Stenting vs. Aggressive Medical Management for Preventing Recurrent Stroke in Intracranial Stenosis (SAMMPRIS)

• ClinicalTrials.gov Identifier: NCT00576693
• Recruitment Status: Completed
• First Posted: December 19, 2007
• Results First Posted: July 11, 2014
• Last Update Posted: May 30, 2018
• Sponsor: Medical University of South Carolina
• Collaborators: National Institutes of Health (NIH); National Institute of Neurological Disorders and Stroke (NINDS)
• Information provided by (Responsible Party): Marc Chimowitz, Medical University of South Carolina

Study Description

Brief Summary:

PRIMARY HYPOTHESIS:

Compared with intensive medical therapy alone, intracranial angioplasty and stenting combined with intensive medical therapy will decrease the risk of the primary endpoint by 35% over a mean follow-up of two years in high-risk patients patients with 70% - 99% intracranial stenosis who had a transient ischemic attack (TIA) or stroke within 30 days prior to enrollment) with symptomatic stenosis of a major intracranial artery.

SUMMARY:

The best treatment for prevention of another stroke or TIA in patients with narrowing of one of the arteries in the brain is uncertain. A common treatment is the use of anti-clotting medications to prevent blood clots from forming in the narrowed vessel. There are a variety of medicines used for this purpose. These medications are usually taken for the rest of a patient's life.

However, a treatment that has been used successfully together with anti-clotting medications in patients with narrowing of the blood vessels of the heart is now being studied in the blood vessels of the brain. This treatment is called stenting.

Recent research has also indicated a benefit in prevention of recurring stroke by Intensive Medical Therapy, which is defined as treating risk factors for stroke like high blood pressure, elevated LDL (low density lipids - the "bad" form of cholesterol) and diabetes. The purpose of this study is to compare the safety and effectiveness of either Intensive Medical Therapy PLUS Stenting or Intensive Medical Therapy ONLY in preventing stroke, heart attacks or death.

The study will enroll patients over a 5 year period. Each participant will be involved in the study for a minimum of 1 year and a maximum of 3 years.

Fifty different medical centers in the United States are part of this study. Both the Clinical Coordinating Center and the Statistical Coordinating Center for the entire study will be located at Emory University.

Condition or disease	Intervention/treatment	Phase
Ischemic Stroke	Device: intracranial angioplasty and stenting; Other: intensive medical management	Phase 3

Detailed Description:

This will be an investigator initiated and designed Phase III multicenter trial in which patients with TIA or non-disabling stroke within 30 days prior to enrollment that is caused by 70% - 99% stenosis of a major intracranial artery (MCA, carotid, vertebral, or basilar) will be randomized (1:1) at approximately 50 sites to:

intensive medical therapy alone (aspirin 325 mg / day for entire follow-up, clopidogrel 75mg per day for 90 days after enrollment unless cardiologist recommends continuing clopidogrel beyond 90 days for a cardiac indication, and aggressive risk factor management primarily targeting blood pressure < 140 / 90 mm Hg (< 130 / 80 if diabetic) and LDL < 70 mg / dl)

OR

intracranial angioplasty and stenting using the Gateway balloon and Wingspan self-expanding nitinol stent (or any future FDA approved iterations of the balloon, stent, or the delivery systems) plus intensive medical therapy (aspirin 325 mg / day for entire follow-up, clopidogrel 75mg per day for 90 days after enrollment unless cardiologist recommends continuing clopidogrel beyond 90 days for a cardiac indication, and aggressive risk factor management primarily targeting blood pressure < 140 / 90 mm Hg (< 130 / 80 if diabetic) and LDL < 70 mg / dl).

Risk factor management will be performed by the study neurologist at each site who will be assisted by an innovative, evidence-based, educational, lifestyle modification program (INTERxVENT) that will be administered at regularly scheduled times to all patients throughout the study.

All patients enrolled in the trial will be followed until the first of the following: 90 days after a primary endpoint, death, or the close-out visit in the trial, which will occur within a window from 60 days before March 31, 2012 to 30 days after March 31, 2013. Patients who do not die or have a primary endpoint during follow-up will be followed for 2-4.5 years.

