TY - JOUR
T1 - Clinical outcome of patients with mild pre-stroke morbidity following endovascular treatment
T2 - a HERMES substudy
AU - the HERMES collaborators
AU - McDonough, Rosalie V.
AU - Ospel, Johanna M.
AU - Majoie, Charles B.L.M.
AU - Saver, Jeffrey L.
AU - White, Philip
AU - Dippel, Diederik W.J.
AU - Brown, Scott B.
AU - Demchuk, Andrew M.
AU - Jovin, Tudor G.
AU - Mitchell, Peter J.
AU - Bracard, Serge
AU - Campbell, Bruce C.V.
AU - Muir, Keith W.
AU - Hill, Michael D.
AU - Guillemin, Francis
AU - Goyal, Mayank
AU - Cate, C.
AU - Jansen, O.
AU - Cnyrim, C.
AU - Wodarg, F.
AU - Wiese, C.
AU - Binder, A.
AU - Riedel, C.
AU - Rohr, A.
AU - Lang, N.
AU - Laufs, H.
AU - Krieter, S.
AU - Remonda, L.
AU - Diepers, M.
AU - Añon, J.
AU - Nedeltchev, K.
AU - Kahles, T.
AU - Biethahn, S.
AU - Lindner, M.
AU - Chang, V.
AU - Gächter, C.
AU - Esperon, C.
AU - Guglielmetti, M.
AU - Arenillas Lara, J. F.
AU - Martínez Galdámez, M.
AU - Calleja Sanz, A. I.
AU - Cortijo Garcia, E.
AU - Garcia Bermejo, P.
AU - Perez, S.
AU - Mulero Carrillo, P.
AU - Crespo Vallejo, E.
AU - Ruiz Piñero, M.
AU - Lopez Mesonero, L.
AU - Reyes Muñoz, F. J.
AU - Brekenfeld, C.
AU - Buhk, J. H.
AU - Krutzelmann, A.
AU - Thomalla, G.
AU - Cheng, B.
AU - Beck, C.
AU - Hoppe, J.
AU - Goebell, E.
AU - Holst, B.
AU - Grzyska, U.
AU - Wortmann, G.
AU - Starkman, S.
AU - Duckwiler, G.
AU - Jahan, R.
AU - Rao, N.
AU - Sheth, S.
AU - Ng, K.
AU - Noorian, A.
AU - Szeder, V.
AU - Nour, M.
AU - McManus, M.
AU - Huang, J.
AU - Tarpley, J.
AU - Tateshima, S.
AU - Gonzalez, N.
AU - Ali, L.
AU - Liebeskind, D.
AU - Hinman, J.
AU - Calderon-Arnulphi, M.
AU - Liang, C.
AU - Guzy, J.
AU - Koch, S.
AU - DeSousa, K.
AU - Gordon-Perue, G.
AU - Haussen, D.
AU - Elhammady, M.
AU - Peterson, E.
AU - Pandey, V.
AU - Dharmadhikari, S.
AU - Khandelwal, P.
AU - Malik, A.
AU - Pafford, R.
AU - Gonzalez, P.
AU - Ramdas, K.
AU - Andersen, G.
AU - Damgaard, D.
AU - Von Weitzel-Mudersbach, P.
AU - Simonsen, C.
AU - Ruiz de Morales Ayudarte, N.
AU - Poulsen, M.
AU - Sørensen, L.
AU - Karabegovich, S.
AU - Hjørringgaard, M.
AU - Hjort, N.
AU - Harbo, T.
AU - Sørensen, K.
AU - Deshaies, E.
AU - Padalino, D.
AU - Swarnkar, A.
AU - Latorre, J. G.
AU - Elnour, E.
AU - El-Zammar, Z.
AU - Villwock, M.
AU - Farid, H.
AU - Balgude, A.
AU - Cross, L.
AU - Hansen, K.
AU - Holtmannspötter, M.
AU - Kondziella, D.
AU - Hoejgaard, J.
AU - Taudorf, S.
AU - Soendergaard, H.
AU - Wagner, A.
AU - Cronquist, M.
AU - Stavngaard, T.
AU - Cortsen, M.
AU - Krarup, L. H.
AU - Hyldal, T.
AU - Haring, H. P.
AU - Guggenberger, S.
AU - Hamberger, M.
AU - Trenkler, J.
AU - Sonnberger, M.
AU - Nussbaumer, K.
AU - Dominger, C.
AU - Bach, E.
AU - Jagadeesan, B. D.
AU - Taylor, R.
AU - Kim, J.
AU - Shea, K.
AU - Tummala, R.
AU - Zacharatos, H.
AU - Sandhu, D.
AU - Ezzeddine, M.
AU - Grande, A.
AU - Hildebrandt, D.
AU - Miller, K.
AU - Scherber, J.
AU - Hendrickson, A.
AU - Jumaa, M.
AU - Zaidi, S.
AU - Hendrickson, T.
AU - Snyder, V.
AU - Killer-Oberpfalzer, M.
AU - Mutzenbach, J.
AU - Weymayr, F.
AU - Broussalis, E.
AU - Stadler, K.
AU - Jedlitschka, A.
AU - Malek, A.
AU - Mueller-Kronast, N.
AU - Beck, P.
AU - Martin, C.
