CN108525022A - A kind of slewing biodegradation hemostatic clamp and preparation method thereof - Google Patents

A kind of slewing biodegradation hemostatic clamp and preparation method thereof Download PDF

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CN108525022A
CN108525022A CN201810334689.XA CN201810334689A CN108525022A CN 108525022 A CN108525022 A CN 108525022A CN 201810334689 A CN201810334689 A CN 201810334689A CN 108525022 A CN108525022 A CN 108525022A
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hemostatic clamp
laser
hemostatic
modification
underarm
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CN108525022B (en
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毕衍泽
安红娟
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Yantai Hao Yi Biological Technology Co Ltd
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Yantai Hao Yi Biological Technology Co Ltd
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L31/00Materials for other surgical articles, e.g. stents, stent-grafts, shunts, surgical drapes, guide wires, materials for adhesion prevention, occluding devices, surgical gloves, tissue fixation devices
    • A61L31/02Inorganic materials
    • A61L31/022Metals or alloys
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L31/00Materials for other surgical articles, e.g. stents, stent-grafts, shunts, surgical drapes, guide wires, materials for adhesion prevention, occluding devices, surgical gloves, tissue fixation devices
    • A61L31/14Materials characterised by their function or physical properties, e.g. injectable or lubricating compositions, shape-memory materials, surface modified materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K26/00Working by laser beam, e.g. welding, cutting or boring
    • B23K26/352Working by laser beam, e.g. welding, cutting or boring for surface treatment
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2400/00Materials characterised by their function or physical properties
    • A61L2400/18Modification of implant surfaces in order to improve biocompatibility, cell growth, fixation of biomolecules, e.g. plasma treatment

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Epidemiology (AREA)
  • Veterinary Medicine (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Surgery (AREA)
  • Animal Behavior & Ethology (AREA)
  • Public Health (AREA)
  • Vascular Medicine (AREA)
  • Optics & Photonics (AREA)
  • Physics & Mathematics (AREA)
  • Plasma & Fusion (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Inorganic Chemistry (AREA)
  • Surgical Instruments (AREA)

Abstract

The invention belongs to embedded type medical device product fields, and in particular to a kind of slewing biodegradation hemostatic clamp and preparation method thereof.The hemostatic clamp outer surface is handled with side by laser surface modification.The hemostatic clamp outer surface has laser modified layer, degradation rate faster than inside, it can be achieved that being degraded by the inside side positioning in outside with side after laser surface modification.

Description

A kind of slewing biodegradation hemostatic clamp and preparation method thereof
Technical field
The invention belongs to embedded type medical device product fields, and in particular to a kind of slewing biodegradation hemostatic clamp and Preparation method.
Background technology
Clinically when doing laparoscopic surgery, meeting ligation operation near sites can not suture or need not suture doctor Bleeding blood vessel, avoid in surgical procedure and postoperative hemorrhage.There are two types of current closure techniques:First, with suture linear slit Closed location is ligatured needed for closing, but the operating time is long, operating difficulty is big;Second, it is pressed from both sides using surgical hemostasis, folder closes bleeding blood Pipe, operation is relatively easy, and haemostatic effect is preferable.Common hemostatic clamp material is mainly non-degradable metal material hemostatic clamp and can inhale Receive macromolecule hemostatic clamp.
Non-degradable metal material hemostatic clamp includes silver brain clip, tantalum folder and titanium folder, and wherein titanium folder is that current laparoscopic surgery faces The common hemostatic clamp of bed.Since titanium alloy density is small, specific strength is high, elasticity modulus is low, corrosion resistance is good, easy processing is molded and raw Object compatibility is good, therefore, is widely used in all kinds of medical devices.The place but titanium folder comes with some shortcomings:First, cause inflammation Reaction is permanently present because titanium folder will not be degraded after implanting, when folder closed incomplete or position not at that time, can dissociate to The complication such as inflammatory reaction are caused at other positions;Second, postoperative image check is influenced, because titanium absorbs x-ray and to ultrasound The influence of wave, patient is postoperative when doing the inspections such as CT, B ultrasound, and titanium presss from both sides the image that can interfere peripheral organs, influences the diagnosis of doctor;The Three, it is conductive, if electric coagulating apparatus touches titanium folder accidentally, its surrounding tissue can be made to burn, increase the risk of operation;The Four, increase body and the financial burden of patient, titanium presss from both sides in long-term existence body, can cause the psychological burden of patient, but pass through two Secondary operation is taken out, and operation cost can be also increased.
