RU2114555C1 - Method and device for electrodiagnostic examination of cattle udder - Google Patents

Abstract

FIELD: veterinary medicine. SUBSTANCE: method involves letting electric current pass in series through four lobes of the udder under examination during 2-3 s per each lobe. The magnitude of current passed is used for judging if there is or there is no inflammation process. The current being 1-50 mcA as large, inflammation process in the udder is considered not to be the case. The case of inflammation process is characterized by current passing through an udder lobe to be within the boundaries of 60-100 mcA. The current magnitude measured, when passing through the udder, being between 51-59 mcA characterizes latent processes developing in the udder. Contact part of device electrodes is manufactured as current-conducting plate which ends are bent to meet each other with gap formed between them and ion-exchange washer wetted with physiological salt solution to be placed in the gap space. EFFECT: excluded traumatic accidents to personnel due to animal defense response. 1 tbl

Description

 The invention relates to animal husbandry and veterinary medicine, and in particular to issues of labor protection for milkmaids by predicting the defensive reaction of cattle (cattle) in the early stages of the inflammatory process that occurs in the udder of cows and, as a result, eliminating injuries to staff. The proposed method and device can be applied to all available milking machines that carry out the milking process.

 The urgency of the problem lies in the fact that to date there is no method and device that can eliminate injuries in milkmaids occurring during milking of cows by timely prevention of a defensive reaction in an animal during milking in the early stages of the inflammatory process that takes place in the udder, which is not diagnosed clinically . This leads to the fact that the animal injures the milkmaid suddenly, showing a defensive reaction when touching the teatcups to the inflammatory focus, which is still not clinically invisible.

 There is a method for the prevention of injuries of milkmaids from blows of the hind limbs of cows by fixing them (Lapin A.P., Kopylov V.G., Peteshev A.I. Cattle limb fixer, Journal of Meat Industry No. 4, 1993, p. 22 )

 A known method for the diagnosis of the early stages of the inflammatory process occurring in the udder of cows, which consists in a qualitative study of milk milk using various methods (Drummers N.V., Kugenev P.V. Dairy practice workshop, M .: Agropromizdat, 1988).

 A known method is to measure the bioelectric potentials from human skin and assess the electrical condition of the skin (ed. St. USSR N 1782612, class A 61 N 1/02, 1990).

The disadvantages of the known methods include the following:
1. The above methods do not allow to predict the defensive reaction of cows during milking, resulting in trauma to milkmaids.

 2. Extraction of milk from the udder is also accompanied by a defensive reaction of the animal, leading to injury to the milkmaids, and, in addition, milk is subjected to analysis by laborious and lengthy methods that require chemicals and additional utensils. The accuracy of these methods is not high.

 3. These methods do not allow to diagnose the onset of the inflammatory process.

 4. When measuring biopotentials, it is impossible to assess the electrical state of the skin of an animal, since the electrode and skin do not contact through the hairline, and when preparing the skin of the udder for applying electrodes by cutting and shaving hair, it also leads to a defensive reaction of the animal and, as a result, injury to staff.

 Known devices for stimulating acupuncture points with electrodes made in the form of a clip, which allows you to work only in the area of the human ear. The device selects the biocurrents corresponding to the biocurrents of the selected point, based on the subjective sensations of a person (ed. St. USSR N 764686, class A 61 N 1/32, 1980). The device includes an electrode holder, made in the form of a clip, while the electrodes and the switch are installed on the inner planes of the clip, and the power source is placed on one of the outer planes. The electronic unit of the device is a generator, and the electrodes are made of gold and silver.

 Electrode designs are known: probe electrode equipped with a cone-shaped case and a nozzle made with the possibility of fastening on the tip (ed. St. USSR N 680740, class A 61 N 1/04, 1979; ed. St. USSR N 464149, class A 61 N 1/20, 1971), suction electrodes (ed. St. USSR N 449729, class A 61 N 1/04, 1975), needle electrodes (ed. St. USSR N 340426, class A 61 N 1/04) and clothespins (Vershina V.S., Electrocardiography of the fetus in cows during pregnancy. Diss. For the postgraduate study of Candidate of Veterinary Sciences, 1974).

The disadvantages of the known devices include the following:
1. The impossibility of its use when working with animals, since the electrode (clip) due to the anatomical structure of the udder, which has rounded shapes, will slide on its surface not fixed, while the same electrode (clip) is freely attached to the human ear .

 2. The use of expensive metals (gold and silver) is also associated with additional costs, which is impossible to afford with a limited budget.

