Association of Initial Maximal Motor Ability With Long-term Functional Outcome in Patients With COL6-Related Dystrophies

Author:

Natera-de Benito DanielORCID,Foley A. ReghanORCID,Domínguez-González Cristina,Ortez CarlosORCID,Jain Minal,Mebrahtu Aron,Donkervoort Sandra,Hu Ying,Fink Margaret,Yun Pomi,Ogata Tracy,Medina Julita,Vigo Meritxell,Meilleur Katherine G.,Leach Meganne E.,Dastgir Jahannaz,Díaz-Manera Jordi,Carrera-García LauraORCID,Expósito-Escudero JessicaORCID,Alarcon Macarena,Cuadras DanielORCID,Montiel-Morillo Elena,Milisenda José C.,Dominguez-Rubio Raul,Olivé MontseORCID,Colomer JaumeORCID,Jou CristinaORCID,Jimenez-Mallebrera CeciliaORCID,Bönnemann Carsten G.ORCID,Nascimento AndresORCID

Abstract

ObjectiveTo accurately categorize the phenotypes of individuals with collagen VI–related dystrophies (COL6-RDs) during the first years of life to predict long-term motor function and pulmonary function, to provide phenotype-specific anticipatory care, and to improve clinical trial readiness.MethodsThis retrospective, multicenter, international study analyzed the relationship of long-term motor and pulmonary function with the initial maximal motor ability achieved in individuals with COL6-RD.ResultsWe studied 119 patients with COL6-RD from Spain (n = 54) and the United States (n = 65). The early maximal motor milestones of ability to rise from the floor unassisted and ability to climb 4 steps without holding onto a railing demonstrated reliability in distinguishing between 3 COL6-RD phenotypic subgroups: (1) Ullrich congenital muscular dystrophy, (2) intermediate COL6-RD, and (3) Bethlem myopathy. Long-term motor function and pulmonary function are strongly correlated with the maximal motor ability achieved during the first years of life. Maximal motor capacity can predict other disease-relevant events such as the age at loss of ambulation and the need for the initiation of nocturnal noninvasive ventilation.ConclusionThis work proposes a prospective phenotypic classification for COL6-RDs that will enable an accurate prediction of a patient's COL6-RD phenotype during the first years of life. The ability to establish a patient's COL6-RD phenotypic classification early will enable a more accurate prognosis of future motor and pulmonary function, thus improving anticipatory clinical care, and it will be instrumental in aiding the design of future clinical trials by allowing early stratification of trial cohorts.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Neurology (clinical)

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