CH328895A - Blood stasis instrument for veterinary use - Google Patents

Description

  

  
 



  Blood stasis instrument for veterinary use
The invention relates to an instrument for storing bins for veterinary purposes. Such instruments are used for congesting the vein, especially the neck vein of animals. They are intended to make it easier to give intravenous infusions or to draw blood.



   The taking of blood samples is common, for example, when selling livestock, when buoyed up on C-public pastures or when performing screening tests. It is therefore one of the most common operations in veterinary practice. Serial examinations play a major role in the abortion bang control process.



   The blood is drawn by inserting a hollow needle into the jugular vein, which runs on the lower side of the neck directly above the trachea in the throttle groove.



   Various methods have been used to block the vein. It is common for horses, for example, to cause the stasis by pressing the finger.



     This is also possible with cattle, but less expedient and reliable for this type of animal. Cattle have a much thicker skin than horses. As a result, it is more difficult to pierce the skin. These animals also make defensive movements more frequently. If the animal moves its head and evades, the congestion of the vein is usually lifted. The finger pressure must then be repeated, and it will take a certain amount of time before the vein is completely blocked again.



  This type of stowage is therefore very unreliable and extremely time consuming.



   In order to remedy these disadvantages, the vein has often been blocked by means of a cord that is tied tightly around the neck and then tied or held by an assistant. In this case, the congestion mostly remains with small defensive movements.



  However, as soon as the defensive movements become stronger and are directed sideways and downwards, the stowage is lifted with this method as well and must be repeated by pulling the cord or re-laying it. An elimination of the congestion is also often caused by the fact that the neck towards the head is much thinner than towards the chest and consequently the cord tends to slide towards the head and thus reduce or completely remove the pressure exerted on the vein . A wide variety of measures have already been taken to achieve effective and safe stowage. The bloodletting ropes or cords have been made manageable with better closures or they have been thickened at the point where the vein is congested, e.g.

   B. by a small knot or a small roller to thereby improve the congestion in the depth of the throttle channel.



   However, none of this was able to prevent the frequent interruption of the traffic jam and the loss of time that this entails.



  These disadvantages are all the more significant because it is associated with great visual difficulties and requires the entire concentration and skill of the operator to insert the needle into the congested vein. The animal's outer skin is very tough and unyielding, while the underlying vein is embedded in loose connective tissue and consequently shifts slightly under it. In order to push the needle through the tough skin, such pressure must be exerted on it that the plump, curved vein is already pushed aside before the needle can penetrate it.

   Then the needle hits the vein at an angle, slides off the tough, elastic vein surface and only penetrates the loose connective tissue, in which the vein has to be traced with the needle tip until the needle can penetrate the vein and blood flows.



   The aim of the invention is to give the surgeon the option of congesting the vein comfortably and without assistance and thereby achieving such a reliable congestion that he can concentrate his entire attention on the difficult and cumbersome task of inserting the needle.



   This is made possible by an instrument according to the invention, which is characterized in that it is designed as a pair of pliers with two outwardly curved jaw parts and two legs connected to the jaw parts, the jaw parts ending in pressure jaws, one of which is attached to the one to be compressed Blood vessel can be pressed while the other forms the abutment.



   An exemplary embodiment of the subject matter of the invention is shown in the drawing.



   Show it:
Fig. 1 is a front view of pliers designed according to the invention,
Fig. 2 is a side view of the pliers shown in Fig. 1,
3 shows forceps according to the invention attached to the jugular vein of a cattle.



   The forceps shown in the drawings consists of two forceps legs A, B articulated to one another in a known manner at point 1, the jaw parts 2, 2 'of which are curved in a circular manner. The bending of the jaw parts 2, 2 'makes it possible to grip the trachea L of an animal from below with the forceps in order to compress the vein V running in the throttle groove with pressure jaws 3, 3' located at the free ends of the jaw parts. Since the size of the windpipe differs only by centimeters in the smallest and strongest cattle, the opening width of the forceps only needs to be changed to a small extent.



