ABSTRACT
Resumen Los residuos de ácido siálico de las glicoproteínas de superficie son los principales responsables de la carga negativa eritrocitaria. El objetivo de este trabajo fue estudiar alteraciones de carga globular producidas por Trichinella spiralis y Trichinella patagoniensis. Se trabajó con concentrados de larvas musculares de ambas especies y con eritrocitos frescos. Se incubó el sedimento globular con igual volumen de concentrado larval (1 y 2 horas). Los controles fueron incubados con solución salina. Se aplicó el método de Azul Alcian y se determinó el coeficiente experimental de carga aniónica eritrocitaria (CexpCAE). Los resultados mostraron que la carga disminuyó con el aumento del tiempo de tratamiento para ambas especies. Los valores de CexpCAE de las suspensiones incubadas con T. spiralis fueron menores que con T. patagoniensis, indicando que T. spiralis produjo mayor disminución de carga que T. patagoniensis. Se concluye que la desialización producida por ambas especies no es la misma, lo que sugiere que la relación hospedador-parásito que se establecería in vivo sería distinta.
Abstract The sialic acid residues of the surface glycoproteins are mainly responsible for the erythrocyte negative charge. The objective of this work was to study alterations of globular charge produced by Trichinella spiralis and Trichinella patagoniensis. Work was carried out on muscle larvae concentrates of both species and fresh erythrocytes. The treatment was performed by incubating the globular pellet with equal volume of larval concentrate (1 and 2 hours). Controls were incubated with saline solution. The Alcian Blue method was applied and the experimental coefficient of erythrocyte anion charge (expCEAC) was determined. The results showed that the globular charge decreased with increasing treatment time for both species. The expCEAC values of the suspensions incubated with T. spiralis were lower than with T. patagoniensis, indicating that T. spiralis produced a greater decrease in charge than T. patagoniensis. It is concluded that the desialization produced by both species is not the same, suggesting that the host-parasite relationship that would be established in vivo would be different.
Resumo Os resíduos de ácido siálico das glicoproteínas de superfície são os principais responsáveis pela carga negativa dos eritrócitos. O objetivo desse trabalho foi estudar as alterações da carga globular produzidas por Trichinella spiralis e Trichinella patagoniensis. Trabalhamos com concentrados de larvas musculares de ambas as espécies e com eritrócitos frescos. O tratamento foi realizado incubando o sedimento globular com igual volume de concentrado larval (1 e 2 horas), Os controles foram incubados com solução salina. Foi aplicado o método de Azul de Alcian e se determinou o coeficiente experimental de carga aniônica de eritrócitos (CexpCAE). Os resultados mostraram que a carga diminuiu com o aumento do tempo de tratamento para ambas as espécies. Os valores de CexpCAE das suspensões incubadas com T. spiralis foram menores que com T. patagoniensis, indicando que T. spiralis produziu uma diminuição maior na carga que T. patagoniensis. Conclui-se que a dessalinização produzida por ambas as espécies não é a mesma, sugerindo que a relação hospedeiro parasita que seria estabelecida in vivo é diferente.
Subject(s)
Animals , Trichinella/physiology , Alcian Blue , Coloring Agents , Erythrocytes/parasitology , Larva/physiology , Spectrophotometry , Trichinella spiralis/physiology , Erythrocytes/chemistry , Host-Parasite InteractionsABSTRACT
Actualmente se reconoce que los ácidos siálicos están involucrados en múltiples funciones biológicas y que tienen un papel importante en la interacción parásito-hospedador. El objetivo del trabajo fue estudiar la alteración del ácido siálico eritrocitario por efecto de T. spiralis aplicando el método de Azul Alcian. Se trabajó con 11 concentrados de larvas musculares de T. spiralis (LM) y 9 de larvas recién nacidas de T. Spiralis (LRN) (total: 20) y con suspensiones de eritrocitos frescos. Se realizó el tratamiento incubando el sedimento globular con igual volumen de concentrado larval (37 ºC durante 1 hora). Los controles fueron incubados de la misma forma con solución salina. Se aplicó el método de Azul Alcian y se determinó CAE% en el control y en los glóbulos tratados. Se calculó CexpCAE. Los resultados mostraron que 5/9 de los concentrados de LRN y 9/11 de LM modificaron la carga globular. La media y la desviación estándar de los CexpCAE de las suspensiones en que la carga disminuyó por contacto con LRN y LM, fueron 0,614±0,1946 y 0,656±0,1865 respectivamente, mientras que en las que no se modificó resultó 0,955±0,0289 en el tratamiento con LRN y 0,93±0,0141 con LM. Se concluye que el Método de Azul Alcian es útil para estudiar las variaciones en la carga eritrocitaria por efecto de LRN y LM de T. spiralis.
