ABSTRACT
Abstract Phytochemical and antioxidant activity of quinoa flour was evaluated after subjected to gamma irradiation processes at dose 3 and 6 kGy. Both non-irradiated and irradiated quinoa samples were subjected to successive extractions in ethanol solvent. The antioxidant activity after gamma irradiation treatment was investigated via Ferric reducing antioxidant power (FRAP) and radical-scavenging activity (RSA) using 2,2-diphenyl-1-picrylhydrazyl (DPPH).Total phenolic and flavonoid content were analyzed using Folin-Ciocalteu micro-method, aluminium chloride (AlCl3) method and High Performance Liquid Chromatography (HPLC). As well as, effect of irradiation treatment on saponin was also evaluated. Irradiation treatment showed slight differences in the saponin content after exposure to 3 and 6 kGy. Irradiation process enhanced both total phenolic content (TPC) and Total flavonoid content (TFC), TPC were 34.52 and 30.92 mg Gallic Acid Equivalent (GAE)/100g compared to 26.25 mg GAE/100g in non-irradiated quinoa. TFC were 67.44 and 62.89 mg Quercetin Equivalents (QE)/100g compared to 53.15 mg QE/100g. Irradiation dose 3 kGy significantly (p> 0.05) decreased the IC50 as DPPH-RSA and increased the FRAP.
Resumo Atividades fitoquímica e antioxidante da farinha de quinoa foram analisadas após submissão a processos de irradiação gama nas doses 3 e 6 kGy. As amostras de quinoa não irradiadas e irradiadas foram submetidas a extrações sucessivas em solvente etanol. A atividade antioxidante, após o tratamento com irradiação gama, foi investigada por meio do poder antioxidante redutor férrico (ARF) e da atividade de eliminação de radicais (AER) usando 2,2-difenil-1-picril-hidrazil (DPPH). O conteúdo fenólico total e o teor de flavonoide foram analisados usando o método de Folin-Ciocalteu, método de cloreto de alumínio (AlCl3) e cromatografia líquida de alta eficiência (CLAE). Além disso, o efeito do tratamento de irradiação na saponina também foi avaliado. O tratamento por irradiação não mostrou diferenças significativas no conteúdo de saponina após exposição a 3 e 6 kGy. O processo de irradiação aumentou o conteúdo fenólico total (CFT) e o teor total de flavonoides (TTF); o CFT foi de 34,52 e 30,92 mg de equivalente de ácido gálico (EAG) / 100 g em comparação com 26,25 mg de EAG / 100 g na quinoa não irradiada. Os TTF foram 67,44 e 62,89 mg de equivalentes de quercetina (EQ) / 100 g em comparação com 53,15 mg de EQ / 100 g. A dose de irradiação de 3 kGy diminuiu significativamente (p > 0,05) o IC50 como DPPH-AER e aumentou o ARF.
Subject(s)
Chenopodium quinoa , Antioxidants , Phenols , Flavonoids , PhytochemicalsABSTRACT
Abstract 20 pieces of all-female (produces by using Gynogenesis process via gamma irradiation) Caspian salmon (Salmo trutta caspius) with dosage of 450, 600, 750, 900 and 1050 Gy by gamma irradiation (Co60) with average weight of 2.31 ± 0.22 in a randomized design was transferred to 300 liters tanks (n =3). For 6 months, growth indices including weight gain, feed conversion ratio, specific growth rate were examined. At the end of the period, 3 pieces from each experimental unit were caught and after anesthesia were used using clove oil (100 ppm) and blood sampling and sera isolation, immunological indices (lysozyme activity, complement activity and total immunoglobulin) were measured in fish of different groups. The results showed that the growth rate in the gynogen groups were higher than the control group (p<0.05). The feed conversion ratio in the control treatment was significantly increased compared to experimental groups. The specific growth indices including of final weight 47.2%, FCR 13.46% and SGR 10.9% were improved significantly in the experimental groups in comparison with the control group (p<0.05). Immunological indices (lysozyme, complement activity and, immunoglobulin) in different groups weren't show significant changes (p>0.05). Therefore, the use of gynogenesis by using gamma irradiation concluded in Caspian Sea salmon, due to the lack of immunological indices and growth improvement.
ABSTRACT
Abstract This study was conducted to examine the effect of gamma radiation on biological specimens. Thus, our concept is to clarify that exposure to accumulated dose of 0.2 Gy gamma rays (0.66 rad/Sec. dose rate) from Cs137 source induces cellular perturbations in the midgut epithelium of the F1 progeny of Blaps polycresta, therefore affecting nutrition and growth. Beetles were reared in laboratory conditions and the newly emerged adults were irradiated with the aforementioned dose. Histological and ultrastructure anomalies of midgut cells (digestive and regenerative cells) were observed by 72 h after radiation exposure to ensure that the cells will not return to control state. Retardation in the development of the F1 progeny was also noticed and beetles died through two weeks. In the light of these observations, biological tissue act as an indicator to the continuous exposure to environmental radiation.