Currently, absorbable macromolecule hemostatic clamp is based on Lapro-Clip folders and ABSOLOK ligation nail clips.Lapro-Clip Folder is made of inner and outer clamp clip, and inner clip material is poly- glycol carbonic acid, is absorbed by the body within usual 60~90 days;Outer clip is by polyglycolic acid It is made, is absorbed within 180 days;Hydrolysis occurs in human body for Absorbable clips, and reaction product passes through breathing or urine and excrement Etc. modes exclude.The ABSOLOK ligation nail clips of Johnson & Johnson of the U.S. use polydioxanone (PPDO).Polydioxanone (PPDO), in addition to excellent biological degradability, also with excellent physical mechanical property.But absorbable high score sub-folder There is also some drawbacks:First, to avoid other tissues from squeezing into " tooth socket system ", the pincers of blood vessel enter more difficult sometimes;Second, Folder closed end is to lock flute profile in, and both ends must be completely exposed to press from both sides completely and close, and patient need to dissociate longer tube chamber, can just make operation Smoothly, it is safely completed;Third, it is costly for being pressed from both sides compared with titanium.
Zheng Yufeng etc. (Zheng Yufeng, the Qinling Mountains, the degradable metal such as Yang Ke Science Presses, 2016:788-808) introduce :Degradable metal includes mainly magnesium metal and ferrous metal etc., and magnesium metal degradation rate in physiological environment is too fast, and in corruption The a large amount of liberations of hydrogen of meeting, limit application of the magnesium metal in biomedicine during erosion.
Ferro element is the necessary trace element of human body and the important component of some metalloprotein.Iron conduct can drop Solution metal material has the following advantages:Excellent in mechanical performance can improve higher radial support intensity, to stenter to implant and ball Capsule expansion technique requires simply, and operation is easy to implement;With good biocompatibility, corrosion product will not cause apparent inflammation Disease is reacted.
(M Peuster, P Wohlsein, M Br ü gmann, the et al.A novel approach to such as Peuster temporary stenting:degradable cardiovascular stents produced from corrodible metal-results 6-18 months after implantation into New Zealand white Rabbits.Heart, 2001,86 (5):It will 563-569) use 16 pure iron stenter to implant 16 made of laser cutting method The lower row aorta of New Zealand White Rabbit, observes its biological safety and degradability.The results show that most of after being implanted into 1 year Rack body be still completely present in blood vessel.Show that the degradation of pure iron holder is partially slow.
The excessively slow problem of pure iron degradation rate limits it in the application in biomedicine.Therefore, it is directed at iron and iron closes The research of gold, which focuses primarily upon, changes its chemical composition, heterogeneous microstructure and the new technology of preparing of use, to accelerate iron And the corrosion rate of ferroalloy materials.
CN201510808275.2 discloses a kind of Absorbale magnesium alloy laparoscope hemostatic clamp and preparation method thereof.But The patent does not solve the problems, such as that magnesium alloy degradation rate under physiological environment is too fast and non-uniform, and due to the power of magnesium alloy It is poor to learn performance, crackle or fracture are susceptible in hemostatic clamp corner.
CN201120412587.9 discloses a kind of Absorbale magnesium alloy tissue hemostatic clamp, the clamp one end open, its Remaining to be connected, the both sides of opening direction are symmetrical for its center line, and straight slot is provided on inner wall.The technical solution of the patent is also deposited In some problems:First, technical solution does not solve the degradation problem of magnesium metal.Serious point can occur when magnesium metal degradation Erosion, causes to degrade uncontrollable, increases the application risk of magnesium metallic weapon;Second, blood vessel clamping structure and the tradition titanium of the patent Press from both sides it is similar, but the tensile strength and plasticity due to magnesium metal material be far below titanium material, cause closing performance that cannot reach It is required that;Third, the blood vessel clip are provided with straight slot on inner wall, it may appear that serious cusp potential corrosion phenomenon so that degradation speed herein Rate accelerates, and causes fracture failure in the clamp short time.
