Differential morphometric analysis of the anterior fontanelle in an embryonic avian model of induced-thyrotoxicosis.

Lindsey Morais, Daron Weekley, Holly L. Racine
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Abstract

Craniosynostosis (CS) is the premature fusion of the cranial sutures during embryonic development, and this results in intracranial pressure and skull deformities. Thyrotoxicosis, specifically maternal hyperthyroidism, has been linked to the development of CS. Our lab is currently validating an avian model of thyroxine-induced CS to study the mechanism involved in thyroxine-enhanced cranial ossification. We hypothesized that thyroxine exposure will alter skull morphology. Two groups of fertilized chicken eggs were injected with saline or 25 ng T4 into the air cell on embryonic days (E) 11 and 15. A set of skulls from each group were collected on E17-19 (n = 17-21/day). They were fixed in formalin and processed using Alizarin Red whole-mount staining, imaged (superior view), and quantified to determine thyroxine-induced alteration in skull morphology. Geometric morphometric analysis using MorphoJ was performed to identify shape variation between treatment groups of the fibrous space between ossifying regions of the anterior fontanelle. These preliminary results demonstrated a significant variation in the shape of the fibrous gap between developing sutures on embryonic days 17, 18, and 19 (p<0.05). Using the same methodology, an additional set of skulls on E19 were collected from each group and processed using both Alizarin red and Alcian blue whole-mount staining to better delineate the ossifying region of bone. Analysis is currently in progress. In conclusion, these findings support that our model is successful in promoting the fusing of the cranial bones with thyroxine exposure in our avian model through altered skull morphology visualized in the anterior fontanelle.
诱导性甲状腺毒症禽胚胎模型前囟门差异形态计量学分析。
颅缝闭合(CS)是胚胎发育过程中颅缝的过早融合,导致颅内压和颅骨畸形。甲状腺毒症,特别是母亲甲状腺功能亢进,与CS的发展有关。我们的实验室目前正在验证甲状腺素诱导CS的鸟类模型,以研究甲状腺素增强颅骨骨化的机制。我们假设甲状腺素暴露会改变颅骨形态。两组受精卵在胚胎第11和15天分别向空气细胞注射生理盐水或25 ng T4。各组颅骨于E17-19日各取一组(n = 17-21/天)。将它们固定在福尔马林中,用茜素红整片染色处理,成像(上位视图),并量化以确定甲状腺素引起的颅骨形态学改变。使用MorphoJ进行几何形态计量学分析,以确定前囟门骨化区之间纤维间隙在治疗组之间的形状变化。这些初步结果表明,在胚胎17,18和19天,发育缝线之间的纤维间隙形状发生了显著变化(p<0.05)。使用相同的方法,从每组E19上收集另一组头骨,并使用茜素红和阿利新蓝全片染色进行处理,以更好地描绘骨骼的骨化区域。分析目前正在进行中。总之,这些发现支持我们的模型是成功地促进颅骨融合与甲状腺素暴露在我们的鸟类模型中,通过改变颅骨形态学在前囟门可见。
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