JPS6213016B2 - - Google Patents

Description

[Detailed description of the invention]

The present invention relates to a method for attaching collagen to implant materials such as dental implant materials. The implant material to which collagen is attached is easily compatible with the tissues surrounding the implanted bone, such as the periodontal tissue, and has the effect of guiding and producing biological collagen fibers in the implanted part of the implant material. It has the advantage of being able to be firmly and stably implanted into the bone. An object of the present invention is to provide a method for attaching collagen to the implant material, in which the collagen is always in a good state, and a dentist or the like can perform the collagen attachment operation using simple means. The present invention will be specifically described below based on illustrated embodiments. 1 is a tissue retrieval powder vacuum-packed in a bottle (container) 2, which contains acid-soluble collagen powder obtained from calf skin and subjected to deimmunization treatment such as cobalt irradiation, sodium chloride, potassium chloride, and calcium chloride. Contains powdered Ringer's solution components. In addition, this tissue rejuvenation powder 1 contains a small amount of dissolution promoter powder such as phosphate or succinate, which makes the solution at the time of dissolution acidic to about PH 5.5, in order to promote the dissolution of the collagen powder. It also contains other powder components such as mucopolysaccharides. The tissue rejuvenating powder 1 can be configured to contain the following components per 100 g of distilled water.

[Table] The tissue retrieval powder 1 is vacuum packed under sterile conditions to withstand long-term storage. The tissue retrieval powder 1 is used immediately before implanting the implant material 3. That is, as shown in FIG. 2, distilled water is injected into the container 2 using a syringe 4 to dissolve the tissue reactivation powder 1, thereby producing a tissue reactivation solution 1a. Next, a sterilized implant material 3 having a porous layer is put into the container 2, and the tissue reactivation solution 1a is added to the implant material 3.
and seal the container 2 again (third step).
figure). Thereafter, the air inside the container 2 is sucked using the syringe 4 to bring the inside of the container 2 into a depressurized state (FIG. 4). Thus, the tissue reactivation solution 1a penetrates into the porous layer of the implant material 3, and the surface of the implant material 3 is covered with the tissue reactivation solution 1a. The implant material 3 to which collagen has been attached in this manner is implanted at a desired location. As the implant material 3, it is preferable to adopt one having a porous layer (bolus layer) at least on the surface layer. For example, in the case of the ceramic implant material 3, a porous layer having an appropriate porosity is formed over the entire surface during sintering. It is easy to form across. Further, in the case of a metal implant material 3 such as a titanium-based implant material or a nickel-chromium implant material, the sprayed film can be made into a porous structure by coating with a sprayed film. As an example of the method of the present invention is shown in the above embodiment, a tissue rejuvenation powder 1 containing powdered acid-soluble collagen that has been subjected to deimmunization treatment and a powdered Ringer's solution component is vacuum packed in a container 2. Implant material 3
However, it can be configured in various ways other than those shown in the above embodiments. For example, it is possible to mix powdered apatite into the tissue rejuvenation powder 1 so that apatite can be attached to the implant material 3 at the same time as collagen is attached. Alternatively, the implant material 3 may have a structure without a porous layer, and the tissue activating solution 1a may be attached to the implant material 3 by coating or the like. Further, as the implant material 3, bioceramic coated with a metal such as molybdenum or titanium, or ceramic can be used. Furthermore, in addition to using the implant material 3 to which collagen is attached immediately, it may be stored frozen and used at any time. Since the method of the present invention has the above configuration, collagen can be stored for a long period of time in a powdered state and in a vacuum state, and its deterioration can be prevented, so that the collagen attached to the implant material can be kept in the best condition. If collagen is stored in a liquid state as in the past, it tends to deteriorate, especially at high temperatures, and the quality of the collagen attached to the implant material cannot be fully trusted. For example, in combination with storage in a vacuum state, the above problems can be solved. Furthermore, according to the method of the present invention, in addition to the acid-soluble collagen powder, the tissue retrieval powder contains powdered Ringer's solution components, so the tissue retrieval powder in the container can be added to distilled water when desired. It can be attached to an implant material simply by applying it and dissolving it, allowing dentists and the like to carry out collagen attachment work by simple means.

[Brief explanation of the drawing]

The drawings show embodiments of the present invention, and include FIGS. 1 to 4.
Each figure is an explanatory diagram of the method of the present invention. 1... Tissue retrieval powder, 2... Container, 3... Implant material.

Claims (1)

[Claims] 1. Vacuum-pack and store a tissue rejuvenation powder containing deimmunized acid-soluble collagen powder and powdered Ringer's solution components in a container, dissolve it at desired time, and then attach it to the implant material. A method for attaching collagen to an implant material characterized by: