Effect of Magnesium Administration on Passive Avoidance Memory and Formalin-Induced Nociception in Diabetic Rats

Purpose: To investigate the effect of oral consumption of magnesium on the memory and pain sensation of diabetic rats.Methods: A total of 48 rats were divided into four groups - untreated control, untreated diabetic, magnesium-treated control and magnesium-treated diabetic. Plasma magnesium and glucose concentrations were measured after induction of diabetes with streptozotocin (STZ; 60 mg/kg). Four weeks after the administration of oral magnesium (10 g/L, MgSO4), the animals were subjected to passive avoidance test whereby latency time (LT) was assessed. This was followed by formalin test which entailed the determination of licking and flinching scoresResults: Increased level of glucose and decreased concentration of magnesium in untreated diabetic group compared to untreated control group (p < 0.001) were observed. There was also a significant reduction in mean LT of untreated diabetic group (p < 0.001) as indicated by the increased number of animals that entered the dark compartment. Plasma glucose and magnesium levels in magnesium treated diabetic rats returned to normal 4 weeks after oral magnesium consumption. There was no significant change in mean total pain score despite elevated licking in diabetic animals after oral magnesium consumption. Significant elevation of flinching scores of untreated diabetic rats was observed in the last 20 min of the 2nd chronic phase, compared with the untreated control group.Conclusion: It seems that magnesium treatment either restores rat memory performance that is impaired by diabetes or that it affects the aversive responses evoked by electrical shock.Keywords: Diabetes, Magnesium, Glucose, Passive avoidance memory, Formalin test

Cloning, expression, purification and CD analysis of recombinant human betatrophin

Betatrophin is a member of the angiopoietin-like (ANGPTL) family that has been implicated in both triglyceride and glucose metabolism. The physiological functions and molecular targets of this protein remain largely unknown; hence, a purified available protein would aid study of the exact role of betatrophin in lipid or glucose metabolism. In this study, we cloned the full-length cDNA of betatrophin from a human liver cDNA library. Betatrophin was expressed in the pET-21b-E. coli Bl21 (DE3) system and purified by immobilized metal-affinity chromatography and ion-exchange chromatography. Circular dichroism spectroscopy revealed α-helix as the major regular secondary structure in recombinant betatrophin. The production method is based on commonly available resources; therefore, it can be readily implemented

Cloning, expression, purification and CD analysis of recombinant human betatrophin

Betatrophin is a member of the angiopoietin-like (ANGPTL) family that has been implicated in both triglyceride and glucose metabolism. The physiological functions and molecular targets of this protein remain largely unknown; hence, a purified available protein would aid study of the exact role of betatrophin in lipid or glucose metabolism. In this study, we cloned the full-length cDNA of betatrophin from a human liver cDNA library. Betatrophin was expressed in the pET-21b-E. coli Bl21 (DE3) system and purified by immobilized metal-affinity chromatography and ion-exchange chromatography. Circular dichroism spectroscopy revealed α-helix as the major regular secondary structure in recombinant betatrophin. The production method is based on commonly available resources; therefore, it can be readily implemented

Electrospinning piezoelectric fibers for biocompatible devices

The field of nanotechnology has been gaining great success due to its potential in developing new generations of nanoscale materials with unprecedented properties and enhanced biological responses. This is particularly exciting using nanofibers, as their mechanical and topographic characteristics can approach those found in naturally occurring biological materials. Electrospinning is a key technique to manufacture ultrafine fibers and fiber meshes with multifunctional features, such as piezoelectricity, to be available on a smaller length scale, thus comparable to subcellular scale, which makes their use increasingly appealing for biomedical applications. These include biocompatible fiber-based devices as smart scaffolds, biosensors, energy harvesters, and nanogenerators for the human body. This paper provides a comprehensive review of current studies focused on the fabrication of ultrafine polymeric and ceramic piezoelectric fibers specifically designed for, or with the potential to be translated toward, biomedical applications. It provides an applicative and technical overview of the biocompatible piezoelectric fibers, with actual and potential applications, an understanding of the electrospinning process, and the properties of nanostructured fibrous materials, including the available modeling approaches. Ultimately, this review aims at enabling a future vision on the impact of these nanomaterials as stimuli-responsive devices in the human body

