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Background: Conventionally, Ayurvedic herbs are being used to treat various diseases. These medicinal compounds have to be evaluated for their safety and presence of therapeutic compounds for the clinical application. Aims and Objectives: The present study was designed to obtain the scientific knowledge on the safety profile as well as to assess the presence of pharmacologically active principles in the Pterocarpus marsupium heartwood. Materials and methods: The aqueous extract of P. marsupium heartwood was subjected to an acute toxicity in albino rats. The animals were divided into four groups (n = 6) and fed with graded doses (1000, 2000, and 5000 mg/kg p.o.) of plant extract, respectively, whereas control group had received 2 ml distilled water orally. Animals were continuously observed for the toxicological symptoms for 2 h and intermittently for 48 h and latter once in a day for 14 days. The body weight of the animals was recorded. In addition, the qualitative phytochemical investigations were conducted to identify the presence of active principles. Results: The animals fed with aqueous extract of P. marsupium heartwood did not exhibit any toxic symptoms and the mortality. However, there was a significant (P < 0.05) dose-dependent change in the weight gain observed in comparison to the control group. The median lethal dose (LD50) of the plant extract was considered as >5000 mg/kg. Furthermore, the phytochemical investigations of the plant extract showed the presence of carbohydrates, flavonoids, triterpenoids, saponins, tannins and phenols. Conclusion: The aqueous extract of P. marsupium heartwood was found to be safe and well tolerated even at a large dose of 5000 mg/kg. Furthermore, the plant extract found to possess pharmacologically active principles having wide pharmacological spectrum. Hence, it can be preferred in various therapeutic conditions.
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Objective: This study assessed the distribution of "lethal dose/pharmaceutical product strength" in high-risk drugs.Methods: In 707 pharmaceutical products (312 ingredients) that had been defined as high-risk drugs in Japan, we collected acute toxicity information from these products on single dose toxicity studies conducted in mice, including median lethal dose (LD50) and approximate lethal dose (aLD). The LD50 and aLD were then divided by the strength (quantity of active ingredients) of the pharmaceutical product, after which the LD50or aLD values having an inequality sign was excluded.Results: We collected data on the acute lethal dose of 707 products (312 ingredients) from high-risk drugs. Data with an inequality sign, which was 143 of 495 products (28.9%) in tablets and capsules, then 43 of 212 items (20.3%) in injections, were excluded from the analysis. As observed, median (Q1, Q3) of "LD50/pharmaceutical product strength" and "aLD/pharmaceutical product strength" for tablets or capsules was 36.8 tablet/kg (11.5 tablet/kg, 144 tablet/kg) and 16.7 tablet/kg (6.9 tablet/kg, 65 tablet/kg), respectively. However, median (Q1, Q3) of "LD50/pharmaceutical product strength" and "aLD/pharmaceutical product strength" for injections were 1.3 bottle/kg (0.6 bottle/kg, 4.7 bottle/kg) and 0.8 bottle/kg (0.4 bottle/kg, 15 bottle/kg), respectively. In both cases, injections were distributed at a lower value than oral products.Conclusion: From this study, the distribution of "lethal dose/pharmaceutical product strength" in high-risk drugs was clarified. This information will therefore help pharmacists assess risks associated with individual pharmaceutical products.
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RESUMEN Objetivo: Evaluar la toxicidad de tres chalconas sintéticas administradas por vía intraperitoneal en ratones BALB/c. Materiales y métodos: La dosis letal media (DL50) se estimó por el método Up-and-Down de Dixon. La toxicidad subcrónica de las chalconas se evaluó a 20 y 40 mg/kg por 21 días. Se evaluó el efecto tóxico a nivel de comportamiento, fisiológico, bioquímico e histológico. Resultados: La chalcona 43 generó moco en las heces, daño visceral (hígado) y alteración en el coeficiente de órganos (riñón, p = 0,037 y cerebro, p = 0,008) en comparación con el grupo control. Además, en el análisis histológico se observó que esta chalcona produjo edema, inflamación y necrosis en los órganos evaluados, aunque no hubo diferencia significativa con el control. Todos los parámetros bioquímicos no difirieron significativamente entre los grupos de tratamiento a dosis de 40 mg/kg y el control. Conclusiones: La DL50 para las tres chalconas fue superior a 550 mg/kg de peso corporal. Las chalconas 40 y 42 son relativamente no tóxicas. Ambas pueden considerarse seguras para la aplicación vía intraperitoneal en ratones BALB/c y, en consecuencia, son posibles candidatas para ser usadas en el tratamiento contra las leishmaniosis.
