Biomechanical pathways of dentoalveolar fibrous joints in health and disease

Lin, Jeremy D.; Ryder, Mark I.; Kang, Misun; Ho, Sunita P.

doi:10.1111/prd.12306

Cited by 12 publications

(16 citation statements)

References 90 publications

(235 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The first of these approaches, presented in the paper by Golub and Lee, 14 The paper by Saito et al 17 also presents an extensive review of the interactions between implant design and mechanics with the surrounding biological tissue. Gaining new insights into the relationship of biomechanics to periodontal therapy is also the theme of the next article by Lin et al, 18 which revisits one of the oldest questions in periodontal research and practice, namely "What is the role of nonphysiological forces on the periodontium in the initiation and progression of loss of attachment?" 19 While it may appear that much earlier clinical studies on autopsy tissue, clinical observations, and histology on animal models resolved these questions, this paper revisits this question with an integration of newer imaging, biomechanical, and biochemical techniques, from the largest to the smallest scales, to support the potential of these new technologies in understating the behavior of the bone-ligament-cementum complex in occlusal trauma, mastication, and orthodontic tooth movement.…”

Section: Several Groups Have Made Observations Based On Samples Takenmentioning

confidence: 99%

Periodontics in the USA: An introduction

Ryder

2019

Periodontology 2000

View full text Add to dashboard Cite

The United States continues to be an incubator for new concepts and approaches to the diagnosis, treatment, and prevention of periodontal diseases. This volume of Periodontology 2000 presents some of these newer areas of research and paradigms that have emerged in the United States from both long‐established and new investigators. These areas include: (1) more comprehensive approaches to assessing the total periodontal microbiome, including bacteria, viruses, and fungi, and their interactions with both the local and systemic inflammatory and immune responses, as well as with other oral and systemic conditions and diseases; (2) new developments for a more comprehensive characterization of the patient genome, transcriptome, and proteome profiles and the role of these profiles in periodontal disease pathogenesis; (3) new developments in nonsurgical approaches to periodontal diseases, including broad‐based lines of attack using natural antimicrobials and host‐modulation therapies and more focused approaches that target specific interactions in the host response; and (4) new big data analysis, machine learning, and imaging approaches, both for understanding the pathogenesis of periodontal diseases and for developing improved risk‐assessment tools and better treatment outcomes.

show abstract

Section: Several Groups Have Made Observations Based On Samples Takenmentioning

confidence: 99%

Periodontics in the USA: An introduction

Ryder

2019

Periodontology 2000

View full text Add to dashboard Cite

show abstract

“…Within the oral cavity, the periodontal structures consisting of the gingiva, the periodontal ligament (PDL), cementum and the alveolar bone are permanently subjected to cyclic and static mechanical loading, which is a direct consequence of chewing, occlusion, mastication or orthodontic treatment [29]. Although the ECMs of the periodontium harbor different biochemical and biophysical properties, their mechanical integrity and continuous remodeling and regeneration is a basic requirement for oral health [30][31][32].…”

Section: Introductionmentioning

confidence: 99%

From the Matrix to the Nucleus and Back: Mechanobiology in the Light of Health, Pathologies, and Regeneration of Oral Periodontal Tissues

et al. 2021

View full text Add to dashboard Cite

Among oral tissues, the periodontium is permanently subjected to mechanical forces resulting from chewing, mastication, or orthodontic appliances. Molecularly, these movements induce a series of subsequent signaling processes, which are embedded in the biological concept of cellular mechanotransduction (MT). Cell and tissue structures, ranging from the extracellular matrix (ECM) to the plasma membrane, the cytosol and the nucleus, are involved in MT. Dysregulation of the diverse, fine-tuned interaction of molecular players responsible for transmitting biophysical environmental information into the cell’s inner milieu can lead to and promote serious diseases, such as periodontitis or oral squamous cell carcinoma (OSCC). Therefore, periodontal integrity and regeneration is highly dependent on the proper integration and regulation of mechanobiological signals in the context of cell behavior. Recent experimental findings have increased the understanding of classical cellular mechanosensing mechanisms by both integrating exogenic factors such as bacterial gingipain proteases and newly discovered cell-inherent functions of mechanoresponsive co-transcriptional regulators such as the Yes-associated protein 1 (YAP1) or the nuclear cytoskeleton. Regarding periodontal MT research, this review offers insights into the current trends and open aspects. Concerning oral regenerative medicine or weakening of periodontal tissue diseases, perspectives on future applications of mechanobiological principles are discussed.

show abstract

“…Changing the biomechanical properties of root dentin is considered as a possible way to influence the restoration and fixation of the periodontium (Lin et al, 2020). By changing the surface layer of dentin, which is a thin layer of less mineralized collagen, the dentinal tubules open and thus the fixation of the collagen of the periodontal ligament to the dentin surface changes.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Hyaluronic Acid on the Periodontium in Spontaneous Periodontitis in Rats

et al. 2021

View full text Add to dashboard Cite

The aim of the article was to study changes in periodontal tissues in rats with spontaneous periodontitis (SP) and to evaluate the effect of hyaluronic acid (HA) on the state of the periodontium. Wistar rats with signs of SP were divided into 6 groups: 1) intact group; 2) intact animals with HA "HD-1,0 MDa"; 3) SP group; 4) SP with HA "S-2,4 MDa"; 5) SP with HA "ST-2,4 MDa"; 6) SP with HA "HD-1,0 MDa". The study of the periodontium rats with SP noted the main structural changes (collagen reduction, resorption of alveolar bone, dilatation and stasis of the vessels of the periodontium, gingival papilla and tooth pulp), which were assessed as moderate. Morphological evidence of inflammation was infiltration of neutrophils into the connective tissue of the gums, without the formation of abscesses. Local administration of HA did not cause additional structural damage in periodontal tissues of rats with SP, but also did not affect changes in the microvascular system of periodontium and tooth pulp, periodontal ligaments, only a tendency to inhibit alveolar bone resorption in rats was noted. One can consider the tendency to improve the condition of periodontal tissues in the group of rats injected with high molecular HA and HA with mannitol (2.4 MDa).

show abstract

Biomechanical pathways of dentoalveolar fibrous joints in health and disease

Cited by 12 publications

References 90 publications

Periodontics in the USA: An introduction

Periodontics in the USA: An introduction

From the Matrix to the Nucleus and Back: Mechanobiology in the Light of Health, Pathologies, and Regeneration of Oral Periodontal Tissues

The Effect of Hyaluronic Acid on the Periodontium in Spontaneous Periodontitis in Rats

Contact Info

Product

Resources

About