Odontogenic infections in the antibiotic era: approach to diagnosis, management, and prevention.

PURPOSE: The prevalence of odontogenic infections remains one of the highest in the world. If untreated, odontogenic infections can break through the limitation, disseminate to other organs or spaces, and cause high mortality rates. However, it is still difficult to rapidly target limited or disseminated infections in clinical practice. The type of disseminated odontogenic infections and the responsible bacteria have not been described in detail. METHODS: Search databases (e.g., PubMed, MEDLINE, Web of Science, Embase) for reports published from 2018.1 to 2022.9. Use search strategies: ("odontogenic infections" OR "pulpitis" OR "periapical lesions" OR "periodontal diseases") AND ("disseminated infections" OR "complication"). RESULTS: Fourteen different types of disseminated odontogenic infections, most of which are polymicrobial infections, can spread through the body either direct or through hematogenous diffusion. Multiple microbial infections can be more invasive in the transmission of infection. Secondary infections are commonly associated with bacteria like Fusobacterium spp., Streptococcus spp., Peptostreptococcus spp., Prevotella spp., and Staphylococcus spp. Antibiotics with broad-spectrum activity are fundamental as first-line antimicrobial agents based on the microorganisms isolated from disseminated infections. CONCLUSION: This review elaborates on the epidemiology, microorganisms, risk factors, and dissemination routes, and provides evidence-based opinions on the diagnosis, multidisciplinary management, and prevention of odontogenic infections for dentists and clinicians.

Efficacy of Dexamethasone Injection at Different Sites on Postoperative Sequelae After Extracting Mandibular Impacted Third Molars: A Randomized Controlled Trial.

BACKGROUND: Dexamethasone, an efficacious anti-inflammatory agent, is widely used after tooth extraction. However, its optimal injection site is yet to be investigated. PURPOSE: We compare the efficacy of dexamethasone injection at different sites on postoperative sequelae after extracting mandibular impacted third molars (MITMs). STUDY DESIGN, SETTING, AND SAMPLE: A prospective randomized controlled trial was conducted. Healthy adults with fully MITMs scheduled for extraction were included. Exclusion criteria were 1) patients with the systemic alteration that prevented the surgical procedure; 2) pregnancy, breastfeeding, and premenstrual period; 3) hypersensitivity to the drug under test; and 4) those who did not return for postoperative follow-up at 1, 3, and 7 days. EXPOSURE VARIABLE: The subjects were randomized to 3 groups. An online randomization plan generator assigned each subject to a single treatment by randomly permuting blocks. Different sites for postoperative dexamethasone injections included the buccal side of the adjacent second molar and extraction sockets. Dexamethasone injection (4 mg) on the buccal side of the adjacent second molar (group 1), an injection on the buccal side of extraction sockets (group 2), and an injection of physiological saline (0.8 mL) on the buccal side of the adjacent second molar (control). MAIN OUTCOME VARIABLES: The outcome variables were postoperative facial swelling, limitation of the mouth opening, postoperative pain, and postoperative quality of life evaluation. The pain was assessed using a visual analog scale at 1, 3, and 7 days, postoperatively. The quality of life was recorded throughout the Posse scale at 7 days. COVARIATES: The covariates are age, sex, length of operation, and type of impacted teeth and surgery. ANALYSES: The statistical analysis was performed using analysis of variance, repeated measures analysis of variance, χ2 test, or Fisher's exact tests with P values < .05 considered statistically significant. RESULTS: Our study included 58 participants with a mean age of 19.48 ± 3.31 years; group 1 (n = 24), group 2 (n = 20), and control group (n = 14). On day 3 postoperative, the swelling and trismus were significantly less in group 1 than in the other 2 groups (P < .05), and group 1 had an overall postoperative quality of life compared to other groups (P < .05). Unaffected speech function was present in 73.7% of patients in group 1, while 50% of patients in group 2 had affected speech function 3 days after the operation (P < .05). The "unable to open mouth" of the "Eating subscale" and "felt tingling" had statistical significance (P < .05). CONCLUSION AND RELEVANCE: Dexamethasone injections on the buccal side of the adjacent second molar can be a viable option for treating facial swelling and limitation of mouth opening after total MITMs extraction.

Anatomy and function of the canalis sinuosus and its injury prevention and treatment strategies in implant surgery. / çª¦ç®¡çš„è§£å‰–ä¸ŽåŠŸèƒ½åŠå ¶åœ¨ç§æ¤æœ¯ä¸­æŸä¼¤çš„é˜²æ²»ç­–ç•¥.

