CN108269476A - A kind of manikin of knee prosthesis simulation operation - Google Patents

Abstract

The invention discloses a kind of manikins of knee prosthesis simulation operation, it includes die body and is the knee joint module that is detachably connected with die body, die body and knee joint module respectively include the physical characteristic to copy live body and epithelial tissue, musculature and the connective tissue of connection relation reproduction, and the connection that die body and knee joint module pass through between the epithelial tissue of the two and/or musculature and/or connective tissue forms an entirety.The manikin of knee prosthesis simulation operation provided by the invention, can improve current manual's replacement knee in arthroplasty study condition.

Description

A kind of manikin of knee prosthesis simulation operation

Technical field

The present invention relates to human medical model field more particularly to a kind of manikins of knee prosthesis simulation operation.

Background technology

At present, knee replacements are the common treatment means of current treatment late period Osteoarthritis.And learn people at present The method of work knee replacements is usually theoretical instruction, video transmission or corpse operation etc..The above two lack practice operation, Student often only knows it however does not know why it is so so, is unable to reach learning effect.With gradually increasing for living standards of the people, right-safeguarding Consciousness gradually enhancing, the involved donor source of corpse operation are constantly reduced, and Medical Ethics gradually increases with technology developing contradiction More, the problems such as donor not reproducible utilization, causes, and being performed the operation using corpse, study knee replacements are of high cost, and benefited surface is narrow, learn It is long to practise curve.

Therefore a kind of human mould of simulation operation that can improve current manual's replacement knee in arthroplasty study condition is needed Type.

Invention content

The object of the present invention is to provide a kind of manikins of knee prosthesis simulation operation, can improve current manual's knee Joint replacement surgery study condition.

To achieve the above object, the manikin of a kind of knee prosthesis simulation operation provided by the present invention, including Die body and be the knee joint module that is detachably connected, the die body and the knee joint module with the die body Epithelial tissue, musculature and connective tissue that physical characteristic and connection relation to copy live body reproduce are respectively included, it is described Die body and the knee joint module pass through the company between the epithelial tissue of the two and/or musculature and/or connective tissue It connects to form an entirety.

In the manikin of above-mentioned knee prosthesis simulation operation, the knee joint module include by anterior cruciate ligament with Posterior cruciate ligament of knee pastes the femur module of connection and shin bone module；The femur module includes shaft of femur, set on the femur The femur entocondyle of the lower end of body and lateral side of femur ankle；The shin bone module includes shaft of tibia, set on the upper end of the shaft of tibia Tuberosity of tibia and the tibial plateau positioned at the top of the tuberosity of tibia.

In the manikin of above-mentioned knee prosthesis simulation operation, the knee joint module further include be separately positioned on it is described Lateral meniscus on the both ends of tibial plateau is with medial meniscus and connect the inside of the femur module and shin bone module Ligamena collateralia and lateral collateral ligament；One end of the medial collateral ligament is fixedly connected on the femur module, the medial collateral ligament The other end be fixedly connected on the shin bone module；One end of the lateral collateral ligament is fixedly connected on the femur module, institute The other end for stating lateral collateral ligament is fixedly connected and the shin bone module.

In the manikin of above-mentioned knee prosthesis simulation operation, the front end of the tibial plateau is pasted with fat under kneecap Pad, the material of the subpatellar fat pad is expanded material.

In the manikin of above-mentioned knee prosthesis simulation operation, the knee joint module further includes pes anserinus tendon, the goose Sufficient tendon includes the sartorius, gracilis and the semitendinosus that are pasted together；It is tough that described pes anserinus tendon one end is pasted on the inside pair The top of band, the other end of the pes anserinus tendon are pasted on the medial surface of the tuberosity of tibia.

In the manikin of above-mentioned knee prosthesis simulation operation, the femur module further includes quadriceps muscle of thigh, the stock Musculus quadriceps includes flesh, musculus vastus lateralis and vastus medials in the rectus femoris of integrated design, stock；The quadriceps muscle of thigh is pasted on the femur The surface of body.

