Dental caries as a health risk for visual acuity in relation to salivary transforming growth factor beta-1 among students aged 8-10 years: A cross-sectional study.

Background: Dental caries and an impairment in visual acuity (VA) may both be caused by a variety of risk factors. Various conditions of the eye can appear as a consequence of overall inflammation and active dental caries. Aim: The present study aims to assess dental caries and salivary status by measuring the transforming growth factor beta-1 (TGF-ß1) and flow rate between visually impaired students compared with students with normal vision. Materials and Methods: Research was performed employing a cross-sectional comparative study design conducted among representative 653 students aged 8-10 years at primary schools in Al-Diwaniyah governorate using the Snellen E chart for measuring VA status. Partitioning the students according to the degree of VA into normal students with normal VA of 6/9 or better and students with visual impairment of 6/12 or worse was done. Sub-sample of 180 students was recruited randomly from both groups, age and gender-matched participants for salivary analysis, and dental caries assessment measured by decay, missed, filled index, according to the World Health Organization in 2013. Results: Out of 653 students, only 70 students suffer from a decrease in VA. Dental caries was more prevalent in those who had a decrease in VA compared with normal groups. For primary teeth decay, missed, filled teeth index (DMFT/dmft), the result was not significant but highly significant for DMFT/dmft. A significant decrease in salivary flow rate and increased salivary TGF-ß1 level among visually impaired students was found. Conclusions: According to the current research, the study population that has impaired VA, dental health status has greatly deteriorated.

Recent progressions in biomedical and pharmaceutical applications of chitosan nanoparticles: A comprehensive review.

Nowadays, the most common approaches in the prognosis, diagnosis, and treatment of diseases are along with undeniable limitations. Thus, the ever-increasing need for using biocompatible natural materials and novel practical modalities is required. Applying biomaterials, such as chitosan nanoparticles (CS NPs: FDA-approved long-chain polymer of N-acetyl-glucosamine and D-glucosamine for some pharmaceutical applications), can serve as an appropriate alternative to overcome these limitations. Recently, the biomedical applications of CS NPs have extensively been investigated. These NPs and their derivatives can not only prepare through different physical and chemical approaches but also modify with various molecules and bioactive materials. The potential properties of CS NPs, such as biocompatibility, biodegradability, serum stability, solubility, non-immunogenicity, anti-inflammatory properties, appropriate pharmacokinetics and pharmacodynamics, and so forth, have made them excellent candidates for biomedical applications. Therefore, CS NPs have efficiently applied for various biomedical applications, like regenerative medicine and tissue engineering, biosensors for the detection of microorganisms, and drug delivery systems (DDS) for the suppression of diseases. These NPs possess a high level of biosafety. In summary, CS NPs have the potential ability for biomedical and clinical applications, and it would be remarkably beneficial to develop new generations of CS-based material for the future of medicine.

Application of spore morphology to solve identification problems in certain species of family Dryopteridaceae from Malakand Division, Pakistan.

Here we investigate the morphology of the spores of 12 native taxa of Dryopteridaceae that grow in Malakand division, Pakistan; most of these species not fully described before. This study intends to survey the taxonomic significance of spore morphological features and their variation useful for species identification in 7 species of Polystichum and 5 taxa of Dryopteris. The spores examinations were accomplished utilizing a light microscope (LM), and scanning electron microscope (SEM). The spores are monolete, medium-sized, with variable shapes in both equatorial and polar views. The mean estimation of equatorial diameter ranging from 28.3 to 58.3 µm and the polar diameter varied from 27.6 to 45.8 µm. The exospore thickness ranges between 1.6 to 3.8 µm, and the thickness of perispore is 0.8-6.7 µm. The perispore is perforated, ornamentation elements occur in different ways in the studied taxa of Polystichum. In investigated Dryopteris taxa, rugate perispore type is found. Results of multivariate statistical analysis (UPGMA, and PCA) established on quantitative and qualitative morphological traits of spores demonstrate that the species form distinct groups, not reflecting any phylogenetic relationships. A key to the spores types is provided for species identification, which dependent on the diagnostic characters of spores. The results of this study indicate that variation of spore morphological traits; in particular, the ornamentation and perispore characteristics, which is surface texture, have diagnostic value at the species level. Our data will help in the identification of spores of the family Dryopteridaceae in palynological and taxonomic studies.

Spore morphology and leaf epidermal anatomy as a taxonomic source in the identification of Asplenium species from Malakand division Pakistan.

Several studies have demonstrated the usefulness of leaf epidermal, and spore morphological characters in the taxonomy of genus Asplenium. However, works on the Pakistani species of Asplenium are not existent. With the objective to verify the efficacy of leaf epidermal and spore morphological traits, the leaf epidermis and spore morphology in nine Asplenium species occurring in Malakand division was studied. The spores were studied under light microscope (LM) and scanning electron microscope (SEM), whereas for leaf epidermal anatomy, the LM was used. The spores are monolete, ellipsoidal in shape, the equatorial and polar diameter ranges between 28.3 and 50.2 × 27.6 and 45.8 µm. The exospore thickness varied from 0.5 to 3.8 µm. The perispore is 0.8-3.5 µm thick, ornamented, and morphologically variable. The spores characters specifically the perispore ornamentation are useful in distinguishing species within the genus. The irregular spore shape and unusual development of perispore wall surface characterize aborted spores in the species of Asplenium × alternifolium. The most informative quantitative characters appeared to be length and width of epidermal cells, and length and width of stomata were useful to distinguish species. The most significant qualitative characters to distinguish species were the anticlinal wall pattern. Our study has shown that considerable variations exist in the leaf epidermis of Asplenium species, at least some of which has taxonomic significance. We confirmed the prevalent taxonomic value of stomatal and epidermal cells traits. The leaf epidermal anatomy and spore morphological features showed to be a good source of information for taxonomy of the genus Asplenium.