CZ19727U1 - Apparatus for measuring pH values of rumen fluid - Google Patents

Description

Device for measuring pH values of rumen fluid

Technical field

The invention relates to a device for measuring the pH of a rumen fluid.

BACKGROUND OF THE INVENTION

The rumen pH of ruminants is important for monitoring animal health, particularly in relation to subclinical and clinical acidosis. Records of pH changes throughout the day are required to correctly assess the acid state. Obtaining this data by conventional means is very laborious and expensive.

The method of measuring the pH of rumen contents can be divided into two basic methods: measurement outside the animal and measurement inside the rumen of the animal,

In the first case, the pH of the rumen liquid collected from the rumen is measured with a laboratory pH meter using an esophagus probe or, in the case of cannulated animals, through a rumen cannula using a large capacity syringe or pump. When taking an oesophageal probe, it is necessary to fix the animal well, which requires the cooperation of a larger number of nurses, and there is also a higher risk of injury due to animal restlessness. All-day changes in pH values cannot be well captured by this procedure, as only a limited number of samples can be taken during the day due to the high measurement effort. Another drawback of this method is the change in rumen fluid parameters due to air contact, which may affect the measured pH values (Smith, 1941; Dado and Allen, 1993; Marden et al., 2005). Both problems, measurement intervals and air contact, are partly addressed by the method published by Corley et al. (1999) and Marden et al. (2005). In this procedure, the rumen fluid is continuously sucked through a weight-fixed filter at the bottom of the rumen vent bag by means of a pump located outside the animal and routed through a tubing through the rumen cannula lid to a measuring cell separated from the external environment. This method can generally be expected to be more unreliable due to the increased likelihood of system blockage.

In the latter case, the pH is measured inside the rumen, whereby the signal from the pH sensor can be transmitted to conductors outside the animal by means of conductors or the collecting device can be placed together with the pH sensor in a probe fixed to the rumen bottom and data are transferred to the computer in the file after the measurement. This method of continuous pH measurement and its modification are the most commonly used and have been published in several works. A device with processing and data collection outside the animal has been patented (US 2002/0156356 A1, Mehrotra V.P., 24, 10, 2002). The use of similar devices has been published by Dado and Allen (1993), Nocek et al. (2002) and AlZahal et al. (2007). The use of data processing and data collection equipment located in a DASCOR probe (Canada) has been published by Penner et al., (2006). Signal transmission through wires over longer distances is often subject to interference due to the high impedance of the pH sensor, which reduces the reliability of the measured values. Placing a data processing and data collection device inside an animal eliminates the source of interference, but it is not possible to continuously check the functionality of the device without removing it from the rumen and transferring the data to the computer.

The above mentioned drawbacks are eliminated by a device which is able to wirelessly transmit the processed data to the central computer. A general problem with these devices is the high signal attenuation when passing through body fluids, especially at higher frequencies. This requires a retransmitter in the vicinity of an animal that is normally placed on the neck in the form of a registration plate. New technologies have allowed the size of these devices to be reduced, allowing them to be applied to the rumen orally. One type of this device has been disclosed in an article by Gasteiner et al. (2008). Various modifications to this method of continuously sensing rumen parameters (e.g., pH, temperature, pressure) with wireless data transmission have been published in patents (US 2004/0133131 A1, Kuhn et al., July 8, 2004), (US 7,062,308 B1, Jackson WJ, 13.6.2006), (WO

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01/013712 A1, Verstege A.B.M. et al., 1.3.2001), (WO 02/073194 A2, Van Over J.E., 19.9.2002), but the results obtained were not always accurate.

The essence of the technical solution

The above-mentioned disadvantages are eliminated by the rumen fluid pH measuring device according to the invention, which consists of a probe which is inserted through the rumen cannula on the rumen bottom of the animal, and the probe is subsequently attached to the rumen cannula cover by means of an antenna cable. The probe forms a hermetically sealed housing and consists of a tube with a neck on the underside, into which a lid is inserted in which there is an opening with a cable gland for the passage of the pH electrode. A protective flange with holes is attached to the lower pipe cover. In the upper tube lid there is a cable gland for the passage of the antenna cable that extends above the tube, extends above the surface of the animal to be examined through the rumen cannula cover, and a carabiner is attached externally to the antenna cable to secure the probe to the rumen cannula cover. A stabilizing weight is placed on the outside of the probe at its lower edge, and inside the probe are two electronic modules, a power supply and a silica gel bag. The measurement results transmitted from the probe antenna are sensed by a receiving antenna, which is connected to a computer via the interface and USB port and allows wireless transmission of the measurement results from at least one animal to the computer.

The device according to the invention is characterized in that the pH electrode is formed by a combined glass electrode with a reference gel electrode.

The device according to the invention is further characterized in that the tube, the top and bottom lid and the protective rim are made of novodur or possibly another suitable inert material.