Resumo Este estudo foi conduzido para examinar o efeito da radiação gama em espécimes biológicos. Assim, nosso conceito é esclarecer que a exposição à dose acumulada de raios gama de 0,2 Gy (0,66 rad / seg. Dose) da fonte Cs137 induz perturbações celulares no epitélio do intestino médio da progênie F1 de Polycresta blaps, afetando a nutrição e crescimento. Besouros foram criados em condições de laboratório, e os adultos recém-emergidos foram irradiados com a dose acima mencionada. Anomalias histológicas e ultraestruturais das células do intestino médio (células digestivas e regenerativas) foram observadas 72 horas após a exposição à radiação, para garantir que as células não retornariam ao estado de controle. Retardo no desenvolvimento da progênie F1 também foi notado, e besouros morreram por duas semanas. À luz dessas observações, os tecidos biológicos atuam como um indicador para a exposição contínua à radiação ambiental.
Subject(s)
Animals , Coleoptera , Environmental Pollution , Gamma RaysABSTRACT
Abstract Vaccination is a good strategy for the prevention of avian influenza virus. In this research Gamma Irradiated Avian Influenza (Sub type H9N2) Vaccine (GAIV) was prepared by 30 kGy irradiation and used for vaccination of broiler chickens. The purpose was a comparison of immune responses in the two routes of administration for the GAIV vaccine; intranasal and subcutaneously, use of Montanide ISA70 and Trehalose accompanied with irradiated vaccine and compare with formalin vaccine. The Influenza Virus A/Chicken/IRN/Ghazvin/2001/H9N2 was irradiated and used for vaccine formulation, and formalin inactivated AIV was used as conventional vaccine. Chickens were vaccinated by GAIV with and without Trehalose, GAIV and formalin vaccines with ISA70, two routes of administration were intranasal and subcutaneously. All the vaccinated chickens showed a significant increase in antibody titration. The most significant increase of antibody titration was in irradiated vaccine plus Trehalose groups intranasal and subcutaneously. After the first and second intranasal vaccination, the amount of IFN-gamma increased in the irradiated vaccine plus Trehalose group compared to other groups. However, most of the vaccinated groups did not show any significant increase of IFN-α concentration. Histopathological examination revealed lymphocyte infiltration (++), foci dispersed of hemorrhage and edema in intranasal vaccination groups and in addition to these, thickening of alveolar septa was observed in the injection groups. GAIV vaccine can be a good candidate for vaccine preparation, and Trehalose as a stabilizer protects viral antigenic proteins, also makes more absorbance of antigen by the inhalation route. In vaccinated chickens the ulcers in injected vaccines were lower than intranasal vaccines.
Subject(s)
Animals , Viral Vaccines/administration & dosage , Viral Vaccines/immunology , Influenza A Virus, H9N2 Subtype/immunology , Influenza in Birds/pathology , Influenza in Birds/prevention & control , Chickens , Influenza in Birds/immunologyABSTRACT
Objective : Gamma radiation induces free radicals with a corresponding alteration in the cell’s antioxidant defense system. The present study thus aimed at determining the role of gamma irradiation in improving the cosmeceutical potential of CEK in terms of antioxidants. Methods : C.emersonii KJ725233 was subjected to low (100 Gy) and high (1000 Gy) gamma irradiation doses and its effect on the chlorophyll content was evaluated. The quantitative alterations in the antioxidant content of CEK were evaluated by phosphomolybdenum assay (TAC), ferric reducing antioxidant potential (FRAP), 2, 2 - Dipheny-1-picryl hydrazyl radical scavenging assay (DPPH), total phenolic (TPC) and total flavonoid content (TFC). Also, the corresponding qualitative alterations in the bioactives of CEK were determined by GC-HRMS analysis. Results : A 179.57±2.55% increase in the total chlorophyll content alongwith a 71.76±2.96%, 32.08±2.16%, 11.67±0.89%, 42.85±8.0% and 31.37±3.18% increase was observed in the TAC, FRAP, DPPH radical scavenging, TPC and TFC was observed in CEK irradiated at 1000 Gy. GC-HRMS analysis revealed the induction of Vitamin E on irradiation at both the doses with a corresponding decrease in the phytol content whereas 100 Gy stimulated the induction of phytosterols. Conclusion : The potent intrinsic antioxidant activity of cosmeceutically significant CEK can be elevated with the induction of the most sought after antioxidant in cosmetology – Vitamin E on irradiation.