ABSTRACT Objective: To evaluate the toxicity of three synthetic chalcones administered intraperitoneally to BALB/c mice. Materials and methods: The median lethal dose (LD50) was estimated by Dixon's Up-and-Down method. Subchronic toxicity of chalcones was evaluated at 20 and 40 mg/kg for 21 days. Behavioral, physiological, biochemical, and histological toxic effects were evaluated. Results: Chalcone 43 produced mucus in feces, visceral damage (liver) and alterations in organ coefficient (kidney, p = 0.037 and brain, p = 0.008) when compared to the control group. In addition, histological analysis showed that this chalcone produced edema, inflammation and necrosis in the evaluated organs, although there was no significant difference with the control. None of the biochemical parameters differed significantly between the treatment groups at 40 mg/kg dose and the control. Conclusions: The LD50 for all three chalcones was greater than 550 mg/kg of body weight. Chalcones 40 and 42 were found to be relatively non-toxic. Both can be considered safe for intraperitoneal application in BALB/c mice and, consequently, are potential candidates for use in the treatment of leishmaniasis.
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Animals , Mice , Chalcones , Toxicity , Mice, Inbred BALB C , Chalcone , Toxicity Tests, Subchronic , Drug Development , Leishmania , MiceABSTRACT
Aims: The objective of this study is to identify S. suis type 2 and evaluate the virulence of ZHJ01 strain isolation, and verity the clinical and pathological outcome of a systemic infection caused by one serotype 2 when simultaneously inoculated with ZHJ01 strain. We also want to clarify the epidemiologic, clinical, microbiologic characteristics and the pathogenesis mechanism of S. suis type 2 in Hubei province, China. Study Design: Pigs suspected of being infected with S. suis in Jingzhou regions of Hubei province, China were studied. S. suis type 2 isolation was obtained from the suspicion of diseased pig. The case of S. suis type 2 was detected by the virulence factor amplification based on PCR detection and bacterial isolation, identification in the laboratory. According to the experimental infections of mice and piglets, pathogenicity of this S. suis type 2 isolation to mice and swine was monitored. This study was conducted in the key laboratory of pathogenic microbiology, College of Animal Science of Yangtze University, and Institute of Black Pigs Research, Yangtze University. Methodology: Proper serological typing can be performed using a co-agglutination test. The typical colonies purificated and cultured were inoculated with Glucose, Lactose, Raffinos, Sorbitol, D (+)-sucrose, Trehalose, 6.5%NaCl, D (-)-Salicin, Hippurate, Esculin hydrate, V-p, etc., then the test results were recorded. Detection of virulence factors were performed using PCR amplification and DNA sequencing. S.suis type 2 isolation was inoculated to mice and piglets for the virulence test, and the observation of the clinical signs and pathological changes. Results: The virulence factor of extracellular protein factor (EF) was determined from ZHJ01 strain based on PCR detection. Sequence analysis indicated that the isolate was very similar to nucleotide homology with others SS2 strains from different county or contries, and there was not much variation. LD50 of S. suis type 2 for mice was 2.5 x 107cfu. LD50 of S. suis type 2 for piglets was 3.92 x 109cfu. Conclusion: The results show that Swine S. suis type 2 has a relatively strong pathogenicity to pigs in Hubei province, China. This study can be, in part, sufficient to explain the pathogenicity for ZHJ01 strain in area of Zhijing, Jingzhou city, China, which may provide insights into the pathogenesis SS2 and more valid data to support the development of S. suis vaccine as well as the epidemiological investigation, further monitoring and effective prevention to S. suis.