CN201410156536.2 discloses a kind of metallic blood vessel folder and preparation method thereof that orientable degradation absorbs.It is described There is different heterogeneous microstructure and potential difference, the crystallite dimension in outside to be more than for blood vessel clip upper arm, the outside of underarm and inside Crystallite dimension and the outside potential difference than on the inside of of inside are low, are dropped to inward side to orientation from outside after blood vessel clip is closed to realize Solution, but preparation process is more complex.
CN201710037395.6 discloses biodegradable ferrous alloy hemostatic clamp and preparation method thereof.The hemostatic clamp In U-typed, antibacterial functions are had both, but pure iron metal has that degradation rate is slow to be solved not yet.
Invention content
The first aspect of the present invention be to provide it is a kind of can fast degraded biologically iron and ferroalloy hemostatic clamp, the hemostatic clamp Outer surface is handled with side by laser surface modification.The hemostatic clamp outer surface has with side after laser surface modification Laser modified layer, degradation rate are faster than inside, it can be achieved that being degraded by the inside side positioning in outside.
In one embodiment, the parameter of the laser surface modification is:Power:5~15w, sweep spacing:30~80 μm, sweep speed:600~1000mm/s, modification 1~10 time.
In preferred embodiments, the laser modified layer has channel form structure, and width is between 10-30 μm, institute Stating has arc band in groove, the spacing between the arc band is 5-15 μm.Further, in the laser modified layer Fe containing 3-7% by weight2O3
In another embodiment, corrosion electric current density of the hemostatic clamp in physiological environment is 5 × 10-6A·cm-2~7 × 10-6A·cm-2
In yet another embodiment, the hemostatic clamp include upper arm, underarm, tail portion, location structure, anti-skid structure and Locking structure.The total length of the hemostatic clamp is 6~20mm, and width is 0.6~3mm, and thickness is 1.4~4mm, tail inner side arc A diameter of 0.6~2mm, a diameter of 1.4~4mm of outside radian are spent, hemostatic clamp opening angle is 20 °~120 °.
Further, the location structure is cylinder or groove shapes, not only plays fixed function, but also be avoided that and closed in folder Cheng Zhong, blood vessel enter tail structure.The anti-skid structure is " S " type band or " W " type band, can ensure that blood is preferably clamped Pipe.The tail portion is " water droplet " shape, prevents tail portion during folder closes to be plastically deformed, influences closure effect and degradability Energy.The upper arm, underarm and tail structure constitute symmetrical structure.The upper arm is equipped with mutually matched self-locking with underarm head Structure;When folder closes blood vessel, between blood vessel is placed in the upper and lower arm, by applying pressure, underarm lock hook is along upper arm lock hook Negative camber is caught in inside it, to form locking.The upper and lower arm head portion not She You built-in buckle, hemostatic clamp be closed after Without apparent protrusion, implant site soft tissue will not be injured.
The second aspect of the present invention be to provide it is a kind of it is described can fast degraded biologically iron and ferroalloy hemostatic clamp preparation Method comprising following steps:
1) iron or ferroalloy plate of required thickness are chosen;
2) plank is processed by the way of laser cutting or wire cutting, obtains required hemostatic clamp;
3) laser surface modification, modified parameter are carried out to the hemostatic clamp outer surface prepared and two sides using laser For:Power:5~15w, sweep spacing:30~80 μm, sweep speed:600~1000mm/s, modification 1~10 time;
4) hemostatic clamp after laser surface modification is put into absolute ethyl alcohol and be cleaned by ultrasonic until any surface finish is without dirt It takes out and dries after dye, obtain slewing biodegradation hemostatic clamp.