ABSTRACT
Objective: Date palm seed extract (DPSE) has various compounds revealing antioxidant features. This study aimed to evaluate the radioprotective effect of DPSE in total body gamma irradiation. Materials and Methods: At first, chemical characteristics of DPSE were analyzed by ultraviolet, visible and Fourier transform infrared spectroscopy. Then, the toxicity of DPSE was assessed. For this purpose, 60 mice were divided into five groups, and each of the groups were injected by the doses of 100, 200, 300, 400, and 500 mg/kg, respectively. At the termination of the experiment, mortality rate and weight loss of all mice were evaluated over a period of 30 days. Finally, the radioprotective effect of DPSE was evaluated by dividing 36 mice into three groups: control, test, and placebo and then were irradiated by Cobalt-60. Results: According to the findings, there was no mortality due to DPSE. Furthermore, for the maximum dose of 500 mg/kg, the number of mice surviving at the termination of the experiment with and without injection of DPSE was reported as 83% and 41%, respectively. In addition, a significant difference was obtained between radiated mice with and without DPSE injection (P = 0.035). Conclusion: The findings showed that DPSE injected into mice before irradiation has no toxicity and could protect mice from lethal effects of total body irradiation. The use of DPSE as a new radioprotector agent in the human needs further studies, particularly clinical trials
ABSTRACT
Abstract Quality of life drastically diminished after radiotherapy due to radiation induced oral complications. Fluoride was found to be helpful in decreasing the incidence of radiation caries; however it has not led to elimination of dental caries. Thus, new techniques containing low fluoride concentration or not containing fluoride at all, as laser irradiation, have been studied to prevent the beginning or progression of caries. So the purpose of this study is to investigate the effect of laser surface treatment with or without fluoride on microhardness and ultrastructure of demineralized gamma irradiated enamel; Thirty enamel slabs were allocated into three groups (n=10): G slabs were subjected to gamma irradiation only; GL slabs were subjected to gamma irradiation followed by diode laser and GFL slabs were subjected to gamma irradiation followed by fluoride then diode laser. Slabs were then exposed to demineralizing solution for 72 hours. Examination of slabs was performed using vickers microhardness test and scanning electron microscope; The lowest microhardness was recorded in group G, while inGL and GFL groups it significantly increased. Scanning electron microscope revealed a pronounced loss of central prism core and retention of prism peripheries in group G. Confluence of prismatic and interprismatic structures in GL slabs and irregular rough surface with prismatic boundaries conservation in GFL slabs were detected. Applying laser improved the microhardness and counteracted the adverse effect of gamma radiation. Adding fluoride before laser irradiation had a marked effect on microhardness..
Subject(s)
Humans , Tooth Demineralization/therapy , Dental Enamel/radiation effects , Lasers, Semiconductor/therapeutic use , Fluorides/therapeutic useABSTRACT
@#Introduction: Archidendron bubalinum is an underutilised plant with numerous antioxidant properties and has a great potential to inhibit enzymes linked with diabetes and obesity. Food irradiation is an advanced technology to prolong the lifespan of plant, prevent physical spoilage and eradicate food borne disease. Present study was aimed to determine the total antioxidant activity, enzymatic inhibition against alpha-amylase, alpha-glucosidase and pancreatic lipase and the toxicity levels of non-irradiated and irradiated (3, 6, 9 & 12 kGy) hot aqueous extract of A. bubalinum. Methods: The antioxidant ability of the extract was determined by total phenolic content (TPC), total flavanoid content (TFC), Diphenyl-1-Picrylhydrazyl (DPPH), β-carotene assay and ferric reducing antioxidant potential (FRAP) assay. The inhibitory activities were evaluated using α-amylase, α-glucosidase, and pancreatic lipase inhibition assay. The toxicity levels of A. bubalinum extract were determined using Brine shrimp and Zebra-fish assays. Results: Results showed that irradiated A. bubalinum at 12 kGy demonstrated the highest TFC (448.99 ± 5.02 mg GAE/g), FRAP (2.55 ± 0.40 mmol Fe2+/g) and β-carotene bleaching activity (79.49%). Whereas, non-irradiated A. bubalinum samples expressed the highest TPC (2517.07 ± 15.81 mg GAE/g) and exhibited the lowest IC50 values of α-amylase (31.99 ± 3.15 μg/ml), α-glucosidase (23.40 ± 0.69μg/ml) and pancreatic lipase (32.81 ± 7.96 μg/ml) activity. The toxicity assays also showed no significant different between irradiated and non-irradiated samples. Conclusion: The study suggests that gamma irradiation has the prospective future to increase antioxidant properties and maintaining the enzyme inhibitory activities to preserve the sample of A. bubalinum for commercial purposes
Subject(s)
AntioxidantsABSTRACT
Background: Rubus is an economically important fruit crop across the globe. Recently, several Rubus mutant genotypes with improved agronomic traits have been developed using gamma ray irradiation. This study investigated genetic diversity and variations in Rubus mutant genotypes using single nucleotide polymorphism (SNP) markers generated from genotyping-by-sequencing (GBS) analysis. A GBS library of 14 Rubus genotypes, consisting of seven boysenberry mutant lines, four blackberry mutant lines, and three original varieties, were sequenced on the Illumina Hiseq2000 platform. A set of SNPs were analyzed by Kompetitive Allele Specific PCR (KASP) assay in order to discriminate the Rubus genotypes. Results: A total of 50,831,040 (86.4%) reads of clean data were generated, and the trimmed length ranged from 116,380,840 to 509,806,521 bp, with an average of 228,087,333 bp per line. A total of 19,634 high-quality SNPs were detected, which contained 11,328 homozygous SNPs and 8306 heterozygous SNPs. A set of 1504 SNPs was used to perform a phylogenetic analysis, which showed that there were clear differences among the Rubus genotypes based on their origin. A total of 25 SNPs were used for the KASP assays, of which six KASP primer sets were successfully distinguished among the Rubus genotypes. Conclusions: This study demonstrated that the SNP and KASP method is an economically efficient tool for mutant screening in Rubus breeding programs.