 3. The support of the defensive reaction of the animal in the selection of biocurrents corresponding to the biocurrents of the selected point is explained by the fact that when selecting a biological point in humans, the latter expresses his subjective sensations with speech, and the animal with a defensive reaction.

 4. The probe electrodes have low reliability, since they do not provide contact between the electrode and the skin through the hairline, and for good contact it is necessary to create a certain pressure on the skin of the animal, which as a result leads to its defensive reaction.

 The suction electrodes at the slightest movement of the animal fall away from the skin prepared by cutting and shaving the hair, since it is impossible to fix them on the skin covered with hair. In addition, the use of clothespins and needle electrodes also causes a defensive reaction of the animal. As can be seen from the above, all available electrodes cannot be used to study the animal (they can only be used in laboratory experimental conditions on a single experimental animals).

 The closest in technical essence to the proposed method relates to a method of preventing injuries in milkmaids by finding biologically active points and predicting a defensive reaction in cows by the magnitude of biopotentials in the early stages of the inflammatory process that occurs in the udder.

 The method is carried out by recording the conductivity of the shares of the udder of the animal to study the state of each share (ed. St. USSR N 1197610, class A 01 N 7/00, 1985).

But this method is not without drawbacks:
1. The method does not register biopotentials from the skin, but only registration from biologically active points at which the resistance is significantly lower than on the skin.

 2. Due to the lack of close contact between the electrode and the skin through the hairline, it is impossible to register biopotentials from biologically active points. And since the preparation of the skin by cutting and shaving is required before registering the biopotential, this leads to a defensive reaction in the animal, causing injury to maintenance personnel.

 3. The presence of a defensive reaction is always accompanied by the detection of a biologically active point, even if the hairline is removed from the udder, because the passage of current through the biologically active point is always accompanied by unpleasant sensations.

 4. The method is not able to adjust the magnitude of the current, which, when passing through the tissue, would provide information about the presence or absence of the inflammatory process and would not cause irritation, accompanied by a defensive reaction of the animal, leading to injury to staff.

 The closest in technical essence to the proposed device includes a device equipped with patch electrodes-plates (Golikov AN, Physiology of farm animals M .: 1991), in which the electrode is made in the form of a plate of electrically conductive material with a wire soldered to it to provide his contact with the skin. In addition, an ion-exchange pad (for example, gauze moistened with saline) is placed between the electrode and the skin.

This device is also not without drawbacks:
1. The device requires reliable fixation of the electrode with glue or bandages, which is impossible when examining the udder, which has a shape, and any electrodes attached to it will slip and fall from its surface.

 2. It is impossible to provide the necessary contact of the electrode with the skin due to the constant hair covering on the skin of the animal, which needs to be cut and shaved, and these actions are accompanied by a defensive reaction of the animal, leading to injuries to staff.

 3. Before each installation of the electrode on the skin, it is necessary to apply an ion-exchange pad between the electrode and the skin, which increases the duration and complexity of the process. In addition, the device does not provide reliable contact of the ion-exchange pad with the skin, which leads to its loss or displacement relative to the electrode, leading to a distortion of the readings.

 The problem being solved (or the aim of the invention) is the elimination of injuries to service personnel by predicting and preventing a defensive reaction in animals based on the early diagnosis of the early stages of the inflammatory process in the udder even before visible signs of the disease, by eliminating the pain sensations arising in the animal during examination at the sites of application electrodes, as well as simplifying the design and reducing the complexity of measurements by ensuring reliable contact between the electrode and the skin The animal through the scalp.

 This goal is achieved by the fact that the method consists in applying to the biological tissue the udder of the contact part of the electrodes, sequentially passing current through four parts of the udder, the magnitude of which judges the state of the udder of the animal, while a constant current from the source is passed through each share of the udder, the current is short the closure of which is 100 μA, and with a current flowing along the udder share of up to 50 μA, it is believed that there is no inflammatory process in the udder, with a current value of 51 - 59 μA, latent inflammation is diagnosed an early stage of the process, and at a current exceeding 60 μA, a pronounced inflammatory process is diagnosed in the corresponding fraction of the udder, and in the diagnosis of the right or left front lobe of the udder, a positive electrode is applied to the skin, respectively, of the right or left front lobe of the udder in front and side 2 cm from the middle sagittal groove, and a negative electrode is applied to the skin of the udder from the outside, respectively, of the right or left front lobe at the level of its middle, when diagnosing the right or left rear lobes, a positive electrode is applied to the skin, respectively, of the right or left rear lobe of the udder, deviating, respectively, from the right or left lobe and 2 cm from the middle sagittal groove, and a negative electrode is applied to the skin of the udder from the outside, respectively, of the right or left rear lobe at the middle or closer to the milk mirror.

