ABSTRACT
Objective@#The clinical data involving pediatric dental trauma and the features of dental trauma in children were summarized to provide a reference for the treatment and prevention of dental trauma.@*Methods@#A retrospective analysis was performed on 644 children with dental trauma who were admitted to the Department of Children s Stomatology, Stomatology Hospital of Xiamen Medical College from January to December 2022. Descriptive methods were used to analyze the general demographic characteristics of the children and clinical features of dental trauma.@*Results@#The characteristics of the children with dental trauma were as follows: male-to-female ratio, 2.16∶1; mean age, (6.73±3.42) years; most frequently affected age groups, 2-4 and 7-9 years (26.09%, 33.85%); most frequent season for dental trauma, spring (27.61%) and autumn (28.55%); least common season for dental trauma, summer(18.88%); most frequent time of day for dental trauma, evening (51.47%); least common time of day for dental trauma, morning (2.68%); >24 h elapsed from dental trauma-to-treatment (42.08%); most common type of injuries; simple tooth hard tissue and pulp injury in permanent teeth(65.25%) and simple periodontal tissue injury of primary teeth( 53.35 %); most likely teeth involved, maxillary central incisors (80.10%); and number of affected teeth, 1-2.@*Conclusions@#The incidence of dental trauma in children has common features, but most children do not see a dentist timely after dental trauma occurs. Educating parents of children with dental trauma should be encouraged to reduce the incidence of dental injury.
ABSTRACT
Laser-induced retinal damage is a gradual and progressive process, yet there remains a dire need for safe and effective therapeutic drugs and preventive measures to mitigate and treat this condition. Currently, the exploration of treatment options for laser-induced retinal damage is still in its experimental phase. This review delves into the histopathological, functional, and molecular expression levels of the retina after acute laser injury. It aims to uncover the acute changes that occur following laser injury, identify the optimal window period for intervention, and hypothesize the best time for treatment to rescue residual cells and preserve remaining vision.
ABSTRACT
OBJECTIVE:To prepare Levofloxacin and triamcinolone acetonide double-loaded ophthalmic gel. METHODS:Us-ing levofloxacin hydrochloride and triamcinolone acetonide as main components,carbopol-940P as base material,HPMC K4M as tackifier,Levofloxacin and triamcinolone acetonide double-loaded ophthalmic gel was prepared. Using dissolution time as index, the contents of carbopol-940P and HPMC K4M were determined by single factor test,and dissolution time,viscosity and the con-tents of 2 main components were also determined. RESULTS:The concentrations of carbopol-940P and HPMC K4M were 0.4%and 1.2%,separately. The dissolution time was more than 24 h and viscosity was 1 142.67 Pa·s. The content of levofloxacin hydro-chloride was 97.3% of labelled amount (RSD=0.84%,n=3),and that of triamcinolone acetonide was 92.97% of labelled amount(RSD=1.32%,n=3). CONCLUSIONS:Levofloxacin and triamcinolone acetonide double-loaded ophthalmic gel has been prepared successfully.
ABSTRACT
Immobilization of enzymes is important and widely applied in biocatalysis. Streptomyces platensis gene gox, encoding an extracellular L-glutamate oxidase (Gox), was fused to cellulose binding domain (CBDcex) from Cellulomonas fimi and the recombinant protein Gox-CBD was expressed in Escherichia coli. The fusion protein (Gox-CBD) was immobilized onto microcrystalline cellulose. The preparation conditions, binding capacity, properties and stability of the immobilized enzyme were studied. Under the condition of 4 ℃, for 1 hour, the fusion protein Gox-CBD was able to bind microcrystalline cellulose at a ratio of 9.0 mg of protein per gram of microcrystalline cellulose. Enzymatic properties of free and immobilized L-glutamic oxidase (Gox-CBD) were compared. The specific activity of the immobilized enzyme decreased, but its thermal stability increased a lot compared with that of the free Gox-CBD. After incubation at 60 ℃ for 30 min, 70% of the total activity remained whereas the free recombinant Gox completely lost its activity. The immobilized protein was tightly bound to microcrystalline cellulose at pH below 10 or more than 5 mmol/L NaCl. The fusion protein of Gox-CBD can be specifically immobilized on the microcrystalline cellulose on a single step. Therefore, our findings can provide a novel strategy for protein purification and enzyme immobilization.