In the manikin of above-mentioned knee prosthesis simulation operation, the lower end outer surface of the quadriceps muscle of thigh is provided with kneecap Bone, the lower edge of the kneecap are pasted with ligamentum patellae, and the other end of the ligamentum patellae, which is pasted, is fixed to the tuberosity of tibia.

In the manikin of above-mentioned knee prosthesis simulation operation, the knee joint module further includes the package shin bone mould The capsula articularis genus of block and femur module, the inner surface of the capsula articularis genus are close to the quadriceps muscle of thigh, kneecap, ligamentum patellae, interior Collateral ligaments, lateral collateral ligament and tuberosity of tibia simultaneously connect with the pes anserinus tendon；The thickness of the capsula articularis genus is 1mm- 1.5mm。

In the manikin of above-mentioned knee prosthesis simulation operation, the femur entocondyle, lateral side of femur ankle and shin bone Platform is both provided with pathology texture.

In the manikin of above-mentioned knee prosthesis simulation operation, the manikin of the knee prosthesis simulation operation is also Including replaceable knee joint skin.

The manikin of a kind of knee prosthesis simulation operation that above-mentioned technical proposal is provided, compared with prior art, Advantage includes：By the way that the knee joint module being detachably connected will be equipped with, operation white silk is carried out to manikin convenient for user To the replacement of manikin discard module after practising and disassemble and performing the operation, and physical characteristic and company by copying live body Epithelial tissue, musculature and the connective tissue of relation reappearing are connect, the manikin for making knee prosthesis simulation operation is closer Practical human body, improves the authenticity that user is collected manikin practice, and preceding artificial knee joint replacement hand has been worked as in improvement The study condition of art.

Description of the drawings

Fig. 1 is one of structure diagram of manikin of knee prosthesis simulation operation of the present invention；

Fig. 2 is the second structural representation of the manikin of the knee prosthesis simulation operation of the present invention；

Fig. 3 is the third structural representation of the manikin of the knee prosthesis simulation operation of the present invention；

Fig. 4 is the four of the structure diagram of the manikin of the knee prosthesis simulation operation of the present invention；

Fig. 5 is the five of the structure diagram of the manikin of the knee prosthesis simulation operation of the present invention；

Wherein, 1- knee joints module, 101- anterior cruciate ligaments, 102- posterior cruciate ligament of knees, 103- medial meniscus, outside 104- Side meniscus, 105- medial collateral ligaments, 106- lateral collateral ligaments, 107- subpatellar fat pads, 108- pes anserinus tendons, 2- femur modules, 201- shafts of femur, 202- femur entocondyles, 203- lateral side of femur ankles, 3- shin bone modules, 301- shaft of tibia, 302- tuberosity of tibias, 303- tibial plateaus, 4- quadricepss muscle of thigh, 5- kneecaps, 6- ligamentum patellaes, 7- capsula articularis genus.

Specific embodiment

With reference to the accompanying drawings and examples, the specific embodiment of the present invention is described in further detail.Implement below Example is used to illustrate the present invention, but be not limited to the scope of the present invention.

Please refer to attached drawing 1, a kind of manikin of knee prosthesis simulation operation provided by the present invention, including model Main body and be the knee joint module 1 that is detachably connected with the die body, the die body and the knee joint module 1 are divided Epithelial tissue, musculature and connective tissue that Bao Kuo be the physical characteristic of live body and connection relation not to be copied to reproduce, the mould Type main body and the knee joint module pass through the connection between the epithelial tissue of the two and/or musculature and/or connective tissue Form an entirety.

Based on above-mentioned technical characteristic, by the way that the knee joint module 1 being detachably connected will be equipped with, convenient for user to manikin Replacement after carrying out operation practice and disassembling and perform the operation to manikin discard module, and the object by copying live body Epithelial tissue, musculature and the connective tissue that characteristic and connection relation reproduce are managed, makes the knee prosthesis simulation operation Manikin improves the authenticity that user is collected manikin practice, forefathers have been worked as in improvement closer to practical human body The study condition of work replacement knee in arthroplasty.