The canalis sinuosus, a canal containing the anterior superior alveolar nerve bundle, originates from the infraorbital canal and extends along the maxillary sinus and nasal cavity edges to the anterior maxilla. It was once regarded as an anatomical variation. However, with the widespread application of cone beam computed tomography (CBCT), the detection rate of canalis sinuosus in the population has increased. The canalis sinuosus exhibits diverse courses, branching into multiple accessory canals and terminating at the nasal floor or the anterior tooth region, with the majority traversing the palatal side of the central incisor. The anterior superior alveolar nerve bundle within the canalis sinuosus not only innervates and nourishes the maxillary anterior teeth, their corresponding soft tissues, and the maxillary sinus mucosa, but also relates to the nasal septum, lateral nasal wall, and parts of the palatal mucosa. To minimize surgical complications, implantologists need to investigate strategies for preventing and treating canalis sinuosus injuries. Preoperatively, implantologists should use CBCT to identify the canalis sinuosus and virtually design implant placement at a distance of more than 2 mm from the canalis sinuosus. Intraoperatively, implantologists should assess bleeding and patient comfort, complemented by precision surgical techniques such as the use of implant surgical guide plates. Postoperatively, CBCT can be employed to examine the relationship between the implant and the canalis sinuosus, and treatment of canalis sinuosus injuries can be tailored based on the patient's symptoms. This review summarizes the detection of canalis sinuosus in the population, its anatomical characteristics, and its physiological functions in the anterior maxilla, and discusses strategies for effectively avoiding canalis sinuosus injuries during implant surgery, thereby enhancing implantologists' awareness and providing references for clinical decision-making.

4D Printing of Personalized-Tunable Biomimetic Periosteum with Anisotropic Microstructure for Accelerated Vascularization and Bone Healing.

An ideal biomimetic periosteum is expected to wrap various bone surfaces to orchestrate an optimal microenvironment for bone regeneration, including facilitating local vascularization, recruiting osteoblasts, and mineralizing the extracellular matrix (ECM). To mimic the role of the natural periosteum in promoting bone repair, a 4D printing technique to inlay aligned cell sheets on shape-shifting hydrogel is used, containing biophysical signals and spatially adjustable physical properties, for the first time. The outer hydrogel layer endows the biomimetic periosteum with the ability to digitally coordinate its 3D geometry to match the specific macroscopic bone shape to maintain a bone healing microenvironment. The inner aligned human mesenchymal stem cells (hMSCs) layer not only promotes the migration and angiogenesis of co-cultured cells but also exhibits excellent osteogenic differentiation properties. In vivo experiments show that apart from morphing preset shapes as physical barriers, the aligned biomimetic periosteum can actively facilitate local angiogenesis and early-stage osteogenesis. Altogether, this present work provides a novel route to construct a personalized biomimetic periosteum with anisotropic microstructure by introducing a tunable shape to maintain the bone reconstruction microenvironment and this strategy can be extended to repair sophisticated bone defects.

Ultraviolet Light-Based Micropattern Printing on Titanium Surfaces to Promote Early Osseointegration.

Patterned interfaces are widely used for surface modification of biomaterials because of a morphological unit similar to that of native tissue. However, engineering fast and cost-effective high-resolution micropatterns directly onto titanium surfaces remains a grand challenge. Herein, a simply designed ultraviolet (UV) light-based micropattern printing to obtain geometrical patterns on implant interfaces is fabricated by utilizing customized photomasks and titanium dioxide (TiO2 ) nanorods as a photo-responsive platform. The technique manipulates the cytoskeleton of micropatterning cells on the surface of TiO2 nanorods. The linear pattern surface shows the elongated morphology and parallel linear arrangements of human mesenchymal stem cells (hMSCs), significantly enhancing their osteogenic differentiation. In addition to the upregulated expression of key osteo-specific function genes in vitro, the accelerated osseointegration between the implant and the host bone is obtained in vivo. Further investigation indicates that the developed linear pattern surface has an outstanding effect on the cytoskeletal system, and finally activates Yes-Associated Protein (YAP)-mediated mechanotransduction pathways, initiating hMSCs osteogenic differentiation. This study not only offers a microfabrication method that can be extended to fabricate various shape- and size-controlled micropatterns on titanium surfaces, but also provides insight into the surface structure design for enhanced bone regeneration.