Association between Brachycephaly, Chiari Malformation, and Basilar Invagination

Botelho, Ricardo Vieira; Botelho, Pedro B; Hernandez, Bruna; Sales, Mauricio Bezerra; Rotta, José Marcus

doi:10.1055/s-0041-1739503

J Neurol Surg A Cent Eur Neurosurg

2021

DOI: 10.1055/s-0041-1739503

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Association between Brachycephaly, Chiari Malformation, and Basilar Invagination

Ricardo Vieira Botelho

Pedro B Botelho

Bruna Hernandez³

et al.

Abstract: Background There is evidence that Chiari malformation (CM) and basilar invagination (BI) are largely due to disproportion between the content and volume of the posterior fossa. A recent study identified an increased association between brachycephaly and BI. In several types of craniosynostosis, the posterior fossa volume is smaller than normal, and this is more pronounced in coronal synostosis. The aim of this study is to evaluate the association between CM and BI. Methods The cephalic index (CI) mea… Show more

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2024

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Cited by 2 publications

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Morphometric analysis of posterior cranial fossa and foramen magnum and it’s clinical implications in craniovertebral junction malformations: a computed tomography based institutional study in a tertiary care hospital of northern part of India

Yadav,

Prasad,

Sahu

et al. 2024

Egypt J Neurosurg

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Background The posterior cranial fossa (PCF) and the foramen magnum (FM) are the critical anatomical components of the craniovertebral junction region, which comprise and transmit numerous vital neurovascular structures. So, a fundamental knowledge of the basic radiological anatomy of PCF and FM is of paramount importance in the evaluation of associated pathologies and approaching these areas surgically. The aim of this study is to describe different linear and angular craniometric parameters of PCF, FM and surrounding territory based on reconstructed computed tomography (CT) images. Material and methods This study was conducted in our tertiary care hospital in northern India from the period of January 2023 to June 2023 on 120 patients, and CT screening was done for the head and spine region following a history of head injury. Results In this study, 120 patients were included, of whom 50.83% (n = 61) were females and 49.17% (n = 59) were males. Age ranged from 18 to 70 years with mean age of 43.5 ± 14.08 years. The mean values for linear craniometric parameters of PCF were statistically nonsignificant for different age groups. Statistically significant differences were found for twinning line (TL) (p < 0.0001), McRae’s line (< 0.0001), clivus length (< p < 0.0001), internal occipital protuberence -opisthion line (p = 0.01), Klaus’ index (p < 0.0001), height of posterior fossa (h) (p < 0.0001), h/TL (p = 0.028), when these values were compared for the genders. The measurements of FM transverse diameter, anteroposterior diameter and area were 27.12 ± 1.42 mm (range 23.6–30.1 mm), 30.99 ± 2.23 mm (range 27.6–35.8 mm) and 691.32 ± 30.35 mm2 (range 632.7–777.7 mm2). The values of clivus canal angle (p = 0.038) and clivoodontoid angle (p = 0.012) were statistically significant when compared for different age groups. The values of Boogard’s angle (p = 0.021) and tentorial slope (p = 0.031) were statistically significant when these were compared for the genders. Conclusions This study described almost all the linear and angular craniometric parameters used in the morphometric analysis of PCF and FM. The findings of this study provide valuable data regarding linear and angular craniometric parameters of PCF and FM which can redefine reference values.

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Morphometric analysis of posterior cranial fossa and foramen magnum and it’s clinical implications in craniovertebral junction malformations: a computed tomography based institutional study in a tertiary care hospital of northern part of India

Yadav,

Prasad,

Sahu

et al. 2024

Egypt J Neurosurg

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Chamberlain’s line, clivus-canal angle, Welcker’s basal angle, Boogaard’s angle, and foramen magnum angle: a brief review for type B basilar invagination

Nascimento,

Silva,

Diniz

et al. 2024

NS&A

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IntroductionType B basilar invagination (BI) is an abnormality of the craniovertebral junction (CVJ). Since first descriptions occurred in the 18th and 19th centuries BI have gained remarkable clinical and surgical importance.ObjectiveTo describe usual craniometric parameters of assessment of type B BI and to discuss future perspectives of craniometry in the field.MethodsThis is a brief review of the literature on the CVJ parameters used for the BI diagnosis. ResultsAlthough there are several craniometric parameters used in the diagnosis of BI, there are few studies on the validation of these parameters on radiography and volumetric images. Accuracy studies for Chamberlain’ line, clivus-canal angle, Boogaard’s angle, Welcker’s basal angle, and foramen magnum angle occurred consistently at CT and MRI. Brachycephaly and reduced cranial height are strongly associated with type B BI.ConclusionThe classical parameters of the Chamberlain's line, Boogaard's angle and clivus-canal angle are still important tests for the diagnostic evaluation of type B BI.

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Association between Brachycephaly, Chiari Malformation, and Basilar Invagination

Cited by 2 publications

References 28 publications

Morphometric analysis of posterior cranial fossa and foramen magnum and it’s clinical implications in craniovertebral junction malformations: a computed tomography based institutional study in a tertiary care hospital of northern part of India

Morphometric analysis of posterior cranial fossa and foramen magnum and it’s clinical implications in craniovertebral junction malformations: a computed tomography based institutional study in a tertiary care hospital of northern part of India

Chamberlain’s line, clivus-canal angle, Welcker’s basal angle, Boogaard’s angle, and foramen magnum angle: a brief review for type B basilar invagination

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