Predicting hand function after hemidisconnection

Küpper, Hanna; Kudernatsch, Manfred; Pieper, Tom; Groeschel, Samuel; Tournier, Jacques‐Donald; Raffelt, David; Winkler, Peter; Holthausen, Hans; Staudt, Martin

doi:10.1093/brain/aww170

Cited by 35 publications

(51 citation statements)

References 61 publications

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“…In a large trial of children undergoing HS, Kupper et al demonstrated that grasping ability in the ipsilesional hand is only preserved in patients with prenatal or perinatal unilateral brain injury (or CP) and is associated with asymmetric structural connectivity of CST projections. This data suggests the reinforcement of developmentally preserved iCST fibers in these patients [83]. …”

Section: Re-organization Of Motor Cortical Projections In Hemiplegic mentioning

confidence: 86%

Preclinical and Clinical Evidence on Ipsilateral Corticospinal Projections: Implication for Motor Recovery

Alawieh

Tomlinson

Adkins

et al. 2017

Transl. Stroke Res.

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Motor impairment is the most common complication after stroke, and recovery of motor function has been shown to be dependent on the extent of lesion in the ipsilesional corticospinal tract (iCST) and activity within ipsilesional primary and secondary motor cortices. However, work from neuroimaging research has suggested a role of the contralesional hemisphere in promoting recovery after stroke potentially through the ipsilateral uncrossed CST fibers descending to ipsilateral spinal segments. These ipsilateral fibers, sometimes referred to as “latent” projections, are thought to contribute to motor recovery independent of the crossed CST. The aim of this paper is to evaluate using cumulative evidence from animal models and human patients on whether an uncrossed CST component is present in mammals and conserved through primates and humans, and whether iCST fibers have a functional role in hemiparetic/hemiplegic human conditions. This review highlights that an ipsilateral uncrossed CST exists in human during development, but the evidence on a functionally relevant iCST component in adult humans is still elusive. In addition, this review argues that whereas activity within the ipsilesional cortex is essential for enhancing motor recovery after stroke, the role of iCST projections specifically is still controversial. Finally, conclusions from current literature emphasize the importance of activity in the ipsilesional cortex and the integrity of crossed CST fibers as major determinants of motor recovery after brain injury.

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Section: Re-organization Of Motor Cortical Projections In Hemiplegic mentioning

confidence: 86%

Preclinical and Clinical Evidence on Ipsilateral Corticospinal Projections: Implication for Motor Recovery

Alawieh

Tomlinson

Adkins

et al. 2017

Transl. Stroke Res.

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“…Early lesions to the motor system lead to the preservation of these normally transient ipsilateral connections 28 . Several electrophysiological and imaging studies have implicated this pathway as mediator of motor recovery after hemispheric lesions 15,29 . The pyramidal system is believed to be an evolutionary prerequisite for dexterous hand function including grasping 16 , which is why their role as a mediator of distal arm motor function is particularly plausible.…”

Section: Discussionmentioning

confidence: 99%

Pyramidal tract and alternate motor fibers complementarily mediate motor compensation in patients after hemispherotomy

Gaubatz

Ernst

Prillwitz

et al. 2020

Sci Rep

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Motor function after hemispheric lesions has been associated with the structural integrity of either the pyramidal tract (PT) or alternate motor fibers (aMF). In this study, we aimed to differentially characterize the roles of PT and aMF in motor compensation by relating diffusion-tensor-imagingderived parameters of white matter microstructure to measures of proximal and distal motor function in patients after hemispherotomy. Twenty-five patients (13 women; mean age: 21.1 years) after hemispherotomy (at mean age: 12.4 years) underwent Diffusion Tensor Imaging and evaluation of motor function using the Fugl-Meyer Assessment and the index finger tapping test. Regression analyses revealed that fractional anisotropy of the PT explained (p = 0.050) distal motor function including finger tapping rate (p = 0.027), whereas fractional anisotropy of aMF originating in the contralesional cortex and crossing to the ipsilesional hemisphere in the pons explained proximal motor function (p = 0.001). Age at surgery was found to be the only clinical variable to explain motor function (p < 0.001). Our results are indicative of complementary roles of the PT and of aMF in motor compensation of hemispherotomy mediating distal and proximal motor compensation of the upper limb, respectively. Neuroimaging has substantially advanced our understanding of the neuronal mechanisms of functional motor recovery after brain lesions, thereby, enhancing prediction of motor recovery 1. Diffusion Tensor Imaging (DTI) and tractography have proven useful for the in vivo delineation and assessment of white matter pathways 2. Different DTI-studies have associated motor function after hemispheric lesions with the microstructural integrity of the pyramidal tract (PT) or alternate motor fibers (aMF) 3-6. aMF are believed to constitute the imaging correlate of cortico-rubro-spinal or of cortico-reticulo-spinal pathways. They may be reconstructed by means of tractography as they descend from the precentral gyrus through the posterior limb of the internal capsule and the tegmentum pontis 7-10. Our understanding of aMF and their role as a compensatory corticospinal system was only recently investigated in patients and has been derived as a comparative neuroanatomical approach from numerous animal studies 11-13. Some studies have suggested that aMF could compensate for the damaged PT 6-8,14 , while other studies concluded that the portion of intact fibers of the affected PT determines the degree of motor recovery 3,4,15. A third possibility is that both systems contribute to motor recovery. Schulz and colleagues found no interaction between diffusivity parameters indexing the microstructural status of PT and aMF in patients after stroke, and thus concluded, that the manner in which they function is "synergistic, but independent" 7. Our hypothesis states that PT and aMF may operate synergistically by mediating distal and proximal motor functions