Subject(s)
Polymorphism, Single Nucleotide/genetics , Rubus/genetics , Phylogeny , Breeding , Genetic Markers , Crops, Agricultural , Alleles , High-Throughput Nucleotide Sequencing , Gamma Rays , Genotype , MutationABSTRACT
Thalidomide was indicated as a sedative and antiemetic and prescribed for pregnant women. Its tragic teratogenic effects culminated in withdrawal from the market. Since the discovery of its anti-angiogenic and anti-inflammatory actions, thalidomide has been used in the treatment of leprosy and multiple myeloma, which justify studies of its stability. We investigated the effects of irradiation of thalidomide up to 100 kGy (fourfold the usual sterilizing dose for pharmaceutics). The β polymorph of thalidomide was obtained in an isothermal experiment at 270 °C. All samples underwent gamma irradiation for specific times. At different doses, decomposition of the pharmaceutical was not observed up to 100 kGy. The observed effect was angle turning between the phthalimide and glutarimide rings modulated by repulsion towards the carbonyl group, leading to a stable energetic configuration, as measured by the equilibrium in the torsion angle after irra-diation. The thalidomide molecule has a center of symmetry, so a full turn starting from 57.3° will lead to an identical molecule. Further irradiation will start the process again. Samples irradiated at 30 and 100 kGy have more compact unit cells and a lower volume, which leads to an increase in the intermolecular hydrogen interaction within the unit cel , resulting in higher thermal stability for polymorph α.
ABSTRACT
ABSTRACT Cuminum cyminum L. (CM), Zataria multiflora Boiss. (ZM) and Mentha piperita L. (MP) are traditional medicinal plants with various pharmacological properties. This study was designed to assess the role of gamma irradiation -a modern decontamination method- in hepatoprotective effects of their essential oil (E.Os) in septic rats induced by experimental cecal ligation and puncture (CLP) model. The rats were divided into 20 groups; sham-operated (SOP); CLP; CLP + CM, ZM and MP (E.Os) (100 & 200 mg/kg b.w) and CLP + gamma irradiated (10 and 25 kGy) E.Os (100 & 200 mg/kg b.w) as treatment groups. All E.Os were injected i.p immediately after sepsis induction. 24 hour after CLP, the rats were sacrificed and the liver tissue was examined considering lipid peroxiation (LP), glutathione (GSH) and myeloperoxidase (MPO) activity. The results indicated that CLP operation caused significant (P<0.05) increase in the LP and MPO levels concomitant with decreased GSH level. Administration of the E.Os (100 and 200 mg/kg b.w) extracted from non irradiated plants as well as the irradiated (10 and 25 kGy) plant E.Os could significantly (P<0.05) modulate the levels of LP, MPO and GSH. It can be concluded that all E.Os even after irradiation exposure could modulate the oxidative injury parameters related to liver damages in CLP rat model. In conclusion, the plant irradiation didn't have any adverse effects on the hepatoprotective activities of the extracted oils.
ABSTRACT
The current study was carried out to evaluate the effects of gamma irradiation on the epiphytic microflora and ripening process of the green Dwarf Cavendish bananas harvested at the three-quarter stage of the maturity. The mature green bananas were irradiated using Cobalt-60 as the source of irradiation at different dosages of 0.5, 0.75 and 1.0 kGy. The mean life of both the experimental and control group of fruits was analyzed under ambient conditions. For all the treatments the microbial potential, the decay percent and the ripening behavior of the fruits were recorded. Results revealed that the applied radiation doses reduced the decay incidence, delayed ripening process and greatly inhibit the microbial growth (total bacterial and fungal count) thereby enhancing the shelf life of bananas. Irradiation dose of 1.0 kGy was found to be the most effective dose to positively maintain the stored bananas under ambient conditions. The mean life of bananas was extended by 14 days. The identification of the enteric bacteriaeaceae through API 20 E strips revealed the presence of Shigella sonnie on the fruit surface along with Escherichia coli and a nonfermentor spp. The dominant spoilage causing fungi identified were Aspergillus niger, Aspergillus flavus, Collotrichum musae, Fusarium oxysporum,Mucor spp, Lasiodiplodia theobromea and Rhizopus stolonifer.
