The rapid detection of bacteria in the oral cavity, its species identification, and bacterial count determination are important to diagnose oral diseases caused by pathogenic bacteria. The existing clinical microbial diagnosis methods are time-consuming as they involve observing patients’ samples under a microscope or culturing and confirming bacteria using polymerase chain reaction (PCR) kits, making the process complex. Therefore, it is required to analyze the development status of substances and systems that can rapidly detect and analyze pathogenic microorganisms in the oral cavity. With research advancements, a close relationship between oral and systemic diseases has been identified, making it crucial to identify the changes in the oral cavity bacterial composition. Additionally, an early and accurate diagnosis is essential for better prognosis in periodontal disease. However, most periodontal diseasecausing pathogens are anaerobic bacteria, which are difficult to identify using conventional bacterial culture methods. Further, the existing PCR method takes a long time to detect and involves complicated stages. Therefore, to address these challenges, the concept of point-of-care (PoC) has emerged, leading to the study and implementation of various chair-side test methods. This study aims to investigate the different PoC diagnostic methods introduced thus far for identifying pathogenic microorganisms in the oral cavity. These are classified into three categories: 1) microbiological tests, 2) microchemical tests, and 3) genetic tests. The microbiological tests are used to determine the presence or absence of representative causative bacteria of periodontal diseases, such as A. actinomycetemcomitans , P. gingivalis , P. intermedia , and T. denticola . However, the quantitative analysis remains impossible, and detecting pathogens other than the specific ones is challenging. The microchemical tests determine the activity of inflammation or disease by measuring the levels of biomarkers present in the oral cavity. Although this diagnostic method is based on increase in the specific biomarkers proportional to inflammation or disease progression in the oral cavity, its commercialization is limited due to low sensitivity and specificity. The genetic tests are based on the concept that differences in disease vulnerability and treatment response are caused by the patient’s DNA predisposition. Specifically, the IL-1 gene is used in such tests. PoC diagnostic methods developed to date serve as supplementary diagnostic methods and tools for patient education, in addition to existing diagnostic methods, although they have limitations in diagnosing oral diseases alone. Research on various PoC test methods that can analyze and manage the oral cavity bacterial composition is expected to become more active, aligning with the shift from treatmentoriented to prevention-oriented approaches in healthcare.

Photodynamic therapy (PDT) has been widely used in clinical fields and done by three components: photosensitizers (PSs), light and oxygen. Under the action of PS as an energy transforming media, the light energy is converted to chemical energy to make effects on target. In the process of PDT, its effect is determined a lot by the parameter of light and the characteristics of PSs. With the development of light source and photosensitizer, the application of PDT has been investigated in oral diseases. This review mainly focused on the effect of PDT on non-tumor diseases of oral cavity, including endodontic, periodontal and mucosal problem. Compared with the normal therapy, the combination therapy with PDT could obtain better efficacy. It was suggested that PDT showed great advantages as an adjuvant therapy in the above oral diseases. Through a further improvement, PDT is expected to play an increasingly important role on the oral disease treatment in the future.

The ciga rette smoki ng may act direct ly on the oral mucosal membrane The effects of smoking has many harrnJul effects on the oral cavi ty ‘ s uch as oral cancer. oral Icukoplakia , erythroplakia‘ nicotine stomati tis. ha iry tongue. smoker’s melanosis. acute nec roti zing ulverative gingivitis, gingivitis/periodontitis ‘ treatment of periodontitis. implant surgery a nd den tal cari es. lf pregna nt woman smokes. the tobacco can effect on the both pregnant and embryo/fetus negati ve ly. For the cessation 0 [' smoki ng, the dentists have an important role to play in preve nti ng t he harmful efTects on smoking in the oral cav ity, Conseq uently smoking cou nseling should be as a part of the dentist's job in the de ntal pract ice,