IMU-based Assessment of Motor Control in a Population of Young Subjects With Paramorphisms and Dysmorphisms

Istituto Ortopedico Rizzoli151 enrolled

Overview

While various complex pathologies of the developmental age, such as Infantile Cerebral Palsy or Neuromuscular Diseases, are notoriously considered causes of alteration of locomotor development, it is scarcely known whether conditions much more frequent in the pediatric population, the so-called "Paramorphisms or Dysmorphisms", may be associated with more or less noticeable changes in locomotor development. On a few studies, flat feet and hyperlaxity has been correlated with a motor control delay or poorer motor performance, based on complex clinical tests or on stereophotogrammetry movement analysis. Although promising, these preliminary studies, in addition to not providing information on the possible influence of other paramorphisms, such as varus and valgus of the knees, do not provide conclusive indications. The aim of this study is to investigate, through clinical tests and wearable inertial units, the motor control of a pediatric population affected by Paramorphisms or Dysmorphisms and to compare them with a population of healthy controls, matched by age, taken from the recently developed control data set from Bisi and Stagni.

Study Type

INTERVENTIONAL

Allocation

Purpose

DIAGNOSTIC

Masking

NONE

Enrollment

151

Conditions

Genu Varum Genu Valgus

Interventions

Clinical tests and motor control evaluation using Inertial Measurement UnitsDIAGNOSTIC_TEST

Each patient is evaluated using clinical tests (Movement ABC2, Test of Motor Competence), a screening questionnaire (DCD-Q), and wearable Inertial Measurement Units to assess balance and motor control during a Natural Walking and Tandem Walking test.

Eligibility

Sex: ALLMin age: 6 YearsMax age: 17 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Born at term * Without known delay in motor development * Finding of one or more paramorphisms or dysmorphisms of the developmental age (flat or cavus foot, valgus or varus talipes, valgus or varus knee, scoliotic attitude or scoliosis, hyperkyphosis or hyperlordosis, generalized or focused hyperlaxity, heterometry of the AAII, torsional defects AAII) Exclusion Criteria: * Preterm birth * Diagnosis of pathologies compromising motor control (Infantile Cerebral Palsy, Neuromuscular Diseases, Spina Bifida, Arthrogryposis, Genetic Syndromes)

Outcomes

Primary Outcomes

Evaluation and measurement of balance

Evaluation of balance using clinical tests ( Movement ABC2).

Time frame: Baseline

Evaluation and measurement motor competence

Evaluation of motor competence using clinical tests (Test of Motor Competence, ).

Time frame: Baseline

Measurement of balance

Measurement of balance assessing synchronicity from data obtained with Inertial Measurement Units.

Time frame: Baseline

Measurement of motor competence

Measurement motor competence assessing automaticity from data obtained with Inertial Measurement Units.

Time frame: Baseline

IMU-based Assessment of Motor Control in a Population of Young Subjects With Paramorphisms and Dysmorphisms

Overview

Conditions

Interventions

Eligibility

Locations (1)

Outcomes

Primary Outcomes