 This goal is achieved by the fact that the proposed device for electrodiagnostics of the udder of cattle, including cutaneous electrodes connected in series with a power source and a microammeter, in which the contact part of each electrode is made in the form of a conductive plate, the ends of which are bent opposite to form a gap between them, in which is located ion-exchange pad moistened with saline, and the power source is made in the form of a current source with a short circuit current equal to 100 μA.

Thus, the application of the proposed method makes it possible:
1. To prevent injuries to milkmaids, knowing in advance about a sick animal as a traumatic factor even before the presence of visible diseases due to timely diagnosis of the process. This is achieved by measuring the biopotentials from the skin of the udder. So in the absence of an inflammatory process, the current value is 1 - 50 μA, and in the presence of an inflammatory process 60 - 100 μA. In doubtful cases, 51 - 59 μA. Animals with biopotentials recorded on the skin of the udder 60-100 μA exhibit a defensive reaction during milking, which for milkmaids is a signal of increased caution when milking cows, and in some cases, fixing the hind limbs of the animal, as well as allocating the animal to the group of patients and timely treatment.

 2. Diagnose the inflammatory process in the udder at the stage of launching the cow and begin its treatment even before calving, which is a measure of the prevention of injuries during milking.

 3. At an early stage, detect a disease and start treatment in a timely manner, which is successful only in the early stages and is economically viable, as it saves the animal’s milk production with less treatment costs.

Using the proposed device, we achieve:
1. Registration of biopotentials without pain at the sites of application of the electrodes.

 2. Registration of biopotentials through electrodes that provide contact with the skin through the hairline.

 3. The possibilities of working in livestock farms, directly in the animal’s stall, without delivering it to the place of study, since the device is portable, portable and does not require AC power.

 Thus, through the application of the proposed method, it becomes possible to prevent injuries to milkmaids and minimize it by predicting a defensive reaction of cows, since injuries often occur suddenly when a milkmaid does not expect an impact from a previously calm animal, without visible signs of the disease. The animal injures the milkmaid, exhibiting a defensive reaction to the touch of the teat cups on the inflammatory focus, which is not yet clinically visible, but already painful. The method is painless, does not cause a defensive reaction of the animal, does not require milk and its investigation, allows you to quickly and with high accuracy to examine the entire population of animals both during lactation and in the start-up period, to detect the disease at an early stage and begin treatment, t. e. allows you to save the milk productivity of animals.

 The design of the electrodes of the technical device allows the electrode to contact the skin through the hairline and allows you to obtain information about the presence or absence of the inflammatory process in the udder without causing pain (pinching, tingling, itching, burning) at the places of application of the electrodes, since the handle is a regulator of magnitude variable resistance allows you to limit the amount of current passing through the tissue of the udder to not more than 100 μA. As we have established, such a magnitude of the current when passing through the tissue does not cause discomfort and defensive reaction of the animal.

 The proposed method for the electrodiagnostics of the udder of cattle, which consists in applying non-biological tissues of the udder of the contact part of the electrodes, sequentially passing current through the four studied parts of the udder, the magnitude of which judges the state of the udder of the animal, while a constant current from the source is passed through each udder the short circuit of which is 100 μA, and with the magnitude of the current flowing along the share of the udder up to 50 μA, the inflammatory process in the udder is considered absent, with a value of 51 - 59 μA are diagnosed with latent inflammatory process in the early stage, and with a current exceeding 60 μA, a pronounced inflammatory process is diagnosed in the corresponding fraction of the udder, and in the diagnosis of the right or left front lobe of the udder, a positive electrode is applied to the skin, respectively, of the right or left front lobes of the udder in front and side 2 cm from the middle sagittal groove, and a negative electrode is applied to the skin of the udder from the outside, respectively, of the right or left front lobe at the level of its middle, in the diagnosis of the right or left posterior lobe, a positive electrode is applied to the skin, respectively, of the right or left rear lobe of the udder, 2 cm from the right or left lobe and 2 cm from the middle sagittal groove, and the negative electrode is applied to the skin of the udder from the outside, respectively, of the right or rear lobe at the level of its middle or closer to the milk mirror.

 In FIG. 1 shows a diagram of a technical device; in FIG. 2 is a plan view of an electrode; in FIG. 3 is a bottom view of an electrode; in FIG. 4 is a side view of the electrode; in FIG. 5 and 6 - a general view of the udder of the animal with the designation of the places of application of the electrodes, left and right.

