TWM559152U - Breast sculpture filling containing high biocompatible micro-stents for minimally invasive medical cosmetic surgery - Google Patents

Abstract

The present invention discloses a breast sculpture filling for medical cosmetic minimally invasive micro-support with high biocompatibility, which comprises a filling body structure; a plurality of the main structure of the filling body and extending through the body structure of the filling body a plurality of highly biocompatible micro-scaffolds distributed around the through-hole; wherein the highly biocompatible micro-stent has a void space through the high biocompatible micro-stent through the filler body structure. The central region of the body structure of the filler is further provided with a central protrusion structure, and a plurality of through holes penetrating through the central protrusion structure of the center protrusion structure, the high biocompatibility micro-frame has a void space, and the space is transparent The highly biocompatible microstent extends through the filler body structure.

Description

Used for medical cosmetic minimally invasive breast sculpture filling with high biocompatibility micro-scaffold

This creation is about a breast sculpture filling for medical cosmetic minimally invasive micro-stents with high biocompatibility. In particular, the bone filling of the present invention comprises a high biocompatibility micro-scaffold structure, which can be used for dental, orthopedic, medical cosmetic and facial plastic surgery to reconstruct and repair the bone filling material for delaying degradation.

This creation refers to a breast sculpture filling for medical cosmetic minimally invasive micro-stent with high biocompatibility, especially a kind of dental surgery, orthopedics, medical beauty, face modification, plastic surgery reconstruction, delayed degradation of breast Sculpture fills. In clinical surgery, it is often necessary to repair tissue defects, but the limited source of autologous transplantation, while allogeneic and xenotransplantation have a high risk of infection. Therefore, more and more different organic, inorganic, and metallic materials are used in tissue engineering today. In addition, in order to avoid secondary surgery, it is necessary to use biodegradable materials. The different materials currently used have their advantages and disadvantages. In order to solve different medical problems, the development of new functional composite materials is still one of the research priorities. Tissue engineering is an interdisciplinary field that connects engineering and biology. Tissue engineering develops biological substrates that can repair, restore or improve the function of tissues. Among them, tissue engineering involves three main strategies: using in vitro cells or cell substitutes to replace limited tissue functions; inducing tissue production, such as the utilization of growth factors; developing biological scaffolds (scaffold) is good for tissue repair and regeneration. Therefore, the key factor in the development of scaffolds is the growth environment designed by mimicking the physical and biological functions of extracellular matrix (ECM), which is an important development technique in cell culture media. In minimally invasive surgery, different forms of defects are differently repaired, and it is necessary to develop different functional stents for clinical application. In view of this, the applicant has been engaged in biomedical engineering and materials for many years of experience, through continuous research and experimentation, and has developed a medical device and biomedical materials for reconstruction and repair of highly biocompatible micro-scaffold structures. Supplied for clinical use.

This creation provides a breast sculpture fill for medical cosmetic minimally invasive micro-stents with high biocompatibility. In particular, the present invention relates to a medical device and a biomedical material comprising a highly biocompatible micro-scaffold structure, wherein the breast sculpture filler comprises a filler body structure; a plurality of the body structure disposed in the filler body and extending through the body of the filler a through hole of the structure; and a plurality of highly biocompatible micro-stents distributed around the through-hole; wherein the highly biocompatible micro-stent has a void space through which the high-biocompatible micro-stent passes Fill the main structure of the object. Preferably, the central region of the filler body structure is further provided with a central protrusion structure, and a plurality of central protruding structure through holes disposed through the central protrusion structure, the high biocompatibility micro-bracket having a void space, The void space penetrates the filler body structure through the highly biocompatible microstent. Preferably, the highly biocompatible microscaffold is selected from the group consisting of collagen, collagen peptide, gelatin, A biodegradable polymer composed of sodium alginate, cellulose, polysaccharide, chitin, polylactic acid, polylactic acid ester and combinations thereof.

Preferably, the highly biocompatible microscaffold consists of a biodegradable polymer selected from the group consisting of collagen, collagen peptide, gelatin and combinations thereof.

Preferably, the highly biocompatible micro-scaffold is a collagen structure obtained by enzymatically treating the dermis of the animal and the supercritical carbon dioxide degreasing by hydrophilic vibration.

Preferably, the filler body structure is biodegradable high from a selected from the group consisting of collagen, collagen peptide, gelatin, sodium alginate, cellulose, polysaccharide, chitin, polylactic acid, polylactic acid and combinations thereof. Made up of molecules.

1,1’‧‧‧ Breast Sculpture Filler

10,10’‧‧‧High biocompatible micro scaffold

15,15’‧‧‧ void space

20,20’‧‧‧Fat main structure

30,30’‧‧‧through hole

35’‧‧‧Center protruding structure through hole

The first picture is a schematic diagram of a breast sculpture filling with a high biocompatibility micro-stent.

The second picture is a schematic diagram of the breast sculpture filling with the central protruding structure of the creation.