It is now recognized that sialic acids are involved in multiple biological functions and that they have an important role in the parasite-host interaction. The objective of this work was to study the alteration of erythrocyte sialic acid by the effect of T. spiralis applying the Alcian Blue method. Work was carried out with 11 larval concentrates of ML and 9 of NL (total 20) and with fresh erythrocyte suspensions. The treatment was performed incubating the globular sediment with equal volume of larval concentrate (37 °C for 1 hour). The controls were incubated in the same way with saline solution. The Alcian Blue method was applied and CAE% was determined in the control and in the treated globules. CexpCAE was calculated. The results showed that 5/9 of the NL concentrates and 9/11 of ML modified the globular charge. The mean and standard deviation of the CexpCAE of the suspensions in which the charge decreased by contact with NL and ML were 0.614±0.1946 and 0.656±0.1865 respectively, whereas in those that did not change, it was 0.955±0.0289 in the NL treatment and 0.93±0.0141 in the ML. It is concluded that the Alcian Blue Method is useful to study the variations in erythrocyte charge due to NL and ML of T. spiralis.
Atualmente se reconhece que os ácidos siálicos estão envolvidos em múltiplas funções biológicas e que têm um papel importante na interação parasita-hospedeiro. O objetivo do trabalho foi estudar a alteração do ácido siálico eritrocitário por efeito de T. spiralis aplicando o método do Alcian Blue. Trabalhou-se com 11 concentrados de larvas musculares de T. spiralis (LM) e 9 de larvas recém-nascidas de T. Spiralis (LRN) (total: 20) e com suspensões de eritrócitos frescos. Realizou-se o tratamento incubando o sedimento globular com igual volume de concentrado larval (37 ºC durante 1 hora). Os controles foram incubados da mesma forma com solução salina. Aplicou-se o método de Azul Alcian e determinou-se CAE% no controle e nos glóbulos tratados. Calculou-se CexpCAE. Os resultados mostraram que 5/9 dos concentrados de LRN e 9/11 de LM modificaram o carga globular. A média e o desvio padrão dos CexpCAE das suspensões em que a carga diminuiu por contato com LRN e LM, foram 0,614±0,1946 e 0,656±0,1865 respectivamente, enquanto que naquelas onde não se modificou, resultou 0,955±0,0289 no tratamento com LRN e 0,93±0,0141 com LM. Conclui-se que o método de Alcian Blue é útil para estudar as variações na carga eritrocitária por LRN e LM de T. spiralis.
Subject(s)
Animals , Female , Pregnancy , Rats , Sialic Acids , Trichinella spiralis/physiology , Alcian Blue , Erythrocytes/parasitology , Larva/physiology , Host-Parasite InteractionsABSTRACT
The complex life cycle of Trichinella spiralis includes the migration of newborn larvae through the bloodstream to their encystment in muscle. The parasite establishes an intimate contact with the erythrocytes of the host both during the migration of the newborn larvae and when encysting, as this parasite causes intense vascularization in the muscle cell. The goal of this work was to study the effects of various concentrations of T. spiralis muscle larvae (ML) on erythrocyte membranes. The treatment was performed by incubating human erythrocytes with equal volume of different concentrations of ML for 30 minutes, with controlled agitation (37°C). The control erythrocytes (with no contact with the larvae) were incubated in the same way with an equal volume of physiological solution. To evaluate the alterations to the erythrocytes by the action of the larvae and in the respective controls, an Erythrocyte Rheometer and a Digital Image Analysis technique were used. The results indicated that when the larval concentration was higher, the aggregation and erythrocyte membrane alterations were also higher. Also, the erythrocyte deformability index and the erythrocyte elasticity increased. The values of isolated cell coefficient varied from 0.51 in the treatment with 100 larvae/ml to 0.91 in the incubation with 1000 larvae/ml. This experiment shows that T. spiralis muscle larvae affect significantly the red blood cell aggregation and the erythrocyte viscoelastic properties.