 The proposed device includes a series-connected DC power supply of 9 V (two batteries with a voltage of 4.5 V each) 1, variable resistance 2, microammeter 3 with a scale of 10 μA, two outputs for electrodes 4, two electrodes 5, pen -regulator of resistance value 6.

 The electrodes 5 are made in the form of a plate 7 of a thin sheet of electrically conductive material, and the ends of the plate are bent towards each other so that between them there is an interplate gap of 4 mm 8 and an interplate space of 3 mm 9. The thickness of the plate is 0.1 - 0.2 mm, width 2.4 cm, length 2.5 cm. One end of wire 10 is soldered to the upper plate of the electrode, which, when operating, connects the other end to the device. A cylindrical cork handle 11, 3 cm high, 1.8 cm in diameter, is attached to the lower side of the electrode.

 Structurally, the device is a box 8 cm high, 21 cm long, 11 cm wide, 1 kg weight, into which 9 V DC power supply is connected in series (two batteries with a voltage of 4.5 V each), variable resistance, microammeter 100 μA, two outputs for electrodes, 2 electrodes, a handle-regulator of the resistance value, which allows you to set a value for the current passing through the tissue that does not cause pain and gives information about the presence or absence of the inflammatory process in udder, this value is 100 μA.

 The proposed device operates as follows.

 The electrodes are connected to the technical device using a wire and the handle of the device is set to the right extreme position. The handle is a regulator of variable resistance and allows you to limit the amount of current passing through the tissue to not more than 100 μA. Such a magnitude of the current when passing through the tissues of the udder does not cause discomfort and a defensive reaction of the animal.

 An ion-exchange pad moistened with physiological solution of cotton or gauze is introduced into the inter-plate space of the electrode, which is held by the plates bent to the ends. Since the layer of the ion-exchange pad is sufficiently powerful, physiological saline solution liberally moistens the hair and skin through the inter-plate gap, thereby achieving close contact between the electrode and the skin, as a result of which the biopotentials are recorded by a technical device without cutting the hair.

 Without special preparation of the skin of the udder, i.e. cutting and shaving hair, two electrodes are applied to the studied udder lobe in the following sections of the udder.

 When diagnosing the inflammatory process of the right anterior lobe, a positive electrode is applied to the skin of the right front lobe of the udder in front and side, 2 cm away from the middle sagittal groove, and a negative electrode is applied to the skin of the udder on the outside of the right front lobe, at the level of its middle.

 When diagnosing the inflammatory process of the left anterior lobe, a positive electrode is applied to the skin of the anterior lobe of the udder in front from the side, 2 cm away from the middle sagittal groove, and a negative electrode is applied to the skin of the udder from the outside of the anterior lobe at the level of its middle.

 When diagnosing the inflammatory process of the right lobe, a positive electrode is applied to the skin of the right posterior udder, 2 cm from the right anterior lobe and 2 cm from the middle sagittal groove, and a negative electrode is applied to the skin of the udder from the outside of the right posterior lobe at the level of its middle or closer to milk mirror.

 When diagnosing the inflammatory process of the left posterior udder, the positive electrode is applied to the skin of the posterior udder, deviating from the left anterior lobe and the middle sagittal groove by 2 cm, and the negative electrode is applied to the skin of the udder from the outside of the left posterior lobe at the level of its middle or closer to the milk mirror.

 During application at the indicated points of the electrodes to the studied udder lobe, current flows through the tissues of the studied lobe and the needle of the microammeter deviates by a certain amount, and, as we have established, the current value is different depending on the presence or absence of the inflammatory process. So, in the absence of an inflammatory process, the microammeter needle is deflected by 1-5 μm, in the presence of an inflammatory process that is not clinically visible, by 60 - 110 μA, in doubtful cases by 51 - 59 μA, the diagnostic accuracy is 99%, the examination duration is 2 - 3 s. Animals with 60–100 μA biopotentials are registered to a greater or lesser extent defensive reaction during milking, which for milkmaids is a signal of trauma and increased caution when milking cows, and in some cases, fixing the hind limbs of the animal, as well as to isolate the animal in a group of patients and timely treatment.

 The method is painless, does not cause a defensive reaction in an animal, does not require milk delivery and its investigation, allows predicting an defensive reaction of an animal and thereby profiling injuries in milkmaids, quickly and with high accuracy to examine the entire population of animals both during lactation and during start-up , at an early stage to detect a disease and start treatment in a timely manner, which is successful only in the early stages and is economically profitable, since with less treatment costs it allows you to save products Animality.

 The technical device operates as follows.