Study Design

• Study Type: Interventional (Clinical Trial)
• Actual Enrollment: 451 participants
• Allocation: Randomized
• Intervention Model: Parallel Assignment
• Masking: None (Open Label)
• Primary Purpose: Treatment
• Official Title: Stenting vs. Aggressive Medical Management for Preventing Recurrent Stroke in Intracranial Stenosis
• Study Start Date: October 2008
• Actual Primary Completion Date: April 2013
• Actual Study Completion Date: April 2013

Arms and Interventions

Arm	Intervention/treatment
Experimental: intensive medical management plus stenting; intracranial angioplasty and stenting using the Gateway balloon and Wingspan self-expanding nitinol stent (or any future FDA approved iterations of the balloon, stent, or the delivery systems) plus intensive medical therapy (aspirin 325 mg / day for entire follow-up, clopidogrel 75mg per day for 90 days after enrollment unless cardiologist recommends continuing clopidogrel beyond 90 days for a cardiac indication, and aggressive risk factor management primarily targeting blood pressure < 140 / 90 mm Hg (< 130 / 80 if diabetic) and LDL < 70 mg / dl).	Device: intracranial angioplasty and stenting; intracranial angioplasty and stenting using the Gateway balloon and Wingspan self-expanding nitinol stent (or any future FDA approved iterations of the balloon, stent, or the delivery systems) plus intensive medical therapy (aspirin 325 mg / day for entire follow-up, clopidogrel 75mg per day for 90 days after enrollment unless cardiologist recommends continuing clopidogrel beyond 90 days for a cardiac indication, and aggressive risk factor management primarily targeting blood pressure < 140 / 90 mm Hg (< 130 / 80 if diabetic) and LDL < 70 mg / dl).; Other Names: Wingspan stent; Gateway balloon
Experimental: intensive medical management alone; Intensive medical therapy alone (aspirin 325 mg / day for entire follow-up, clopidogrel 75mg per day for 90 days after enrollment unless cardiologist recommends continuing clopidogrel beyond 90 days for a cardiac indication, and aggressive risk factor management primarily targeting blood pressure < 140 / 90 mm Hg (< 130 / 80 if diabetic) and LDL < 70 mg / dl)	Other: intensive medical management; intensive medical therapy alone (aspirin 325 mg / day for entire follow-up, clopidogrel 75mg per day for 90 days after enrollment unless cardiologist recommends continuing clopidogrel beyond 90 days for a cardiac indication, and aggressive risk factor management primarily targeting blood pressure < 140 / 90 mm Hg (< 130 / 80 if diabetic) and LDL < 70 mg / dl)

Outcome Measures

Primary Outcome Measures :

1. Any Stroke or Death Within 30 Days of Enrollment or Any Revascularization Procedure OR an Ischemic Stroke in the Territory of the Symptomatic Intracranial Artery Beyond 30 Days After Enrollment. [ Time Frame: Mean length of follow-up was 2.4 years ]
   Any stroke (ischemic, parenchymal brain hemorrhage, subarachnoid or intraventricular hemorrhage) or death within 30 days after enrollment OR any stroke (ischemic, parenchymal brain hemorrhage, subarachnoid or intraventricular hemorrhage) or death within 30 days of any revascularization procedure of the qualifying symptomatic intracranial artery done during follow-up, OR an ischemic stroke in the territory of the symptomatic intracranial artery from day 31 after study entry to completion of follow-up.

Eligibility Criteria

• Ages Eligible for Study: 30 Years to 80 Years (Adult, Older Adult)
• Sexes Eligible for Study: All
• Accepts Healthy Volunteers: No

Criteria

INCLUSION CRITERIA

1. Transient ischemic attack (TIA) or non-severe stroke within 30 days of enrollment attributed to 70-99% stenosis of a major intracranial artery (carotid artery, MCA stem (M1), vertebral artery, or basilar artery)

   • may be diagnosed byTranscranial Doppler (TCD), Magnetic Resonance Angiogram (MRA), or computed tomography angiography (CTA) to qualify for angiogram performed as part of the study protocol but must be confirmed by catheter angiography for enrollment in the trial

