Tremorgenic syndrome caused by Ipomoea pes caprae in cattle / Síndrome tremorgênica causada pela ingestão de Ipomoea pes caprae em bovinos

Poisonous plants are a significant cause of death among adult cattle in Brazil. Plants that affect the central nervous system are widely spread throughout the Brazilian territory and comprise over 30 toxic species, including the genus Ipomoea, commonly associated with a lysosomal storage disease and a tremorgenic syndrome in livestock. We describe natural and experimental Ipomoea pes caprae poisoning in cattle from a herd in the Northside of Rio de Janeiro, Brazil. Affected cattle presented episodes of severe ataxia, abnormal posture followed by falling, muscular tremor, contraction, and spasticity, more prominent in the limbs, intensified by movement and forthcoming, and recumbence. Grossly, a substantial amount of leaves and petioles were found in the rumen. Histopathological examination showed degenerative neuronal changes, mostly in cerebellar Purkinje cells, which were confirmed with Bielschowsky silver. The characteristic clinical changes and mild histological lesion strongly suggested a tremorgenic syndrome. Lectin- immunohistochemistry evaluation reinforced this hypothesis; all lectins tested failed to react with affect neurons and Purkinje cells, which ruled out an underlying lysosomal storage disease. One calf given I. pes caprae leaves experimentally developed clinical signs similar to natural cases. On the 28th day of the experiment, the plant administration was suspended, and the calf recovered within four days. I. pes caprae's spontaneous tremorgenic syndrome in cattle is conditioned to exclusive feeding for several months. We were able to experimentally reproduce toxic clinical signs 12 days following the ingestion.(AU)

A intoxicação por plantas tóxicas está entre as três causas de morte mais importantes em bovinos adultos no Brasil. O grupo das plantas que causam alterações neurológicas, muito bem representada no país, encerra mais de trinta espécies tóxicas, entre as quais do gênero Ipomoea, amplamente distribuídas no território brasileiro. As plantas tóxicas desse gênero podem causar doenças do armazenamento ou síndrome tremorgênica. Descrevem-se a intoxicação natural e reprodução experimental por Ipomoea pes caprae em bovinos, verificada no norte do Estado do Rio de Janeiro. Foram observados episódios de intensa ataxia locomotora, postura anormal seguida de queda, incapacidade de levantar-se, tremores, contrações, espasticidades musculares nos membros, intensificados após estimulação ou a simples aproximação e decúbito. Nos bovinos afetados há mais de 6 meses, os sinais clínicos tornavam-se permanentes. À necropsia havia apenas significativa quantidade de folhas e pecíolos da planta no rúmen. O estudo histopatológico evidenciou lesões neuronais degenerativas principalmente nos neurônios de Purkinje. A impregnação argêntica pela técnica de Bielschowsky ratificou esses achados microscópicos. As lesões histológicas sutis associadas ao quadro clínico indicam que trata-se de intoxicação tremorgênica. O fato de não haver nenhum armazenamento intracitoplasmático, confirmado pelo resultado do estudo lectino-histoquímico (não houve afinidade das lectinas Con-A, WGA e sWGA e de outras lectinas empregadas aos neurônios de Purkinje e outros neurônios afetados), é suficiente para descartar a possibilidade de tratar-se de doença do armazenamento. No bezerro intoxicado experimentalmente verificaram-se sinais clínicos semelhantes, entretanto, com a interrupção do fornecimento da planta no 28º dia, os sinais clínicos desapareceram após quatro dias. I. pes caprae causa síndrome tremorgênica espontânea em bovinos, quando ingerida como alimentação exclusiva durante períodos prolongados (muitos meses). Experimentalmente, os primeiros sinais clínicos da intoxicação foram reproduzidos após 12 dias de ingestão da planta.(AU)

Effect of Nitrogen Rates on Growth and Quality of Water Spinach (Ipomea aquatica)