O Presente estudo foi realizado para investigar os efeitos da radiação gama sobre a microflora epífita e amadurecimento das bananas Cavendish Anão verde colhidas no estádio de três quartos da maturidade. As bananas verdes maduros foram irradiadas usando Cobalto-60 como fonte de irradiação a diferentes dosagens de 0,5, 0,75 e 1,0 kGy. A vida média de ambos os grupos experimental e de controlo de frutas foi analisada sob as condições ambientes. Para todos os tratamentos a potenciais microbiana, o percentual decadência e do comportamento do amadurecimento dos frutos foram recorded.Results revelou que as doses de radiação aplicadas reduziu a incidência de podridões, atrasou processo de amadurecimento e inibir significativamente o crescimento microbiano (contagem de bactérias e fungos total), assim aumentar a vida de prateleira das bananas. dose de irradiação de 1,0 kGy foi encontrada como sendo a dose mais eficaz para manter positivamente as bananas armazenada sob condições ambientes. A vida média de bananas foi prorrogado por 14 dias. A identificação do bacteriaeaceae entérico através de API 20 E tiras revelou a presença de Shigella sonnie sobre a superfície do fruto, juntamente com Escherichia coli e um nonfermentor spp. A deterioração dominante causando fungos identificados foram Aspergillus niger, Aspergillus flavus, Collotrichum musae, Fusarium oxysporum, Mucor spp, Lasiodiplodia theobromea e Rhizopus stolonifer.
Subject(s)
Radiation, Ionizing , Musa , Food SupplyABSTRACT
Abstract This study was conducted to examine the effect of gamma radiation on biological specimens. Thus, our concept is to clarify that exposure to accumulated dose of 0.2 Gy gamma rays (0.66 rad/Sec. dose rate) from Cs137 source induces cellular perturbations in the midgut epithelium of the F1 progeny of Blaps polycresta, therefore affecting nutrition and growth. Beetles were reared in laboratory conditions and the newly emerged adults were irradiated with the aforementioned dose. Histological and ultrastructure anomalies of midgut cells (digestive and regenerative cells) were observed by 72 h after radiation exposure to ensure that the cells will not return to control state. Retardation in the development of the F1 progeny was also noticed and beetles died through two weeks. In the light of these observations, biological tissue act as an indicator to the continuous exposure to environmental radiation.
Resumo Este estudo foi conduzido para examinar o efeito da radiação gama em espécimes biológicos. Assim, nosso conceito é esclarecer que a exposição à dose acumulada de raios gama de 0,2 Gy (0,66 rad / seg. Dose) da fonte Cs137 induz perturbações celulares no epitélio do intestino médio da progênie F1 de Polycresta blaps, afetando a nutrição e crescimento. Besouros foram criados em condições de laboratório, e os adultos recém-emergidos foram irradiados com a dose acima mencionada. Anomalias histológicas e ultraestruturais das células do intestino médio (células digestivas e regenerativas) foram observadas 72 horas após a exposição à radiação, para garantir que as células não retornariam ao estado de controle. Retardo no desenvolvimento da progênie F1 também foi notado, e besouros morreram por duas semanas. À luz dessas observações, os tecidos biológicos atuam como um indicador para a exposição contínua à radiação ambiental.
ABSTRACT
Abstract Phytochemical and antioxidant activity of quinoa flour was evaluated after subjected to gamma irradiation processes at dose 3 and 6 kGy. Both non-irradiated and irradiated quinoa samples were subjected to successive extractions in ethanol solvent. The antioxidant activity after gamma irradiation treatment was investigated via Ferric reducing antioxidant power (FRAP) and radical-scavenging activity (RSA) using 2,2-diphenyl-1-picrylhydrazyl (DPPH).Total phenolic and flavonoid content were analyzed using FolinCiocalteu micro-method, aluminium chloride (AlCl3) method and High Performance Liquid Chromatography (HPLC). As well as, effect of irradiation treatment on saponin was also evaluated. Irradiation treatment showed slight differences in the saponin content after exposure to 3 and 6 kGy. Irradiation process enhanced both total phenolic content (TPC) and Total flavonoid content (TFC), TPC were 34.52 and 30.92 mg Gallic Acid Equivalent (GAE)/100g compared to 26.25 mg GAE/100g in non-irradiated quinoa. TFC were 67.44 and 62.89 mg Quercetin Equivalents (QE)/100g compared to 53.15 mg QE/100g. Irradiation dose 3 kGy significantly (p> 0.05) decreased the IC50 as DPPH-RSA and increased the FRAP.