The knee joint module 1 includes the femur module for pasting connection with posterior cruciate ligament of knee 102 by anterior cruciate ligament 101 2 and shin bone module 3；The femur module 2 includes shaft of femur 201, the femur entocondyle set on the lower end of the shaft of femur 201 202 with lateral side of femur ankle 203；It is thick that the shin bone module 3 includes shaft of tibia 301, the shin bone set on the upper end of the shaft of tibia 301 Grand 302 and the tibial plateau 303 positioned at the top of the tuberosity of tibia 302；By the anterior cruciate ligament 101 with it is described after The stickup of ligamentaum cruciatum 102 makes the femur module 2 be flexibly connected with the shin bone module 3, and the anterior cruciate ligament 101 It is firm to be pasted with the posterior cruciate ligament of knee 102, with the practical human body ligamentaum cruciatum situation of maximum reduction, improves simulated effect.

The knee joint module 1 further includes the lateral meniscus 104 being separately positioned on the both ends of the tibial plateau 303 With medial meniscus 103 and it connect the medial collateral ligament 105 and lateral collateral ligament of the femur module 2 and shin bone module 3 106；One end of the medial collateral ligament 105 is fixedly connected on the femur module 2, the other end of the medial collateral ligament 105 It is fixedly connected on the shin bone module 3；One end of the lateral collateral ligament 106 is fixedly connected on the femur module 2, described outer The other end of collateral ligaments 106 be fixedly connected with the shin bone module 3, by the way that the medial collateral ligament 105 will be fixedly connected with Entire knee joint module is stablized at both ends and the both ends of lateral collateral ligament 106, prevents the femur module 2 and shin bone module 3 It excessively loosens and relative rotation occurs, in the present embodiment, the both ends of the medial collateral ligament 105 and lateral collateral ligament 106 are equal It is secured by bolts in the femur module 2 and shin bone module 3.

The front end of the tibial plateau 303 is pasted with subpatellar fat pad 107, and the material of the subpatellar fat pad 107 is hair Foam material, to simulate 107 truth of the subpatellar fat pad in human body.

The knee joint module 1 further includes pes anserinus tendon 108, and the pes anserinus tendon 108 includes the sartorius, the stock that are pasted together Thin flesh and semitendinosus；Described 108 one end of pes anserinus tendon is pasted on the top of the medial collateral ligament 105, the pes anserinus tendon 108 The other end is pasted on the medial surface of the tuberosity of tibia 302；By setting the pes anserinus tendon 108, the true of simulation operation is improved Property, when carrying out simulation operation, the pes anserinus tendon 108 need to be removed；It, can be by the medial collateral ligament in the present embodiment 105 do and wide be connected to corresponding position and substitute the pes anserinus tendon 108.

The femur module 2 further includes quadriceps muscle of thigh 4, and the quadriceps muscle of thigh 4 is included in the rectus femoris of integrated design, stock Flesh, musculus vastus lateralis and vastus medials；The quadriceps muscle of thigh 4 is pasted on the surface of the shaft of femur 201.Under the quadriceps muscle of thigh 4 End outer surface is provided with kneecap 5, and the lower edge of the kneecap 5 is pasted with ligamentum patellae 6, and the other end of the ligamentum patellae 6 is pasted admittedly Surely the tuberosity of tibia 302 is arrived.

The knee joint module 1 further includes the capsula articularis genus 7 for wrapping up the shin bone module 3 and femur module 2, the knee The inner surface of capsular ligament 7 be close to the quadriceps muscle of thigh 4, kneecap 5, ligamentum patellae 6, medial collateral ligament 105, lateral collateral ligament 106 with And tuberosity of tibia 302 and connect with the pes anserinus tendon 108；The thickness of the capsula articularis genus 7 is 1mm-1.5mm；Close the knee Module 1 is saved closer to true organization of human body, simulation operation is carried out to model convenient for user, improves the quality of simulation operation.

The femur entocondyle 202, lateral side of femur ankle 203 and tibial plateau 303 are both provided with pathology texture, by setting Pathology lines is put, knee replacements are simulated for different cases for user.