The device according to the invention is further characterized in that one module is a signal amplifier from the measuring electrode.

The device according to the invention is also characterized in that the second module is composed of a micro25 processor with control software and a transmitter.

The device according to the invention is further characterized in that an arrangement of the receiving antenna, interface and USB port is provided in the computer for simultaneous processing of the signal from more than one probe and thus for simultaneous monitoring of several animals.

The device according to the invention is a part of a system which ensures measurement of pH values of rumen fluid and its wireless transmission from ruminant rumen bag through a receiving antenna to a computer located in an adjacent laboratory. The device was used by the inventor of the technical solution to measure the pH values of rumen fluid, which is a conclusive indication of the health status of the monitored animal. Use is foreseen in ruminants equipped with a rumen cannula. The measurement of this parameter is carried out continuously at selectable time intervals and the measured animal is not bothered in any way because it is well tolerated by the rumen cannula and its operation is performed with local anesthetic of the abdominal wall.

Transmission and reception of the signal is as follows: The receiving antenna is connected to the computer via the interface and USB port. The control software can be used for an unlimited number of measuring probes used simultaneously, ie several animals.

The device according to the invention consists of a tube, in particular a neodymium or other acceptable inert material, which forms a protective sleeve hermetically sealed from both sides. On the underside of the pipe there is a neck into which the lower lid is removably fastened by means of a seal. In said lower lid, the opening is provided with a cable gland through which the combined glass electrode with the gel reference electrode passes and serves to measure the pH values. A protective rim made of the same material as the probe is attached to the lower tube cover. The protective rim is provided with several large openings for good contact of the measuring electrode with the rumen fluid. The inventors proved to be successful when the protective hem had a length of approximately 4.5 cm, the diameter was

Identical to the tube, the openings had a diameter of approximately 3.5 cm χ 3 cm. The hem is attached to the lower lid by two screws.

In the upper tube cover there is a cable gland through which an antenna cable with a diameter of about 5 mm passes, which protrudes above the upper tube cover approximately 1 m and serves as a transmitting antenna. At a height of approximately 40 cm above the upper lid of the tube, a carabiner is mounted on the antenna surface of the animal to be examined, which serves externally to fix the probe to the lid of the cannula. The top 10 cm of antenna cable is shielded to ensure the transmission function. The cannula lid is part of the rumen cannula, inserted into the abdominal wall and freely accessible from the outside.

On the outside of the probe, closer to the lower edge, a stabilization weight of about 1.5 kg is placed to hold the probe at the bottom of the ruminant rumen bag.

Inside the probe there is an electronic part consisting of two modules and an electrical source. The first module is an approximately 2 x 7 cm amplifier that amplifies the signal from the measuring electrode. The second module, measuring approximately 1 χ 2 cm, consists of a microprocessor and a transmitter. The microprocessor is equipped with control software, which is part of the data processing and signal transmission system. The probe also has a porous silica gel bag that provides a dry environment for the electronics.

Operation of the device according to the technical solution is easy, the obtained measurement results were very accurate and the animals were well tolerated and calm. After a small modification, especially the evaluation system, the new equipment according to the technical solution can be used for the examination of other species of ruminant animals. The rumen probe can easily be inserted into the bottom of the ventral rumen bag through the rumen cannula after removal of the cannula lid. It is therefore a device for measuring the pH values of rumen fluid maintained by means of an additional weight at the bottom of the ventral rumen bag of ruminants, especially cattle, and intended for continuous measurement of pH values of rumen content with wireless data transfer to the central computer via antenna25 led over the rumen cannula. .

In the accompanying drawings, FIG. 1 is a side view of an end portion of a device according to the invention, i.e. a probe. Fig. 2 is a longitudinal section of the probe; Fig. 3 is a bottom view of the probe; and Fig. 4 is a schematic representation of the entire animal observation with the transmission and recording of measured values.

The following examples of embodiments of the device according to the invention only illustrate without limiting it.

Examples

Example 1

The examined animal 22 - a lactating dairy cow weighing 600 kg and 4 years old - was subjected to local anesthesia to operate the rumen cannula 23 into the abdominal wall of the rumen so that the lid of the cannula 24 is freely accessible from the outside of the animal 22. . The measuring probe 17 is inserted into the ventral rumen bag via the rumen cannula 23 after removal of the cannula lid 24. The inserted probe 17, hermetically sealed from both sides, is made of a 20 cm long and 8 cm diameter novodur tube. The lower lid 2 is inserted into the neck of the tube 7 via the seal 6. On said lower lid 2 there is one opening provided with a cable gland 7 through which the combined glass electrode with the gel reference electrode 8 passes. This serves for pH measurement and as reference electrode. A protective rim 3 made of the same material as the tube 1 of the probe 17 is attached to the lower lid 2 of the tube 1. The protective rim 3 is provided with 4 large openings 4 for good contact of the rumen fluid with the electrode 8. The protective rim 3 has a length of approximately 4, 5 cm, the diameter is identical to the pipe 1, the holes 4 have a diameter of approximately

3.5 cm χ 3 cm and can be oval or round. The protective rim 3 is attached to the lower cover 2 of the probe Π by two screws 5.