Resumo Atividades fitoquímica e antioxidante da farinha de quinoa foram analisadas após submissão a processos de irradiação gama nas doses 3 e 6 kGy. As amostras de quinoa não irradiadas e irradiadas foram submetidas a extrações sucessivas em solvente etanol. A atividade antioxidante, após o tratamento com irradiação gama, foi investigada por meio do poder antioxidante redutor férrico (ARF) e da atividade de eliminação de radicais (AER) usando 2,2-difenil-1-picril-hidrazil (DPPH). O conteúdo fenólico total e o teor de flavonoide foram analisados usando o método de Folin-Ciocalteu, método de cloreto de alumínio (AlCl3) e cromatografia líquida de alta eficiência (CLAE). Além disso, o efeito do tratamento de irradiação na saponina também foi avaliado. O tratamento por irradiação não mostrou diferenças significativas no conteúdo de saponina após exposição a 3 e 6 kGy. O processo de irradiação aumentou o conteúdo fenólico total (CFT) e o teor total de flavonoides (TTF); o CFT foi de 34,52 e 30,92 mg de equivalente de ácido gálico (EAG) / 100 g em comparação com 26,25 mg de EAG / 100 g na quinoa não irradiada. Os TTF foram 67,44 e 62,89 mg de equivalentes de quercetina (EQ) / 100 g em comparação com 53,15 mg de EQ / 100 g. A dose de irradiação de 3 kGy diminuiu significativamente (p > 0,05) o IC50 como DPPH-AER e aumentou o ARF.
ABSTRACT
A esterilidade é um requisito indispensável para a maioria dos biomateriais. Devido à sensibilidade dos hidrogéis, a sua esterilização apresenta-se como um desafio, sobretudo quando estão em causa nanoestruturas ou a presença de fármacos. O objetivo deste trabalho foi estudar os principais efeitos de diversos métodos de esterilização nas propriedades de diferentes tipos de sistemas à base de hidrogel. Além dos métodos convencionais (calor húmido e radiação gama) foi aferida a aplicabilidade da esterilização por ozono, um processo que embora se revele recente e ainda em fase de desenvolvimento, não deixa, no entanto, de ser bastante promissor. Estudou-se uma formulação de hidrogel natural nanoparticulado à base de quitosano (nanogel), com um largo espectro de possíveis aplicações, e duas formulações de hidrogéis sintéticos para aplicações oftálmicas (modelos de lentes de contato convencional e da nova geração de silicone-hidrogel), com e sem fármacos incorporados. Avaliaram-se alterações nas principais propriedades vitais ao bom desempenho e integridade dos materiais. No caso do nanogel: tamanho médio de partícula, potencial zeta, índice de polidispersão, absorvância, morfologia, estrutura química e citotoxicidade. No caso dos hidrogéis sintéticos: intumescimento, propriedades ópticas, permeabilidade iónica, molhabilidade, morfologia e topografia, estrutura química, propriedades mecânicas, citotoxicidade e perfil de libertação dos fármacos. Para garantir a melhor eficácia dos métodos de esterilização, realizaram-se testes de esterilidade após a contaminação intencional das amostras com diferentes cargas dos respetivos indicadores biológicos. A esterilização por calor húmido revelou-se o método mais agressivo, no caso do nanogel, e o menos agressivo para os hidrogéis sintéticos, quer na presença quer na ausência de fármacos. Relativamente à irradiação gama, para o nanogel, verificou-se que a sua resistência à irradiação aumenta consideravelmente na presença de açucares protetores. Já os hidrogéis sintéticos mostram-se resistentes à técnica, apresentando sinais de degradação evidente apenas para a dose mais elevada (25 kGy). Na presença de fármacos, a irradiação gama mostrou-se inadequada devido à sensibilidade dos mesmos. Os resultados obtidos são promissores no que diz respeito à aplicabilidade da esterilização por ozono, tanto para o nanogel como para os hidrogéis sintéticos, sem fármacos incorporados. Os fármacos sofrem, na generalidade, degradação quando expostos a este agente oxidante. Em suma, face à evidente complexidade dos fatores envolvidos (e.g. natureza, composição e propriedades dos materiais, estabilidade dos fármacos, condições e parâmetros dos processos esterilização), torna-se difícil generalizar os efeitos e prever o resultado dos métodos de esterilização. A escolha do processo mais adequado deve, portanto, ser feita caso a caso.
