A Comparative Study to Evaluate the Linear Dimensional Change and Compression Resistance of Four Elastomeric Interocclusal Recording Materials: An in vitro Study.

The transfer of interocclusal data from the patient's mouth to articulators utilizing various types of recording media is necessary for the production of dental prostheses. Occlusal errors in the final prosthesis result from any discrepancies in these interocclusal records. Materials and Methods: The purpose of this study was to assess the linear dimensional changes in the four elastomeric interocclusal recording materials as well as the material's resistance to compression during the cast mounting on the articulator. Result: All four elastomeric materials showed decreasing stability over time and 2 mm thickness showed the highest compression resistance with minimal articulation error. Conclusion: Dimensional stability depends on material and time factors, and compressive resistance decreases with increasing thickness.

Recent Biomedical Applications on Stem Cell Therapy: A Brief Overview.

Stem cells are the specialized cell population with unique self-renewal ability and act as the precursor of all the body cells. Broadly, stem cells are of two types one is embryonic stem cells while the other is adult or somatic stem cells. Embryonic stem cells are the cells of zygote of the blastocyst which give rise to all kind of body cells including embryonic cells, and it can reconstruct a complete organism. While the adult stem cells have limited differentiation ability in comparison with embryonic stem cells and it proliferates into some specific kind of cells. This unique ability of the stem cell makes it a compelling biomedical and therapeutic tool. Stem cells primarily serve as regenerative medicine for particular tissue regeneration or the whole organ regeneration in any physical injury or disease condition (like diabetes, cancer, periodontal disorder, etc.), tissue grafting and plastic surgery, etc. Along with this, it is also used in various preclinical and clinical investigations, biomedical engineering and as a potential diagnostic tool (such as the development of biomarkers) for non-invasive diagnosis of severe disorders. In this review article, we have summarized the application of stem cell as regenerative medicine and in the treatment of various chronic diseases.

Reverse Iontophoretic Extraction of Gabapentin: A Mechanistic Study.

BACKGROUND: For the narrow therapeutic index anti-epileptic drugs, monitoring of plasma concentration is a necessity for avoiding complications related to fluctuation of plasma level. OBJECTIVE: The work was aimed at extracting gabapentin by transdermal reverse iontophoresis to investigate its feasibility for noninvasive therapeutic drug monitoring. METHODS: Gabapentin was delivered in phosphate buffer (pH 7.4) at a therapeutic concentration range of 2-10 µg/ml. The same media was also used in receiver compartment. Extractions were carried out under an electric field of 5 V (current intensity range 0.3 -0.5 mA/cm2), provided by a custom-made power source for a period of 4 h. Samples were withdrawn at hourly intervals and drug content was analyzed by HPLC. RESULTS: Results indicated that gabapentin extraction occurred at both anode and cathode with cathodal extractions showing higher value at all concentrations. Extraction rates at both the chambers were affected by time, the first hour extraction was notably higher than the later hours. Highest extraction rate was noted at pH 5. Surprisingly, anodal extraction was found to show greater positive correlation with current intensity compared to cathodal extraction. CONCLUSIONS: As gabapentin carried no net charge at pH 7.4, orientation mediated electromigration was suggested to be the cause.

Nano-encapsulation of Dietary Phytoconstituent Capsaicin on Emulsome: Evaluation of Anticancer Activity Through the Measurement of Liver Oxidative Stress in Rats.

BACKGROUND: Excessive reactive species derived from oxygen and nitrogen leads to oxidative damage to tissue and organs. Capsaicin (CAP), a pungent component found in red pepper can prevent oxidative stress. OBJECTIVE: The aim of the present work was to evaluate the protective effects of CAP loaded nano-emulsomes (EML) against the oxidative stress of rat livers induced through sodium fluoride (NaF). METHOD: EML was prepared by thin film hydration method that is development of thin lipid film followed by hydration and sonication. EML was characterized by Fourier transform infrared (FT-IR) spectroscopy and X-ray diffraction (XRD) techniques. EML was evaluated for drug entrapment, in vitro drug release, and in vivo study. RESULTS: In vitro drug release study of optimized formulation showed that 50% of CAP was released within 50.21 min while 85% CAP was released in 227.4 min. Single oral dose of free CAP and CAP loaded EML were given to rats 2 hour after NaF administration. Membrane of hepatic cells was damaged by NaF and it was judged by the estimation of lipid peroxidation, reactive oxygen species (ROS), and catalase activity. The administration of CAP loaded EML 2 hr after NAF consumption showed significant decrease in ROS level compared to free CAP. EML containing CAP was more effective in comparison to free CAP in controlling the lipid peroxidation that is thiobarbituric acid substance augmentation in liver by the treatment of NaF. The administration of CAP loaded EML showed significant increase in catalase activity compared to free CAP administration. CONCLUSION: The results clearly demonstrated that CAP loaded EML may be accepted as an effective therapeutic formulation in preventing oxidative damage.

Approaches for breaking the barriers of drug permeation through transdermal drug delivery.

Transdermal drug delivery system (TDDS) utilizes the skin as executable route for drug administration but the foremost barrier against drug permeability is the stratum corneum and therefore, it limits therapeutic bioavailability of the bioactive. This review focuses on the recent advancements in the TDDS which include iontophoresis, sonophoresis, electroporation, microneedles, magnetophoresis, photomechanical waves and electron beam irradiation. These advancements are exhaustively discussed with techniques involved with their beneficial claims for different categories of bioactive. However, a lot of research has been carried out in TDDS, still the system has many pros and cons such as inconsistent drug release, prevention of burst release formulation and problems related to toxicity. In addition to that, to exploit the TDDS more efficiently scientists have worked on some combinational approaches for manufacturing TDDS viz., chemical-iontophoresis, chemical-electroporation, chemical-ultrasound, iontophoresis-ultrasound, electroporation-iontophoresis electroporation-ultrasound and pressure waves-chemicals and reported the synergistic effect of the same for safe, effective and practical use of TDDS. The present article covers all the above-mentioned aspects in detail and hence the article will assuredly serve as an enlightening tool for the visionaries working in the concerned area.