Visualization of the dentogingival junction using micro-plastination technique.

IF 2.3 4区医学 Q1 ANATOMY & MORPHOLOGY

Clinical Anatomy Pub Date : 2024-10-08 DOI:10.1002/ca.24235

Jaime Correa-Aravena, Camila Panes, Nikol Ponce, Aurora Prado-Sanhueza, Diego Guzmán, Bélgica Vásquez, Ignacio Roa, Carlos Veuthey, Telma S Masuko, Nicolás E Ottone

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引用次数: 0

Abstract

Plastination has revolutionized the field of anatomy and research by providing biosecurity and enabling the long-term preservation of biological material, ranging from entire bodies to individual organs and even micron sections. The dentogingival junction (DGJ) consists of both epithelial and connective tissues that are closely related to the tooth's mineralized tissues. Cutting-grinding techniques are commonly used to visualize DGJ histology. These techniques exclude enamel from preparations and focus on visualizing hard or soft tissues. To improve the micro-anatomical and histological study of this region, we applied micro-plastination technique to obtain micro-thin slices below 150 μm thick from human and animal samples. The DGJ microanatomy was visualized by applying histological stains to the micro-plastinated slices, highlighting the technique's endogenous autofluorescence capacity identifying periodontal tissues, including dentin, enamel, cementoenamel junction, dentinal tubules, connective tissue, and collagen. Based on our results, we confirm that micro-plastination is a useful technique for visualizing anatomical regions that are difficult to access, such as the DGJ. Micro-plastination can be used as an alternative technique, providing a new approach for its application in anatomical and morphological research protocols.

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利用微塑化技术观察牙龈交界处。

塑化技术为生物安全提供了保障，并使生物材料（从整个身体到单个器官，甚至微米切片）的长期保存成为可能，从而彻底改变了解剖学和研究领域。牙龈交界处（DGJ）由上皮组织和结缔组织组成，与牙齿的矿化组织密切相关。切磨技术通常用于观察 DGJ 组织学。这些技术在制备过程中排除了釉质，重点是观察硬组织或软组织。为了改进该区域的显微解剖学和组织学研究，我们采用了显微塑化技术，从人类和动物样本中获得厚度低于150微米的显微薄片。通过对微塑化切片进行组织学染色来观察 DGJ 的微观解剖，突出了该技术识别牙周组织的内源性自发荧光能力，包括牙本质、牙釉质、牙本质釉质交界处、牙本质小管、结缔组织和胶原蛋白。根据我们的研究结果，我们证实了显微塑化是一种有用的技术，可用于观察难以触及的解剖区域，如 DGJ。微塑化可作为一种替代技术，为其在解剖学和形态学研究方案中的应用提供了一种新方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical Anatomy 医学-解剖学与形态学

CiteScore

5.50

自引率

12.50%

发文量

154

审稿时长

3 months

期刊介绍： Clinical Anatomy is the Official Journal of the American Association of Clinical Anatomists and the British Association of Clinical Anatomists. The goal of Clinical Anatomy is to provide a medium for the exchange of current information between anatomists and clinicians. This journal embraces anatomy in all its aspects as applied to medical practice. Furthermore, the journal assists physicians and other health care providers in keeping abreast of new methodologies for patient management and informs educators of new developments in clinical anatomy and teaching techniques. Clinical Anatomy publishes original and review articles of scientific, clinical, and educational interest. Papers covering the application of anatomic principles to the solution of clinical problems and/or the application of clinical observations to expand anatomic knowledge are welcomed.