TY - JOUR
T1 - Adapting clinical trial design to maintain meaningful outcomes during a multicenter asthma trial in the precision medicine era
AU - On behalf of the National Heart Lung and Blood Institute's “AsthmaNet”
AU - Sorkness, Christine A.
AU - King, Tonya S.
AU - Dyer, Anne Marie
AU - Chinchilli, Vernon M.
AU - Mauger, David T.
AU - Krishnan, Jerry A.
AU - Blake, Kathryn
AU - Castro, Mario
AU - Covar, Ronina
AU - Israel, Elliot
AU - Kraft, Monica
AU - Lang, Jason E.
AU - Lugogo, Njira
AU - Peters, Stephen P.
AU - Wechsler, Michael E.
AU - Wenzel, Sally E.
AU - Lazarus, Stephen C.
N1 - Publisher Copyright:
© 2018 Elsevier Inc.
PY - 2019/2
Y1 - 2019/2
N2 - Precision medicine is expected to impact the care of people with asthma, given its high disease prevalence, heterogeneity of pathophysiologic mechanisms, and consequent clinical phenotypes. A novel phenotype-stratified clinical trial conducted by the NHLBI AsthmaNet Consortium, titled Steroids in Eosinophil Negative Asthma (SIENA), was a randomized, multicenter, clinical trial that prospectively stratified individuals according to their baseline level of sputum inflammation during a screening period. Two phenotypic strata were assigned based on an a priori defined extent of sputum eosinophilia (Eos Low versus Eos High). This article describes: the scientific premise for the trial design, including assumptions used for power calculations; modifications to the analysis plan implemented after the trial started due to a higher than expected prevalence of one phenotypic stratum which impacted the ability to accrue sufficient subjects within the planned budget and study period; investigator alternatives to address the strata imbalance weighing scientific impact and study feasibility; and the final modified SIENA study design and analysis plan. SIENA was successfully completed in a manner that maintained meaningful outcomes. We conclude with recommendations for incorporation of pre-specified contingency plans into phenotype-directed protocols, to address the potential for differences in observed compared to estimated prevalence of different phenotypes in a study population. These approaches can be applied to precision medicine trials for the future.
AB - Precision medicine is expected to impact the care of people with asthma, given its high disease prevalence, heterogeneity of pathophysiologic mechanisms, and consequent clinical phenotypes. A novel phenotype-stratified clinical trial conducted by the NHLBI AsthmaNet Consortium, titled Steroids in Eosinophil Negative Asthma (SIENA), was a randomized, multicenter, clinical trial that prospectively stratified individuals according to their baseline level of sputum inflammation during a screening period. Two phenotypic strata were assigned based on an a priori defined extent of sputum eosinophilia (Eos Low versus Eos High). This article describes: the scientific premise for the trial design, including assumptions used for power calculations; modifications to the analysis plan implemented after the trial started due to a higher than expected prevalence of one phenotypic stratum which impacted the ability to accrue sufficient subjects within the planned budget and study period; investigator alternatives to address the strata imbalance weighing scientific impact and study feasibility; and the final modified SIENA study design and analysis plan. SIENA was successfully completed in a manner that maintained meaningful outcomes. We conclude with recommendations for incorporation of pre-specified contingency plans into phenotype-directed protocols, to address the potential for differences in observed compared to estimated prevalence of different phenotypes in a study population. These approaches can be applied to precision medicine trials for the future.
KW - Biomarker-stratified
KW - Induced sputum eosinophilia
KW - Multicenter clinical trial
KW - Participant recruitment
KW - Phenotype-stratified
KW - Precision medicine
KW - Study design
UR - http://www.scopus.com/inward/record.url?scp=85059160296&partnerID=8YFLogxK
U2 - 10.1016/j.cct.2018.12.012
DO - 10.1016/j.cct.2018.12.012
M3 - Article
C2 - 30593883
AN - SCOPUS:85059160296
SN - 1551-7144
VL - 77
SP - 98
EP - 103
JO - Contemporary Clinical Trials
JF - Contemporary Clinical Trials
ER -