阅读说明：本技术 一种具有促成骨、抗炎作用的组装式根型牙种植体及其制作方法 (Assembled root type dental implant with osteogenesis promoting and anti-inflammatory effects and manufacturing method thereof ) 是由 王慧明 俞梦飞 余晓雯 冯斌 叶冠琛 李健 祝毅 于 2020-03-23 设计创作，主要内容包括：本发明公开了一种具有促成骨、抗炎作用的组装式根型牙种植体及其制作方法,该种植体包括羟基磷灰石内芯、充填体和纯钛外壳,所述羟基磷灰石内芯及纯钛外壳都为存在不同孔隙大小和孔隙率的结构；羟基磷灰石内芯内芯注入含骨髓间充质干细胞或BMP-2或柚皮苷或几种物质的混合物的水凝胶培养基,有助于促进种植体孔隙内骨的形成；种植体的纯钛外壳的冠方及羟基磷灰石内芯的阻挡层是为了防止牙龈处细胞及细菌进入支架并增强种植体的强度。本发明的个性化根型牙种植体形状仿生、设计科学并且骨诱导和骨结合性能优良,且具有一定的缓释作用,可长期促进骨形成的能力,并能起到抗菌的作用。(The invention discloses an assembled root type dental implant with osteogenesis promoting and anti-inflammatory effects and a manufacturing method thereof, wherein the implant comprises a hydroxyapatite inner core, a filling body and a pure titanium outer shell, wherein the hydroxyapatite inner core and the pure titanium outer shell are both structures with different pore sizes and porosities; the hydrogel culture medium containing bone marrow mesenchymal stem cells or BMP-2 or naringin or a mixture of a plurality of substances is injected into the inner core of the hydroxyapatite inner core, which is beneficial to promoting the formation of bones in the implant pores; the crown of the pure titanium shell of the implant and the barrier layer of the hydroxyapatite inner core are used for preventing cells and bacteria at the gum from entering the bracket and enhancing the strength of the implant. The personalized root type dental implant is bionic in shape, scientific in design and excellent in bone induction and osseointegration performance, has a certain slow release effect, can promote the bone formation capability for a long time, and can play an antibacterial role.)

1. An assembled root type dental implant with osteogenesis promoting and anti-inflammatory effects is characterized by comprising a hydroxyapatite inner core, a pure titanium filling body and a pure titanium outer shell, wherein the pure titanium filling body and the hydroxyapatite inner core are sequentially arranged in the pure titanium outer shell from bottom to top, and the pure titanium filling body and the pure titanium outer shell are of an integral structure; the hydroxyapatite inner core comprises a hollow body part inner core section, a slow release layer and a blocking layer, wherein the hollow body part inner core section is located in the center of the hydroxyapatite inner core, the slow release layer is arranged on the outermost side of the hydroxyapatite inner core, and the blocking layer is arranged between the hollow body part inner core section and the slow release layer and on the upper bottom surface and the lower bottom surface of the slow release layer.

2. The fabricated root dental implant with osteogenesis-promoting, anti-inflammatory effect of claim 1, wherein: the pure titanium shell is integrally in a tooth root shape and comprises a crown part and a root part, wherein the root part is in a porous structure, the porosity of the root part is 50-90%, and the pore size is 100-800 mu m.

3. The fabricated root dental implant with osteogenesis-promoting, anti-inflammatory effect of claim 2, wherein: the slow release layer is a porous structure and is communicated with the root of the pure titanium shell, the porosity of the porous structure is 50-90%, and the pore size is 100-800 mu m.

4. The fabricated root dental implant with osteogenesis-promoting, anti-inflammatory effect of claim 1, wherein: the filling body comprises a filling body solid part and a hollow body filling body section, wherein the hollow body filling body section is positioned in the center of the filling body solid part, and the edge of the hollow body filling body section is provided with internal threads.

5. The fabricated root dental implant having osteogenesis-promoting, anti-inflammatory effects of claim 4, wherein: the solid part of the filling body is formed by printing pure titanium materials, and the density is over 95 percent.

6. The fabricated root dental implant having osteogenesis-promoting, anti-inflammatory effects of claim 4, wherein: the hollow body section filler segment has a diameter less than the hollow body section inner core segment; the hollow body filler section has a length greater than 2 mm.

7. The fabricated root dental implant with osteogenesis-promoting, anti-inflammatory effect of claim 1, wherein: the edge of the core section in the hollow part of the hydroxyapatite inner core is wrapped with a pure titanium metal tube.

8. The fabricated root dental implant with osteogenesis-promoting, anti-inflammatory effect of claim 1, wherein: the porosity of the blocking layer is 15-25%, and the porosity is 40-70 μm, which is smaller than the porosity of the slow release layer.

9. The fabricated root dental implant with osteogenesis-promoting, anti-inflammatory effect of claim 1, wherein: the hydroxyapatite inner core is a polygonal columnar body.