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Objective · To investigate the effect of Toll-like receptor 4 (TLR4) in the pathological injury in fat embolism mice model. Methods · One hundred and twenty male C57BL/6 mice were randomly divided into 10 groups. One group was set as blank control group, and others were injected separately with 1, 2…9 μL/g of allogeneic perirenal fat via tail vein, respectively. The mortality of each group was counted, median lethal dose (LD50) of fat injection in mice was calculated by Bliss method, and the fat embolism LD50 mice model was established. The TLR4 protein expression in the pulmonary tissue of surviving mice was detected by Western blotting. Sixty male C57BL/6 mice were randomly divided into the control group (the same dose of saline was given via tail vein) and the experimental groups (group 2 h, group 8 h, group 24 h and group 48 h, the LD50 fat was given via tail vein).The TLR4 protein expression at different time after fat injection was detected by Western blotting. The mortality of 20 TLR4 gene-knockout mice (TLR4-/-mice) was recorded and compared with 60 wild-type mice after LD50 fat injection. Results · The LD50 of fat embolism mice model was (3.93±0.78) μL/g.After the injection of 1-7 μL/g fat, the expressions of TLR4 protein in the pulmonary tissue of all seven groups were significantly increased, compared with the control group (all P=0.000). In the fat embolism LD50 mice model, compared with the control group, the expressions of TLR4 protein in group2 h were significantly increased (P=0.005). Then, expression level of TLR4 protein was gradually reduced after 2 h, and there was no significant difference between the control group and group 48 h. The mortality of TLR4-/- mice injected with LD50 fat was lower than that of wild-type mice (P=0.043).Conclusion · TLR4 protein involves in the pathologic process of fat embolism syndrome. The knockout of TLR4 gene can reduce the mortality of fat embolism mice. TLR4 and its correlated non-infectious inflammatory response may be an important molecular mechanism of biochemical injury in fat embolism syndrome. Blocking the activation of TLR4-mediated signaling pathway can significantly improve the prognosis, which provides new basis for the prevention, evaluation and treatment of fat embolism syndrome.
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Objective • To investigate the effect of Toll-like receptor 4 (TLR4) in the pathological injury in fat embolism mice model. Methods • One hundred and twenty male C57BL/6 mice were randomly divided into 10 groups. One group was set as blank control group, and others were injected separately with 1, 2…9 μL/g of allogeneic perirenal fat via tail vein, respectively. The mortality of each group was counted, median lethal dose (LD50) of fat injection in mice was calculated by Bliss method, and the fat embolism LD50 mice model was established. The TLR4 protein expression in the pulmonary tissue of surviving mice was detected by Western blotting. Sixty male C57BL/6 mice were randomly divided into the control group (the same dose of saline was given via tail vein) and the experimental groups (group 2 h, group 8 h, group 24 h and group 48 h, the LD50 fat was given via tail vein). The TLR4 protein expression at different time after fat injection was detected by Western blotting. The mortality of 20 TLR4 gene-knockout mice (TLR4-/- mice) was recorded and compared with 60 wild-type mice after LD50 fat injection. Results • The LD50 of fat embolism mice model was (3.93±0.78) μL/g. After the injection of 1-7 μL/g fat, the expressions of TLR4 protein in the pulmonary tissue of all seven groups were significantly increased, compared with the control group (all P=0.000). In the fat embolism LD50 mice model, compared with the control group, the expressions of TLR4 protein in group 2 h were significantly increased (P=0.005). Then, expression level of TLR4 protein was gradually reduced after 2 h, and there was no significant difference between the control group and group 48 h. The mortality of TLR4-/- mice injected with LD50 fat was lower than that of wild-type mice (P=0.043). Conclusion • TLR4 protein involves in the pathologic process of fat embolism syndrome. The knockout of TLR4 gene can reduce the mortality of fat embolism mice. TLR4 and its correlated non-infectious inflammatory response may be an important molecular mechanism of biochemical injury in fat embolism syndrome. Blocking the activation of TLR4-mediated signaling pathway can significantly improve the prognosis, which provides new basis for the prevention, evaluation and treatment of fat embolism syndrome.
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Macrobrachium nipponensis is delicious and has high economic value, but its susceptibility to white-spot syndrome virus (WSSV) is unknown. Susceptibility, morbidity, and multiplication of WSSV in M. nipponense were studied by epidemiological survey, infection experiment and qPCR. M. nipponense was the natural host of WSSV, and the natural carrying rate was about 8.33%. M. nipponense could be infected with WSSV via oral administration, muscle injection and immersion, and the cumulative infection rate of 10 d exposure was 100%, and the cumulative mortality rates were 100%, 75% and 0%, respectively. The infection of WSSV is fast by muscle injection. The virus content after 5 day's injection is 1 000 times higher than that of the first day of infection, and the mortality rate reached 100% after 8 days. The median lethal dose (LD₅₀) measured as the mortality of infected M. nipponense via injection indicated the LD₅₀ in the concentration of WSSV of 2.71×10⁵ virions/μL. In shrimp farming, M. nipponense can be infected by ingesting WSSV infected shrimp or dead shrimp, and also by soaking in WSSV-containing water and thus become a vector, consequently affecting the spread and pathogenicity of WSSV.