Advantages of the present invention:
1, prepared hemostatic clamp is iron or ferroalloy using material, and ferrous metal has good biocompatibility, such as attached Shown in Fig. 2, after cell culture for 24 hours, some MC3T3-E1 cells are spread in Pure Iron Surface, it was demonstrated that ferrous metal has good biology Compatibility.As shown in table 1, ferrous metal and magnesium metal phase are more excellent than mechanical property, have high intensity, high-ductility and high tenacity etc. excellent Gesture.In addition, magnesium metal degradation rate is too fast, can not ensure to play a role during necessary treatment or recovery,
2, as shown in Fig. 3, with side after laser surface modification, degradation rate is faster than inside for hemostatic clamp outer surface, It can be achieved to be degraded by the inside side positioning in outside.Outer surface is reduced by laser modified post-etching current potential, and degradation rate is accelerated, and is dropping Outside forms potential difference with inside in solution preocess so that the orientation degradation of hemostatic clamp ecto-entad.
Description of the drawings
Fig. 1 (a) is the SEM shape appearance figures of pure Fe before laser surface modification;
Fig. 1 (b) is the SEM shape appearance figures of pure Fe after laser surface modification;
Fig. 2 be MC3T3-E1 cell culture for 24 hours after in Pure Iron Surface scatter diagram;
Fig. 3 be pure Fe prepare sample in 37 DEG C of SBF solution dynamic potential polarization curve:Before 1- laser surface modifications, After 2- laser surface modifications;
Fig. 4 is the structural schematic diagram of prepared slewing biodegradation hemostatic clamp;
Fig. 5 is the structural schematic diagram of prepared slewing biodegradation hemostatic clamp.
Specific implementation mode
Can also the present invention further be understood by embodiment, wherein the embodiment illustrates some preparations or user Method.It is to be appreciated, however, that these embodiments do not limit the present invention.The change of the present invention of currently known or further exploitation Change is considered within the scope of the invention described herein and claimed below.
Embodiment 1
A kind of slewing biodegradation hemostatic clamp is prepared using degradable pure iron plank, the specific steps are:
The first step, the pure iron plate for choosing 99.99% or more iron content do raw material.
Second step is processed plank by the way of laser cutting, obtains required hemostatic clamp, structure such as attached drawing 3 Shown, blood vessel 1, hemostatic clamp underarm 3, tail structure 4, upper arm lock hook 5, underarm lock hook 6, band 7, is consolidated hemostatic clamp upper arm 2 Determine structure 8.Hemostatic clamp total length is 10mm, width 1mm, thickness 2mm, a diameter of 0.8mm of tail inner side radian, lateral arcs A diameter of 2mm is spent, hemostatic clamp opening angle is 60 °.Band width is 0.1mm, is in 60 ° of angles with upper and lower arm.
In the present embodiment, when haemostatic clamp grips hemostatic clamp, tail structure 4 and underarm locking structure 6 play fixed function;On The medial and lateral profile of arm lock hook 5 and underarm lock hook 6 is smooth surface, when upper arm 2 is closed with underarm 3, underarm lock hook 6 It is caught in inside it along 5 negative camber of upper arm lock hook, to form locking;Fixed structure 8 not only plays fixed function, but also is avoided that During folder closes, blood vessel enters tail structure 4;Inner wall is equipped with " W " type band structure, can better lock onto closure.
Third walks, and laser surface is carried out to the hemostatic clamp outer surface prepared and two sides using picosecond optical fiber laser Modified, modified parameter is:Power:5w, sweep spacing:30 μm, sweep speed:600mm/s, modification 1 time.
Hemostatic clamp after laser surface modification is put into absolute ethyl alcohol and be cleaned by ultrasonic until any surface finish by the 4th step It takes out and dries after pollution-free, obtain slewing biodegradation hemostatic clamp.
