Absorbable internally-fixed implantable iron-based alloy medical apparatus

A technology for implanting medical devices and iron-based alloys. It is applied in surgical devices, medical science, coatings, etc. It can solve the problems of inflammatory reaction at the implant site, increase the burden of metabolism, and poor imaging performance, so as to reduce the burden of metabolism. , reduce the burden, and accelerate the effect of corrosion rate

Active Publication Date: 2017-07-07
BIOTYX MEDICAL (SHENZHEN) CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Although the bending strength of absorbable bone nails made of high molecular weight polylactic acid can reach more than 150MPa, compared with traditional permanent metal materials, there are the following disadvantages: poor mechanical properties, usually only suitable for various non-load-bearing parts Fixation of cancellous bone, articular bone or bone with less activity to prevent failure of implanted medical devices due to excessive stress or frequent activities; degradation of polylactic acid will create an acidic environment, which can easily lead to serious inflammatory reactions at the implant site ; In addition, poor developability
In soft and hard tissues in the body, the time for these insoluble iron corrosion products to be metabolized and absorbed by the body may be as long as several years or even longer. metabolic burden

Method used

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  • Absorbable internally-fixed implantable iron-based alloy medical apparatus
  • Absorbable internally-fixed implantable iron-based alloy medical apparatus
  • Absorbable internally-fixed implantable iron-based alloy medical apparatus

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0053] Cast low-alloy high-strength steel with an alloy content of <6wt.% to form a billet, cold-draw the billet into ultra-fine steel wires with a diameter of 0.2 mm and perform heat treatment, and cut the steel wires with a diameter of 0.2 mm prepared in the above steps into different lengths Small segment, and then coated with complexing agent triammonium citrate.

[0054] Heat the polylactic-glycolic acid (PLGA) billet with a weight-average molecular weight of 1.2 million and a polydispersity coefficient of 1.1 to a molten state. Antioxidant vitamin A is dispersed in the PLGA billet; It is used as a reinforcing phase in the PLGA billet, extruded into rods after condensation and solidification, and then machined into such as figure 1 The bone nail 10 shown. The mass ratio of the steel wire reinforcement phase 11 to the poly(lactic-co-glycolic acid) phase 12 is 20:80.

[0055]The bone nail prepared in this example had an initial bending strength of 350 MPa, and the mass pe...

Embodiment 2

[0057] The powder metallurgy method is used to prepare low-alloy high-strength steel with an alloy content of <6wt.% into a billet, which is then hot-rolled into a wire rod, cold-drawn into a hollow steel wire, and then filled with an antioxidant ascorbyl palmitate in the core of the hollow steel wire. Multi-strand steel wires are twisted into a steel strand, and a hydroxamic acid deferoxamine complexing agent layer is prepared on the surface thereof.

[0058] Polylactic acid (PLA) with a weight average molecular weight of 3 million and a polydispersity coefficient of 1.2 and polylactic acid-methionine with a molecular weight of 250,000 are made into a blend blank; the steel strand prepared by the above steps is placed in the molten poly A blend of lactic acid (PLA) and polylactic acid-methionine is used as a reinforcing phase in the billet, and after curing it is machined into such figure 2 In the compression nail 20 shown, the mass ratio of the steel strand reinforcement ph...

Embodiment 3

[0061] The low-alloy high-strength steel with an alloy content of <6wt.% is obtained by powder metallurgy, and then hot-rolled into a wire rod, cold-drawn into a hollow steel wire and filled with a complexing agent acetylsalicylic acid, and the multi-strand steel wire is stranded After combining, weave into a two-dimensional mesh, and prepare a hydroxyapatite layer on the surface of the two-dimensional mesh, and then coat the antioxidant ubiquinone.

[0062] The polylactic acid blank with a weight-average molecular weight of 2 million and a polydispersity coefficient of 1.5 is heated to a molten state, and then multi-layer two-dimensional mesh is added to it. After mixing evenly, it is condensed and solidified and machined into a bone nail. All the two-dimensional mesh in the bone nail The extension direction of the mesh is consistent, and the mass ratio of the two-dimensional mesh to the polylactic acid blank is 25:75.

[0063] The material of the bone nail prepared in this e...

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Abstract

The invention provides an absorbable internally-fixed implantable iron-based alloy medical apparatus. A matrix of the absorbable internally-fixed implantable iron-based alloy medical apparatus comprises iron-based alloy and a degradable polymer, and is characterized in that the mass ratio of the iron-based alloy to the degradable polymer is 1: 4 to 4: 1; the weight average molecular weight of the degradable polymer is 150000-3000000; the polydispersity factor of the degradable polymer is 1-6. The absorbable internally-fixed implantable iron-based alloy medical apparatus provided by the invention further comprises an antioxidant. The iron-based alloy is used as a load-bearing framework or a reinforcing phase of the absorbable internally-fixed implantable iron-based alloy medical apparatus, so that the absorbable internally-fixed implantable iron-based alloy medical apparatus has good initial mechanical properties under the premise of reducing the using amount of the iron-based alloy matrix; through adjustment on the mass ratio and a combination mode of the iron-based alloy and the degradable polymer, the amount of an insoluble corrosion product of the iron-based alloy is reduced while the corrosion rate of the iron-based alloy in the later stage of implantation is increased, so that the corrosion product metabolizing burden of a tissue is reduced; through the addition of the antioxidant into the absorbable internally-fixed implantable iron-based alloy medical apparatus, the amount of the insoluble corrosion product of the iron-based alloy is further reduced.

Description

technical field [0001] The invention belongs to the field of absorbable implantable medical devices, in particular to an absorbable iron-based alloy internal fixation implantable medical device. Background technique [0002] The fracture healing time varies with the injury site, degree of injury and even the treatment method, usually 2 to 6 months, which requires the internal fixation and implantation of medical devices to have certain initial mechanical properties. For example, usually the initial bending strength of the bone nail needs to be over 350 MPa, and the tensile strength of the suture needs to be over 400 MPa. At present, the materials used to manufacture internal fixation and implanted medical devices for trauma repair mainly include permanent metals such as stainless steel, titanium-based alloys, and cobalt-based alloys, and absorbable materials such as polymers and magnesium-based alloys. Among them, the permanent metal has excellent mechanical properties and ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61L31/14A61L31/06A61L31/02A61L17/12
CPCA61L17/12A61L31/028A61L31/06A61L31/14A61L31/148C08L51/08C08L67/04A61L31/128A61L17/10A61L31/10A61L31/022C08L73/02C08L77/04A61L27/042
Inventor 林文娇张德元
Owner BIOTYX MEDICAL (SHENZHEN) CO LTD
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