Aims: The study was conducted to investigate the impact of nitrogen fertilization on growth, leaf gas exchange and bio-metabolite accumulation in Ipomea aquatica. Treatment and Experimental Design: Ipomea aquatica plants were exposed to four different rates of nitrogen (0, 30, 60 and 90 N kg/ha) using Urea (46% N) as a nitrogen source. The experiment was laid out in Complete Randomize Design (CRD). Place and Duration of Study: Department of Biology, Faculty of Science, Universiti Putra Malaysia between September to November 2016. Methodology: Four nitrogen rates were applied (0, 30, 60 and 90 N Kg/ha) using Urea as a nitrogen source. The growth data collections were conducted once a week after the application of the treatments for the plant growth parameters. The total chlorophyll content in the leaves was measured using a Soil Plant Analytical Device (SPAD-502) chlorophyll meter. The leaf gas exchange was determined using a LI-6400XT portable photosynthesis system. Total phenolics and flavonoid were determined using Folin-Ciocalteu reagent. Results: It was found that the highest measurements of growth parameters namely plant height, leaf numbers, branches numbers, total biomass and chlorophyll content were observed at 90 kg N/ha and the lowest at 0 kg N/ha. As for the leaf gas exchange, the positive effect of nitrogen fertilization on kangkung was shown by the increased in photosynthesis rate (A) and stomatal conductance (gs) where the highest measurement recorded at 90 kg N/ha, and the lowest at 0 kg N/ha. However, the water use efficiency (WUE) decreased as the nitrogen rates increased. At lower rates of nitrogen fertilization (30 kg N/ha) produced the highest production of secondary metabolites, where the total phenolics and flavonoids production were enhanced compared to other nitrogen treatments. Conclusion: In conclusion, as the nitrogen rates increased, the growth and leaf gas exchange properties was enhanced however the production of secondary metabolites was decreased in I. aquatica.

Hematological effects of Ipomoea batatas (camote) and Phyllanthus niruri (sampa-sampalukan) from Philippines in the ICR mice (Mus musculus)

Objective: To analyze the hematological effects of administering Ipomoea batatas (I. batatas) and Phyllanthus niruri (P. niruri) in the ICR mice. Methods: Powdered leaves of I. batatas and P. niruri were fed to mice for 4 weeks. A total of six groups were used to determine the effect of the plants to the complete blood count of the mouse. Group A (blank control) mice were feed with pellets only; Group B (negative control) mice were fed with pellets coated with honey; Group C (low dosage) mice were fed with honey-coated pellets and powdered leaves of I. batatas at 10 g/kg body weight of the mouse; Group D (high dosage) mice were fed with honey-coated pellets and powdered leaves of I. batatas at 20 g/kg body weight of the mouse; Group E (low dosage) mice were fed with honey-coated pellets and powdered leaves of P. niruri at 10 g/kg body weight of the mouse; and Group F (high dosage) mice were fed with honey-coated pellets and powdered leaves of P. niruri at 20 g/kg body weight of the mouse. Complete blood count was performed on Days 0, 14 and 28. Results: It was shown that I. batatas can increase the values of hematocrit and hemoglobin on both the low dose and high dose at Day 28 and red blood cells (RBC) on both Days 14 and 28 of testing. On the other hand, P. niruri can increase RBC, hematocrit and hemoglobin on Day 28 with only the low dose. There were no significant differences with white blood cell, absolute granulocyte, lymphocyte and monocyte, and platelet counts observed for both plant samples. Conclusions: I. batatas and P. niruri have effects on the hematocrit, RBC and hemoglobin levels in mice.

Effect of Ipomea carnea Jacq. flowers on hematological changes in toluene diisocyanate-induced inflammation in Wistar rats / 中国天然药物

AIM@#To investigate the active chloroform fraction of the ethanol extract of Ipomoea carnea flowers on hematological changes in toluene diisocyanate-induced inflammation in Wistar rats.@*METHOD@#Except for the control group, all of the rats were sensitized with intranasal application of 5 μL of 10% toluene diisocyanate (TDI) for 7 days. One week after second sensitization, all of the rats were provoked with 5 μL of 5% TDI to induce airway hypersensitivity. After the last challenge, blood and bronchoalvelor lavage (BAL) fluid were collected and subjected to total and differential leucocytes count. Flash chromatography was performed on the most active chloroform fraction to isolate an individual component.@*RESULTS@#Treatment with the ethanolic extract and its chloroform fraction at an oral dose of 200 mg·kg⁻¹ showed a significant decrease in circulating neutrophil and eosinophil in blood and BAL as compared with standard dexamethasone (DEXA). The structure of the compound obtained from chloroform fraction of Ipomea carnea was elucidated as stigmast-5, 22-dien-3β-ol on the basis of spectral data analysis.@*CONCLUSION@#The chloroform fraction was found to be more effective to suppress airway hyper reactivity symptoms, and decreased count of both total and differential inflammatory cells.