2. Modified Rankin score of ≤ 3
3. Target area of stenosis in an intracranial artery that has a normal diameter of 2.00 mm to 4.50 mm
4. Target area of stenosis is less than or equal to 14 mm in length

5. Age ≥ 30 years and ≤ 80 years.

   • Patients 30-49 years are required to meet at least one additional criteria (i-vi) provided in the table below to qualify for the study. This additional requirement is to increase the likelihood that the symptomatic intracranial stenosis in patients 30-49 years is atherosclerotic.

   i. insulin dependent diabetes for at least 15 years ii. at least 2 of the following atherosclerotic risk factors: hypertension (BP > 140/90 or on antihypertensive therapy); dyslipidemia (LDL > 130 mg /dl or HDL < 40 mg/dl or fasting triglycerides > 150 mg/dl or on lipid lowering therapy); smoking; non-insulin dependent diabetes or insulin dependent diabetes of less than 15 years duration; family history of any of the following: myocardial infarction, coronary artery bypass, coronary angioplasty or stenting, stroke, carotid endarterectomy or stenting, peripheral vascular surgery in parent or sibling who was < 55 years of age for men or < 65 for women at the time of the event ii. history of any of the following: myocardial infarction, coronary artery bypass, coronary angioplasty or stenting, carotid endarterectomy or stenting, or peripheral vascular surgery for atherosclerotic disease iv. any stenosis of an extracranial carotid or vertebral artery, another intracranial artery, subclavian artery, coronary artery, iliac or femoral artery, other lower or upper extremity artery, mesenteric artery, or renal artery that was documented by non-invasive vascular imaging or catheter angiography and is considered atherosclerotic v. aortic arch atheroma documented by non-invasive vascular imaging or catheter angiography vi. any aortic aneurysm documented by non-invasive vascular imaging or catheter angiography that is considered atherosclerotic

6. Negative pregnancy test in a female who has had any menses in the last 18 months
7. Patient is willing and able to return for all follow-up visits required by the protocol
8. Patient is available by phone
9. Patient understands the purpose and requirements of the study, can make him/herself understood, and has provided informed consent