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Objective: To study the acute toxicity of Xiaobai capsules in mice after intragastric administration .Methods: The mice were randomly divided into two groups , the treatment group and the control group .The treatment group was given Xiaobai cap-sules by gavage, 3 times daily.The acute toxicity was recorded, and the median lethal dose (LD50) and the maximum dose were deter-mined.Results:The maximum daily dose of Xiaobai capsules was 141.6 g· kg-1(equivalent to 211.3 times of the clinical dose).At the dose, the mice showed no toxicity without death in 14 days or changes in organs after the dissection .Conclusion:Xiaobai capsules have very low acute toxicity in mice after intragastric administration with high security .
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Objective: By comparing the acute toxicity of different extracts from Coreopsis tinctoria on mice, combined with the HPLC fingerprint and multiple linear regression to analyze the element which plays the most important role in causing the death of mice, and to provide the safety data for improving the extraction technology. Methods: To measure the maximum dose and maximal tolerance dose (MTD) of all the extracts, to measure the median lethal dose (LD50) by Bliss, and to record the death and weight changes; To measure the fingerprints of the extracts by HPLC, and to determine the element which mostly induced the death of mice by analyzing the absorption peak of the extracts by HPLC fingerprint with multiple linear regression. Results: The extracts include aqueous extract by spray drying (SD), aqueous extract by vacuum drying (VD) process, ethanol extract (ETE), ethyl acetate extracted component (AC), and the ethyl acetate extracted residuum (AR). Among those extracts, the maximum dose of SD and AR is 36 g/kg, the MTD of the VD is 26 g/kg, the LD50 (95% confidence limits) of ETE and AC are 19.565 (17.558-21.734) g/kg and 16.414 (13.987-34.725) g/kg, respectively; Under the high dose situation, 3,5-dicaffeoylquinic acid properly is the component which mostly contributes to the death of mice. Conclusion: Under the high dose situation, the ETE and AC will lead the death, and 3,5-dicaffeoylquinic acid properly is the component which mostly contributes to the death of mice.
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Objective: To research the toxicity variation principle of "pinellia, trichosanthes, fritillaria, ampelopsis, bletilla attack aconitum" through studying on the acute toxicity for "pinellia, trichosanthes, fritillaria, ampelopsis, bletilla attack aconitum" in the single herb and anti-drug combination. Methods: Using the median lethal dose (LD50) or maximum tolerate dose (MTD) to evaluate the acute toxicity of single herb, then fix the raw aconitum dose of the compatibility group at LD50, another drug dose increased with the compatibility proportion changed gradually in order to examine the toxicity variation of anti-drug combination with death rate as the index. Results: The LD50 of raw Aconiti Radix (AR) was 4.4 g/kg, the MTD of raw Pinelliae Rhizoma (PR), Trichosanthis Fructus (TF), Fritillariae Thunbergii Bulbus (FTB), Ampelopsis Radix (AR), and Bletillae Rhizoma (BR) was respective 300, 37.8, 272, 167, and 180 g/kg; raw AR and raw PR showed no antagonism phenomenon; raw AR showed the antagonism effect against TF in 4:1 to 8:1 while without antagonism in 2:1-1:6; the compatibility of raw AR and FTB objected in 6:1-16:1 while without antagonism in 1:1-1:13; the compatibility of raw AR and AR objected in 3.5:1-16:1 while without antagonism in 1:1-1:13; the compatibility of raw AR and BR showed no obvious toxicity variation. Conclusion: The ethanol extract of raw AR has obvious acute toxicity; the ethanol extract of raw PR, TF, FTB, AR, and BR has no obvious acute toxicity; under the experimental conditions, the proportion of anti-drug compatibility affects the compatibility of the results.
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Objective To prepare an experimental encephalomyocarditis virus ( EMCV) vaccine and study its immunogenicity .Methods EMCVs were cultured in Vero cells and viral titer was detected by micro cytopathy method .A series of procedures including concentration , filtration and ultracentrifugation were conducted to purify EMCVs .Formaldehyde and β-propiolactone were used for viral inactivation and their efficacy was evaluated .The median lethal dose ( LD50 ) of EMCV was measured by using Reed-Muench method.The serum antibody titers in BALB/c mice vaccinated with different immunization strategies were analyzed through microneutralization assay .Then the immunized mice were challenged with 100LD50 , 50LD50 and 25LD50 of EMCV by intraperitoneal injection .Results The viruses could be inactivated by β-propiolactone at a volume ratio of 1 ∶4000 for 12 hours at 4℃.The LD50 of EMCV was 17 CCID50/ml.The immunized mice produced neutralizing antibodies and displayed resistance to EMCV infection.Conclusion The experimental EMCV vaccine could induce protective antibodies in mice .
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464 g/kg.Conclusion The nutrients of Salicornia bigelovii Torr.are rich,safe to eat,and worth to develop and utilize.