Knowler Susan P, Cross Chloe, Griffiths Sandra, McFadyen Angus K, Jovanovik Jelena, Tauro Anna, Kibar Zoha, Driver Colin J, La Ragione Roberto M, Rusbridge Clare
School of Veterinary Medicine, Faculty of Health & Medical Sciences, University of Surrey, Guildford, Surrey, United Kingdom.
Stone Lion Veterinary Hospital, Wimbledon,United Kingdom.
PLoS One. 2017 Jan 25;12(1):e0170315. doi: 10.1371/journal.pone.0170315. eCollection 2017.
To characterise the symptomatic phenotype of Chiari-like malformation (CM), secondary syringomyelia (SM) and brachycephaly in the Cavalier King Charles Spaniel using morphometric measurements on mid-sagittal Magnetic Resonance images (MRI) of the brain and craniocervical junction.
This retrospective study, based on a previous quantitative analysis in the Griffon Bruxellois (GB), used 24 measurements taken on 130 T1-weighted MRI of hindbrain and cervical region. Associated brachycephaly was estimated using 26 measurements, including rostral forebrain flattening and olfactory lobe rotation, on 72 T2-weighted MRI of the whole brain. Both study cohorts were divided into three groups; Control, CM pain and SM and their morphometries compared with each other.
Fourteen significant traits were identified in the hindbrain study and nine traits in the whole brain study, six of which were similar to the GB and suggest a common aetiology. The Control cohort had the most elliptical brain (p = 0.010), least olfactory bulb rotation (p = 0.003) and a protective angle (p = 0.004) compared to the other groups. The CM pain cohort had the greatest rostral forebrain flattening (p = 0.007), shortest basioccipital (p = 0.019), but a greater distance between the atlas and basioccipital (p = 0.002) which was protective for SM. The SM cohort had two conformation anomalies depending on the severity of craniocervical junction incongruities; i) the proximity of the dens (p <0.001) ii) increased airorhynchy with a smaller, more ventrally rotated olfactory bulb (p <0.001). Both generated 'concertina' flexures of the brain and craniocervical junction.
Morphometric mapping provides a diagnostic tool for quantifying symptomatic CM, secondary SM and their relationship with brachycephaly. It is hypothesized that CM pain is associated with increased brachycephaly and SM can result from different combinations of abnormalities of the forebrain, caudal fossa and craniocervical junction which compromise the neural parenchyma and impede cerebrospinal fluid flow.
通过对大脑和颅颈交界处的矢状位磁共振成像(MRI)进行形态测量,来描述骑士查理王小猎犬的Chiari样畸形(CM)、继发性脊髓空洞症(SM)和短头畸形的症状性表型。
这项回顾性研究基于先前对布鲁塞尔格里芬犬(GB)的定量分析,对130张后脑和颈部区域的T1加权MRI进行了24项测量。在72张全脑的T2加权MRI上,使用26项测量(包括吻侧前脑扁平化和嗅叶旋转)来评估相关的短头畸形。两个研究队列均分为三组:对照组、CM疼痛组和SM组,并对它们的形态测量值进行相互比较。
在后脑研究中确定了14个显著特征,在全脑研究中确定了9个特征,其中6个与GB相似,提示有共同的病因。与其他组相比,对照组的大脑最呈椭圆形(p = 0.010),嗅球旋转最少(p = 0.003),且有一个保护角(p = 0.004)。CM疼痛组的吻侧前脑扁平化程度最大(p = 0.007),枕骨基部最短(p = 0.019),但寰椎与枕骨基部之间的距离更大(p = 0.002),这对SM有保护作用。SM组有两种形态异常,这取决于颅颈交界处不协调的严重程度;i)齿突的接近程度(p <0.001)ii)随着嗅球变小、更向腹侧旋转,气颅程度增加(p <0.001)。两者均产生大脑和颅颈交界处的“手风琴”样弯曲。
形态测量图谱为量化症状性CM、继发性SM及其与短头畸形的关系提供了一种诊断工具。据推测,CM疼痛与短头畸形增加有关,而SM可能由前脑、后颅窝和颅颈交界处的不同异常组合导致,这些异常会损害神经实质并阻碍脑脊液流动。
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