First Embodiment - Breast Sculpture Filler with High Biocompatibility Microscaffold

The first embodiment of the present invention for the medical cosmetic minimally invasive breast sculpture filling with a highly biocompatible microscaffold will be described with reference to FIG. The invention is used for medical cosmetic minimally invasive breast sculpture filling with high biocompatibility micro-scaffold, wherein the breast sculpture filling comprises a filling body structure 20; a plurality of filling body structures 20 are disposed and penetrated through the filling a through hole 30 of the main body structure 20; and a plurality of highly biocompatible micro-scaffolds 10 distributed around the through-hole 30; wherein the highly biocompatible micro-stent 10 has a void space 15 through which the void space 15 High biological phase The capacitive microstent 10 extends through the filler body structure 20. Preferably, the highly biocompatible microscaffold is biodegradable from a substance selected from the group consisting of collagen, collagen peptide, sodium alginate, cellulose, polysaccharide, chitin, polylactic acid, polylactic acid ester and combinations thereof. Composition of polymers. Preferably, the highly biocompatible microscaffold consists of a biodegradable polymer selected from the group consisting of collagen, collagen peptides, and combinations thereof. Preferably, the highly biocompatible micro-scaffold is a collagen structure obtained by enzymatically treating the dermis of the animal and the supercritical carbon dioxide degreasing by hydrophilic vibration. Preferably, the filler body structure is biodegradable high from a selected from the group consisting of collagen, collagen peptide, gelatin, sodium alginate, cellulose, polysaccharide, chitin, polylactic acid, polylactic acid and combinations thereof. Made up of molecules.

Second Embodiment - a breast sculpture filling with a central protrusion structure for medical cosmetic minimally invasive micro-stent with high biocompatibility

The second embodiment of the present invention for use in medical cosmetic minimally invasive breast sculpture fillings containing highly biocompatible micro-scaffolds will be described with reference to FIG. The present invention has a central protruding structure for medical cosmetic minimally invasive breast sculpture filling 1' containing a highly biocompatible micro-stent, wherein the breast sculpture filling comprises a filling body structure 20'; a filler body structure 20 and a through hole 30 ′ extending through the filler body structure 20 ′; and a plurality of highly biocompatible micro-frames 10 ′ distributed around the through-hole 30 ; wherein the highly biocompatible micro-frame 10 'Having a void space 15', the void space 15 penetrates the filler body structure 20' through the highly biocompatible micro-frame 10'. The creation of this embodiment is further provided with a central protrusion structure 25' in the central region of the filler body structure, and a plurality of central protrusions disposed and penetrating through the center protrusion structure A through hole 35' is formed which has a void space 15' which penetrates the filler body structure 20' through the highly biocompatible micro-frame 10'. Preferably, the highly biocompatible microscaffold is composed of an organism selected from the group consisting of collagen, collagen peptide, gelatin, sodium alginate, cellulose, polysaccharide, chitin, polylactic acid, polylactate and combinations thereof. It can be composed of decomposable polymers. Preferably, the highly biocompatible microscaffold consists of a biodegradable polymer selected from the group consisting of collagen, collagen peptides, and combinations thereof. More preferably, the highly biocompatible microscaffold is a collagen structure obtained by hydrolyzing animal dermis and supercritical carbon dioxide degreasing and enzymatic treatment. Preferably, the filler body structure is biodegradable high from a selected from the group consisting of collagen, collagen peptide, gelatin, sodium alginate, cellulose, polysaccharide, chitin, polylactic acid, polylactic acid and combinations thereof. Made up of molecules.

The above description is only a preferred embodiment of the present invention. When it is not possible to limit the scope of the creation of the present invention, the equivalent changes and modifications made by the applicant in accordance with the scope of the patent application and the contents of the new manual should remain This creative patent covers the scope. Looking at the above, the structural features of this creation do have practical value and progressiveness. In terms of its overall structure, Cheng has already complied with the statutory requirements of the Patent Law and has filed a new type of patent application according to law.

Claims (6)

A breast sculpture filling for medically invasive minimally invasive micro-support with high biocompatibility, comprising a filler body structure; a plurality of through holes disposed in the body structure of the filler and extending through the body structure of the filler; and distribution A plurality of highly biocompatible micro-scaffolds are disposed around the through-hole; wherein the highly biocompatible micro-stent has a void space through the high biocompatible micro-stent through the filler body structure. The breast sculpture filler according to claim 1, wherein a central region of the filler body structure is further provided with a central protrusion structure, and a plurality of through holes penetrating through the central protrusion structure of the center protrusion structure, The highly biocompatible microscaffold has a void space that penetrates the filler body structure through the highly biocompatible microstent. The breast sculpture filling according to claim 1, wherein the highly biocompatible microscaffold is selected from the group consisting of collagen, collagen peptide, gelatin, sodium alginate, cellulose, polysaccharide, chitin. Polylactic acid, polylactic acid ester and a combination thereof are composed of biodegradable polymers. The breast sculpture filling of claim 3, wherein the highly biocompatible microscaffold is composed of a biodegradable polymer selected from the group consisting of collagen, collagen peptide, gelatin and combinations thereof. The breast sculpture filling of claim 4, wherein the high biocompatibility microtubule The rack is a collagen structure obtained by using hydrophilic vibration to cut animal dermis and supercritical carbon dioxide degreasing and enzymatic treatment. The breast sculpture filling according to claim 2, wherein the filling body structure is selected from the group consisting of collagen, collagen peptide, gelatin, sodium alginate, cellulose, polysaccharide, chitin, polylactic acid. Polylactic acid ester and a combination thereof are composed of biodegradable polymers.