catheters: an outer infusion catheter with side holes that elute the fibrinolytic agent, and an inner core catheter with ultrasound transducers placed at regular intervals. These transducers produce low-intensity ultrasound which serves two purposes. Through a process called acoustic streaming, the low-intensity ultrasound helps push the fibrinolytic agent closer to the thrombus. Plus, the ultrasound energy causes the clot fibrin to reconfigure from a tight lattice to a more porous structure that promotes deeper penetration of the fibrinolytic, Dr. Piazza explained.

Audience members greeted the study results enthusiastically.

"Most of us really do believe that for safety reasons this is the way to go, rather than systemic fibrinolysis," one said.

Dr. Piazza said the next step in defining the EKOS system’s role in clinical practice will be to study briefer infusion times as a means of achieving faster patient improvement with reduced use of hospital resources, including ICU and intermediate-care unit time.

The EKOS system has been approved in the United States since 2005 for treatment of blood clots in the arms and legs. In Europe it gained an additional indication for treatment of massive and submassive PE in 2011.

The SEATTLE II study was sponsored by EKOS Corp. Dr. Piazza reported receiving a research grant from the company.

bjancin@frontlinemedcom.com

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WASHINGTON – Ultrasound-facilitated, catheter-directed, low-dose fibrinolysis for acute massive or submassive pulmonary embolism significantly improves right ventricular function, reduces pulmonary hypertension and angiographic evidence of obstruction, and lessens the risk of fibrinolysis-associated intracranial hemorrhage, according to a prospective multicenter clinical trial.

"By minimizing the risk of intracranial bleeding, ultrasound-facilitated, catheter-directed, low-dose fibrinolysis represents a potential game changer in the treatment of high-risk pulmonary embolism patients," Dr. Gregory Piazza said in presenting the results of the SEATTLE II study at the annual meeting of the American College of Cardiology.

Bruce Jancin/Frontline Medical News
Dr. Gregory Piazza

Full-dose systemic fibrinolysis has long been the go-to advanced therapy for high-risk pulmonary embolism (PE), but physicians are leery of the associated 2%-3% risk of catastrophic intracranial hemorrhage, noted Dr. Piazza, a cardiologist at Brigham and Women’s Hospital and Harvard University, Boston.

SEATTLE II was a single-arm, 21-site, prospective study in which 150 patients with high-risk PE underwent treatment using the commercially available EKOS EkoSonic Endovascular System.

Twenty-one percent of patients had massive PE, defined as presentation with syncope, cardiogenic shock, resuscitated cardiac arrest, or persistent hypotension. The remaining 79% had submassive PE, with normal blood pressure but evidence of right ventricular dysfunction. All participants had to have a right ventricular/left ventricular ratio (RV/LV) of 0.9 or greater on the same chest CT scan used in diagnosing the PE. This CT documentation of right ventricular dysfunction has been associated in a meta-analysis of patients with submassive PE with a 7.4-fold increased risk of death due to PE compared to normotensive PE patients with normal right ventricular function (J. Thromb. Haemost. 2013;11:1823-32).

The primary endpoint was change in RV/LV on chest CT from baseline to 48 hours after initiation of fibrinolysis. This ratio improved from 1.55 to 1.13, for a statistically and clinically significant 27% reduction. A similar-size improvement was seen in pulmonary artery systolic pressure – a secondary efficacy endpoint – which decreased from 51.4 mm Hg before treatment to 37.5 mm Hg post procedure and 36.9 mm Hg at 48 hours. Both efficacy endpoints improved to a similar extent regardless of whether patients had massive or submassive PE.

The mean Modified Miller Pulmonary Artery Angiographic Obstruction Score improved by 30%, from 22.5 pretreatment to 15.8 at 48 hours.

Three in-hospital deaths occurred. One was due to massive PE which occurred before the fibrinolysis procedure could be completed. The others were not directly attributable to PE: One involved overwhelming sepsis and the other was due to progressive respiratory failure. Major bleeding occurred in 11% of patients; however, 16 of the 17 events were classified as GUSTO moderate bleeds, with only a single GUSTO severe hemorrhage.

There were no intracranial hemorrhages.

The fibrinolytic agent used in SEATTLE II was tissue plasminogen activator, delivered at 1 mg/hr for a total dose of 24 mg. Patients with unilateral PE received a single device and 24 hours of infusion time. The 86% of patients who had bilateral disease got two devices and 12 hours of therapy.

The proprietary EKOS system consists of two catheters: an outer infusion catheter with side holes that elute the fibrinolytic agent, and an inner core catheter with ultrasound transducers placed at regular intervals. These transducers produce low-intensity ultrasound which serves two purposes. Through a process called acoustic streaming, the low-intensity ultrasound helps push the fibrinolytic agent closer to the thrombus. Plus, the ultrasound energy causes the clot fibrin to reconfigure from a tight lattice to a more porous structure that promotes deeper penetration of the fibrinolytic, Dr. Piazza explained.

Audience members greeted the study results enthusiastically.

"Most of us really do believe that for safety reasons this is the way to go, rather than systemic fibrinolysis," one said.

Dr. Piazza said the next step in defining the EKOS system’s role in clinical practice will be to study briefer infusion times as a means of achieving faster patient improvement with reduced use of hospital resources, including ICU and intermediate-care unit time.