  When the dynamic pressure exerted on the vein has reached the desired level, the forceps are locked so that the two halves A and B can no longer move against each other. For this purpose, a toothed rack or a toothed lever arm 4 is hinged to one of the pliers leg A, between the teeth of which the pointed end of the other plier leg B can engage in a suitable position. The toothed arm 4 swivels around the pin 5 of the pliers leg A and a leaf spring 6, which is detachably attached to the handle A by means of a twist lock 7, presses against the end face of the arm 4 and, by its pressure, causes the arm 4 to swing downward opposite. As a result, the arm 4 is pressed firmly against the pointed end of the pliers leg B and the pliers are thus locked.



   In order to be able to handle the forceps comfortably on the patient and to prevent the pressure jaws 3, 3 'from slipping out of the stowed position (FIG. 3) as a result of the excess weight of the forceps legs - if they were in the same plane as the forceps jaws - the forceps legs are off bent out of the plane of the pincer manl by an angle ss that makes it approximately parallel to the animal's neck when the pincer is used. As a result, the locked pliers hang in the stowed position without further manual guidance until the operation has been carried out and it can be removed again. The veterinarian has both hands free during the operation.



     As shown in FIG. 3, the forceps, applied from below to the IIaisvene V of a bovine and locked in their position blocking the vein, sits securely on the neck of the animal without any further fastening aids. The congested vein V is recognizable as a plump, arched, two to three centimeter thick cord under the skin.



   In the case of the pliers shown in the drawings, the jaw parts 3 and 3 'are designed in one piece with the jaw parts 2 and 2'. The jaw parts 3, 3 'are formed by bending, flattening and widening the jaw parts. Of course, the jaw parts can, however, also consist of separately manufactured pieces which are fastened to the jaw parts in a suitable manner. Because of the convexly curved jaw parts 3, 3 ', when they are pressed together, mutual contact occurs along a straight line.



   Likewise, the pliers can also be locked by means of another suitable device than that shown and described without departing from the basic concept of the invention.



   The invention creates a handy, easy-to-manufacture instrument. One grip is enough to attach it to the vein and close it and another to open it again and remove it. The jamming tongs sit firmly and reliably, so that the stowage is no longer interrupted even if the animal makes defensive movements. Veins and skin are pressed together well; therefore, the vein can no longer slide away from under the needle. The vein is also completely blocked in the depth of the throttle groove and opens up very quickly, especially since the veins on both sides of the neck are compressed. The animals are distracted by the constant, firm pressure and the rapid, strong congestion of the venous blood and stand particularly still when the needle is inserted.



   When working according to the known methods, the needle, if it is already in the lumen of the vein, can easily be torn out of the vein when the animal makes defensive movements, although it is still in the skin up to the olive of the cannula.



  This is because the puncture site in the skin can move very far away from the puncture site in the vein when the neck bends. With the use of the new jamming forceps, this risk is practically eliminated because the skin and vein are pressed firmly together at the fixation point.

 

Claims (1)

PATENT CLAIM Instrument for blood stasis for veterinary purposes, characterized in that it is designed as a forceps with two outwardly curved jaw parts (2, 2 ") and two legs (A, B) connected to these, the jaw parts (2, 2 ') in Leak pressure jaws, one of which can be pressed onto the blood vessel to be compressed, while the other forms the abutment. SUBCLAIMS 1. Instrument according to claim, characterized in that the pressure jaws are formed with convexly curved, rigid pressure surfaces (3, 3 '). 2. Instrument according to claim and dependent claim 1, characterized in that the curved pressure jaws are arranged at the ends of the jaw parts (2, 2 ') that their longitudinal direction is approximately perpendicular to the tangent direction of the jaw parts (2, 2') at the junction between Pressure jaw and jaw dividing end runs. 3. Instrument according to claim and the dependent claims 1 and 2, characterized in that the planes of the forceps inauls (2, 2 ') and the forceps legs (A, 1R) are at an angle (a) to each other. 4. Instrument according to claim and dependent claims 2 and 3, marked by a toothed arm (4) pivotably mounted on a leg end (A). the free end of the other leg (B) engages between its teeth, springs (6) being provided to hold the toothed arm (4) in its position locking the pliers legs (A, B).