BACKGROUND: Randomized, double-blinded, placebo-controlled trials have significant impact on clinical practice. The ultimate goal of a clinical trial of therapy for acute ischemic stroke (AIS) is to compare 2 interventions. Challenges may include interventional therapy standardization, enrollment rate, patient selection, biases, data and safety monitoring, reporting, and financial and logistical support. METHOD: Selected randomized and single-arm prospective AIS trial designs. Clinical trial elements and their challenges are reviewed. Innovative designs and proposed recommendations to overcome some of the specific challenges and limitations are discussed. RESULTS: AIS therapy trials have specific challenges related to ethical issues, enrollment rate, outcome measures, limited time to treatment, efficacy, safety, and limited or variable operator experience with complex technology in a delicate end organ. Proposed suggestions for improving trial design include the following: incorporation of a lead-in phase; careful patient and outcome measure selection; historical, concurrent, or hybrid controls; open data access; and a Bayesian approach. An open data paradigm may facilitate creation of computerized prediction models for future trials (minimizing cost by decreasing sample size or providing futility analyses and directing resources to other trials). Collaborative, consortium, and network infrastructures may allow more effective and efficient study completion. Self-learning, self-correcting trials with intrinsic flexibility to adapt may help future clinical trial design in AIS. CONCLUSION: The randomized clinical trial design in AIS endovascular therapy is challenging. Lead-in phases, careful patient selection, use of innovative outcome measures, control groups, and newer clinical trial design may enhance conduct of future trials, their validity, and their results.
RCT Entities:
BACKGROUND: Randomized, double-blinded, placebo-controlled trials have significant impact on clinical practice. The ultimate goal of a clinical trial of therapy for acute ischemic stroke (AIS) is to compare 2 interventions. Challenges may include interventional therapy standardization, enrollment rate, patient selection, biases, data and safety monitoring, reporting, and financial and logistical support. METHOD: Selected randomized and single-arm prospective AIS trial designs. Clinical trial elements and their challenges are reviewed. Innovative designs and proposed recommendations to overcome some of the specific challenges and limitations are discussed. RESULTS: AIS therapy trials have specific challenges related to ethical issues, enrollment rate, outcome measures, limited time to treatment, efficacy, safety, and limited or variable operator experience with complex technology in a delicate end organ. Proposed suggestions for improving trial design include the following: incorporation of a lead-in phase; careful patient and outcome measure selection; historical, concurrent, or hybrid controls; open data access; and a Bayesian approach. An open data paradigm may facilitate creation of computerized prediction models for future trials (minimizing cost by decreasing sample size or providing futility analyses and directing resources to other trials). Collaborative, consortium, and network infrastructures may allow more effective and efficient study completion. Self-learning, self-correcting trials with intrinsic flexibility to adapt may help future clinical trial design in AIS. CONCLUSION: The randomized clinical trial design in AIS endovascular therapy is challenging. Lead-in phases, careful patient selection, use of innovative outcome measures, control groups, and newer clinical trial design may enhance conduct of future trials, their validity, and their results.
Authors: J P Broderick; M Lu; R Kothari; S R Levine; P D Lyden; E C Haley; T G Brott; J Grotta; B C Tilley; J R Marler; M Frankel Journal: Stroke Date: 2000-10 Impact factor: 7.914
Authors: A Furlan; R Higashida; L Wechsler; M Gent; H Rowley; C Kase; M Pessin; A Ahuja; F Callahan; W M Clark; F Silver; F Rivera Journal: JAMA Date: 1999-12-01 Impact factor: 56.272
Authors: Andrew Molyneux; Richard Kerr; Irene Stratton; Peter Sandercock; Mike Clarke; Julia Shrimpton; Rury Holman Journal: Lancet Date: 2002-10-26 Impact factor: 79.321
Authors: Marc Fisher; Gregory W Albers; Geoffrey A Donnan; Anthony J Furlan; James C Grotta; Chelsea S Kidwell; Ralph L Sacco; Lawrence R Wechsler Journal: Stroke Date: 2005-07-14 Impact factor: 7.914
Authors: Randall T Higashida; Anthony J Furlan; Heidi Roberts; Thomas Tomsick; Buddy Connors; John Barr; William Dillon; Steven Warach; Joseph Broderick; Barbara Tilley; David Sacks Journal: Stroke Date: 2003-07-17 Impact factor: 7.914
Authors: Osama O Zaidat; Albert J Yoo; Pooja Khatri; Thomas A Tomsick; Rüdiger von Kummer; Jeffrey L Saver; Michael P Marks; Shyam Prabhakaran; David F Kallmes; Brian-Fred M Fitzsimmons; J Mocco; Joanna M Wardlaw; Stanley L Barnwell; Tudor G Jovin; Italo Linfante; Adnan H Siddiqui; Michael J Alexander; Joshua A Hirsch; Max Wintermark; Gregory Albers; Henry H Woo; Donald V Heck; Michael Lev; Richard Aviv; Werner Hacke; Steven Warach; Joseph Broderick; Colin P Derdeyn; Anthony Furlan; Raul G Nogueira; Dileep R Yavagal; Mayank Goyal; Andrew M Demchuk; Martin Bendszus; David S Liebeskind Journal: Stroke Date: 2013-08-06 Impact factor: 7.914