The EKOS system has been approved in the United States since 2005 for treatment of blood clots in the arms and legs. In Europe it gained an additional indication for treatment of massive and submassive PE in 2011.

The SEATTLE II study was sponsored by EKOS Corp. Dr. Piazza reported receiving a research grant from the company.

bjancin@frontlinemedcom.com

WASHINGTON – Ultrasound-facilitated, catheter-directed, low-dose fibrinolysis for acute massive or submassive pulmonary embolism significantly improves right ventricular function, reduces pulmonary hypertension and angiographic evidence of obstruction, and lessens the risk of fibrinolysis-associated intracranial hemorrhage, according to a prospective multicenter clinical trial.

"By minimizing the risk of intracranial bleeding, ultrasound-facilitated, catheter-directed, low-dose fibrinolysis represents a potential game changer in the treatment of high-risk pulmonary embolism patients," Dr. Gregory Piazza said in presenting the results of the SEATTLE II study at the annual meeting of the American College of Cardiology.

Bruce Jancin/Frontline Medical News
Dr. Gregory Piazza

Full-dose systemic fibrinolysis has long been the go-to advanced therapy for high-risk pulmonary embolism (PE), but physicians are leery of the associated 2%-3% risk of catastrophic intracranial hemorrhage, noted Dr. Piazza, a cardiologist at Brigham and Women’s Hospital and Harvard University, Boston.

SEATTLE II was a single-arm, 21-site, prospective study in which 150 patients with high-risk PE underwent treatment using the commercially available EKOS EkoSonic Endovascular System.

Twenty-one percent of patients had massive PE, defined as presentation with syncope, cardiogenic shock, resuscitated cardiac arrest, or persistent hypotension. The remaining 79% had submassive PE, with normal blood pressure but evidence of right ventricular dysfunction. All participants had to have a right ventricular/left ventricular ratio (RV/LV) of 0.9 or greater on the same chest CT scan used in diagnosing the PE. This CT documentation of right ventricular dysfunction has been associated in a meta-analysis of patients with submassive PE with a 7.4-fold increased risk of death due to PE compared to normotensive PE patients with normal right ventricular function (J. Thromb. Haemost. 2013;11:1823-32).

The primary endpoint was change in RV/LV on chest CT from baseline to 48 hours after initiation of fibrinolysis. This ratio improved from 1.55 to 1.13, for a statistically and clinically significant 27% reduction. A similar-size improvement was seen in pulmonary artery systolic pressure – a secondary efficacy endpoint – which decreased from 51.4 mm Hg before treatment to 37.5 mm Hg post procedure and 36.9 mm Hg at 48 hours. Both efficacy endpoints improved to a similar extent regardless of whether patients had massive or submassive PE.

The mean Modified Miller Pulmonary Artery Angiographic Obstruction Score improved by 30%, from 22.5 pretreatment to 15.8 at 48 hours.

Three in-hospital deaths occurred. One was due to massive PE which occurred before the fibrinolysis procedure could be completed. The others were not directly attributable to PE: One involved overwhelming sepsis and the other was due to progressive respiratory failure. Major bleeding occurred in 11% of patients; however, 16 of the 17 events were classified as GUSTO moderate bleeds, with only a single GUSTO severe hemorrhage.

There were no intracranial hemorrhages.

The fibrinolytic agent used in SEATTLE II was tissue plasminogen activator, delivered at 1 mg/hr for a total dose of 24 mg. Patients with unilateral PE received a single device and 24 hours of infusion time. The 86% of patients who had bilateral disease got two devices and 12 hours of therapy.

The proprietary EKOS system consists of two catheters: an outer infusion catheter with side holes that elute the fibrinolytic agent, and an inner core catheter with ultrasound transducers placed at regular intervals. These transducers produce low-intensity ultrasound which serves two purposes. Through a process called acoustic streaming, the low-intensity ultrasound helps push the fibrinolytic agent closer to the thrombus. Plus, the ultrasound energy causes the clot fibrin to reconfigure from a tight lattice to a more porous structure that promotes deeper penetration of the fibrinolytic, Dr. Piazza explained.

Audience members greeted the study results enthusiastically.

"Most of us really do believe that for safety reasons this is the way to go, rather than systemic fibrinolysis," one said.

Dr. Piazza said the next step in defining the EKOS system’s role in clinical practice will be to study briefer infusion times as a means of achieving faster patient improvement with reduced use of hospital resources, including ICU and intermediate-care unit time.

The EKOS system has been approved in the United States since 2005 for treatment of blood clots in the arms and legs. In Europe it gained an additional indication for treatment of massive and submassive PE in 2011.

The SEATTLE II study was sponsored by EKOS Corp. Dr. Piazza reported receiving a research grant from the company.

bjancin@frontlinemedcom.com

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Major finding: Ultrasound-facilitated, catheter-directed, low-dose fibrinolysis in patients with high-risk pulmonary embolism improved right ventricular function and reduced pulmonary hypertension with no intracranial hemorrhages or fatal bleeding events.

Data source: SEATTLE II, a multicenter, single-arm, prospective study of 150 patients with massive or submassive pulmonary embolism.

Disclosures: The study was sponsored by EKOS Corp. The presenter received a research grant from the company.