Sterility is mandatory requirement for most biomaterials. Because of their known sensitivity, hydrogel sterilization poses as a challenge, particularly when it comes to nanostructures or when drugs are incorporated. The main goal of this work was to study the key effects of different sterilization methods on the properties of different types of hydrogel-based systems. In addition to the conventional methods (steam heat and gamma radiation) the applicability of a promising new ozone method was assessed. Two formulations of synthetic hydrogels for ophthalmic applications (representing conventional contact lenses and new generation silicone-hydrogel contact lens), unloaded and loaded with ophthalmic drugs, were studied; and a natural chitosan-based nanostructured hydrogel (nanogel), with a broad spectrum of possible applications. Changes in the essential properties were evaluated. For synthetic hydrogels: swelling, optical properties, ionic permeability, wettability, morphology and topography, chemical structure, mechanical properties, cytotoxicity and drug release profile. For the nanogel: average particle size, zeta potential, polydispersity index, absorbance, morphology, chemical structure and cytotoxicity. In order to ensure the effectiveness of the sterilization methods, sterility tests were carried out after purposely contaminating the samples with different loads of biological indicators. Seam heat sterilization proved to be the most aggressive method for the nanogel, while being the least aggressive for the synthetic hydrogels in the presence and absence of drugs. Regarding gamma irradiation, the nanogel resistance to irradiation increased considerably in the presence of protective sugars. The synthetic hydrogels were resistant to this technique, showing signs of severe degradation only at the highest dose (25 kGy). In the presence of drugs, gamma irradiation proved to be inadequate due to drug degradation. The obtained results were encouraging with regard to the applicability of ozone sterilization for both the nanogel and the unloaded synthetic hydrogels. The drugs generally undergo degradation when exposed to this oxidizing agent. In view of the evident complexity of the factors involved (e.g. nature, composition and properties of materials, drug stability, conditions and parameters of sterilization processes), it is difficult to generalize the effects and predict the outcome of the sterilization methods. The selection of the most suitable procedure must be made on a case-by-case basis.
Subject(s)
Biocompatible Materials , Hydrogels/metabolism , Sterilization/methods , Gamma Rays , Ozone/analysis , RadiationABSTRACT
ABSTRACT Influence of high-dose gamma radiation and particle size on antioxidant properties of maize (Zea mays L.) flour was studied using response surface methodology. A central composite design based on three levels of each of particle size, in terms of mesh number (40, 60 and 80 meshes), and gamma radiation dose (25, 50 and 75 kGy) was constructed. A statistically significant dose-dependent decrease (p<0.05) in antioxidant properties of gamma irradiated flour was observed. However, an increase in the mesh number (decrease in particle size of flour) resulted in an increase in antioxidant properties. The optimum level of radiation dose to achieve maximum value of responses was found to be 50 kGy for Trolox equivalent total antioxidant activity (TETAOA), 25 kGy for iron chelating ability (ICA), 25 kGy for reducing power (RP) and 75 kGy for linoleic acid reduction capacity (LARC). However, the optimum level of mesh number to achieve desired levels of TETAOA, ICA, RP and LARC was found to be 80 meshes
Subject(s)
Zea mays/classification , Particulate Matter/pharmacology , Antioxidants/analysis , Food Irradiation/adverse effectsABSTRACT
Aim: The present study aimed to develop cost-effective, eco-friendly marine Streptomyces cyaneus strain Alex-SK121 mediated synthesis of silver nanoparticles (AgNPs) with antimicrobial, antitumor and antioxidant activities. Methodology: Aqueous 1mM silver nitrate (AgNO3) solution was treated with cell-free supernatant (CFS) of a novel Streptomyces cyaneus strain Alex-SK121 isolated from marine sediment samples. The prepared solution was irradiated with different doses of gamma rays ranged from 0.5 to 30.0kGy. Initial characterization of the synthesized AgNPs was performed by visual observation of color change in the prepared solution followed by analysis of UV-Visible Spectrophotometer (UV-Vis.), Fourier Transform Infrared Spectrometer (FT-IR), Dynamic Light Scattering (DLS) and Transmission Electron Microscopy (TEM). Evaluation of antimicrobial activity of the synthesized AgNPs against some pathogenic microorganisms was carried out. Antitumor activity of AgNPs was carried out against some human cancer cell lines using the method of Sulphorodamine B (SRB) assay, antioxidant activity of AgNPs was also studied using DPPH scavenging assay. Results: In the present study, the cell-free supernatant of Streptomyces cyaneus strain Alex-SK121 isolated from sediment samples collected from Sidi Kerir region, Alexandria governorate, Egypt was found to reduce Ag+ ions to AgNPs. Identification of the producer strain was performed according to spore morphology and cell wall chemo-type, which suggested that this strain is Streptomyces. Further cultural, physiological characteristics and analysis of the nucleotide sequence of 16S rRNA gene indicated that this strain is identical to Streptomyces cyaneus and then designated Streptomyces cyaneus strain Alex-SK121. To maximize the production of AgNPs, the tested supernatant was irradiated with different doses of gamma rays and it was found that, 15 kGy is the best applied dose induces AgNPs synthesis. The synthesized AgNPs showed the characteristic absorption spectra in UV–Vis. at 425 nm. The microbiologically synthesized AgNPs showed significant antimicrobial activity towards some pathogenic microorganisms with inhibition zone ranged from 13 up to 20 mm. Also AgNPs exhibited antitumor activity against human breast carcinoma cells and human liver carcinoma cells with IC50 9.63 and 33.75 μg/ml respectively in addition to 96% antioxidant activity. Conclusion: Gamma irradiation which induced AgNPs synthesis by cell-free supernatant of marine actinomycetes Streptomyces cyaneus strain Alex-SK121 with different applications is a simple, clean, economic and environmental friendly approach.
