NL8901281A - Implant needle for animal application - has axial groove and slanted sharp front - Google Patents

Abstract

Quick releasable implant needle injects e.g. cylindrical shaped capsules without creating a wound in the animal skin. Width of axial groove may vary between 30 and 180 degrees of needle circumference. Tubular implant needle (1) has a sharp slanted paint (2). Length of groove (3) is equal to needle depth penetration. Needle applies e.g. cylindrical shaped capsules (4). After withdrawal of the needle a spring loaded valve moves, to close the e.g. comma shaped wound, which heals quickly and leaves no scars.

Description

Implant needle with axial slit

The invention relates to a tubular needle, pointed at one end, for the purpose of implanting (mostly cylindrical) objects into livestock, with the special feature that said needle is provided with an axial slit in order to cut off a piece of skin when inserting prevent the needle and minimize the injury. In addition, the needle can be constructed and mounted in a collection device so that it is quickly interchangeable and can only be secured in one way in view of the shaft rotation.

The insertion of implants in animals is increasingly taking place. These implants usually consist of cylindrical capsules that are spherical in shape at both ends. For example, the capsules may contain drugs which diffuse slowly, at a predetermined rate, through the capsule wall and thus enter the animal body in a dosed manner over longer periods. The capsules may also contain electronic circuits for telemetry or identification; the capsule wall is usually made of glass,

The diameter of such a capsule can vary from, for example, 2 to 5 mm. A tubular needle, sharply pointed on one side, is used for implantation, which has a large diameter relative to a liquid medicine injection needle. The disadvantage of the current implantation needles is that a piece of skin the size of the needle diameter is cut off during insertion and is pushed into the body before the implant. This is undesirable because the skin part is often not sterile, so that internal inflammation can develop. But even if these inflammations do not occur, the introduction of skin is undesirable. This is because rejection reactions can occur. In addition, the superficial injury in the skin is relatively large, so that it can take a long time to grow closed, scars can remain, and there is also a greater chance of inflammation present.

These drawbacks are avoided when the implanting needle according to the invention is used. By designing the needle tube with an axial slit »the skin is not completely cut loose when the needle is inserted, but only a comma-shaped cut is created and the skin part hinges inwards. After removing the needle, the hinged skin part moves back and closes the wound as a flap.

The operation and the design of the implanting needle according to the invention will be described with reference to Figures 1 to 4.

Figure 1 shows what a needle according to the invention can look like in principle.

The tubular implantation needle 1 is pointed sharply at 2. to facilitate insertion. An axial slit is at 3. The length of this slit is such that it extends at least over the depth at which the needle is inserted into the body. After or during insertion of the implantation needle, the implant, for example shaped as 4 in Fig. 1, is introduced into the body through the needle cavity, after which the needle 1 is withdrawn.

Figures 2 a to d show the needle cross section where the slit is present. Tube 1 contains slit 3 which extends over angle 5. Depending on animal species, age and location of implantation, angle 5 can be different and usually lies between 30 ° and 180 °.

The side 6 finish may be radial as in Figure 2a, but other finishes may provide benefits such as: parallel to the horizontal axis (Figures 2b, 7), parallel to the vertical axis (Figures 2c, 8) or rounded (fig.2d, 9). In examples 2a, b and c, the finish is sharp-angled, for example 2d.

The operation of the implanting needle according to the invention is illustrated in Figures 3a and 3b. Needle 1 is inserted through the skin portion 10. The skin externally joins the outer circumference of the needle 1 and is slightly stretched there. A "flap" 11 is cut loose and can pivot about dotted line 12. A space 13 is created between the inside of the needle and the valve, through which the implant can be pressed inwards. In addition, valve 11 pivots inward to provide space for the implant.

After withdrawal of the needle, valve 11 springs back and closes the wound. Only a comma-shaped cut 14 (fig. 3b) remains, which heals quickly and leaves virtually no scar. The implanting needle according to the invention can of course be attached in different ways. Preferably, a fastening can be chosen, whereby a quick change of the needle is possible. It can also be important that the needle can only be attached in one way (given the rotation option).

Some mounting options are shown in Figures 4a and b. In Fig. 4a, the needle is provided with a ring 15 in a known manner. Attachment takes place via swivel 16 on base 17, forming part of the implanting tool. Slit 3 according to the invention extends at least to the front of the swivel 16. A faster method of attaching the implanting needle According to the invention, which furthermore only allows the needle to be placed in one position (in view of the axis rotation) and no clamping ring required on the needle is shown in fig. 4b.

Needle 1 fits into a center hole 19 in base 18, part of the implant tool. Hole 19 contains a key 20 which fits into the slit 3 of needle 1. It can therefore only be inserted in one position. Furthermore, an obliquely finished cam 21 is slidably mounted in base 18. This cam is attached to ring 22 which is pressed eccentrically by spring 23 ', so that cam 21 springs inwards. Cam 21 fits into hole 24 provided in the wall of needle 1.

If the needle 1 is now pressed axially in hole 19, this is only possible when key 20 falls into slit 3. Then cam 21 springs back. When the needle has been pressed to the stop, cam 21 will shoot into hole 24 of needle 1, thereby holding the needle.

The needle can be removed by pressing ring 22 against spring 23; the cam 21 is then out of hole 24, after which the needle 1 can be pulled out.

It will be apparent to those skilled in the art that many variations on the fastening theme are possible, but all of them are within the scope of the invention.

Claims (6)

Tubular needle pointed at one end, hereinafter referred to as an implanting needle, for implanting objects in livestock, characterized in that this needle is provided with an axial slit over at least the insertion depth in the body to be implanted. Implanting needle according to claim 1, characterized in that the slit is between 30 ° and 180 ° of the needle circumference. Implanting needle according to one or both of the preceding claims, characterized in that the tube wall is sharply finished on the slit side. Implanting needle according to one or both of Claims 1 and 2, characterized in that the tube wall on the slit side is approximately hemispherical. Implanting needle according to one or more of the preceding claims, characterized in that the needle is quickly exchangeable in the implanting tool. Implanting needle according to claim 5, characterized in that the needle can be mounted in the implanting tool only in one axis rotation position.