This clinical case describes using a milled crown on a cracked tooth as the abutment for a removable partial denture. A 63-year-old male patient diagnosed with lipoma undergoing chemotherapy and radiotherapy presented with symptomatic crack tooth syndrome on tooth 36 and partial edentulism. Conservative treatment using a molar band to extracoronally splint the tooth was conducted to determine the prognosis of the crack line. A lower partial cobalt-chromium denture was constructed by incorporating the milled crown of tooth 36 as the abutment. After six months of follow-up, there were no crack tooth symptoms, and regular review was adopted to monitor the tooth. The construction of a milled crown of a cracked tooth presented good and promising clinical outcomes in preserving tooth vitality and preventing crack propagation in partially dentate dentition for the long term.
Salvadora persica or Miswak is known for its antibacterial activities towards various bacteria species, including several oral pathogens. Although Miswak has many therapeutic potentials, the delivery medium is vital to ensure that the desired effects can be delivered to the target site. Ideally, starch is a biopolymer that exhibits muco-adhesive property, suitable as topical delivery material. Hence, this study was done to develop starch-based gel for Miswak antibacterial compound delivery system. In this study, Miswak hexane extract was incorporated into starch-based gels and stored at 4⁰C and room temperature. Miswak gel was tested for its antibacterial activity, and its stability was monitored by visual observation. As a result, the mean inhibitory zones of Miswak gels were found to be 22.67 ± 3.79 mm (4°C) and 20.67 ± 2.08 mm (room temperature) at day-1. The inhibitory zone decreased after 30 days with 13.00 ± 2.52 mm (4°C), and 12.00 ± 1.00 mm (room temperature). It was observed that the gels were stable where there were no colour changes, no phase separation and degradation, visualised up to day-60. In conclusion, the starch-based gel is a suitable delivery system for Miswak extract, thus as potential management for infective ulceration.
This study aims to evaluate the optimum duration of flushing dental unit waterlines (DUWLs) in Universiti Sains Islam Malaysia (USIM) dental polyclinics for removal of heterotrophic bacteria. Water samples were obtained from triple air syringes at each dental chair from oral surgery clinic, outpatient clinic and polyclinic 17 at Faculty of Dentistry, USIM after 16 and 64 hours of not operating the dental units as baseline samples. This is followed by sampling after continuous flushing at 30 seconds, 1 minute, 2 minutes and 3 minutes of flushing duration. The levels of heterotrophic plate count (HPC) for each flushing duration were determined by quantification of colony forming units (CFUs) after cultivation of samples on plate count agar (PCA), R2A agar and 5% sheep blood agar (SBA). Statistically, there was no significant reduction in CFUs of HPC for all flushing duration compared to baseline (P > 0.05) with the most notable HPC reducing level after 1 minute and 3 minutes of flushing DUWLs. However, HPC level at USIM dental clinics is still exceeding the recommendation by Centers for Disease Control and Prevention (CDC) which should be less than 500 CFU/mL. The existing method of controlling DUWLs contamination in USIM dental clinics is only by flushing DUWLs 1 minute every morning prior to dental treatment as recommended by Malaysian Dental Council (MDC) without the use of chemical germicides. Thus, the flushing method alone is not reliable to reduce the number of microorganisms in the DUWLs.
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