Effects of Poly-MVA on the rheological properties of blood after in-vivo exposure to gamma radiation

AbstractThis study aims to examine the radio-prophylactic effects of poly-MVA against exposure to acute dose of gamma radiation. Adult male rats, weighing 200 gm, were exposed to 6 Gy gamma radiation from Cs-137 source. The animals received daily oral administration of 2 ml/kg body weight of poly-MVA for different time intervals. The prophylactic effect was examined by two modes of administration: two weeks before irradiation and another group which received continuous administration for two weeks before and two other weeks after irradiation (total time of administration 28 days). Different parameters were performed, which include determination of cellular antioxidant enzymes (Glutathione (GSH), catalase and superoxide dismutase) in hepatic cells, the rheological properties of blood, osmotic fragility and scanning electron microscope photography of red blood cells. Exposure to radiation resulted in a significant decrease in cellular antioxidant enzymes (GSH, Catalase and SOD) and decrease in Bingham viscosity, yield stress and aggregation index of blood. Furthermore it induced slightly increase in average osmotic fragility of red blood cells accompanied by decrease in osmotic dispersion and remarkable modification of red blood cell morphology. Administration of Poly-MVA showed markedly elevation in GSH, Catalase and SOD content in liver cells in all treated groups. It also showed improvement in all observed parameters. The obtained results showed that oral uptake of poly MVA posses a radio-prophylactic effect that might be used in planned radiation exposure in diagnosis and radiotherapy

Radio-mitigation effect of poly-MVA after exposure to an acute dose of gamma radiation

AbstractAdult male rats were exposed to a 6Gy single dose from a Cs-137 source. The radio-mitigation effect of poly-MVA was evaluated by daily administration of 2ml/kg of body weight immediately after irradiation for two weeks. The morphological changes in the red blood cells were studied. The osmotic fragility and rheological properties of blood, the alteration in the contents of antioxidant enzymes (glutathione, catalase and superoxide dismutase) and lipid peroxidation in hepatic cells were determined. The results showed that exposure to radiation resulted in significant changes in cellular antioxidant enzymes (GSH, catalase and SOD) and a decrease in the blood Bingham viscosity, yield stress and aggregation index. Furthermore, it induced a slight increase in the average osmotic fragility of red blood cells accompanied by a decrease in osmotic dispersion, as well as a modification of red blood cell morphology. It also caused a significant increase (75%) in the lipid peroxidation 1 day after exposure to radiation, which persisted until the 14th day recorded after irradiation. Oral administration of poly-MVA after irradiation reduced the radiation-induced damage, as seen in the non-significant change in lipid peroxidation compared to the control. It also resulted in improvement in the observed parameters

Using Lamin B1 mRNA for the early diagnosis of hepatocellular carcinoma: a cross-sectional diagnostic accuracy study [version 1; referees: 2 approved]

Background:  Hepatocellular carcinoma (HCC) is vital medical issue in Egypt. It accounts for 70.48% of all liver tumors among Egyptians. The aim of this study was to determine the diagnostic role of plasma levels of mRNA of lamin B1 by RT-qPCR as an early marker of HCC. Methods: This study was conducted at the Clinical Pathology Department in collaboration with the Department of Tropical Medicine and Infectious Diseases at Ain Shams University Hospitals. It included 30 patients with primary HCC and viral cirrhosis (all were hepatitis C virus-positive) (Group I), in addition to 10 patients with chronic liver diseases (Group II) and 10 healthy age- and sex-matched subjects (Group III). Group I was further classified according to the Barcelona-Clinic Liver Cancer Staging System. Serum α-fetoprotein (AFP) chemiluminescent-immunoassays and RT-qPCR analysis of plasma lamin B1 mRNA levels were performed for all participants. Results: AFP and lamin B1 significantly elevated in patients with HCC compared to those in the other studied groups. AFP and lamin B1 status could discriminate group I from group II and III. A significant increase was found among the three Barcelona stages with regards to AFP and lamin B1 levels. A significant decrease was found between group II and stage 0, A and B with regards to AFP and lamin B1. Lamin B1 and AFP could both differentiate HCC patients with one tumor nodule (T1) from those with two or more tumor nodules (T2&Tm), as well as between those with tumor sizes >3 cm and ≤3 cm. Conclusion: Measurement of lamin B1 mRNA is recommended in patients with chronic liver disease with normal serum AFP, especially in known cirrhotic patients that deteriorate rapidly without any apparent etiology

Nanoinhibitory Impacts of Salicylic Acid, Glycyrrhizic Acid Ammonium Salt, and Boric Acid Nanoparticles against Phytoplasma Associated with Faba Bean

Phytoplasmas are economically important plant pathogenic bacterial diseases, causing severe yield losses worldwide. In this study, we tested nanoformulations such as glycyrrhizic acid ammonium salt (GAS), salicylic acid (SA), and boric acid (BA) as novel antimicrobial agents inducing the resistance against the phytoplasma disease in faba bean. The nanoparticles (NP) were foliar-applied to naturally phytoplasma-infected faba bean with three concentrations from each of SA, GAS, and BA, under field conditions. Nested PCR (using universal primer pairs P1/P7 and R16F2n/R16R2) were reacted positively with all symptomatic samples and gave a product size of approximately 1200 bp, while the healthy plant gave no results. Transmission electron microscopy examinations of phytoplasma-infected faba bean plants treated with different nanoparticles revealed that severe damage occurred in phytoplasma particle’s structure, degradation, malformation, lysis in the cell membrane, and the cytoplasmic leakage followed by complete lysis of phytoplasma cells. Exogenous application of GAS-NP (1.68 µM), SA-NP (0.28 µM), and BA-NP (0.124 µM) suppressed the infection percentage of phytoplasma by 75%, 50%, and 20%, and the disease severity by 84%, 64%, and 54%, respectively. Foliar application of nanoparticles improved Fv/Fm (maximum quantum efficiency of PSII Photochemistry), PI (the performance index), SPAD chlorophyll (the relative chlorophyll content), shoots height, and leaves number, thus inducing recovery of the plant biomass and green pods yield. The most effective treatment was GAS-NP at 1.68 µM that mediated substantial increases in the shoots’ fresh weight, shoots’ dry weight, number of pods per plant, and green pods yield by 230%, 244%, 202% and 178%, respectively, compared to those of infected plants not sprayed with nanoparticles. This study demonstrated the utility of using nanoparticles, particularly GAS-NP at 1.68 µM to suppress the phytoplasma infection