Subject(s)
Erythrocyte Membrane/parasitology , Muscles/parasitology , Trichinella spiralis/physiology , Trichinellosis/parasitology , Animals , Erythrocyte Membrane/chemistry , Female , Humans , Larva/growth & development , Larva/physiology , Male , Mice , Trichinella spiralis/growth & development , Trichinellosis/bloodABSTRACT
Infection by Trichinella spp. during pregnancy still arises many questions. Worldwide an important number of trichinellosis outbreaks have occurred over time where pregnant women were or might have been involved. Parasitological and immunoserological parameters, clinical background and transplacental passage of Trichinella spiralis of six pregnant women, from different outbreaks, were studied. Serum samples were collected from patients and their children: at pregnancy, at delivery, newborn and/or infant (≥1 year-old). Total immunoglobulins (Igs) and isotypes against excretion-secretion products from muscle larvae (ESP-ML) and newborn larvae (NBL) of T. spiralis were detected by immunoserological techniques. Sera helminthocytotoxic activity against NBL was evaluated by antibodies dependent cell cytotoxicity assay. Patients presented similar clinical symptoms. Mother's sera showed differences in the presence and titres of Igs, IgE, IgG1 and IgG4 against NBL surface. All of them showed helminthocytotoxic activity against NBL, four in progesterone dependent manner and the other two by antibodies. Igs anti ESP-ML were present in mother's sera, with differences in the isotypes detected. Anti-ESP-ML IgE, IgA and/or IgM in newborn sera were observed. Three out of four infants showed specific Igs; one even at 8 years-old. The distinct immune response between mothers at pregnancy evidenced by sera helminthocytotoxic activity and immunoserological parameters may be associated with a different parasite burden exposition. Specific Igs observed in newborns would be a suggestion of transplacental passage of this Igs and/or their production by the fetus. Specific Igs found in infants sera suggests that newborn larvae transplacental passage is possible.
Subject(s)
Pregnancy Complications, Parasitic/parasitology , Trichinella spiralis/physiology , Trichinellosis/transmission , Adult , Animals , Female , Genome, Helminth , Humans , Infant, Newborn , Infectious Disease Transmission, Vertical , Meat/parasitology , Pregnancy , Pregnancy Complications, Parasitic/pathology , Swine/parasitology , Trichinellosis/parasitology , Trichinellosis/pathology , Young AdultABSTRACT
Albendazole-ß-cyclodextrin citrate (ABZ:C-ß-CD) inclusion complex in vivo antiparasitic activity was evaluated in the parenteral phase of Trichinella spiralis infection in mice. An equimolar complex of ABZ:C-ß-CD was prepared by spray-drying and tested in CBi-IGE male mice orally infected with L1 infective larvae. Infected animals were treated with 50 or 30mg/kg albendazole, (ABZ) equivalent amounts of the ABZ:C-ß-CD complex and non treated (controls). Mice received a daily dose on days 28, 29 and 30 post-infection. A week later, larval burden and percentage of encysted dead larvae were assessed in the host by counting viable and non-viable larvae in the tongue. Complexation of ABZ with C-ß-CD increased the drug dissolution efficiency nearly eightfold. At 37 days p-i, the reduction percentage in muscle larval load was 35% in mice treated with 50mg/kg/day ABZ and 68% in those given the complex. Treatment with the lower dose showed a similar decrease in parasite burden. Treated animals showed a high percentage of nonviable larvae, the proportion being significantly higher in mice receiving the complex than in control animals (72-88% vs. 11%, P=0.0032). These data indicate that ABZ:C-ß-CD increases bioavailability and effectiveness of ABZ against encapsulated Trichinella larvae, thus allowing the use of small doses.
