JP2008279007A - Body tissue substitute material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve handleability while securing a sufficiently wide surface area for sticking cells, allow medical agent to be contained therein and sustainedly released. <P>SOLUTION: This body tissue substitute material 1 is produced by dripping swelling liquid, which is prepared by adding hydrogel material polymer to aqueous solution containing phosphoric acid ions, to aqueous solution containing calcium ions. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a biological tissue filling material and a method for producing the same.

2. Description of the Related Art Conventionally, a biological tissue filling material that is compensated for in a biological tissue defect portion or the like, promotes cell growth in the biological tissue defect portion, and repairs the biological tissue defect portion (see, for example, Patent Documents 1 to 6). ).
The biological tissue filling material disclosed in Patent Literature 1 and Patent Literature 2 relates to spherical ceramic particles. According to the spherically formed ceramic particles, it is possible to secure the maximum surface area for seeding cells.

  Moreover, the biological tissue filling material currently disclosed by patent documents 3-patent documents 6 is made to contain chemical | medical agents, such as cytokine, and a calcium compound in biopolymer gels, such as a hydrogel. According to the biopolymer gel, the contained drug can be released slowly, or calcium suitable for cell growth can be provided to the cell.

JP 2001-107585 A JP 2003-12383 A JP 2003-81866 A JP 2004-290586 A JP 2006-306787 A JP-T-2004-507472

However, since the biological tissue filling material composed of spherical ceramic particles disclosed in Patent Document 1 and Patent Document 2 cannot constitute a porous structure, it cannot impregnate a drug or the like inside, It is only used to attach cells to its large surface.
In addition, since the biological tissue filling material disclosed in Patent Literature 3 to Patent Literature 6 is formed in a block shape, it cannot secure a large surface area and cannot seed many cells. There is an inconvenience that an efficient repair of a biological tissue defect cannot be achieved.

  The present invention has been made in view of the above-described circumstances, and improves the handleability while ensuring a sufficiently large surface area for attaching cells, and can be gradually released by containing a drug or the like. It aims at providing a tissue filling material and its manufacturing method.

In order to achieve the above object, the present invention provides the following means.
The present invention provides a biological tissue filling material produced by dropping a swelling liquid prepared by adding a hydrogel raw material polymer to an aqueous solution containing phosphate ions into an aqueous solution containing calcium ions.
According to the present invention, when the swelling liquid is dropped into the aqueous solution containing calcium ions, the phosphate ions and calcium ions contained in the swelling liquid combine to precipitate calcium phosphate, and at the same time, the hydrogel raw material polymer contained in the swelling liquid Hydrogel is formed by crosslinking with calcium ions.

Precipitation of calcium phosphate and formation of hydrogel occur at the moment when the droplet of the swelling liquid comes into contact with the aqueous solution containing calcium ions, so that it becomes a living tissue filling material made of spherical hydrogel containing calcium phosphate.
According to the biological tissue filling material according to the present invention configured as described above, the surface area can be ensured to the maximum by being formed into a spherical shape, and cells are engrafted on the surface by the calcium phosphate contained therein. Can be improved. Therefore, when the biological tissue defect part or the like is compensated, the efficient growth of cells can be promoted and the biological tissue can be repaired quickly. Moreover, compared with the biological tissue filling material which consists only of calcium phosphate microparticles | fine-particles, the biological tissue filling material which concerns on this invention comprised with the hydrogel can improve a handleability.

In the above invention, ceramic fine particles may be contained in a spherical hydrogel having a diameter of 1-1000 μm.
Moreover, in the said invention, it is preferable that the additive which consists of at least 1 sort (s) of a dexamethasone, ascorbic acid, or (beta) glycerophosphoric acid contains.
In this way, with the absorption of the hydrogel in the living body, it can have a sustained release property that releases the additive contained in the hydrogel and promotes cell growth over a long period of time. can do.

In the invention described above, the hydrogel raw material polymer may be composed of at least one of alginic acid, collagen, agarose, hyaluronic acid, chitosan, and gelatin.
By doing so, a biodegradable hydrogel can be formed regardless of which hydrogel raw material polymer is employed.

The present invention also includes a preparation step in which a hydrogel raw material polymer is added to an aqueous solution containing phosphate ions to prepare a swelling liquid, and the swelling liquid prepared in the preparation step is dropped into an aqueous solution containing calcium ions. A method for producing a biological tissue filling material comprising a dropping step.
According to the present invention, a spherical hydrogel is formed at the moment when the droplet comes into contact with the aqueous solution containing calcium ions simply by dropping the swelling liquid prepared in the preparation step into the aqueous solution containing calcium ions in the dropping step. In addition, calcium phosphate can be precipitated in the spherical hydrogel. Thereby, the biological tissue filling material which consists of spherical hydrogel containing a calcium phosphate can be manufactured easily.

