Functionalized Nanoparticles: A Paradigm Shift in Regenerative Endodontic Procedures.

Clinical treatment of inflamed tooth pulp mostly involves the removal of the entire pulp tissue. Because the vitality of the tooth is important for its ability to function, optimal regenerative biomaterials must be developed to maintain the vitality. Despite vast advances in the field of endodontics, the clinical translation of regenerative endodontic procedures and materials remains challenging. Patient-specific, tissue-derived stem cells play a major role in regeneration and revascularization, and these stem cells require an infection-free environment for a successful outcome. However, the high doses of antibiotics currently used to maintain an infection-free environment for tissue regeneration can be toxic for the stem cells. The introduction of nanotechnology in the field of regenerative procedures has overcome these issues and demonstrated promising results. Nanoparticles can be used to deliver antibiotics at very low doses owing to their small size, thereby enhancing antimicrobial activity and reducing the cytotoxic effect. Additionally, nanofibrous scaffolds provide an environment that is favorable for stem-cell migration and proliferation, thereby favoring the regeneration of the pulp-dentin complex. Nanotechnology can be used in the construction of nanofibrous scaffolds incorporated with different bioactive nanoparticles for favorable clinical outcomes. Nonetheless, the role of nanotechnology and the controlled release of various bioactive nanomolecules enhancing stem cell proliferation and regeneration of true pulp-dentin complex remains poorly understood. Given the importance of nanotechnology in tissue regeneration, this review provides an overview of the potential applications of nanotechnology in tooth pulp-dentin regeneration.

Dermatoglyphics and Their Relationship With Blood Group: An Exploration.

INTRODUCTION: Dermatoglyphics means the study of skin markings or patterns on fingers, hands, and feet. Dermatoglyphics is a heritable trait that is considered as a usual phenotype in criminology. Dermatoglyphics acts as a scientific method for identification of an individual and it is constant till demise. OBJECTIVES: This study was conducted to correlate the dermatoglyphics and blood grouping of 150 dental students. MATERIALS AND METHODS: A pro forma was prepared on a durable white paper, rubber stamp ink pads were used for smearing each finger, imprints were taken, and each pattern of fingerprint was observed by powerful hand lens and recorded. Note was made of the sex, age, and ABO and Rh blood group for studying the relationship between types of fingerprints and relation to ABO and Rh blood type. Fingerprint was taken using the INK method as illustrated by Cummins and Mildo. Fingerprint patterns (loops, whorls, and arches) and blood data were collected. RESULTS: In this study, 38% of subjects belonged to O blood group followed by A, B, and AB, and 96.77% of subjects were Rh-positive and 3.23% were Rh-negative. CONCLUSIONS: This study shows the association between distribution of dermatoglyphics, ABO, Rh blood group, and gender.