10. A method for manufacturing an assembled root dental implant having osteogenesis promoting, anti-inflammatory effects according to any one of claims 1 to 9, comprising the steps of:

firstly, injecting a hydrogel culture medium containing bone marrow mesenchymal stem cells or BMP-2 or naringin or a mixture of the two into the hydroxyapatite inner core before planting,

secondly, curing the hydrogel of the hydroxyapatite inner core, culturing in vitro for one week,

and finally, putting the hydroxyapatite inner core into the pure titanium shell.

Technical Field

The invention relates to the technical field of dental implant restoration, in particular to an assembled root type dental implant with osteogenesis promoting and anti-inflammatory effects.

Background

With the improvement of living standard and the development of medical technology, the dental implant is increasingly the first choice for the missing tooth repair of the missing tooth patients. Under the common efforts of a plurality of doctors and researchers, the mode of the implant surgery is continuously updated; the shape and surface osteogenesis performance of the implant are also continuously changed, so that the bone formation speed is improved, and the implant is suitable for the conditions of different patients.

At present, the dental implant which is formed by machining and has a regular shape is clinically used, a hole type matched with the implant is prepared in an alveolar bone by using implant equipment in the operation process, and then the implant is implanted into a jaw bone. The conventional implant operation requires waiting for the bone of the extracted tooth socket to heal up 3 months after the extraction of the affected tooth. The implant implanted by the operation mode can achieve good initial stability, but has the defects of long operation period, large alveolar bone loss, more operation times and the like. In recent years, the application of the instant planting technology improves the defects of part of the conventional planting modes, but because the currently used implant is not matched with the alveolar fossa, redundant bone removal and bone powder filling at the pore space are needed, and even then, the initial stability of the implant is still difficult to achieve, but the initial stability plays a key role in the planting operation.

More research focuses on the modification of the implant surface, by changing the microtopography of the implant surface, or by adding microelements, proteins and the like capable of improving bone formation on the surface, thereby increasing the bone formation ability around the implant. The above method mainly utilizes the increase of the surface area of the implant and the improvement of osteogenic differentiation capacity of cells around the implant to accelerate the bone formation speed. However, the perception of morphological changes by cells is limited and there is a possibility of exfoliation during the implantation of the implant into the socket, whether by micro-topography of the surface or by modified trace elements, proteins, etc., and the latter has a limited duration of action and capacity for bone formation.

Aiming at some patients complicated with other diseases, some corresponding implant surface modification measures are provided, such as increasing anti-inflammatory factors and locally improving the local anti-inflammatory capability of patients suffering from periodontitis and diabetes. However, it is mentioned above that the materials added to the implant surface are prone to fall off during implantation and have a limited duration.

Research teams report the relevant research results of 3D printing pure Titanium materials, and in vitro and in vivo research proves that the 3D printing pure Titanium materials can promote the formation of bones on the surface of the materials (specifically, the following documents can be referred to as Mengfei Yu, Yihan Lin, Yu Liu, et al. enhanced Osteiotitional description of high structural 3D-Printed Titanium implanters. [ J ] ACS appl. Bio mater.2018,1, 90-99).

In summary, the present invention is directed to provide an assembled root type dental implant with osteogenesis promoting and anti-inflammatory effects, which can ensure the initial stability of the implant when the implant is implanted, and at the same time, has strong osteogenesis promoting ability and long-term antibacterial ability, and can make up for the deficiencies of the current clinical conventional implants.

Disclosure of Invention

The present invention is directed to provide an assembled root type dental implant which can be implanted instantly and has osteogenesis promoting and anti-inflammatory effects, and a method for preparing the same. The pore structure around the dental implant is beneficial to the growth of bones, so that the implant is firmer, the combination of the implant and alveolar bones is increased, the anti-inflammatory effect is achieved, and the curative effect of the implant operation is generally improved.

The invention is realized by the following technical scheme:

a bionic root type dental implant comprises a hydroxyapatite inner core, a filling body and a pure titanium shell, wherein the filling body and the hydroxyapatite inner core are sequentially arranged in the pure titanium shell from bottom to top, and the filling body and the pure titanium shell are of an integral structure; the hydroxyapatite inner core comprises a hollow body part inner core section, a slow release layer and a barrier layer, wherein the hollow body part inner core section is located in the center of the inner core, the slow release layer is arranged on the outermost side of the hydroxyapatite inner core, and the barrier layer is arranged between the hollow body part inner core section and the slow release layer and on the upper bottom surface and the lower bottom surface of the slow release layer.

In the above technical solution, further, the pure titanium casing is in a shape of a tooth root as a whole, the pure titanium casing includes a crown part and a root part, the root part is in a porous structure, the porosity of the root part is 50-90%, and the pore size is 100-.

Furthermore, the slow release layer is a porous structure and is communicated with the root of the pure titanium shell, the porosity of the porous structure is 50-90%, and the pore size is 100-800 μm.

Further, the filling body comprises a filling body solid part and a hollow body filling body section, the hollow body filling body section is located in the center of the filling body solid part, and the edge of the hollow body filling body section is provided with an internal thread.

Furthermore, the solid part of the filling body is formed by printing pure titanium materials, and the compactness reaches more than 95%.