Energy spectrum analysis is carried out to the laser modified surface of the hemostatic clamp of acquisition, the results showed that, the laser modified table of hemostatic clamp Contain 3.3% Fe in face2O3
Embodiment 2
The modified parameter of step 3 is adjusted to:Power:10w, sweep spacing:60 μm, sweep speed:800mm/s, it is modified Processing 5 times.Other step parameters are same as Example 1.
Energy spectrum analysis is carried out to the laser modified surface of the hemostatic clamp of acquisition, the results showed that, the laser modified table of hemostatic clamp Contain 4.6% Fe in face2O3
Embodiment 3
The modified parameter of step 3 is adjusted to:Power:15w, sweep spacing:80 μm, sweep speed:1000mm/s changes Property processing 10 times.Other step parameters are same as Example 1.
Energy spectrum analysis is carried out to the laser modified surface of the hemostatic clamp of acquisition, the results showed that, the laser modified table of hemostatic clamp Contain 6.8% Fe in face2O3
Embodiment 4
Slewing biodegradation hemostatic clamp, specific preparation parameter and reality are prepared using Fe-35Mn (wt%) sheet alloy It is identical to apply example 2.
Embodiment 5
Slewing biodegradation hemostatic clamp, specific preparation parameter and implementation are prepared using Fe-5Zn (wt%) sheet alloy Example 2 is identical.
Comparative example 1
Hemostatic clamp is prepared using the pure iron plank of 1mm, specific preparation parameter is same as Example 2, without step 3 Laser surface modification.
Comparative example 2
Hemostatic clamp is prepared using Fe-5Zn (wt%) sheet alloy of 1mm, specific preparation parameter is same as Example 2, no By the laser surface modification of step 3.
Test method:Electrochemical corrosion test is carried out to above-mentioned sample, measures parameters of electrochemical corrosion.Electro-chemical test is set Standby is CHI-660e type electrochemical workstations, and test system is working electrode, platinum using traditional three-electrode system, i.e. sample to be tested Piece (10mm × 10mm) is auxiliary electrode, and saturated calomel electrode is reference electrode;Corrosive liquid is SBF solution, ingredient such as following table institute Show.To ensure that there is sample surfaces good electric conductivity, the sample back side to be glued together by conduction with copper conductor, then use 704 silicon rubber seal four sides of sample.Test process maintains 37 DEG C of isoperibol.When electro-chemical test, selection first is opened Road potential measurement pattern measures the variation of sample surfaces open circuit potential value in certain time and record, time is set as 2h, opens a way Current potential reaches relatively steady state.When impedance spectrum (EIS) measures, the take-off potential of sample is set as open circuit potential, and surface is applied It is the sine wave disturbance current potential of 5mV to add amplitude, and frequency sweeping ranges are 100kHz to 100mHz, and each dot cycle is tested 3 times.It is dynamic When potential polarization curve determination, selection is extremely higher than the potential test section of open circuit potential 500mV less than open circuit potential 300mV, from Low potential is scanned to high potential direction, sweep speed 1mV/s.Corrosion potential (Ecorr), corrosion electric current density (icorr) Equal electrochemical parameters are determined by polarization curve.
Configure the chemical composition and content of 1000ml SBF solution
Test result:
Parameters of electrochemical corrosion (including Ecorr and icorr)
Sample Current potential (V/SCE) Current density (× 10-6A·cm-2)
Embodiment 1 -0.749 4.855
Embodiment 2 -0.738 7.055
Embodiment 3 -0.685 5.928
Embodiment 4 -0.729 27.650
Embodiment 5 -0.735 35.005
Comparative example 1 -0.471 0.522
Comparative example 2 -0.701 25.335
Electrochemical corrosion test show the iron that is obtained using preparation method of the present invention and ferroalloy hemostatic clamp ratio without Crossing the hemostatic clamp corrosion potential of laser surface modification reduces, and corrosion current density increases, laser modified so that iron and iron close The corrosion resistance of gold reduces, and corrosion rate increases, and after laser surface modification, groove occurs in surface, and surface area increases, and when corrosion contacts Area increases, and modified surface roughness increases, and spot corrosion tendency increases so that the corrosion resistance of material reduces, corrosion rate Increase, achieves unexpected technique effect.It is of the present invention can be effective by the iron and ferroalloy of laser surface modification Solve the problems, such as that ferrous metals degradation rate in human body is slow in the prior art, while based on the excellent biocompatibility of ferrous metal And mechanical property, the hemostasis prepared by above-mentioned material accompany vast market prospect.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. it is a kind of can fast degraded biologically iron and ferroalloy hemostatic clamp, laser surface is passed through in the hemostatic clamp outer surface and side Modification.The hemostatic clamp outer surface and side have a laser modified layer after laser surface modification, in degradation rate ratio Side is fast, it can be achieved that being degraded by the inside side positioning in outside.