Subject(s)
Albendazole/chemistry , Albendazole/pharmacology , Antiparasitic Agents/chemistry , Antiparasitic Agents/pharmacology , Citric Acid/chemistry , Trichinella spiralis/drug effects , beta-Cyclodextrins/chemistry , Animals , Male , Mice , Trichinella spiralis/physiologyABSTRACT
The migratory stage of Trichinella spiralis, the newborn larva (NBL), travels along the pulmonary microvascular system on its way to the skeletal muscle cells. The present work studies the capability of lung cells to kill NBL. For this purpose, in vitro cytotoxicity assays were performed using NBL, lung cell suspensions from Wistar rats, rat anti-NBL surface sera, and fresh serum as complement source. The cytotoxic activity of lung cells from rats infected on day 6 p.i. was compared with that from noninfected rats. Two and 20 h-old NBL (NBL2 and NBL20) were used as they had shown to exhibit different surface antigens altering their biological activity. Sera antibodies were analyzed by indirect immunofluorescence assay, and cell populations used in each assay were characterized by histological staining. The role of IgE in the cytotoxic attack against NBL was analyzed using heated serum. The FcεRI expression on cell suspensions was examined by flow cytometry. Results showed that lung cells were capable of killing NBL by antibody-dependent cell-mediated cytotoxicity (ADCC). Lung cells from infected animals yielded the highest mortality percentages of NBL, with NBL20 being the most susceptible to such attack. IgE yielded a critical role in the cytotoxic attack. Regarding the analysis of cell suspensions, cells from infected rats showed an increase in the percentage of eosinophils, neutrophils, and the number of cells expressing the FcεRI receptor. We conclude that lung cells are capable of killing NBL in the presence of specific antibodies, supporting the idea that the lung is one of the sites where the NBL death occurs due to ADCC.
Subject(s)
Antigens, Helminth/immunology , Trichinella spiralis/immunology , Trichinellosis/immunology , Animals , Antigens, Surface/immunology , Biological Assay , Cell Survival , Eosinophils/immunology , Female , Larva , Lung/immunology , Neutrophils/immunology , Rats , Rats, Wistar , Trichinella spiralis/physiology , Trichinellosis/parasitologyABSTRACT
The present study investigates the in vitro efficacy of derivatives of the cyclooctadepsipeptides and the aminophenylamidines, which are promising candidates for the evaluation of the treatment of human soil-transmitted helminthiases. The effects of emodepside and PF1022A as well as of amidantel, deacylated amidantel and tribendimidine were evaluated in a concentration range between 0.01 and 100 µg/ml against third-stage larvae (L3) and adult worms of Nippostrongylus brasiliensis and first-stage larvae (L1) of Trichinella spiralis. Furthermore, drug combinations of PF1022A plus deacylated amidantel or tribendimidine and of tribendimidine plus levamisole were tested for any potential additive or even synergistic interactions. Emodepside had a significantly lower EC(50) value than PF1022A in the T. spiralis (0.02788 vs. 0.05862 µg/ml) and the N. brasiliensis (0.06188 vs. 0.1485 µg/ml) motility assays but not in the acetylcholine esterase secretion assay with adult N. brasiliensis (0.05650 vs. 0.06886 µg/ml). While amidantel showed only minimal or at best partial inhibition of nematode motility and acetylcholine esterase secretion, tribendimidine was nearly as potent as deacylated amidantel. Whereas deacylated amidantel had a significantly lower EC(50) than tribendimidine in the N. brasiliensis L3 motility assay (0.05492 vs. 0.2080 µg/ml), differences were not significant in the T. spiralis L1 motility assay (0.7766 vs. 1.145 µg/ml). Surprisingly, none of the combinations showed improved efficacy when compared to the individual drugs including levamisole/tribendimidine, which have previously been reported to act synergistically against Ancylostoma ceylanicum.
