RU2054282C1 - Method for predicting fascioliasis in animals and device for detecting fasciolar adolescaries - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves completing epizootologic and bioecologic data with examination results describing the presence of adolescaries in permanent and temporary ponds available on pasture lands. High risk of fascioliasis is predicted, if 10-15 species are detected. The device has disk-shaped float made from colorless transparent physiologically inert polystyrene or acetylcellulose colored from inside in white, orange, green, blue and black color in different sectors. EFFECT: enhanced reliability of method. 2 cl

Description

 The invention relates to veterinary parasitology.

 A known method for predicting outbreaks of fascioliasis for the regions of Polesie Ukraine, based on the analysis of hydrometeorological data, calculation of prediction coefficients, bioecological and epizootological studies in the area. However, the application of the well-known mathematical model, even for the neighboring Kursk region, requires additional analysis of 8-year hydrometeorological and epizootological data to be corrected with a twofold increase in the parameters of the method. Assessment of the forecast accuracy in different years amounted to 77.7-95.7%. For farms of the Non-Chernozem zone of the Russian Federation, the reliability of the known method does not exceed 50.0%. Other disadvantages of this method are: complexity of calculations; accounting for a large amount of hydrometeorological and epizootological data; the known method does not take into account the uneven precipitation; the level of soil moisture saturation for the previous winter-spring period, which determines the complexity of the calculations for each specific dysfunctional economy. In addition, the use of averaged data and a large number of variables reduce the accuracy of the forecast.

A known method for detecting the invasive stage of fasciol larvae (adolescari) on pastures, including the use of glass screens (one screen per 2.5 m ^{2 of} water area). However, in the known method, active capture of fasciol larvae in water is not provided, since passive and accidental encountering of an obstacle is assumed, and only when it is impossible to bypass it, the cercaria larva attaches to it and encysts, turning into an adolescari. The screen material, which does not activate cercariae to attach and encyst on it, negatively affects larvae attachment, as confirmed by studies by Jimenez Alborron M. Guevera Pozo D. According to studies, the number of cercaria encysted on cellophane is significantly higher (85.7%). than on glass (14.3%). In addition, the known method does not take into account the environmental features of helminth larvae: for example, a screen for strengthening is inserted into the bottom of the reservoir, and the depth of immersion in the soil to a stable state depends on the mechanical composition of the soil, silt layer and vegetation, therefore, the upper end of the screen may be lower than the surface water. However, according to our data, more than 90% of cercariae are more actively encysted at a depth of 1-2 cm from the surface. In addition, glass stuck vertically and invisible in water is dangerous for humans and grazing animals.

 The purpose of the invention to increase the reliability and accuracy of forecasting.

 The goal is achieved by the fact that in addition to taking into account epizootological and bioecological data, permanent or temporary reservoirs in the pastures are additionally examined, and if an appropriate amount of adolescaria is detected, they predict a high risk of fascioliasis. For the inspection of water bodies, a device is proposed, which is a disk-shaped float with a diameter of 15 cm and a thickness of 5 cm, made of a colorless translucent physiologically inert polystyrene or cellulose acetate, the inner surface of which (bottom and side walls) is divided by an immersion level (2-3 cm) into equal sectors painted in white, orange, green, blue and black. The float has a removable cover of homogeneous material, in the center through a cable connected to an anchor, fixing its location and level of immersion.

 The method is as follows.

In the third decade of July, in the I and II half of August, at a water temperature of (+16) - (+ 21) ^о С for the purpose of examining permanent or temporary reservoirs in pastures, the presence of adolescari fascioli in which freshwater mollusks of the genus Golba (Lymnaea subangulata, L . truncatula, L. goupili, which are intermediate hosts of Fasciola vulgaris), they install devices for detecting adolescari in accordance with the invention. Fasciola escaping from infected mollusks, moving in water, are actively attached to the bottom of the float, which is greatly facilitated by the location of the device in the reservoir, since fasciola floating cercaria have negative geotaxis and positive phototaxis; device material; color gamut of the device. According to our data, white (16.4%), orange (10.7%), green (12.8%), blue (15.3%), black (16.1%) colors are much more effective in initiating the phototactic reaction in cercariae, compared with pink (5.0%), red (4.1%), raspberry (3.3%), yellow (1.2%), blue (4.9%), deep blue (3.1 %), violet (3.2%) and colorless float (3.9%). The selection by the larvae of the color spectrum from those proposed in accordance with the invention depends on weather conditions and the degree of solar activity.

 The number of adolescaria attached to the bottom of the float is determined after 3 days. With an appropriate indicator of 10-15 adolescari on the device, a high risk of fascioliasis is predicted. The prognosis correlates with the incidence of experimental groups of animals (sheep), which is confirmed by helminthological examinations and autopsies.

 The essence of the method is illustrated by example.

PRI me R. In a biotope with an area of 1.5-2.0 m ² in places with a depth of 4-15 cm, the device in accordance with the invention is placed. After 3 days, the device is removed from the water, freed from the load and viewed through the magnifier with a 3-5-fold increase in contact with the water surface of the device. Fasciola larvae encysted are counted and, with an appropriate indicator of 10-15 specimens of adolescari fasciola vulgaris, an increased level of pasture colonization by fascioliasis pathogens is established on the device and a high risk of infection of farm animals grazing on the pasture is predicted.

 For reuse, wipe the device thoroughly with a clean, ethanol-dampened swab.

 The studies showed that the reliability of the forecasting method based on epizootological and bioecological surveys taking into account the level of pasture contamination by fascioliasis pathogens in the Non-Chernozem zone of the Russian Federation is 76.0-100.0% compared to 50.0% when using the mathematical model.

 The method is simple to implement and provides increased control efficiency and measures of pasture prevention of fascioliasis of farm animals.

Claims (2)

 1. A method for predicting fascioliasis in animals, including the assessment of epizootological and bioecological data, characterized in that they additionally examine permanent and temporary reservoirs in the pasture for the presence of adolescari fascioli by placing a disk float in them, if 10-15 specimens are found on its surface, a high risk of fascioliasis is predicted .  2. A device for detecting adolescarius fasciol, comprising a screen made of a physiologically inert material, characterized in that the screen is made in the form of a disk float of colorless translucent polystyrene or cellulose acetate, and the float inside is colored on the same vectors in white, orange, green, blue and black colors.