Microhardness Measurements on Tooth and Alveolar Bone in Rodent Oral Disease Models

Motoki Okamoto; Shohei Yamashita; Takumi Memida; Melanie Mendonca; Susanne Brueckner; Shin Nakamura; Satoru Shindo; Ria Achong-Bowe; Jeffrey Thompson; Xiaozhe Han; Toshihisa Kawai; Maiko Suzuki

doi:10.3791/66583

JoVE Journal
Biology

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Microhardness Measurements on Tooth and Alveolar Bone in Rodent Oral Disease Models

설치류 구강 질환 모델에서 치아 및 폐포골에 대한 미세 경도 측정

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06:16 min

April 26, 2024

DOI: 10.3791/66583-v

Motoki Okamoto*¹, Shohei Yamashita*¹, Takumi Memida¹, Melanie Mendonca¹, Susanne Brueckner¹, Shin Nakamura¹, Satoru Shindo¹, Ria Achong-Bowe¹, Jeffrey Thompson¹, Xiaozhe Han¹, Toshihisa Kawai¹, Maiko Suzuki¹

¹Department of Oral Science and Translational Research, College of Dental Medicine,Nova Southeastern University

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Overview

This study establishes a standardized protocol for microhardness analysis in tooth and alveolar bone, contributing to the understanding of hard tissue pathophysiology in rodent oral disease models, particularly dental fluorosis and ligature-induced periodontal bone resorption.

Key Study Components

Research Area

Microhardness testing in dental and bone tissue
Evaluation of environmental impacts on dental health
Pathophysiology of oral diseases

Background

Previous studies lacked detailed methodologies for microhardness testing
Importance of indentation site on microhardness values
Environmental factors like fluoride and PFAS influence dental pathology

Methods Used

Standardized sample preparation and polishing techniques
Rodent models for oral disease research
Utilization of microhardness testing with Vickers indenter

Main Results

Indentation site affects microhardness across enamel layers and dentin
Fluoride treatment results in lower enamel microhardness
Alveolar bone microhardness is significantly reduced in diseased models

Conclusions

The proposed protocol enhances the reliability of microhardness measurements in dental tissues
Findings underscore the need for standardized approaches in biological research assessing dental health

Frequently Asked Questions

What is microhardness testing?

Microhardness testing measures the hardness of materials at a microscopic scale, often used for evaluating dental and bone tissues.

Why is indentation site important in microhardness testing?

Different indentation sites within the enamel and dentin layers can yield varying microhardness values, affecting study results.

How does fluoride affect dental tissues?

Fluoride treatment can lead to reduced enamel microhardness and may compromise overall dental health.

What are PFAS, and why are they significant in this study?

PFAS are manmade chemicals that can impact dental and bone health, making them relevant for evaluating their mechanical properties in studies.

What is the significance of establishing a standardized protocol?

A standardized protocol ensures consistency and reliability in microhardness testing, facilitating meaningful comparisons among studies.

How can this research advance dental pathology studies?

It provides a methodology for better understanding how environmental factors influence oral health, particularly in disease models.

What are the implications of this research?

The findings could aid in developing effective prevention and treatment strategies for dental diseases associated with environmental exposures.

미세경도는 기계적 특성이며 경질 조직 병태생리학을 평가하기 위한 정보 매개변수입니다. 여기에서는 설치류 구강 질환 모델에서 치아 및 치조골의 미세 경도 분석, 즉 치아 불소증 및 인자 유도 치주 골 흡수를 위한 표준화된 프로토콜(샘플 준비, 연마, 평평한 표면 및 압흔 부위)을 보여줍니다.

이 연구에서는 정확하고 일관된 미세경도 테스트를 확립하는 데 중점을 두었습니다. 미세경도 테스트는 전통적인 방법이지만 이전 간행물에서 방법론이 충분히 설명되지 않았으므로 두려워하지 마십시오. 결과에서 입증한 바와 같이, 내부, 중간 및 외부 레이어와 같은 중간 레이어의 의도 부위에 따라 즉각적인 최소 미세경도 감소를 제공합니다.

우리의 결과는 의도 사이트가 정확하고 일관된 결과를 얻는 데 중요하다는 것을 시사합니다. 과학적 차이는 이전 연구가 미세경도 테스트 방법, 특히 변동 부위를 충분히 설명하지 못했다는 것입니다. 이로 인해 미세경도 결과는 연구 간에 일관되지 않았습니다.

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