EXCLUSION CRITERIA

1. Tandem extracranial or intracranial stenosis (70%-99%) or occlusion that is proximal or distal to the target intracranial lesion (NOTE: an exception is allowed if the occlusion involves a single vertebral artery proximal to a symptomatic basilar artery stenosis and the contralateral vertebral artery is supplying the basilar artery)
2. Bilateral intracranial vertebral artery stenosis of 70%-99% and uncertainty about which artery is symptomatic (e.g. if patient has pontine, midbrain, or temporal - occipital symptoms)
3. Stenting, angioplasty, or endarterectomy of an extracranial (carotid or vertebral artery) or intracranial artery within 30 days prior to expected enrollment date
4. Previous treatment of target lesion with a stent, angioplasty, or other mechanical device, or plan to perform staged angioplasty followed by stenting of target lesion
5. Plan to perform concomitant angioplasty or stenting of an extracranial vessel tandem to an intracranial stenosis
6. Presence of intraluminal thrombus proximal to or at the target lesion
7. Any aneurysm proximal to or distal to stenotic intracranial artery
8. Intracranial tumor (except meningioma) or any intracranial vascular malformation
9. CT or angiographic evidence of severe calcification at target lesion
10. Thrombolytic therapy within 24 hours prior to enrollment
11. Progressive neurological signs within 24 hours prior to enrollment
12. Brain infarct within previous 30 days of enrollment that is of sufficient size (> 5 cms) to be at risk of hemorrhagic conversion during or after stenting
13. Any hemorrhagic infarct within 14 days prior to enrollment
14. Any hemorrhagic infarct within 15 - 30 days that is associated with mass effect
15. Any history of a primary intracerebral (parenchymal) hemorrhage (ICH)
16. Any other intracranial hemorrhage (subarachnoid, subdural, epidural) within 30 days
17. Any untreated chronic subdural hematoma of greater than 5 mm in thickness
18. Intracranial arterial stenosis due to arterial dissection, Moya Moya disease; any known vasculitic disease; herpes zoster, varicella zoster or other viral vasculopathy; neurosyphilis; any other intracranial infection; any intracranial stenosis associated with Cerebrospinal fluid (CSF) pleocytosis; radiation induced vasculopathy; fibromuscular dysplasia; sickle cell disease; neurofibromatosis; benign angiopathy of central nervous system; post-partum angiopathy; suspected vasospastic process, suspected recanalized embolus
19. Presence of any of the following unequivocal cardiac sources of embolism: chronic or paroxysmal atrial fibrillation, mitral stenosis, mechanical valve, endocarditis, intracardiac clot or vegetation, myocardial infarction within three months, dilated cardiomyopathy, left atrial spontaneous echo contrast, ejection fraction less than 30%
20. Known allergy or contraindication to aspirin, clopidogrel, heparin, nitinol, local or general anesthesia
21. History of life-threatening allergy to contrast dye. If not life threatening and can be effectively pretreated, patient can be enrolled at physician's discretion
22. Active peptic ulcer disease, major systemic hemorrhage within 30 days, active bleeding diathesis, platelets < 100,000, hematocrit < 30, International normalized ratio (INR) > 1.5, clotting factor abnormality that increases the risk of bleeding, current alcohol or substance abuse, uncontrolled severe hypertension (systolic pressure > 180 mm Hg or diastolic pressure > 115 mm Hg), severe liver impairment Aspartate Transaminase (AST) or Alanine transaminase (ALT) > 3 x normal, cirrhosis, creatinine > 3.0 (unless on dialysis)
23. Major surgery (including open femoral, aortic, or carotid surgery) within previous 30 days or planned in the next 90 days after enrollment
24. Indication for warfarin or heparin beyond enrollment (NOTE: exceptions allowed for use of systemic heparin during stenting procedure or subcutaneous heparin for deep vein thrombosis (DVT) prophylaxis while hospitalized)
25. Severe neurological deficit that renders the patient incapable of living independently
26. Dementia or psychiatric problem that prevents the patient from following an outpatient program reliably
27. Co-morbid conditions that may limit survival to less than 3 years
28. Pregnancy or of childbearing potential and unwilling to use contraception for the duration of this study
29. Enrollment in another study that would conflict with the current study

