INTRODUCTION: Cerebral infarction is an important cause of neurological sequelae in childhood tuberculous meningitis (TBM). AIM: To investigate neurodevelopmental outcome and development of motor sequelae in TBM-related cerebral infarction. METHODS: A group of 64 children with TBM and computerized tomographic (CT) evidence of infarction were compared with regard to motor sequelae and neurodevelopmental outcome, with 54 children with TBM but no radiological evidence of infarction. The association between infarct number, size, location and outcome was investigated in the infarct group. Selected covariates were entered into a multivariate model to better understand the independent contribution of each factor on neurodevelopmental outcome. RESULTS: An association was found between the presence, number and size of hemispheric infarcts and motor handicap on follow-up. Location of single basal ganglia infarcts, however, did not correlate with motor outcome. The Griffiths general developmental quotient (GQ) was significantly lower in children with bilateral (p<0001) and unilateral multiple infarcts (p=0.0239) compared to those without infarcts. The GQ of children with unilateral single infarcts was not significantly lower than those without infarction (p=0.2282). CONCLUSION: Infarct characteristics should be taken into account when neurodevelopmental outcome is prognosticated in TBM. Young age, unilateral multiple or bilateral infarction on CT at 1 month, advanced stage of TBM and the interaction term stage x Glasgow coma score are the best predictors of neurodevelopmental outcome at 6 months.
INTRODUCTION:Cerebral infarction is an important cause of neurological sequelae in childhood tuberculous meningitis (TBM). AIM: To investigate neurodevelopmental outcome and development of motor sequelae in TBM-related cerebral infarction. METHODS: A group of 64 children with TBM and computerized tomographic (CT) evidence of infarction were compared with regard to motor sequelae and neurodevelopmental outcome, with 54 children with TBM but no radiological evidence of infarction. The association between infarct number, size, location and outcome was investigated in the infarct group. Selected covariates were entered into a multivariate model to better understand the independent contribution of each factor on neurodevelopmental outcome. RESULTS: An association was found between the presence, number and size of hemispheric infarcts and motor handicap on follow-up. Location of single basal ganglia infarcts, however, did not correlate with motor outcome. The Griffiths general developmental quotient (GQ) was significantly lower in children with bilateral (p<0001) and unilateral multiple infarcts (p=0.0239) compared to those without infarcts. The GQ of children with unilateral single infarcts was not significantly lower than those without infarction (p=0.2282). CONCLUSION: Infarct characteristics should be taken into account when neurodevelopmental outcome is prognosticated in TBM. Young age, unilateral multiple or bilateral infarction on CT at 1 month, advanced stage of TBM and the interaction term stage x Glasgow coma score are the best predictors of neurodevelopmental outcome at 6 months.
Authors: María Isabel Sánchez-Códez; Manuel Lubián-Gutiérrez; Carmen Fernández-Bravo; Myriam Ley-Martos Journal: Childs Nerv Syst Date: 2019-06-29 Impact factor: 1.475
Authors: Ursula K Rohlwink; Felicia C Chow; Sean Wasserman; Sofiati Dian; Rachel Pj Lai; Lidya Chaidir; Raph L Hamers; Robert J Wilkinson; David R Boulware; Fiona V Cresswell; Arjan van Laarhoven Journal: Wellcome Open Res Date: 2020-06-03
Authors: Suzanne T Anderson; Felicia C Chow; Angharad G Davis; Sam Nightingale; Priscilla E Springer; Regan Solomons; Ana Arenivas; Robert J Wilkinson Journal: Wellcome Open Res Date: 2019-11-13
Authors: Charles M Manyelo; Novel N Chegou; James A Seddon; Candice I Snyders; Hygon Mutavhatsindi; Portia M Manngo; Gerhard Walzl; Kim Stanley; Regan S Solomons Journal: PLoS One Date: 2021-04-30 Impact factor: 3.240
Authors: Ursula K Rohlwink; Kirsty Donald; Bronwyn Gavine; Llewellyn Padayachy; Jo M Wilmshurst; Graham A Fieggen; Anthony A Figaji Journal: Dev Med Child Neurol Date: 2016-02-16 Impact factor: 5.449