The manikin of the knee prosthesis simulation operation further includes replaceable knee joint skin, due to carrying out joint It when displacement technique is imparted knowledge to students, needs to separate skin, setting in this way facilitates the skin that will be separated to replace.

It the above is only the preferred embodiment of the present invention, it is noted that those skilled in the art are come It says, without departing from the technical principles of the invention, several improvement and replacement can also be made, these, which improve and replace, also should It is considered as protection scope of the present invention.

Claims (10)

1. a kind of manikin of knee prosthesis simulation operation, which is characterized in that it include die body and with the model Main body is the knee joint module being detachably connected, and the die body and the knee joint module respectively include copying live body Epithelial tissue, musculature and the connective tissue that physical characteristic and connection relation reproduce, the die body and the knee joint Module forms an entirety by the connection between the epithelial tissue of the two and/or musculature and/or connective tissue.

2. the manikin of knee prosthesis simulation operation as described in claim 1, which is characterized in that the knee joint module Including pasting the femur module of connection and shin bone module by anterior cruciate ligament and posterior cruciate ligament of knee；The femur module includes Shaft of femur, femur entocondyle and lateral side of femur ankle set on the lower end of the shaft of femur；The shin bone module includes shaft of tibia, sets Tuberosity of tibia in the upper end of the shaft of tibia and the tibial plateau positioned at the top of the tuberosity of tibia.

3. the manikin of knee prosthesis simulation operation as claimed in claim 2, which is characterized in that the knee joint module It further includes the lateral meniscus that is separately positioned on the both ends of the tibial plateau and medial meniscus and connect the femur The medial collateral ligament and lateral collateral ligament of module and shin bone module；One end of the medial collateral ligament is fixedly connected on the femur Module, the other end of the medial collateral ligament are fixedly connected on the shin bone module；One end of the lateral collateral ligament, which is fixed, to be connected The femur module is connected to, the other end of the lateral collateral ligament is fixedly connected and the shin bone module.

4. the manikin of knee prosthesis simulation operation as claimed in claim 2, which is characterized in that the tibial plateau Front end is pasted with subpatellar fat pad, and the material of the subpatellar fat pad is expanded material.

5. the manikin of knee prosthesis simulation operation stated such as claim 4, which is characterized in that the knee joint module is also Including pes anserinus tendon, the pes anserinus tendon includes the sartorius, gracilis and the semitendinosus that are pasted together；It glues described pes anserinus tendon one end The top of the medial collateral ligament is affixed on, the other end of the pes anserinus tendon is pasted on the medial surface of the tuberosity of tibia.

6. the manikin of knee prosthesis simulation operation as claimed in claim 5, which is characterized in that the femur module is also Including quadriceps muscle of thigh, the quadriceps muscle of thigh includes flesh, musculus vastus lateralis and vastus medials in the rectus femoris of integrated design, stock；The stock Musculus quadriceps is pasted on the surface of the shaft of femur.

7. the manikin of knee prosthesis simulation operation as claimed in claim 5, which is characterized in that the quadriceps muscle of thigh Lower end outer surface is provided with kneecap, and the lower edge of the kneecap is pasted with ligamentum patellae, and the other end of the ligamentum patellae, which is pasted, to be fixed To the tuberosity of tibia.

8. the manikin of knee prosthesis simulation operation as claimed in claim 7, which is characterized in that the knee joint module The capsula articularis genus for wrapping up the shin bone module and femur module is further included, the inner surface of the capsula articularis genus is close to the stock four Head flesh, kneecap, ligamentum patellae, medial collateral ligament, lateral collateral ligament and tuberosity of tibia simultaneously connect with the pes anserinus tendon；The knee closes The thickness of condyle is 1mm-1.5mm.

9. such as the manikin of claim 2-8 any one of them knee prosthesis simulation operation, which is characterized in that the stock Bone entocondyle, lateral side of femur ankle and tibial plateau are both provided with pathology texture.

10. such as the manikin of claim 2-8 any one of them knee prosthesis simulation operation, which is characterized in that described The manikin of knee prosthesis simulation operation further includes replaceable knee joint skin.