Subject(s)
Anthelmintics/pharmacology , Depsipeptides/pharmacology , Nippostrongylus/drug effects , Phenylenediamines/pharmacology , Trichinella spiralis/drug effects , Animals , Drug Synergism , Larva/drug effects , Larva/physiology , Locomotion/drug effects , Nippostrongylus/physiology , Trichinella spiralis/physiologyABSTRACT
The influence of natural weather conditions on the viability and reproductive capability of Trichinella spiralis muscle larvae in mouse corpses exposed to summer and winter conditions in the Buenos Aires Province, Argentina, was studied. For this purpose, a total of 49 mouse corpses harbouring muscle larvae of T. spiralis were exposed for a period of 1, 2, 4 and 6 weeks in each of the seasons. Control corpses maintained at 8°C were also included. In summer, T. spiralis muscle larvae were recovered from corpses exposed up to 1 week only. The viability of these larvae was 54.2%, and the reproductive capability index in mice (RCI) was 13.1 and significantly lower than the control (p<0.0005). Morphologic deterioration and reduction in the glycogen content of cysts and larvae were observed at the second week of exposition. By week 4, larval stages of Dermestes maculatus were observed inside corpses, and 22 live muscle larvae of T. spiralis were obtained by artificial digestion of their bodies. In winter, T. spiralis muscle larvae were always recovered, the viability being almost 100% except for a significant reduction by week 6 of exposition (p<0.0001). For this season, the RCI were 50.5, 46.9, 59.7 and 45.2 for the periods of 1, 2, 4 and 6 weeks of exposition, respectively. The morphology of cysts and larvae did not show alterations, and no variations were observed as well in glycogen reserves during the 6-week period of exposition. RCI of non-exposed muscle larvae were always significantly higher that any of those recorded from muscle larvae that belonged to exposed corpses (p=0.0005). The present results demonstrate that muscle larvae of T. spiralis are able to survive in nature and keep infective for a 1-week period in summer and at least for 6 weeks in winter, becoming an important source of infection for scavengers. In summer, larvae stages of D. maculatus, and probably other insects, may play an important role in the survival and transmission of T. spiralis in the sylvatic cycle.
Subject(s)
Muscles/parasitology , Trichinella spiralis/isolation & purification , Animals , Argentina , Cadaver , Larva/physiology , Male , Mice , Survival Analysis , Temperature , Time Factors , Trichinella spiralis/physiology , WeatherABSTRACT
El objetivo de este estudio fue determinar el efecto de diferentes temperaturas sobre la viabilidad de larvas libres y enquistadas de Trichinella spiralis aisladas en el sudoeste de la provincia de Buenos Aires, Argentina. Se trataron larvas libres y enquistadas a diferentes temperaturas (-30 °C, -20 °C, 4 °C, 20 °C, calentamiento gradual entre 0-100 °C). Se determinó el tiempo necesario para matar el 100 % de las larvas. Durante los primeros días, la mortalidad larvaria en todos los tratamientos con frío aumentó signifcativamente en función del tiempo. En todos los casos, las larvas libres sobrevivieron menor cantidad de días que las enquistadas. A -30 °C, -20 °C y 20 °C no se observaron diferencias signifcativas entre las curvas de mortalidad de cada estadio larvario, pero a 4 °C la mortalidad fue menos intensa entre las larvas enquistadas. El calentamiento disminuyó la viabilidad, sin observarse diferencias entre estadios larvarios. La totalidad de las larvas libres y enquistadas había muerto a los 61 y 95 días (-30 °C), a los 160 y 180 días (-20 °C), a los 280 y 330 días (4° C), y a los 460 y 590 días (20 °C), respectivamente. Fue necesaria una cocción durante 15 minutos a 90 °C para matar al 100 % de las larvas libres y a 100 °C para lograr igual mortalidad de las enquistadas. Nuestros resultados indican que la temperatura y los tiempos tradicionalmente utilizados para tratar productos cárnicos con potencial de transmisión de T. spiralis no serían los más efectivos para lograr la inactivación de la totalidad de larvas vivas de este parásito.
The aim of this work was to study the effect of temperature on the viability of free and encysted larvae of Trichinella spiralis from southwest Buenos Aires province, Argentina. Larvae were treated at variable temperatures (-30 °C, -20 °C, 4 °C, 20 °C, gradual heating between 0-100 °C). The time necessary to kill 100 % of larvae was calculated. During the frst days of freezing, larval mortality signifcantly increased as a function of time. Regardless of temperature, encysted larvae survived longer than the free ones. At -30 °C, -20 °C, and 20 °C there were no signifcant differences between the survival curves for each larval stage. At 4 °C, mortality was less severe for encysted larvae. All free and encysted larvae died at 61 days and 95 days (-30 °C), 160 days and 180 days (-20 °C), 280 days and 330 days (4 °C) and 460 days and 590 days (20 °C), respectively. Cooking at 90 °C and 100 °C during 15 minutes killed 100 % of free and encysted larvae, respectively. Our results suggest that temperatures and exposure times traditionally used to treat meat products with a potential to transmit T. spiralis are not entirely effcient.
