The effect of the design of the orthosis on the axial load transmission of two flexion abduction orthoses used in treating congenital hip dysplasia

With an incidence of 2–4% in all newborns, developmental dysplasia of the hip, DDH, represents the most frequent congenital disorder of the skeletal system in Germany. The therapy options are deduced with the help of a sonography. The conservative therapy approach includes the application of flexion...

Full description

Saved in:
Bibliographic Details
Published inHeliyon Vol. 8; no. 12; p. e11942
Main Authors Schwanitz von Keitz, Paul, Kleimeier, Dana, Lutter, Christoph Fabian, Rehberg, Mirko, Mittelmeier, Wolfram, Kasch, Richard, Osmanski-Zenk, Katrin, Fröhlich, Susanne
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.12.2022
Elsevier
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:With an incidence of 2–4% in all newborns, developmental dysplasia of the hip, DDH, represents the most frequent congenital disorder of the skeletal system in Germany. The therapy options are deduced with the help of a sonography. The conservative therapy approach includes the application of flexion abduction orthoses, which lead to a development of the child’s hip through abduction and flexion angle. The overall structure of the orthoses puts a strain on the axial skeleton of the children. The following work is intended to clarify what role the design of the orthoses plays in this respect. Inclusion criterion for the study was fully developed newborns without an indication of skeletal malformations with Type I hip joints according to Graf verified by ultrasound. A total of 19 newborns were recruited and included in the period 3/2013–01/2015. Two types of orthoses used in treating developmental dysplasia of the hip (Tübinger splint, Otto Bock; hip flexion abduction orthosis (Superior orthosis) according to Mittelmeier-Graf, AIDAMED e.K (Kreuz et al., 2012; Mittelmeier et al., 1998; Schmitz et al., 1999), constructions differ, were used. Force was measured with the help of three force sensors, which were even able to be integrated into these without changing the design of the orthosis. In this closed system, force transmission was measured for the duration of a fixed period of two minutes. The greatest axial force development (overall force) is in the Tübinger splint with an average force of 15.1 N (min. 0.59 N, max. 53.09 N, mean 15.1, SD 2.46). 4.09 N (min. 0.96 N, max. 20.99 N, mean 4.09, SD 0.65) resulted in the Superior orthosis. Significant correlations between body weight and resulting axial traction – on average during the entire measurement period and in movement – can be taken from the statistical analysis regarding the Tübinger splint. Such a correlation cannot be depicted for the Superior orthosis. The analysis of the load transmission of the examined flexion and abduction orthoses reveals differences between the models. The construct of the orthoses in itself appears to play a significant role. Long-term effects of orthosis therapy on a child’s axial skeleton have not been studied to date. Furthermore, it seems reasonable to expand the test series to orthoses, the design of which is configured in a similar matter compared to the examined aids. This study proves that the orthotic design has an influence on the infant’s axial load. •This axial load has been measured and linked to weight and movement.•Comparison of the Tübinger to Superior splint shows big differences in axial forces.•Different designs are proven to have significant biomechanic effects. Developmental hip dysplasia; Biomechanics; Abduction orthoses; Tübinger orthosis; MittelmeierGraf orthosis; Axial force.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:2405-8440
2405-8440
DOI:10.1016/j.heliyon.2022.e11942