In the said invention, the said preparation step is good also as adding a hydrogel raw material polymer to the liquid mixture which mixed the aqueous solution containing a phosphate ion, and an additive, and preparing a swelling liquid.
By doing in this way, the biological tissue filling material which contained calcium phosphate and the additive in spherical hydrogel can be manufactured easily. It is possible to provide a biological tissue filling material having a sustained release property in which an additive is released as the hydrogel disappears.

In the above invention, the additive may be composed of at least one of dexamethasone, ascorbic acid, or β-glycerophosphoric acid.
Also. The hydrogel raw material polymer may be made of at least one of alginic acid, collagen, agarose, hyaluronic acid, chitosan, or gelatin.

According to the biological tissue filling material according to the present invention, it is possible to improve the handleability while securing a sufficiently large surface area for attaching cells, and to produce a drug or the like so that it can be released slowly.
Moreover, according to the manufacturing method of the biological tissue filling material which concerns on this invention, there exists an effect that the biological tissue filling material which consists of spherical hydrogel containing a calcium phosphate can be manufactured easily.

A biological tissue filling material and a manufacturing method thereof according to an embodiment of the present invention will be described below with reference to FIGS. 1 and 2.
As shown in FIG. 1, the biological tissue filling material 1 according to the present embodiment contains calcium phosphate 3 and cytokine 4 inside a hydrogel 2 formed in a spherical shape having a diameter of about 1 to 1000 μm.

The hydrogel 2 is, for example, an alginic acid hydrogel and has bioabsorbability.
The calcium phosphate 3 is, for example, hydroxyapatite. Cytokine 4 contains, for example, at least one of dexamethasone, ascorbic acid, or β-glycerophosphate.

  According to the biological tissue filling material 1 according to the present embodiment configured as described above, since it is formed in a spherical shape, it has a large surface area and can be filled with a high filling density in a biological tissue defect portion. As a result, a large number of cells can be engrafted on the surface, and the growth of cells can be promoted to efficiently repair a biological tissue defect.

  In the case of a biological tissue filling material consisting only of hydrogel 2, the adhesion of cells to the surface is low, but the biological tissue filling material 1 according to this embodiment contains calcium phosphate with high cell adhesion. Therefore, the cells can be easily engrafted.

  Furthermore, since it is composed of the spherical hydrogel 2, it is possible to improve the handleability at the time of filling a living tissue defect portion as compared with a living tissue filling material made of granular calcium phosphate 3. That is, in the case of a tissue filling material composed of granular calcium phosphate, it adheres to the epidermis tissue around the entrance to the defect of the living tissue, so the filling work should be performed carefully or a dedicated instrument should be used. However, according to the biological tissue filling material 1 according to this embodiment, there is no such inconvenience.

  Moreover, according to the biological tissue filling material 1 according to the present embodiment, the cytokine 4 is contained in the hydrogel 2, so that the hydrogel 2 is decomposed over time by filling in the biological tissue defect portion or the like. As it disappears, the cytokine 4 contained therein is released accordingly. Therefore, cytokine 4 can be continuously released over a long period of time, and cell growth can continue to be promoted over a long period of time.

  In addition, in the biological tissue filling material 1 which concerns on this embodiment, the ratio of the calcium phosphate 3 contained in the hydrogel 2 is 20-80 by adjusting the density | concentration of the phosphate ion in the aqueous solution containing a phosphate ion. It may be adjusted within the range of%.

Next, the manufacturing method of the biological tissue filling material 1 which concerns on this embodiment is demonstrated below with reference to FIG.
As shown in FIG. 2, the manufacturing method of the biological tissue filling material 1 according to this embodiment includes a mixed solution preparation step S <b> 1 that prepares a mixed solution by mixing a phosphate ion aqueous solution having a pH of 7 or more and a cytokine 4. The swelling liquid preparation step S2 in which alginic acid is added to the liquid mixture prepared in the liquid mixture preparation step S1 to prepare a swelling liquid, and the swelling liquid prepared in the swelling liquid preparation step S2 is dropped into the calcium chloride aqueous solution. Dropping step S3.

In the mixed solution preparation step S1, for example, an aqueous solution containing phosphate ions is adjusted to pH 7 or higher with sodium hydroxide or the like, and the resulting aqueous phosphoric acid solution is composed of at least one of dexamethasone, ascorbic acid, or β-glycerophosphoric acid. A mixed solution is obtained by adding and dissolving the cytokine 4.
In the swelling liquid preparation step S2, 1% alginic acid is added to the obtained mixed liquid, and the mixture is allowed to stand for one day to create a swelling liquid.

