Biosciences Division, College of Dentistry, The Ohio State University, Columbus, OH, USA.
J Periodontal Res. 2017 Aug;52(4):666-685. doi: 10.1111/jre.12444. Epub 2017 Mar 6.
Though cementum of the tooth root is critical for periodontal structure and tooth attachment and function, this tissue was not discovered and characterized on human teeth until a full century later than enamel and dentin. Early observations from the seventeenth to the nineteenth centuries by Marcello Malpighi, Antonie van Leeuwenhoek, Robert Blake, Jacques Tenon and Georges Cuvier founded a confusing and conflicting nomenclature that obscured the nature of cementum, often conflating it with bone. Advances in microscopy and histological procedures yielded the first detailed descriptions of human cementum in the 1830s by Jan Purkinje and Anders Retzius, who identified for the first time acellular and cellular types of cementum, and the resident cementocytes embedded in the latter. Comparative anatomy studies by Richard Owen and others over the latter half of the nineteenth century identified coronal and radicular cementum varieties across the Reptilia and Mammalia. The functional importance of cementum was not appreciated until detailed anatomical studies of the periodontium were performed by G.V. Black and others in the late nineteenth and early twentieth centuries. These early studies on cementum laid the foundation for more advanced understanding of cementum ultrastructure, composition, development, physiology, disease, genetics, repair and regeneration throughout the twentieth and into the twenty-first century.
尽管牙根的牙骨质对于牙周结构和牙齿附着及功能至关重要,但直到比牙釉质和牙本质晚一个世纪,人们才发现并描述了人类牙齿的牙骨质。17 世纪至 19 世纪,Marcello Malpighi、Antonie van Leeuwenhoek、Robert Blake、Jacques Tenon 和 Georges Cuvier 等人的早期观察结果建立了一个令人困惑和相互矛盾的命名法,混淆了牙骨质的本质,经常将其与骨混淆。显微镜和组织学程序的进步使 Jan Purkinje 和 Anders Retzius 在 19 世纪 30 年代首次对人类牙骨质进行了详细描述,他们首次确定了无细胞和有细胞类型的牙骨质,以及嵌入后者的常驻牙骨质细胞。19 世纪后半叶,Richard Owen 等人的比较解剖学研究在爬行动物和哺乳动物中确定了冠根牙骨质的种类。直到 19 世纪末和 20 世纪初,G.V. Black 等人对牙周组织进行了详细的解剖学研究,才认识到牙骨质的功能重要性。这些早期的牙骨质研究为 20 世纪和 21 世纪牙骨质超微结构、组成、发育、生理学、疾病、遗传学、修复和再生的更深入理解奠定了基础。