New era of plasma dentistry.

IF 3.6 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Free Radical Research Pub Date : 2024-12-01 Epub Date: 2024-12-27 DOI:10.1080/10715762.2024.2446323

Kotaro Sato, Hiromasa Tanaka, Yasumasa Okazaki, Masaru Hori, Hideharu Hibi, Shinya Toyokuni

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Abstract

Plasma, which was coined by Irving Langmuir in 1928, is the fourth physical state after the solid/liquid/gas phases. Low-temperature plasma (LTP) is a contradictory condition that involves high energy with free radicals at near-body temperatures and was developed through engineering in the 1990's. Research on LTP in engineering and medical fields has rapidly developed since the 2000's. LTP can be applied through direct or indirect exposure, and there are advantages to both methods. In the medical field, LTP has been found to exert several effects, such as wound healing, hemostasis and anticancer effects, mainly based on different levels of oxidative stress. In the dental field, studies have been performed on LTP applications for general dental procedures, such as restorative, periodontal and prosthodontic procedures, and for oral cancer treatment. Many studies have demonstrated the effectiveness of LTP. Compared with other organs, the anatomical characteristic of the oral cavity is easy direct observation, which is highly advantageous for clinical applications. Due to its good accessibility and efficiency, plasma dentistry is expected to be applied to various dental applications in clinics in the near future.

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等离子牙科的新时代。

等离子体是继固/液/气相之后的第四种物理状态，由Irving Langmuir于1928年提出。低温等离子体（LTP）是20世纪90年代通过工程发展起来的一种涉及近体温度下高能量和自由基的矛盾状态。自2000年代以来，LTP在工程和医学领域的研究得到了迅速发展。LTP可以通过直接或间接暴露来应用，两种方法都有各自的优点。在医学领域，LTP已被发现发挥多种作用，如伤口愈合、止血和抗癌作用，主要基于不同水平的氧化应激。在牙科领域，LTP在一般牙科手术中的应用研究，如修复、牙周和修复手术，以及口腔癌治疗。许多研究已经证明了LTP的有效性。与其他脏器相比，口腔的解剖特点便于直接观察，对临床应用十分有利。由于等离子体牙科具有良好的可及性和高效性，有望在不久的将来应用于临床的各种牙科应用。

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来源期刊

Free Radical Research 生物-生化与分子生物学

CiteScore

6.70

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Free Radical Research publishes high-quality research papers, hypotheses and reviews in free radicals and other reactive species in biological, clinical, environmental and other systems; redox signalling; antioxidants, including diet-derived antioxidants and other relevant aspects of human nutrition; and oxidative damage, mechanisms and measurement.