The Hidden World Within: Microbial Dynamics in Root Canal Systems.

Several hundred different microbial taxa have made the oral cavity their home because of their evolution in multiple species communities within the special ecosystem. On the other hand, the dental pulp or internal tissue of the tooth is a connective tissue that is physiologically sterile and where any microbial infiltration is a harmful indication. It causes the pulp tissue to become inflamed, which leads to the death of the pulp and diffuses infection with inflammation to the peri-radicular tissues. Comprehending the biology of biofilms, the microbial makeup, and the host's reaction to infections in the pathobiology of root canal infections has received a lot of attention throughout the last few decades. Such comprehensive knowledge is required to design preventive medicines as well as clinically effective treatment regimens. Surprisingly, clinical approaches have concentrated more on radiographically perfecting channel preparation than on debridement of these intricate root canal systems, despite the clear realization that root canal infections are biofilm mediated. Since the present comprehension of the microbial etiopathogenesis of apical periodontitis highlights the significance of focusing on procedures such as "canal cleaning" and chemo-mechanical disinfection, the exclusive purpose of endodontic therapy is mainly missed while discussing "canal shaping." We thoroughly examine the state of our knowledge of the composition and functional traits of the root canal microbiome in this review. We also go into the difficulties with root canal disinfection and the cutting-edge approaches that try to solve these difficulties. In conclusion, we present essential guidance for prospective research areas, underscoring their significance as crucial considerations in the field of frontiers in oral health.

Non-surgical Management of Periapical Lesions With the Use of Newer Modalities in Adjunct to the Conventional: A Case Series.

For endodontic therapy to be successful, the root canal space must be sterilized. This is often done using intracanal irrigants and medications. To accomplish periradicular region sterilization and healing, various intracanal medicaments and irrigation techniques have been researched for better treatment outcomes. Ozonated olive oil is the most researched and successful adjunct to other medicaments owing to its antibacterial properties. Triple antibiotic paste (TAP) (metronidazole, ciprofloxacin, and minocycline) was incorporated as an inter-appointment intracanal dressing. Currently, many newer advances are depicting synergistic effects in the elimination of persistent endodontic pathogens. Given this, in the current case series, periapical lesions were managed non-surgically for alternating weeks by the advent of triple antibiotic paste (TAP) and ozonated olive oil (O3-oil) with laser activation. Irrigation and its effects were further enhanced with the use of a laser, aiming for thorough debridement and rendering the canal free of microbes. Once the patient was asymptomatic and there was no sinus drainage seen, final obturation was done. Therefore, this case series depicts that traditional root canal therapy with the use of ozonated olive oil and laser activation can non-surgically heal the lesion, leading to successful treatment outcomes. Periapical lesions in three cases have been observed; on the initial visit, all lesions were accessible, cleansed, and shaped. We administered ozonated olive oil with laser activation and a triple antibiotic paste on the following visit. In all three cases, six-month follow-ups have shown evidence of a successful course of therapy.

Clinical Chronicles: A Case Report on Pink Tooth of Mummery.

Internal tooth resorption is a subtle proceeding typically occurring in teeth with a history of trauma, chronic pulpal inflammation, or caries-related issues. It is frequently observed in anterior teeth that are more vulnerable and susceptible to injury, but can also affect posterior teeth, often due to pulp involvement in caries. This case report illustrates the handling of a resorption in the cervical third of the root. A 28-year-old female patient was referred for endodontic and esthetic treatment for her primary complaint of pink spot staining in her upper left central incisor's crown. The tooth had symptomatic apical periodontitis. Final Diagnosis was Class 4 invasive cervical resorption. This case study outlines the effective management of an extensive internal root resorption using a non-surgical approach and the application of MTA as repairing material with thermo-plascticized gutta-percha as an obturation material. The treatment resulted in the resolution of symptoms and the restoration of periapical tissues. Timely detection, addressing the underlying cause, and effective care of the invasive cervical resorption are essential for achieving a favorable treatment outcome. Obtaining positive results required a patient-centered approach, well-planned therapy, and an accurate diagnosis.

Chitosan: A Versatile Biomaterial Revolutionizing Endodontic Therapy.

Owing to their nanoscale dimensions, nanomaterials have special chemical and physical properties that set them apart from their bulk counterparts. The exterior dimensions of a minimum of half of the particles span several nanometers in their size distribution. Silver nanoparticles (AgNPs) are one type of nanomaterial that has been widely used because of their strong antibacterial properties, which can kill bacteria that are resistant to many drugs. Due to its potential for regulated release, localized retention, and safeguarding the active ingredients against environmental or enzymatic deterioration, nanoparticle technology has also emerged as a promising medication delivery method. The techniques for creating nanoparticles can be easily scaled up and used for a wide variety of medications. Since polymeric nanoparticles are biodegradable, biocompatible, and have more readily available formulation techniques than other nanoparticle drug delivery approaches, their range of applications has been expanding. Chitosan, also known as deacetylated polysaccharide, is a straight-chain cationic polymer that is typically a cationic copolymer. It can be generated naturally or by deacetylating chitin. Consequently, it contains an extensive array of biomedical applications, such as efficient healing of wounds, regeneration of tissues, regeneration of bone, and anti-infection. Because of its functional diversity, accessibility, and being both biodegradable and biocompatible, it has a wide spectrum of uses in dentistry. Recent research on chitosan-based nanoparticles is founded on the field's growing comprehension of the characteristics of chitosan and techniques for chemical or physical modification that are used to optimize the drug loading and release characteristics of the nanoparticles.

