BACKGROUND: Traditional time-to-event analysis assigns equal weight to the first event in the composite end point. This is counterintuitive to many stakeholders. METHODS: We constructed weights for components of a composite efficacy end point and a net clinical outcome by including metrics of safety and efficacy and compared the weighted with the traditional approach. Through an externally validated, clinician-investigator Delphi panel, the relative severity of individual components of a composite end point (30-day death, recurrent myocardial infarction, cardiogenic shock, and congestive heart failure) was determined. The net clinical outcome was assessed through the incorporation of risk thresholds for safety events (intracranial hemorrhage and major systemic bleeding). These weights were then applied to a modified analysis of the ASSENT-3 trial. RESULTS: The weights for the efficacy composite were as follows: death, 1.0; shock, 0.5; congestive heart failure, 0.3; and recurrent myocardial infarction, 0.2. The traditional time-to-first-event approach demonstrated a comparable advantage for both enoxaparin (enox) and abciximab (abx) over unfractionated heparin (P = .05), whereas the weighted efficacy analysis suggested an advantage for enox and similar outcomes between unfractionated heparin and abx (P = .2). The apparent advantage of enox was attenuated when the net clinical outcome was examined; the apparent efficacy of abx combination therapy was also diminished by an elevated major systemic bleeding rate (P < .001). CONCLUSION: This novel approach adds an alternative dimension to treatment evaluation by more efficiently incorporating the differential value of all events in each patient. Further development and application of this approach to future trial design and analysis are warranted.
BACKGROUND: Traditional time-to-event analysis assigns equal weight to the first event in the composite end point. This is counterintuitive to many stakeholders. METHODS: We constructed weights for components of a composite efficacy end point and a net clinical outcome by including metrics of safety and efficacy and compared the weighted with the traditional approach. Through an externally validated, clinician-investigator Delphi panel, the relative severity of individual components of a composite end point (30-day death, recurrent myocardial infarction, cardiogenic shock, and congestive heart failure) was determined. The net clinical outcome was assessed through the incorporation of risk thresholds for safety events (intracranial hemorrhage and major systemic bleeding). These weights were then applied to a modified analysis of the ASSENT-3 trial. RESULTS: The weights for the efficacy composite were as follows: death, 1.0; shock, 0.5; congestive heart failure, 0.3; and recurrent myocardial infarction, 0.2. The traditional time-to-first-event approach demonstrated a comparable advantage for both enoxaparin (enox) and abciximab (abx) over unfractionated heparin (P = .05), whereas the weighted efficacy analysis suggested an advantage for enox and similar outcomes between unfractionated heparin and abx (P = .2). The apparent advantage of enox was attenuated when the net clinical outcome was examined; the apparent efficacy of abx combination therapy was also diminished by an elevated major systemic bleeding rate (P < .001). CONCLUSION: This novel approach adds an alternative dimension to treatment evaluation by more efficiently incorporating the differential value of all events in each patient. Further development and application of this approach to future trial design and analysis are warranted.
Authors: Santanu Guha; Rishi Sethi; Saumitra Ray; Vinay K Bahl; S Shanmugasundaram; Prafula Kerkar; Sivasubramanian Ramakrishnan; Rakesh Yadav; Gaurav Chaudhary; Aditya Kapoor; Ajay Mahajan; Ajay Kumar Sinha; Ajit Mullasari; Akshyaya Pradhan; Amal Kumar Banerjee; B P Singh; J Balachander; Brian Pinto; C N Manjunath; Chandrashekhar Makhale; Debabrata Roy; Dhiman Kahali; Geevar Zachariah; G S Wander; H C Kalita; H K Chopra; A Jabir; JagMohan Tharakan; Justin Paul; K Venogopal; K B Baksi; Kajal Ganguly; Kewal C Goswami; M Somasundaram; M K Chhetri; M S Hiremath; M S Ravi; Mrinal Kanti Das; N N Khanna; P B Jayagopal; P K Asokan; P K Deb; P P Mohanan; Praveen Chandra; Col R Girish; O Rabindra Nath; Rakesh Gupta; C Raghu; Sameer Dani; Sandeep Bansal; Sanjay Tyagi; Satyanarayan Routray; Satyendra Tewari; Sarat Chandra; Shishu Shankar Mishra; Sibananda Datta; S S Chaterjee; Soumitra Kumar; Soura Mookerjee; Suma M Victor; Sundeep Mishra; Thomas Alexander; Umesh Chandra Samal; Vijay Trehan Journal: Indian Heart J Date: 2017-03-23
Authors: Marcelo Harada Ribeiro; Carlos M Campos; Lucio Padilla; Antonio Carlos B da Silva; João Eduardo T de Paula; Marco Alcantara; Ricardo Santiago; Franklin Hanna; Franciele R da Silva; Karlyse C Belli; Lorenzo Azzalini; Pedro P de Oliveira; Gustavo N Araujo; Vincenzo Sucato; Kambis Mashayekhi; Alfredo R Galassi; Alexandre Abizaid; Alexandre Quadros Journal: J Am Heart Assoc Date: 2022-06-03 Impact factor: 6.106
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Authors: Joshua M Stolker; John A Spertus; David J Cohen; Philip G Jones; Kaushik K Jain; Emily Bamberger; Brady B Lonergan; Paul S Chan Journal: Circulation Date: 2014-09-08 Impact factor: 29.690
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Authors: Harvey D White; Zhen Huang; Pierluigi Tricoci; Frans Van de Werf; Lars Wallentin; Yuliya Lokhnygina; David J Moliterno; Philip E Aylward; Kenneth W Mahaffey; Paul W Armstrong Journal: J Am Heart Assoc Date: 2014-07-10 Impact factor: 5.501