2. hemostatic clamp according to claim 1, which is characterized in that the parameter of the laser surface modification is:Power:5~ 15w, sweep spacing:30~80 μm, sweep speed:600~1000mm/s, modification 1~10 time.
3. hemostatic clamp according to claim 2, which is characterized in that the laser modified layer has channel form structure, width Between 10-30 μm, there is arc band in the groove, the spacing between the arc band is 5-15 μm.
4. hemostatic clamp according to claim 2, which is characterized in that contain 3- by weight in the laser modified layer 7% Fe2O3
5. hemostatic clamp according to claim 2, which is characterized in that corrosion current of the hemostatic clamp in physiological environment is close Degree is 5 × 10-6A·cm-2~7 × 10-6A·cm-2
6. according to claim 1-5 any one of them hemostatic clamps, which is characterized in that the hemostatic clamp includes upper arm, underarm, tail Portion, location structure, anti-skid structure and locking structure.The total length of the hemostatic clamp is 6~20mm, and width is 0.6~3mm, Thickness is 1.4~4mm, a diameter of 0.6~2mm of tail inner side radian, a diameter of 1.4~4mm of outside radian, hemostatic clamp open-angle Degree is 20 °~120 °.
7. hemostatic clamp according to claim 6, which is characterized in that the location structure is cylinder or groove shapes, is both risen To fixed function, and it is avoided that blood vessel enters tail structure during folder closes.
8. a kind of hemostatic clamp according to claim 6, which is characterized in that the upper arm is equipped with underarm head and cooperates Self-locking structure;When folder closes blood vessel, between blood vessel is placed in the upper and lower arm, by applying pressure, underarm lock hook is along upper arm Lock hook negative camber is caught in inside it, to form locking.The upper and lower arm head portion not She You built-in buckle, hemostatic clamp Without apparent protrusion after closure, implant site soft tissue will not be injured.
9. a kind of hemostatic clamp according to claim 6, which is characterized in that the anti-skid structure is " S " type band or " W " type Band can ensure that blood vessel is preferably clamped.The tail portion is " water droplet " shape, prevents tail portion plasticity during folder closes from becoming Shape influences closure effect and degradation property.The upper arm, underarm and tail structure constitute symmetrical structure.
10. the preparation method of hemostatic clamp described in a kind of claim 1, it is characterised in that include the following steps:
1) iron or ferroalloy plate of required thickness are chosen;
2) plank is processed by the way of laser cutting or wire cutting, obtains required hemostatic clamp;
3) laser surface modification is carried out to the hemostatic clamp outer surface prepared and two sides using laser, modified parameter is: Power:5~15w, sweep spacing:30~80 μm, sweep speed:600~1000mm/s, modification 1~10 time;
4) hemostatic clamp after laser surface modification is put into absolute ethyl alcohol after be cleaned by ultrasonic until any surface finish is pollution-free Taking-up is dried, and slewing biodegradation hemostatic clamp is obtained.
CN201810334689.XA 2018-04-15 2018-04-15 A kind of slewing biodegrade hemostatic clamp and preparation method thereof Active CN108525022B (en)

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Publication number Priority date Publication date Assignee Title
CN113116615A (en) * 2019-12-31 2021-07-16 元心科技(深圳)有限公司 Absorbable metal instrument
CN113116615B (en) * 2019-12-31 2022-11-18 元心科技(深圳)有限公司 Absorbable metal instrument

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