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“…While the exact mechanisms in the CC for unimanual and bimanual functions remain debatable, some noteworthy reviews have described the interaction between the two hemispheres and whether the regulation of the latter is done through inhibitory or excitatory signaling [34,35]. Evidence of the involvement of the CC on unilateral and bimanual skills was unequivocally found in patients with lesions to the CC [36,37], in individuals with stroke [38], callosotomized patients [39] and in animals studies [40].…”

Section: Discussionmentioning

confidence: 99%

Improvements in upper extremity function in children with unilateral spastic cerebral palsy after intensive training correlates with interhemispheric connectivity

Robert

Gutterman

Ferre

et al. 2019

Preprint

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Short Title: Corpus callosum as a biomarker for bimanual functions AIMSThe corpus callosum (CC) regulates signalling between the two hemispheres and plays an important role in upper limb functions. There is limited evidence on the relationships between the integrity of the CC and upper limb functions in children with USCP. Furthermore, the extent of how much the CC can be used as a biomarker to predict hand functions following intensive interventions remains unknown. We examined 1) the relationship between hand function and tractography of the CC, and 2) the associations between the integrity of the CC and changes in hand function following intensive intervention. METHODS Forty-four participants received 90 hours of intensive therapy and were randomly allocated in one of two training groups: Hand-arm Bimanual Intensive Therapy (HABIT) or Constraint-Induced Movement Therapy (CIMT). Hand functions were assessed pre-and post-intervention by a blinded clinician using the Jebsen-Taylor of Hand Function (JTTHF), Assisting Hand Assessment (AHA), and Box and Blocks test (BBT). Functional goals and daily functioning were measured using the Canadian Occupational Performance Measure and the Abilhand-Kids. CC tractography was reconstructed using diffusion tensor imaging (DTI). Corpus callosum was segmented into three regions of interest (genu, midbody and splenium). Linear regression and pearson correlations were used to assess the relationships between bimanual outcomes and DTI parameters. RESULTSBoth groups demonstrated improvement of hand function (p<0.05). JTTHF, AHA and BBT significant correlated with DTI variables for all ROIs (p<0.05). Bimanual and perceived manual ability of children changes following CIMT were negatively correlated with number of streamlines and number of voxel for the whole CC (r=-.442, p=0.05), midbody (r=-.458, p=0.042) and spelnium (r=-.512, p=0.021). No significant correlation was observed for the HABIT group. INTERPRETATIONTractography of the CC was found to be associated with unimanual and bimanual functions at baseline. Children with reduced integrity of the CC and with greater bimanual impairments improve more from CIMT. On the contrary, all children in the HABIT group had similar improvements independent of the CC integrity.

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Predicting hand function after hemidisconnection

Cited by 35 publications

References 61 publications

Preclinical and Clinical Evidence on Ipsilateral Corticospinal Projections: Implication for Motor Recovery

Preclinical and Clinical Evidence on Ipsilateral Corticospinal Projections: Implication for Motor Recovery

Pyramidal tract and alternate motor fibers complementarily mediate motor compensation in patients after hemispherotomy

Improvements in upper extremity function in children with unilateral spastic cerebral palsy after intensive training correlates with interhemispheric connectivity

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