Contacts and Locations

Locations

United States, Alabama

UAB Medical Center

Birmingham, Alabama, United States, 35294

United States, Arizona

Barrow Neurological Institute - St. Joseph's Hospital and Medical Center

Phoenix, Arizona, United States, 85013

Mayo

Phoenix, Arizona, United States, 85054

United States, California

Glendale Adventist

Glendale, California, United States, 91203

Cedars Sinai

Los Angeles, California, United States, 90048

UCLA

Los Angeles, California, United States, 90095

UCSF

San Francisco, California, United States, 94143

United States, District of Columbia

Washington Hospital

Washington, District of Columbia, United States, 20010

United States, Florida

University of Florida - Shands

Gainesville, Florida, United States, 32611

University of Miami

Miami, Florida, United States, 33136

Florida Hospital

Winter Park, Florida, United States, 32789

United States, Georgia

Emory University

Atlanta, Georgia, United States, 30388

United States, Illinois

Rush University Medical Center

Chicago, Illinois, United States, 60612

Central DuPage Hospital

Winfield, Illinois, United States, 60190

United States, Maryland

Johns Hopkins

Baltimore, Maryland, United States, 21287

United States, Massachusetts

Massachusetts General Hospital

Boston, Massachusetts, United States, 02114

United States, Michigan

Wayne State

Detroit, Michigan, United States, 48201

Henry Ford Medical Center

Detroit, Michigan, United States, 48202

Providence St. John

Southfield, Michigan, United States, 48075

United States, Mississippi

University of Mississippi

Jackson, Mississippi, United States, 39216

United States, New York

University of Buffalo

Buffalo, New York, United States, 14209

NYU Medical Center

New York, New York, United States, 10016

Columbia University Medical Center

New York, New York, United States, 10032

Cornell Medical College

New York, New York, United States, 10065

Stony Brook University Medical Center

Stony Brook, New York, United States, 11790

United States, North Carolina

Carolinas Medical Center

Charlotte, North Carolina, United States, 28204

Duke University Medical Center

Durham, North Carolina, United States, 27710

Moses Cone Medical Center

Greensboro, North Carolina, United States, 27401

Forsyth Medical Center

Winston-Salem, North Carolina, United States, 27103

United States, Ohio

University of Cincinnati

Cincinnati, Ohio, United States, 45219

University Hospitals Case Medical Center

Cleveland, Ohio, United States, 44106

Cleveland Clinic

Cleveland, Ohio, United States, 44195

Riverside Methodist

Columbus, Ohio, United States, 43214

United States, Oregon

Oregon Health Sciences University

Portland, Oregon, United States, 97239

United States, Pennsylvania

University of Pennsylvania

Philadelphia, Pennsylvania, United States, 19104

Thomas Jefferson University

Philadelphia, Pennsylvania, United States, 19170

University of Pittsburgh

Pittsburgh, Pennsylvania, United States, 15213

United States, South Carolina

Medical University of South Carolina

Charleston, South Carolina, United States, 29425

United States, Tennessee

Erlanger Medical Center

Chattanooga, Tennessee, United States, 37403

United States, Texas

Baylor University Medical Center

Dallas, Texas, United States, 75246

UT Southwestern

Dallas, Texas, United States, 75390

Baylor St. Luke's

Houston, Texas, United States, 77030

Methodist Hospital

Houston, Texas, United States, 77030

Scott & White - Texas A&M

Temple, Texas, United States, 76508

United States, Virginia

Inova Fairfax Hospital

Falls Church, Virginia, United States, 22042

Sentera

Norfolk, Virginia, United States, 23507

United States, Washington

Sacred Heart Medical Center

Spokane, Washington, United States, 99204

MultiCare

Tacoma, Washington, United States, 98405

United States, West Virginia

West Virginia University

Morgantown, West Virginia, United States, 26506

United States, Wisconsin

Medical College of Wisconsin

Milwaukee, Wisconsin, United States, 53226

Sponsors and Collaborators

Medical University of South Carolina

National Institutes of Health (NIH)

National Institute of Neurological Disorders and Stroke (NINDS)

Investigators

• Principal Investigator: Marc I Chimowitz, MBChB; Medical University of South Carolina

More Information

Additional Information:

Clinical Alert 

Publications of Results:

Derdeyn CP, Fiorella D, Lynn MJ, Barnwell SL, Zaidat OO, Meyers PM, Gobin YP, Dion J, Lane BF, Turan TN, Janis LS, Chimowitz MI; SAMMPRIS Trial Investigators. Impact of operator and site experience on outcomes after angioplasty and stenting in the SAMMPRIS trial. J Neurointerv Surg. 2013 Nov;5(6):528-33. doi: 10.1136/neurintsurg-2012-010504. Epub 2012 Sep 12.

Turan TN, Lynn MJ, Nizam A, Lane B, Egan BM, Le NA, Lopes-Virella MF, Hermayer KL, Benavente O, White CL, Brown WV, Caskey MF, Steiner MR, Vilardo N, Stufflebean A, Derdeyn CP, Fiorella D, Janis S, Chimowitz MI; SAMMPRIS Investigators. Rationale, design, and implementation of aggressive risk factor management in the Stenting and Aggressive Medical Management for Prevention of Recurrent Stroke in Intracranial Stenosis (SAMMPRIS) trial. Circ Cardiovasc Qual Outcomes. 2012 Sep 1;5(5):e51-60. doi: 10.1161/CIRCOUTCOMES.112.966911. No abstract available.