 Before applying electrodes to the skin, an ion-exchange pad (moistened with physiological solution of cotton or gauze) is introduced into the inter-plate space of the electrode, which is held by the curved ends of the plate. There is no need to change the gasket when examining the entire livestock of animal farms, which significantly reduces labor costs, it is only necessary to periodically moisten it with physiological saline through the inter-layer gap. The variable resistance knob is set to the extreme right position, which allows you to limit the amount of current passing through the tissue to no more than 100 μA. This magnitude of the current when passing through the tissues of the udder does not cause pain and defensive reaction of the animal. The electrodes attach to the device through the leads from the electrodes and are applied to the skin of the udder in certain areas, as a result of which current flows through the tissues of the udder. The current from the positive pole of the source passes through the variable resistance of the device, through the positive electrode, udder tissue, negative electrode, microammeter and closes at the negative end of the power source.

 Depending on the presence or absence of the inflammatory process in the udder, the current value is different and the needle of the microammeter deviates at a different value. So in the absence of an inflammatory process, the needle of the microammeter deviates by 1 - 50 μA, in the presence of an inflammatory process by 60 - 100 μA, in doubtful cases by 51 - 59 μA.

 Thus, using the proposed method and device for its implementation, it becomes possible to predict the defensive response of cows during milking based on the diagnosis of the early stage of the inflammatory process in the udder by the value of biopotentials, and as a result, to prevent injuries in milkmaids.

 The proposed method is confirmed by the following studies: in the conditions of the Abakumtsevsky livestock complex of the Nekrasovsky district of the Yaroslavl region, for 24 months from August to November 1994, 249 cows were examined for the presence of an inflammatory process in the udder, according to the results of a study of milk with mastidine and the largest bio-potentials to visible signs of the disease, of which 200 are in the stage of lactation, 49 in the launching stage. Of the 200 cows that are in the stage of lactation, the identification of 26 goals with inflammatory processes in the udder, not clinically diagnosed, but in the study of milk with mastidine, which gives a positive reaction to the presence of the inflammatory process. In these animals, the biopotentials recorded from the skin of the udder were 60 - 100 μA and a defensive reaction was observed during milking, while in 169 animals that gave a negative reaction when examining milk with mastoid, the biopotentials were 1 - 50 μA. In 5 animals, a dubious reaction was observed in the study of milk with mastidine. The biopotentials in these animals were 51–59 μA; a defensive reaction in these animals was not observed during milking. However, after two days, the response to mastidine in these animals was positive, and the biopotentials were 60 - 110 μA and a defensive reaction was observed during milking.

 Forty-nine cows at the start were not examined with mastidine, since no milk was excreted from the udder. When registering the value of biopotentials in 37 cows, the value of biopotentials was 1 - 50 μA, in 19 and 60 - 100. Subsequently, after calving, an inflammatory process in the udder in the clinical stage was recorded in these animals. Thus, by the value of the biopotentials of the udder at the start-up stage of the cow, it is possible to diagnose the inflammatory process and start treating it before calving, thereby preventing injuries to milkmaids when milking newly calving animals.

Claims (2)

 1. The method of electrodiagnostics of the udder of cattle, which consists in applying to the biological tissue the udder of the contact part of the electrodes, sequentially passing current through the four studied parts of the udder, the value of which judges the state of the udder of the animal, characterized in that a constant current is passed through each share of the udder from a source with a short circuit current of 100 μA, and with a current flowing along the share of the udder, up to 59 μA, the inflammatory process in the udder is considered absent, at a current of 51 - 59 μA, a latent inflammatory process is diagnosed at an early stage, and at a current exceeding 60 μA, a pronounced inflammatory process is diagnosed in the corresponding fraction of the udder, and in the diagnosis of the right and left front lobes of the udder, a positive electrode is applied to the skin, respectively, of the right or left front lobes of the udder in front and side at a distance of 2 cm from the middle sagittal groove, and a negative electrode is applied to the skin of the udder from the outside, respectively, of the right or left front lobe at a level its middle, in the diagnosis of the right or left posterior lobe, a positive electrode is applied to the skin, respectively, of the right or left rear lobe, deviating from the right or left lobe and from the middle sagittal groove, respectively, by 2 cm, and the negative electrode is applied to the skin of the udder from the outside, respectively, of the right or the left posterior lobe at the level of its middle or closer to the milk mirror.  2. Device for electrodiagnostics of the udder of cattle, including cutaneous electrodes connected in series with a power source and a microammeter, characterized in that the contact part of each electrode is made in the form of a conductive plate, the ends of which are bent opposite to form a gap between them, in which there is an ion exchange gasket moistened with physiological saline, and the power source is made in the form of a current source with a short circuit current of 100 μA.

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