  In the dropping step S3, the obtained swelling liquid is put in a separating funnel and dropped into a prepared 0.2M calcium chloride aqueous solution. The droplets of the swelling liquid dropped into the aqueous calcium chloride solution are the same as when the phosphate ions and alginic acid contained in the swelling liquid are present in the aqueous calcium chloride solution. It comes to react.

  That is, calcium phosphate 3 is precipitated by the reaction between phosphate ions and calcium ions. On the other hand, alginic acid is hydrogelated by crosslinking with calcium ions. Alginic acid is hydrogelated in a substantially droplet shape of the swelling liquid dropped into the calcium chloride aqueous solution, whereby a substantially spherical hydrogel 2 is formed. The precipitated calcium phosphate 3 and the cytokine 4 contained in the mixed solution are integrally formed while contained in the spherical hydrogel 2.

  As described above, according to the manufacturing method of the biological tissue filling material 1 according to the present embodiment, the calcium phosphate 3 and cytokine can be obtained simply by dropping the aqueous solution containing phosphate ions, the swelling liquid in which the cytokine 4 and alginic acid are mixed into the calcium chloride aqueous solution. There is an advantage that the biological tissue filling material 1 comprising the spherical hydrogel 2 containing 4 can be easily produced.

Here, an example of the manufacturing method of the biological tissue filling material 1 according to the present embodiment will be described.
In this example, an alginate / calcium phosphate complex was synthesized by a coprecipitation method.
First, 20 mL of 0.12M ammonium hydrogen phosphate (NH ₄ ) ₂ HPO ₄ was prepared. Subsequently, alginic acid was added to this 0.12M ammonium hydrogenphosphate so that it might become 2 weight%, and it was left to stand at room temperature for 24 hours, and the alginate swelling liquid containing a phosphate ion was obtained.

  Then, a spherical alginate / calcium phosphate complex was synthesized by injecting the alginate swelling liquid containing phosphate ions into a syringe and dropping it into a 0.2 M aqueous solution of calcium chloride. The obtained spherical alginic acid / calcium phosphate complex was passed through a 150 μm nylon mesh to recover the complex from the calcium chloride aqueous solution and washed with distilled water. Thereby, the biological tissue filling material 1 which concerns on this embodiment was able to be manufactured.

  In the biological tissue filling material 1 and the manufacturing method thereof according to the present embodiment, alginic acid is exemplified as the hydrogel raw material polymer, but instead of this, collagen, agarose, hyaluronic acid, chitosan, or gelatin is used. At least one type may be adopted. Moreover, although the calcium chloride aqueous solution was employ | adopted as an aqueous solution containing a calcium ion, it may replace with this and the aqueous solution containing another calcium ion may be employ | adopted.

It is a schematic diagram which shows the biological tissue filling material which concerns on one Embodiment of this invention. It is a flowchart which shows the manufacturing method of the biological tissue filling material of FIG.

Explanation of symbols

S2 Preparation step S3 Dropping step 1 Biological tissue filling material 2 Hydrogel 3 Calcium phosphate 4 Additive

Claims (8)

  A biological tissue filling material produced by dropping a swelling liquid prepared by adding a hydrogel raw material polymer to an aqueous solution containing phosphate ions into an aqueous solution containing calcium ions.   The biological tissue filling material according to claim 1, wherein calcium phosphate fine particles are contained in a spherical hydrogel having a diameter of 1 to 1000 µm.   The biological tissue filling material according to claim 2, comprising an additive composed of at least one of dexamethasone, ascorbic acid, and β-glycerophosphoric acid.   The biological tissue filling material according to any one of claims 1 to 3, wherein the hydrogel raw material polymer comprises at least one of alginic acid, collagen, agarose, hyaluronic acid, chitosan, or gelatin. A preparation step of preparing a swelling liquid by adding a hydrogel raw polymer to an aqueous solution containing phosphate ions;
The manufacturing method of a biological tissue filling material provided with the dripping step which dripped the swelling liquid prepared in this preparation step to the aqueous solution containing a calcium ion.   The method for producing a biological tissue filling material according to claim 1, wherein the preparation step prepares a swelling liquid by adding a hydrogel raw polymer to a mixed liquid obtained by mixing an aqueous solution containing phosphate ions and an additive.   The method for producing a biological tissue filling material according to claim 6, wherein the additive comprises at least one of dexamethasone, ascorbic acid, or β-glycerophosphoric acid.   The method for producing a biological tissue filling material according to any one of claims 5 to 7, wherein the hydrogel raw material polymer comprises at least one of alginic acid, collagen, agarose, hyaluronic acid, chitosan, and gelatin.

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