Pulpotomy for the Management of Irreversible Pulpitis in Mature Teeth.

Strict protocols for evaluating the pulp's preoperative state should be developed, along with a new classification scheme for the different pulp states, as case selection plays a major role in the effectiveness of adult pulpotomy. In this case report, a male patient, age 15, who had a carious lower left first molar underwent pulpotomy. The pulp's initial state was ascertained by pulse oximetry, electric pulp testing (EPT), and cold testing. The final diagnosis was symptomatic irreversible pulpitis. A 12-month follow-up period following the placement of mineral trioxide aggregate (MTA) (MTA Angelus Angelus, Londrina, Brazil; Clinician's Choice, New Milford, CT) and tooth-colored composite restoration revealed no visible anomalies in the postoperative radiographs, and the tooth remained functional and free of symptoms.

Surgical Management of Radicular Cyst With the Use of Advanced Platelet-Rich Fibrin and Bone Graft: A Case Report.

In addition to helping with wound healing, periapical surgery is performed to remove periapical disease. Concentrates of platelets have been applied extensively in endodontics and other fields of regenerative medicine. A periapical inflammatory lesion was found in a 35-year-old male patient who complained of pain in the maxillary anterior region and displayed slight edema in the same area. The lesion was treated with periapical surgery utilizing advanced platelet-rich fibrin (A-PRF). Mesenchymal stem cell processes of proliferation and differentiation can be induced by several types of platelet concentrates. Growth factors are released at the application site by platelet-rich fibrin (PRF) for a minimum of seven days. The activity of osteoblasts is stimulated by growth factors and secreted cytokines. Furthermore, the release of growth factors promotes fibroblast migration, which quickens tissue regeneration.  In addition to helping with wound healing, periapical surgery is performed to remove periapical disease. The synthesis of fibrin networks laden with platelets and growth factors is made possible by PRF, which is subsequently used to accelerate bone regeneration and, consequently, to improve bone formation. In this instance, the best possible bone regeneration and repair were accomplished. After 12 weeks, 24 weeks, and 36 weeks, the patient was brought back for follow-ups. He was found to be asymptomatic, and the radiograph showed considerable periapical healing with nearly enough bone production.

Evaluation of Postoperative Pain in Response to Polydimethylsiloxane and Calcium Silicate-Based Endodontic Sealers Using the Visual Analog Scale (VAS).

BACKGROUND: The main purpose of obturation is to achieve a complete three-dimensional sealing of the pulp space to create a tight seal and prevent bacterial movement and its toxins to the periapical tissues. Different approaches and sealants have been developed due to the root canal system's intricacy for ensuring tight adherence. The root canal sealants need to establish a bond between the material and root dentine in order to prevent leakage. Even though the biocompatibility and sealing abilities of the materials are prioritized in modern endodontics, some sealers incorporate therapeutic or antibacterial drugs like corticosteroids or calcium hydroxide. An endodontic sealer's cytotoxicity and antibacterial capabilities must be perfectly balanced. Due to the limited evidence in endodontic literature regarding the relationship between postoperative pain and the sealers that are used in this study, we conducted the research to explore the same. AIM: This study aimed to evaluate and compare pain in responses to polydimethylsiloxane and calcium silicate-based endodontic sealers (CS-BG). METHODOLOGY: The participants were divided into two groups, Nanoseal (Nanoseal-S™; Prevest, DenPro, USA) and Bioceramic (CeraSeal™; Mera Biomed Co., Cheongju, Korea) with 20 patients in each group. After caries excavation and access opening, the biomechanical preparations were performed in each tooth. To avoid over-instrumentation, the working length was verified after each instrument use. The standard irrigation protocol was performed. Sealers were mixed according to the manufacturer's instructions followed by obturation. The patients were asked to take medicines only if they had pain. The pain was evaluated using the visual analog scale (VAS) postoperatively at 24 hours, 48 hours, and a week after the root canal obturation. RESULTS: Pain perception using Nanoseal-S™ and CeraSeal™ materials were compared at 24 hrs, 72 hrs, and seven days. Nanoseal showed statistically significant repletion at 24 hrs and seven days. CONCLUSION: The decreased irritation character of CS-BG for the periapical tissues explains the lesser percentage of pain during and pain immediately after root canal obturation observed in this investigation, which proves CS-BG is highly biocompatible with periapical tissue and further reduces patient anxiety during root canal obturation.

Salivary biomarkers in COVID-19 patients.

The use of salivary biomarkers in diagnosis, treatment, and overall prognosis of coronavirus disease 2019 (COVID-19) has been developed recently. Salivary biomarkers are extremely promising as they are fast to obtain and involve noninvasive collection of specimens. Monitoring patients in real time is necessary in this pandemic. Saliva is another biofluid with major advantages at the molecular level. Methods that detect viral presence in the host secretions measure the current infection by severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2), whereas the detection of human antibodies against SARS-CoV-2 evaluates the past exposure to the virus. There is an urgent need to increase the active research for the detection of SARS-CoV-2 in saliva because diagnostics may provide a reliable and cost-effective method and is suitable for the fast and early detection of COVID-19 infection. Salivary biomarkers have a potential to be a vital guide in determining coronavirus disease. Many people still do not get results of COVID-19 tests due to imbalance between supply and demand at large testing centers. The use of saliva has various advantages compared to collection of nasopharyngeal swabs. New techniques should be developed for detecting salivary biomarkers that help in diagnosis of COVID-19.