Embryotoxic effects of prenatal treatment with Ipomoea carnea aqueous fraction in rats / Efeitos embriotóxicos do tratamento pré-natal com extrato aquoso de Ipomoea carnea em ratos

The embryotoxic effects of prenatal daily exposure to 0.0, 0.7, 3.0 or 15.0 mg/kg of the aqueous extract (AQE) from Ipomoea carnea (I. carnea) dried leaves on gestational days 5û21 were studied in rats. Maternal reproductive performance, skeletal and visceral abnormalities, and malformations were evaluated. Moreover, anatomopathological findings in dams following the treatment were recorded. Regarding the dams, our results show that body weight, weight gain, food and water consumption, and reproductive performance were all unaffectedby exposure to the different doses of the AQE. Nonetheless, dams treated with AQE presented a dose-dependent cytoplasmic vacuolation in the liver, kidneys, thyroid and adrenal glands. Fetal examination did not show external abnormalities or malformations. Evidences of several skeletal and visceral abnormalities were found, particularly after the higher dose of AQE. A reduced ossification centers were also detected. The present data show that prenatal ingestion of the I. carnea AQE in rats induces embryotoxicity. These effects are attributed to an active principle from I. carnea acting on maternal homeostasis, or directly in the conception.

Os efeitos embriotóxicos da exposição diária pré-natal a 0,0, 0,7, 3,0 ou 15,0mg/kg do extrato aquoso da I. carnea nos dias 5 a 21 de gestação foram estudados. Foram avaliados a performance reprodutiva materna, anormalidades esqueléticas e viscerais e malformações. Além disso, após o tratamento foram encontrados achados anatomopatológicos. Em relação às ratas mães, nossos resultados mostraram que a exposição às diferentes doses não afetou o peso corporal, ganho de peso, consumos de água e ração e performance reprodutiva. Apesar disso, apresentaram vacuolização citoplasmática de forma dose-dependente em fígado, rins, tireóide e glândula adrenal. Exames fetais não mostraram anormalidades externas ou malformações, sendo somente encontradas evidências de anormalidades esqueléticas e viscerais após altas doses do extrato. Foi observada redução dos centros de ossificação. Os presentes dados mostram que a ingestão prenatal do extrato de I. carnea induz embriotoxicidade. Estes efeitos são atribuídos à ação na homeostase maternal ou diretamente na concepção.

Jellyfish dermatitis treated by the extract of ipomea pes-caprae.

Irritant contact dermatitis caused by Jellyfish and related Coelenterates are severe reactions which usually last for a long period, even after dermatitis has subsided. There is no antidote for these toxic substance, which are toxic proteins. Ipomea pes-caprae, the creeper of the family Convolvulaceae, which is found in abundance along warm water seashores is used as a medicant for jellyfish dermatitis by Thai fisherman. The leaves are usually used as an antidote and an antipruritic agent. This study was intended to determine if this plant is an effective treatment for jellyfish dermatitis or not. An extraction from the leaves of Ipomea pes-caprae by ether was prepared in the form of 1% cream (IPA 1%), was applied topically on 12 patients with jellyfish dermatitis. Five of the subjects who had only mild, pruritic erythematous papules received IPA 1%. Within the first day of treatment, they were releaved from itching and the dermatitis disappeared within two days. Seven patients with severe erosion and ulceration of the skin because if jellyfish dermatitis received IPA 1% within 3-30 days after the initial symptoms. There was 50% improvement seen within 7 days and complete recovery within 30-45 days, leaving few hypertrophic scars. These results show that IPA 1% is a very useful and effective drug for jellyfish dermatitis, especially with early and mild coses. In severe cases, no recurrence of symptoms, something which is usually found with other forms of treatment, was observed. IPA 1% cream was found to be a mild antihistamine, anti-inflammatory and antidote for jellyfish toxin.