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In the upper cover 9 of the tube 1 there is a cable gland 10 through which an antenna cable 11 of about 5 mm diameter extends, which protrudes above the upper edge of the tube about 1 m and fulfills the function of a transmitting antenna. It extends above the surface of the animal to be examined 22 and is placed on the lid 24 of the cannula 23 on the abdominal wall of the animal 22. At a height of approximately 40 cm above the upper lid 9 of the tube 1, a carabiner 18 is fastened externally to the antenna cable 11. rumen cannula 23. The top 10 cm of the antenna cable zbav is shielded to ensure the transmission function.

On the outside of the tube 1, closer to the lower edge, there is a stabilization weight 16 of approximately 1.5 kg, which ensures a stabilized placement of the probe 17 at the bottom of the ventral bag and of the rumen of the ruminant.

Inside the probe 17 is located an electronic part consisting of a module 12, a module 13 and an electrical power supply 14, which preferably constitutes an accumulator. The module 12 is an approximately 2 x 7 cm amplifier that amplifies the signal from the measuring electrode 8. The 1 χ 2 cm module 13 is composed of a microprocessor and a transmitter. The microprocessor is equipped with control software, which is part of the signal transmission system. Further, the probe 17 is provided with a porous silica gel bag 15 which provides the dry environment required for the electronics function. The rumen fluid measurement results are transmitted wirelessly from the rumen bag of the animal 22 via the transmitting antenna 11 to the receiving antenna 19 to a computer 21 located in an adjacent laboratory, via an interface 20 and a USB port. The control software can be used for an unlimited number of measuring probes 17, so that several probes 17 can be connected to the computer 21 simultaneously to investigate several animals 22.

According to the technical solution, 4 animals, mainly cattle, were successfully examined in 2008 and it was proved that it is fully functional and much more friendly to the examined animals than the existing equipment used. The obtained measurement results were very accurate.

Literature:

AlZahal O., Rustomo B., Odongo N. E., Duffiel T.F., McBride B.W. 2007. Technical note: A system for continuous recording of ruminal pH in cattle. J. Anim Sci., 85: 213-217;

Corley R.N., Murphy M.R., Lucena J., Panno S.V. 1999. Technical note: A device for obtaining team-integrated samples of ruminal fluid. J. Anim Sci., 77: 2540-2544;

Dado R.G. and Allen M.S. 1994. Variation and relationships among feeding, chewing and drinking variables for lactating dairy cows. J. Dairy Sci., 77: 132-144;

Gasteiner J., Pallasi M., Rosenkranz S., Hausler J., Schneider K., Schwab M., Guggenberger T, 2008. Moglichkeiten zur mesung des pH-wertes im pansen. Nutztierpraxis Aktuell, 25: 14-21.

Claims (6)

PROTECTION REQUIREMENTS Apparatus for measuring the pH of a rumen fluid, characterized in that it comprises a measuring probe (17) mounted on the rumen cannula (23), wherein the probe (17) consists of a tube (1) hermetically sealed by two lids (2) 2, 9), wherein the lower lid (2) of the tube (1) is provided with an opening with a cable gland (7) for the passage of the pH electrode (8), whereby a protective skirt (3) is attached to the lower lid (2) of the tube (1) with holes (4), the upper cover (9) 40 of the tube (1) is a cable gland (10) for the passage of the antenna cable (11) that protrudes above the tube (1), is mounted on the lid (24) of the cannula (23) located in the abdominal wall of the animal (22) of the animal being monitored (22) and a carabiner (18) externally attached thereto for securing the probe (17) to the rumen cannula cover (24), a stabilizing weight (16) is provided on the outside of the probe (17) at its lower edge and inside the probe (17) is located an amplifier module (12) 19727 U1 of the electrode signal and module (13) with microprocessor and transmitter, the power supply (14) and the bag (15) with silica gel, the signal from the probe (17) being received by an antenna (19) connected via the interface (20); A USB port with a computer (21) for wirelessly transmitting the measurement results from the surface of at least one animal (22). Device according to claim 1, characterized in that the electrode (8) is a combined glass electrode with a reference gel electrode. Device according to claim 1, characterized in that the tube (1), the lower lid (2), the upper lid (9) and the protective rim (3) are made of novodur. Device according to claim 1, characterized in that the module (12) is a signal amplifier 10 from the pH measuring electrode (8). Device according to claim 1, characterized in that the module (13) is composed of a microprocessor with control software and a transmitter. Device according to claim 1, characterized in that it comprises a receiving antenna (19), an interface (20) and a USB port in a computer (21) for simultaneous processing of a signal from more than 15 for one probe (17) and thus for the simultaneous observation of several animals (22).