Journal of Dental Sciences (Apr 2024)

Development of a zinc chloride-based chemo-mechanical system for potential minimally invasive dental caries removal system

  • Yu-Tzu Wu,
  • Po-Wen Lu,
  • Chih-An Lin,
  • Liang-Yu Chang,
  • Chonlachat Jaihao,
  • Tzu-Yu Peng,
  • Wei-Fang Lee,
  • Nai-Chia Teng,
  • Sheng-Yang Lee,
  • Ram Prakash Dwivedi,
  • Poonam Negi,
  • Jen-Chang Yang

Journal volume & issue
Vol. 19, no. 2
pp. 919 – 928

Abstract

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Background/purpose: The chemo-mechanical caries-removal technique is known to offer advantages of selective dentin caries treatment while leaving healthy dental tissues intact. However, current sodium hypochlorite based reagents usually excessively damage dentin collagen. Therefore, the purpose of this study was to develop a novel chemo-mechanical caries-removal system to preserve the collagen network for subsequent prosthetic restorations. Materials and methods: The calfskin-derived collagen was chosen as a model system to investigate the dissolution behavior of collagen under different operating conditions of chemical-ultrasonic treatment systems. The molecular weight, triple-helix structure, the morphology, and functional group of collagen after treatment were investigated. Results: Various concentrations of sodium hypochlorite or zinc chloride together with ultrasonic machinery were chosen to investigate. The outcomes of circular dichroism (CD) spectra demonstrated stability of the triple-helix structure after treatment of a zinc chloride solution. In addition, two apparent bands at molecular weights (MWs) of 130 and 121 kDa evidenced the stability of collagen network. The positive 222 nm and 195 nm negative CD absorption band indicated the existence of a triple-helix structure for type I collagen. The preservation of the morphology and functional group of the collagen network on the etched dentin surface were investigated by in vitro dentin decalcification model. Conclusion: Unlike NaOCl, the 5 wt% zinc chloride solution combined with ultra-sonication showed dissolution rather than denature as well as degradation of the dentin collagen network. Additional in vivo evaluations are needed to verify its usefulness in clinical applications.

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