Fiorella D, Derdeyn CP, Lynn MJ, Barnwell SL, Hoh BL, Levy EI, Harrigan MR, Klucznik RP, McDougall CG, Pride GL Jr, Zaidat OO, Lutsep HL, Waters MF, Hourihane JM, Alexandrov AV, Chiu D, Clark JM, Johnson MD, Torbey MT, Rumboldt Z, Cloft HJ, Turan TN, Lane BF, Janis LS, Chimowitz MI; SAMMPRIS Trial Investigators. Detailed analysis of periprocedural strokes in patients undergoing intracranial stenting in Stenting and Aggressive Medical Management for Preventing Recurrent Stroke in Intracranial Stenosis (SAMMPRIS). Stroke. 2012 Oct;43(10):2682-8. doi: 10.1161/STROKEAHA.112.661173. Epub 2012 Sep 13.

Chimowitz MI, Lynn MJ, Derdeyn CP, Turan TN, Fiorella D, Lane BF, Janis LS, Lutsep HL, Barnwell SL, Waters MF, Hoh BL, Hourihane JM, Levy EI, Alexandrov AV, Harrigan MR, Chiu D, Klucznik RP, Clark JM, McDougall CG, Johnson MD, Pride GL Jr, Torbey MT, Zaidat OO, Rumboldt Z, Cloft HJ; SAMMPRIS Trial Investigators. Stenting versus aggressive medical therapy for intracranial arterial stenosis. N Engl J Med. 2011 Sep 15;365(11):993-1003. doi: 10.1056/NEJMoa1105335. Epub 2011 Sep 7. Erratum In: N Engl J Med. 2012 Jul 5;367(1):93.

Derdeyn CP, Chimowitz MI, Lynn MJ, Fiorella D, Turan TN, Janis LS, Montgomery J, Nizam A, Lane BF, Lutsep HL, Barnwell SL, Waters MF, Hoh BL, Hourihane JM, Levy EI, Alexandrov AV, Harrigan MR, Chiu D, Klucznik RP, Clark JM, McDougall CG, Johnson MD, Pride GL Jr, Lynch JR, Zaidat OO, Rumboldt Z, Cloft HJ; Stenting and Aggressive Medical Management for Preventing Recurrent Stroke in Intracranial Stenosis Trial Investigators. Aggressive medical treatment with or without stenting in high-risk patients with intracranial artery stenosis (SAMMPRIS): the final results of a randomised trial. Lancet. 2014 Jan 25;383(9914):333-41. doi: 10.1016/S0140-6736(13)62038-3. Epub 2013 Oct 26.

Publications automatically indexed to this study by ClinicalTrials.gov Identifier (NCT Number):

Yaghi S, Khatri P, de Havenon A, Yeatts S, Chang AD, Cutting S, Mac Grory B, Burton T, Jayaraman MV, McTaggart RA, Fiorella D, Derdeyn C, Zaidat OO, Dehkharghani S, Amin-Hanjani S, Furie K, Prahbakaran S, Liebeskind D. Peri-procedural stroke or death in stenting of symptomatic severe intracranial stenosis. J Neurointerv Surg. 2020 Apr;12(4):374-379. doi: 10.1136/neurintsurg-2019-015225. Epub 2019 Sep 4.

Wabnitz AM, Derdeyn CP, Fiorella DJ, Lynn MJ, Cotsonis GA, Liebeskind DS, Waters MF, Lutsep H, Lopez-Cancio E, Turan TN, Montgomery J, Janis LS, Lane B, Chimowitz MI; SAMMPRIS Investigators. Hemodynamic Markers in the Anterior Circulation as Predictors of Recurrent Stroke in Patients With Intracranial Stenosis. Stroke. 2019 Jan;50(1):143-147. doi: 10.1161/STROKEAHA.118.020840. Epub 2018 Dec 11.

Derdeyn CP, Fiorella D, Lynn MJ, Turan TN, Cotsonis GA, Lane BF, Montgomery J, Janis LS, Chimowitz MI; SAMMPRIS Investigators. Nonprocedural Symptomatic Infarction and In-Stent Restenosis After Intracranial Angioplasty and Stenting in the SAMMPRIS Trial (Stenting and Aggressive Medical Management for the Prevention of Recurrent Stroke in Intracranial Stenosis). Stroke. 2017 Jun;48(6):1501-1506. doi: 10.1161/STROKEAHA.116.014537. Epub 2017 Apr 28.