Subject(s)
Animals , Mice , Temperature , Trichinella spiralis/growth & development , Coloring Agents , Food Parasitology , Larva , Mice, Inbred BALB C , Methylene Blue , Random Allocation , Staining and Labeling , Trichinella spiralis/physiology , Trichinella spiralis/ultrastructure , Trichinellosis/parasitologyABSTRACT
The aim of this work was to study the effect of temperature on the viability of free and encysted larvae of Trichinella spiralis from southwest Buenos Aires province, Argentina. Larvae were treated at variable temperatures (-30 °C, -20 °C, 4 °C, 20 °C, gradual heating between 0-100 °C). The time necessary to kill 100 % of larvae was calculated. During the first days of freezing, larval mortality significantly increased as a function of time. Regardless of temperature, encysted larvae survived longer than the free ones. At -30 °C, -20 °C, and 20 °C there were no significant differences between the survival curves for each larval stage. At 4 °C, mortality was less severe for encysted larvae. All free and encysted larvae died at 61 days and 95 days (-30 °C), 160 days and 180 days (-20 °C), 280 days and 330 days (4 °C) and 460 days and 590 days (20 °C), respectively. Cooking at 90 °C and 100 °C during 15 minutes killed 100 % of free and encysted larvae, respectively. Our results suggest that temperatures and exposure times traditionally used to treat meat products with a potential to transmit T. spiralis are not entirely efficient.
Subject(s)
Temperature , Trichinella spiralis/growth & development , Animals , Coloring Agents , Food Parasitology , Larva , Methylene Blue , Mice , Mice, Inbred BALB C , Random Allocation , Staining and Labeling , Trichinella spiralis/physiology , Trichinella spiralis/ultrastructure , Trichinellosis/parasitologyABSTRACT
A series of 2-(trifluoromethyl)-1H-benzimidazole derivatives (1a-1i) were synthesized via Phillips cyclocondensation of a substituted 1,2-phenylenediamine and trifluoroacetic acid. The synthesized compounds were evaluated in vitro against various protozoan parasites: Giardia intestinalis, Entamoeba histolytica, Trichomonas vaginalis and Leishmania mexicana, and they showed nanomolar activities against the first three protozoa tested. The compounds were also tested in vitro and in vivo against the nematode Trichinella spiralis. Compounds 1b, 1c and 1e had the most desirable in vitro antiparasitic profile against all parasites studied. In the in vivo model against T. spiralis, compounds 1b and 1e showed good activity against the adult phase at 75 mg/Kg. However, against the muscle larvae stage, only compound 1f exhibited in vivo antiparasitic efficacy.
Subject(s)
Antiprotozoal Agents/chemical synthesis , Antiprotozoal Agents/pharmacology , Benzimidazoles/chemical synthesis , Benzimidazoles/pharmacology , Trichinella spiralis/drug effects , Animals , Antiprotozoal Agents/chemistry , Benzimidazoles/chemistry , Inhibitory Concentration 50 , Larva/drug effects , Mice , Trichinella spiralis/growth & development , Trichinella spiralis/physiologyABSTRACT
The aim of this work was to determine the influence of different processing procedures and preparations on the viability and infectivity of Trichinella spiralis ML. The muscles of limbs tongue and masseters of pigs experimentally infected were collected, splitted to pieces, and pooled. Five batches were used for the following processing procedures: (1) seasoning with "adobo", commercially acquired chilli and several other spices, (2) "wet-curing" by immersion of meat pieces in 3% brine during 24 hours, (3) cold storage without any further processing or preparation, (4) freezing to -20 degrees C and, (5) drying for 24 hours at 60 degrees C. Samples were stored at 4 degrees C for 15, 45, 60, 75, 90, 105 or 266 days after preparation. At the last-mentioned dates, ML were recovered and used to determine the reproductive capacity by infecting naïve mice. The state of meat conservation or spoilage respectively was tested by visual and tactile examination. In samples treated by freezing or drying no motile larvae were found after artificial digestion and, following inoculation of mice with larvae recovered from these groups, no ML were founded after 40 days of infection. After the artificial digestion of the cold stored samples, the ones seasoned with "adobo" and "wet-cured", a number of motile ML were consistently obtained. Initial reproductive capacity index was as of 80+/-0.5, then rates decreased to 60 - 70 between days 15 and 105 PT and dropped to 40+/-6.7 at day 266 for seasoned, 33+/-2.7 for cold-stored and 33+/-2.5 for cured samples. The influence of storage time (p=0.000005; factorial ANOVA) but not for processing procedure (p=0.724; factorial ANOVA) were statistically significant. The sensorial examination of the meat samples showed severe changes caused by spoilage in odour, texture and colour from day 45 of storage. Data reported from this trial proves that curing or flavoring do not inactivate the Trichinella Mexican strain, although cold storage for more than three months led to a partial decrease of the reproductive capacity. Freezing and drying seemed to be effective measures to eliminate the ML infectivity.