ABSTRACT
Aim: The present investigations aimed at studying the effect of sterilization by gamma irradiation on amoxicillin and cefaclor antibiotics. They have been irradiated in solid dry state and the probable changes in physicochemical and microbiological properties were studied Place and Duration of Study: The study was carried out from 2011 to 2013 in the Drug Radiation Research Department, Egyptian Atomic Energy Authority. Methodology: Amoxicillin and cefaclor compounds in solid states were exposed to γ irradiation in air atmosphere at room temperature, with a dose of 25kGy and afterwards they had been subjected to microbiological and analytical tests checking their sterility and antibacterial activitiy it was tested against different pathogenic bacterial species by measuring MIC using Microdilution technique and microplate reader. Then their chemical stability were evaluated by different techniques. EPR, FTIR, UV analysis, mass spectroscopy, and melting point. Results and conclusion: The results showed that the majority of initial unirradiated compounds had a slight degree contamination with Bacillus, Micrococcus genera, and fungi. By applying γ irradiation at 25kGy it showed sterilization of the tested antibiotics and keeping their antibacterial activity. The EPR analysis results showed formation of free radicals. The other analytical tests (FTIR), (UV) analysis ,mass spectroscopy, and melting point results proved that the antibiotics analyzed are radioresistant and can be sterilized by irradiation with a dose of 25kGy, without any detrimental effect on their properities and antibacterial activity.
ABSTRACT
In this study effect of gamma irradiation sterilization and storage conditions on thermal properties of phase sensitive granisetron in situ forming implant (ISFI) was investigated. ISFI was prepared by mixing Poly (DLlactide- co-glycolide) (PLGA) with dimethylsulfoxide (DMSO) : propylene carbonate (PC) (1:1) solvent combination then granisetron HCl was added and homogenized. Following application of gamma irradiation, ISFI was stored at 25 °C for 4 months. Differential Scanning Calorimeter (DSC) measurements and Thermogravimetric Analysis-Differential Thermal Analysis (TGA-DTA) were carried out on fresh, irradiated and aged forms of granisetron ISFI. According to DSC, TGA and TGA-DTA thermograms and mass loss results application of gamma irradiation and storage of irradiated ISFI at 25 °C for 4 months have not significant effect on thermal stability of ISFI.
ABSTRACT
Aims: The study was explaining that silver nanoparticles (AgNPs) were synthesized biologically by Bacillus megaterium culture supernatant (as reducing and stabilizing agents) by the optimization of medium components for nitrate reductase production to enhance the synthesis of AgNPs. And use of gamma irradiation for the synthesis and incorporation of AgNPs with selected antibiotics at distinct dose. Place and Duration of Study: The study was carried out in 2012 in the Department of Drug Radiation Research, Egyptian Atomic Energy Authority. Methodology: The optimized conditions for AgNPs formation by B. megaterium culture supernatant were as follows; media containing: (%) yeast extract: 0.15, peptone: 0.25, KNO3:0.1 temp: 30ºC and incubation period 24 h with maximum nitrate reductase activity of (680.89U/ml). Physical synthesis of AgNPs and incorporation with antibiotics such as (Sodium Cefotaxime, Gentamycin sulphate and Amoxicillin) by γ-rays doses such as (0.5, 1, 1.5, 2, 2.5 and 3 kGy) were studded. AgNPs were characterized by (UV-Vis.), (DLS), (FT-IR) and (TEM) analysis. Combined and individual antibacterial activities of Amoxicillin and AgNPs were investigated against different pathogenic bacterial species by measuring the (ZOI) and by determining the (MIC). Results: This method shows that Aqueous Ag+ ions were reduced to AgNPs when added to the cell-free supernatant of B. megaterium this is indicated by the color change from whitish yellow to brown and the control showed no color change. In physical method Amoxicillin was incorporated with AgNPs perfectly at 2.5kGy. The decreasing order of the average antibacterial activity against bacterial group was observed to be AgNPs > Amoxicillin > Amoxicillin + AgNPs. Conclusion: The radiation-induced AgNPs synthesis is a simple, clean which involves radiolysis of aqueous solution that provides an efficient method to reduce metal ions. B. megaterium was found to be an effective biological tool for the extracellular biosynthesis of AgNPs. The bactericidal activity have proved that AgNPs in combination with amoxicillin kill bacteria at such low concentrations (units of ppm), which do not reveal acute toxic effects on human cell, in addition to overcoming resistance, and lowering cost when compared to conventional antibiotics.