Turan TN, Nizam A, Lynn MJ, Egan BM, Le NA, Lopes-Virella MF, Hermayer KL, Harrell J, Derdeyn CP, Fiorella D, Janis LS, Lane B, Montgomery J, Chimowitz MI. Relationship between risk factor control and vascular events in the SAMMPRIS trial. Neurology. 2017 Jan 24;88(4):379-385. doi: 10.1212/WNL.0000000000003534. Epub 2016 Dec 21.

Waters MF, Hoh BL, Lynn MJ, Kwon HM, Turan TN, Derdeyn CP, Fiorella D, Khanna A, Sheehan TO, Lane BF, Janis S, Montgomery J, Chimowitz MI; Stenting and Aggressive Medical Management for Preventing Recurrent Stroke in Intracranial Stenosis (SAMMPRIS) Trial Investigators. Factors Associated With Recurrent Ischemic Stroke in the Medical Group of the SAMMPRIS Trial. JAMA Neurol. 2016 Mar;73(3):308-15. doi: 10.1001/jamaneurol.2015.4315. Erratum In: JAMA Neurol. 2016 Apr;73(4):481.

Kwon HM, Lynn MJ, Turan TN, Derdeyn CP, Fiorella D, Lane BF, Montgomery J, Janis LS, Rumboldt Z, Chimowitz MI; SAMMPRIS Investigators. Frequency, Risk Factors, and Outcome of Coexistent Small Vessel Disease and Intracranial Arterial Stenosis: Results From the Stenting and Aggressive Medical Management for Preventing Recurrent Stroke in Intracranial Stenosis (SAMMPRIS) Trial. JAMA Neurol. 2016 Jan;73(1):36-42. doi: 10.1001/jamaneurol.2015.3145.

Lutsep HL, Lynn MJ, Cotsonis GA, Derdeyn CP, Turan TN, Fiorella D, Janis LS, Lane BF, Montgomery J, Chimowitz MI; SAMMPRIS Investigators. Does the Stenting Versus Aggressive Medical Therapy Trial Support Stenting for Subgroups With Intracranial Stenosis? Stroke. 2015 Nov;46(11):3282-4. doi: 10.1161/STROKEAHA.115.009846. Epub 2015 Sep 17. Erratum In: Stroke. 2015 Nov;46(11):e248.

Chaturvedi S, Turan TN, Lynn MJ, Derdeyn CP, Fiorella D, Janis LS, Chimowitz MI; SAMMPRIS Trial Investigators. Do Patient Characteristics Explain the Differences in Outcome Between Medically Treated Patients in SAMMPRIS and WASID? Stroke. 2015 Sep;46(9):2562-7. doi: 10.1161/STROKEAHA.115.009656. Epub 2015 Aug 6.

Lutsep HL, Barnwell SL, Larsen DT, Lynn MJ, Hong M, Turan TN, Derdeyn CP, Fiorella D, Janis LS, Chimowitz MI; SAMMPRIS Investigators. Outcome in patients previously on antithrombotic therapy in the SAMMPRIS trial: subgroup analysis. Stroke. 2015 Mar;46(3):775-9. doi: 10.1161/STROKEAHA.114.007752. Epub 2015 Jan 15.

• Responsible Party: Marc Chimowitz, Full Professor, Medical University of South Carolina
• ClinicalTrials.gov Identifier: NCT00576693
• Other Study ID Numbers: R01NS058728-01A1; NINDS ( Other Identifier: NINDS ); CRC ( Other Identifier: NINDS ); 1U01NS058728-01A1 ( U.S. NIH Grant/Contract )
• First Posted: December 19, 2007
• Results First Posted: July 11, 2014
• Last Update Posted: May 30, 2018
• Last Verified: April 2018

Keywords provided by Marc Chimowitz, Medical University of South Carolina:

ischemic stroke; intracranial stenting; vascular risk factor management

Additional relevant MeSH terms:

Stroke; Ischemic Stroke; Cerebrovascular Disorders; Brain Diseases; Central Nervous System Diseases; Nervous System Diseases; Vascular Diseases; Cardiovascular Diseases