Further, the hollow body filler section diameter is smaller than the hollow body core section; the hollow body filler section has a length greater than 2 mm.

Furthermore, the edge of the core section of the hollow body part of the hydroxyapatite inner core is wrapped with a pure titanium metal pipe.

Furthermore, the porosity of the barrier layer is 15-25%, and the pores are 40-70 μm and are smaller than the pores of the slow release layer.

The hydroxyapatite inner core is a polygonal column body, and can prevent the rotation of the inner core section of the hollow body part.

The invention also provides a preparation method of the assembled root type dental implant with osteogenesis promoting and anti-inflammatory effects, which comprises the following steps:

firstly, taking pictures of tooth roots of a tooth position to be implanted by CBCT;

the second step is that: importing a CBCT photographed image by using a Mimics Research software, performing three-dimensional reconstruction, and exporting the CBCT photographed image in an stl format;

the third step: and designing a hydroxyapatite inner core and a pure titanium shell structure of the dental implant respectively by utilizing CAD software, wherein the filler structure and the pure titanium shell are designed into an integral structure. The hydroxyapatite inner core of the implant is a polygonal prism and consists of a slow release layer, a barrier layer and a hollow body part inner core section, wherein the slow release layer is of a porous structure, pores are communicated with each other and are communicated with the root of an outer pure titanium shell, the pores of the slow release layer are sequentially decreased within the range of 100-800 mu m from inside to outside, and the porosity is 50-90%. The porosity of the barrier layer is 15-25% lower than that of the slow release layer. The pure titanium shell of the implant is in a tooth root shape and is divided into a crown part and a root part, the density of the crown part is more than 95 percent and is communicated with a root space, the aperture is 300-400 microns, the inner side of the pure titanium shell is a filling body, the density is more than 95 percent, and the upper section of the filling body is printed with a tubular structure with the length of more than 2 mm. The hydroxyapatite inner core is communicated with the hollow position of the filling body.

The fourth step: inputting the design data of the pure titanium shell and filler integrated structure and the hydroxyapatite inner core of the dental implant into a rapid prototyping system, and performing rapid prototyping manufacturing;

the fourth step: placing a matched pure titanium metal pipe in the through hole of the hydroxyapatite inner core by adopting a machining method to form a hollow body inner core section, and manufacturing an internal thread hole in a pipe-mounted structure at the upper section of the filling body;

the fifth step: injecting a hydrogel culture medium mixture containing cells or growth factors or antibacterial materials or a mixture of a plurality of the cells or the growth factors into the implant hydroxyapatite inner core one week before the implant operation, performing photocuring, and performing cell culture;

and a sixth step: during the implantation operation, the tooth root of the affected tooth is pulled out, the pure titanium shell of the implant and the filler are put in or lightly knocked into the integrated structure, and the hydroxyapatite inner core of the implant is carefully put in after the position is determined to be accurate;

the rapid forming of the implant pure titanium shell and filling body integrated structure utilizes a selective laser melting forming (SLM) technology;

the implant hydroxyapatite inner core is rapidly molded by utilizing a light curing molding (SLA) technology;

the cell is a human mesenchymal stem cell (h-BMSC);

the growth factor is recombinant human bone morphogenetic protein-2 (BMP-2);

the antibacterial material is naringin.

The hydrogel can be replaced by collagen, matrigel, chitosan, etc.

Compared with the prior art, the invention has the beneficial effects that:

compared with the existing dental implant, the novel dental implant prepared by the invention copies the root form of the affected tooth through CBCT scanning, prints out the implant with the shape of a tooth root, can directly replace the tooth root to be removed, is matched with the alveolar fossa, and can obtain enough initial stability in immediate implantation; the part of the implant, which is in contact with the alveolar bone, is of a porous structure, so that the contact area of the implant and the bone is increased, the bone can grow into the implant conveniently, and the implant and the bone are firmly combined; the crown is of a compact structure, so that the strength of the implant is increased, and gingival histiocytes and bacteria above the implant are prevented from entering; in addition, the inner core with a slow release structure contains h-BMSC or BMP-2 or naringin or a mixture of a plurality of the h-BMSC or BMP-2 and the naringin, can promote the formation of bones, has an antibacterial effect, is mixed with hydrogel, is favorable for the long-acting effect of growth factors and the naringin by the gradient pore structure of the inner core, and can improve the planting success rate of patients with local inflammation or systemic diseases.

Drawings

FIG. 1 is a cross-sectional view of a root type implant according to the present invention;

FIG. 2 is a front view of a root type implant of the present invention;

FIG. 3 is a partial enlarged view of the hydroxyapatite inner core of the root type implant of the present invention;

wherein, 1, hydroxyapatite inner core; 11, a hollow body portion core section; 12, a slow release layer; 13, a barrier layer; 14, bone marrow mesenchymal stem cells; 15, BMP-2; 16, naringin; 17, a hydrogel; 2, filling body; 21, a solid part of the packing body; 22, a hollow body filler section; 3, a pure titanium shell; 31, coronal square; 32, root prescription.

Detailed Description