Subject(s)
Food Handling/methods , Meat/parasitology , Trichinella spiralis/physiology , Animals , Antibodies, Helminth , Cold Temperature , Larva , Reproduction/physiology , Salts , Spices , Swine , Swine Diseases/parasitology , Time Factors , Trichinellosis/parasitology , Trichinellosis/veterinaryABSTRACT
Trichinella spiralis es el parásito causante de la Trichinellosis una zoonosis endémica en nuestro estado la cual afecta a mamíferos entre ellos el humano. La principal causa de infección para este es el consumo de carne mal cocida de cerdo infectada con la larva infectante (LI) de T. spiralis. El propósito de este trabajo es determinar el efecto que tiene la temperatura sobre este parásito para poder proporcionar a la población medidas profilácticas las cuales se puedan poner en práctica de manera sencilla y económica contra esta enfermedad. Material y Métodos: En este estudio se utilizaron 2 modelos experimentales: A) 2 cerdos raza York de 6 meses de edad (control y problema) el control sin infección y un problema infectado con T. spiralis para evaluar el efecto de la temperatura (cocción, frita, horno de microondas, olla de presión, refrigeración y congelación) en la viabilidad e Infectividad por medio de digestión artificial para obtener paquete larvario y observación directa al microscopio por compresión para observar sus características físicas y B) 3 ratas Long Evans se inocularon con muestras de carne (de cada procesamiento de temperatura) infectada obtenida del modelo de cerdo en cuánto a los resultados de los procedimientos empleados a temperaturas altas (cocción y frita) por compresión en la cocción a 96ºC la viabilidad dió positiva hasta los 30 min. Después de este tiempo sus características no fueron viables (sus características físicas se observaron alteradas), en cuánto a la Infectividad (capacidad de completar su ciclo vital), se observó positiva hasta el minuto 30, después de este tiempo la Infectividad fue negativa. Al observar los resultados obtenidos podemos concluir que T. spiralis es un parásito con gran capacidad de resistencia a condiciones extremas de temperatura, siendo efectivo el cocimiento de la carne en la olla de presión a los 30 minutos la infectividad y viabilidad fue negativa, en caso de no contar con la olla de presión.
Subject(s)
Animals , Meat/parasitology , Microbial Viability , Temperature , Trichinella spiralis/physiology , Trichinella spiralis/pathogenicity , Trichinellosis/parasitology , Disease Models, Animal , Swine , Trichinella spiralis/growth & development , Trichinellosis/immunologyABSTRACT
The L1 larval stage of Trichinella spiralis induces modification in a portion of striated skeletal muscle cell resulting in the formation of the nurse cell. This specialized host cell is completely encased in a capsule composed mainly of collagen type IV and type VI, which, in turn, is surrounded by a unique rete of vessels whose formation begins on around day 12 after intracellular infection. We investigated the possibility that vascular endothelial growth factor (VEGF) may be up-regulated during nurse cell formation by employing immunohistochemistry and in situ hybridization on synchronously infected mouse muscle tissue. Both VEGF mRNA and VEGF peptide were detected in the developing nurse cell cytoplasm from day 7 up to 16 mo after infection. In addition, VEGF was also detected in cells in the area immediately surrounding the nurse cell on days 15 and 17. On the basis of these results, we propose that hypoxia is induced by T. spiralis within the developing nurse cell some time prior to the up-regulation of VEGF, perhaps as early as day 7. We further propose, on the basis of the continued presence of VEGF in nurse cell cytoplasm, that a constant state of hypoxia cell is maintained.