Ethical Aspects of Obesity Management in Children

Introduction: Childhood obesity is a growing global health problem, but in the view of medical ethics, obesity management in children is associated with challenges. Method and materials: This study is a comprehensive review in English (Cochrane Library, and PubMed) and Persian literature which pointed to the ethical aspects of pediatrics obesity management with content analysis. Results: In the childhood obesity interventions, clinical trials should be carefully designed with obtaining approval of ethics committee, selection of the appropriate outcomes, contributing to the family, the assent of the child and consent of family, confidentiality, truth telling, fairness and avoiding discrimination and stigma paid investments. Each of community, government, health systems, media and family have special responsibilities in these interventions that cause a somehow violation of personal freedom, privacy invasion and interference with lifestyle options. In the meantime, with the help of four ethical principles (Autonomy, Beneficence, Justice, Non-maleficence) interventions within the ethical boundaries can be identified. In principle of autonomy with regard to parents are the child’s legal guardians, sometimes with focus on the right refuse obesity interventions. But Islamic ethics and sound medical judgment dictate that with the observance of other moral principles [like la darar wa la dirar (No harm  and no harassment) and maslaha (benefit)] in the cases of severe or complicated obesity which obviously affected the lifetime or health of the child done interventions, in the view of duty-oriented. However, obesity in children can be deemed a kind of negligence or neglect of children's health and opposed with provisions of the Convention of rights of children which based on medical paternalistic attitude build Medical intervention obligatory. Conclusion: To fight obesity, appropriate interventions require full compliance with medical ethics in schools, families and society. In this context, the compiling of ethical guidelines in child obesity interventions will be helpful. Keywords: Obesity, Children, Management, medical Ethical.

Calprotectin Pegylation Enhanced Its Physical and Structural Properties

Calprotectin is member of the S-100 protein family with a wide plethora of intra-and extracellular functions. Anticancer activities, antimicrobial effects and being a qualified disease marker are among the compelling features of this protein to be used as a pharmaceutical agent. However, there are several impediments to applications of protein pharmaceuticals including: proteolytic degradation, short circulating half-life, low solubility and immunogenicity. Pegylation is a common bioconjugation polymer capable of overcoming these drawbacks. Recombinant expression and purification of calprotectin along with its pegylation would result in enhanced pharmaco-dynamic and pharmacokinetic properties. Our florescence spectroscopy and far Ultraviolet-optical density results indicate that pegylation altered the physical and structural properties of the calprotectin to become in a more stable and functionally active state. Due to enhanced pharmacodynamic and pharmacokinetic properties of the calprotectin via pegylation, this study would pave the way for better in vitro and in vivo validations of calprotectin applications in medical practice. © 2016, Springer Science+Business Media New York

The effects of Vitreous Humor on Mesenchymal Stem Cells Derived from Bone Marrow to Lens Fiber Like Cells

Introduction & Objective: The function and transparency of the lens actually diminishes with aging as a result, external intervention is necessary to amend it. The aim of the present study was to investigate the effects of vitreous humor on the mesenchymal stem cells (MSCs) to lens fiber like cells. Materials & Methods: The present experimental study was conducted at Tarbiat Moallem University in 2010. Bone marrow was collected from tibias in NMRI mice and then cultured. Immuno-cytochemistery was done to confirm the mesenchymal stem cells using Oct4 antibody. Subsequently, MSCs were treated with bovine vitreous body for 7 and 21 days. The morphology of the MSCs to the lens fibers were studied using Phase Contrast Microscope. Results: During the primary culture, the cell population was heterogeneous and in the subsequent passages, the number of the spindle-shaped cells increased. Immuno-cytochemistery study confirmed the MSCs. Morphological studies showed that most cells in the experimental group were locally longer and more aligned in parallel compared to control group cells. Moreover, lens fiber like with large nuclei and multiple nucleoli was observed. Furthermore, the concentration of 25% of vitreous body had more induction effect on MSCs in comparison with the 50% concentration. Conclusion: The MSCs derived from mouse bone marrow could differentiate into lens fiber like cells by treating them with vitreous humor