AU - Summers, D.
AU - Day, J.
AU - Bettinger, I.
AU - Holloway, W.
AU - Olds, K.
AU - Arkin, S.
AU - Akhtar, N.
AU - Boutwell, C.
AU - Crandall, S.
AU - Schwartzman, M.
AU - Weinstein, C.
AU - Brion, B.
AU - Prothmann, S.
AU - Kleine, J.
AU - Kreiser, K.
AU - Boeckh-Behrens, T.
AU - Poppert, H.
AU - Wunderlich, S.
AU - Koch, M. L.
AU - Biberacher, V.
AU - Huberle, A.
AU - Gora-Stahlberg, G.
AU - Knier, B.
AU - Meindl, T.
AU - Utpadel-Fischler, D.
AU - Zech, M.
AU - Kowarik, M.
AU - Seifert, C.
AU - Schwaiger, B.
AU - Puri, A.
AU - Hou, S.
AU - Wakhloo, A.
AU - Moonis, M.
AU - Henninger, N.
AU - Goddeau, R.
AU - Massari, F.
AU - Minaeian, A.
AU - Molina, C. A.
N1 - Publisher Copyright:
© Author(s) (or their employer(s)) 2023.
PY - 2023/3
Y1 - 2023/3
N2 - Background Analyses of the effect of pre-stroke functional levels on the outcome of endovascular therapy (EVT) have focused on the course of patients with moderate to substantial pre-stroke disability. The effect of complete freedom from pre-existing disability (modified Rankin Scale (mRS) 0) versus predominantly mild pre-existing disability/symptoms (mRS 1–2) has not been well delineated. Methods The HERMES meta-analysis pooled data from seven randomized trials that tested the efficacy of EVT. We tested for a multiplicative interaction effect of pre-stroke mRS on the relationship between treatment and outcomes. Ordinal regression was used to assess the association between EVT and 90-day mRS (primary outcome) in the subgroup of patients with pre-stroke mRS 1–2. Multivariable regression modeling was then used to test the effect of mild pre-stroke disability/ symptoms on the primary and secondary outcomes (delta-mRS, mRS 0–2/5–6) compared with patients with pre-stroke mRS 0. Results We included 1764 patients, of whom 199 (11.3%) had pre-stroke mRS 1–2. No interaction effect of pre-stroke mRS on the relationship between treatment and outcome was observed. Patients with pre-stroke mRS 1–2 had worse outcomes than those with pre-stroke mRS 0 (adjusted common OR (acOR) 0.53, 95% CI 0.40 to 0.70). Nonetheless, a significant benefit of EVT was observed within the mRS 1–2 subgroup (cOR 2.08, 95% CI 1.22 to 3.55). Conclusions Patients asymptomatic/without disability prior to onset have better outcomes following EVT than patients with mild disability/symptoms. Patients with pre-stroke mRS 1–2, however, more often achieve good outcomes with EVT compared with conservative management. These findings indicate that mild preexisting disability/symptoms influence patient prognosis after EVT but do not diminish the EVT treatment effect.
AB - Background Analyses of the effect of pre-stroke functional levels on the outcome of endovascular therapy (EVT) have focused on the course of patients with moderate to substantial pre-stroke disability. The effect of complete freedom from pre-existing disability (modified Rankin Scale (mRS) 0) versus predominantly mild pre-existing disability/symptoms (mRS 1–2) has not been well delineated. Methods The HERMES meta-analysis pooled data from seven randomized trials that tested the efficacy of EVT. We tested for a multiplicative interaction effect of pre-stroke mRS on the relationship between treatment and outcomes. Ordinal regression was used to assess the association between EVT and 90-day mRS (primary outcome) in the subgroup of patients with pre-stroke mRS 1–2. Multivariable regression modeling was then used to test the effect of mild pre-stroke disability/ symptoms on the primary and secondary outcomes (delta-mRS, mRS 0–2/5–6) compared with patients with pre-stroke mRS 0. Results We included 1764 patients, of whom 199 (11.3%) had pre-stroke mRS 1–2. No interaction effect of pre-stroke mRS on the relationship between treatment and outcome was observed. Patients with pre-stroke mRS 1–2 had worse outcomes than those with pre-stroke mRS 0 (adjusted common OR (acOR) 0.53, 95% CI 0.40 to 0.70). Nonetheless, a significant benefit of EVT was observed within the mRS 1–2 subgroup (cOR 2.08, 95% CI 1.22 to 3.55). Conclusions Patients asymptomatic/without disability prior to onset have better outcomes following EVT than patients with mild disability/symptoms. Patients with pre-stroke mRS 1–2, however, more often achieve good outcomes with EVT compared with conservative management. These findings indicate that mild preexisting disability/symptoms influence patient prognosis after EVT but do not diminish the EVT treatment effect.
UR - http://www.scopus.com/inward/record.url?scp=85128972363&partnerID=8YFLogxK
U2 - 10.1136/neurintsurg-2021-018428
DO - 10.1136/neurintsurg-2021-018428
M3 - Article
C2 - 35210331
AN - SCOPUS:85128972363
SN - 1759-8478
VL - 15
SP - 214
EP - 220
JO - Journal of NeuroInterventional Surgery
JF - Journal of NeuroInterventional Surgery
IS - 3
ER -