CN108904026A - It can be used for the electromagnetic drive intramedullary needle of bone carrying - Google Patents

Abstract

The present invention relates to a kind of electromagnetic drive intramedullary needles that can be used for bone carrying, it is characterized in that, including the internal electromagnetic drive traction mechanism being connected between self epiphysis and osteotomy end, the internal electromagnetic drive traction mechanism can control in vitro drives that carry bone section mobile to the direction far from the osteotomy end under the driving of electromagnetic field.The present invention passes through the permanent magnet rotating in intramedullary needle in cordless driving body using external alternating electromagnetic field, and then the lead screw in intramedullary needle is driven to rotate, lead screw rotation drives mobile with the direction for carrying guiding piece to separate osteotomy end that bone section is connect, carrying bone section is set gradually to move through defect section, finally knitting is realized with bone defect end in contact and by pressurization, bone can be completed in intramedullary needle dismounting after bony union to carry, to realize it is noninvasive, at the uniform velocity pull osteotomy at periosteum, periosteum skeletonization is induced, realizes that bone defects are rebuild.

Description

It can be used for the electromagnetic drive intramedullary needle of bone carrying

Technical field

The present invention relates to a kind of medical instruments, specifically about a kind of electromagnetic drive intramedullary needle that can be used for bone carrying.

Background technique

Clinical wound, infection, tumour etc. can lead to long bone of limbs large segmental bone defect, for the big section at adjacent joints position Bone defect generally uses metal prostheses to rebuild or allosome bone remoulding, but for (long bone middle section position) defect at backbone, always with Not generally acknowledge optimal method for reconstructing.Currently, common method includes allogenic bone transplantation, autologous bone transplanting, the vacation of middle section metal Body etc., but these methods have higher failure rate.For four limbs middle section bone defect, bone, which is carried, can achieve biology reconstruction Effect, and long term complication is less.Traditional bone method for carrying is that external fixing rack drawing carries section, stretches periosteum and then induces bone Film skeletonization, the final Bone Defect Repari for realizing defect section, the type of external fixing rack include annular intramedullary needle and monolateral external frisket.It is outer solid Determining frame is section to be carried using several pieces of metal fixed pins are fixed, after osteotomy by external metal or carbon attachment device Begin through within 5-7 days it is slowly mobile with the steel needle for carrying section bone fixation in vivo, by periosteum at drawing osteotomy, induction periosteum at Bone is graduallyd mature to periosteum skeletonization, is formed pulp cavity structure and is realized that blood fortune is established, then outrigger and metal fixed pin are removed.

Since the treatment time that bone is carried is longer, according to defect length difference, patient generally requires to wear the outrigger several months extremely 1-2 etc..External fixing rack carries out bone and carries existing matter of utmost importance to be pin track infection, and document report infection rate is 30- 47% differs, and receives to may occur in which soft tissue contracture, the complication such as fibrosis and greendstick fracture during outrigger treatment.Clinically, In order to reduce the incidence of complication rate, especially pin track infection, outrigger generally can be shortened by Complex fixation Using the time, and then reduce infection probability.Common Complex fixation have the compound intramedullary needle of outrigger or outrigger clad steel plate into Row bone is carried, i.e., handling process is carried out by outrigger, but after carrying section movement, is consolidated by intramedullary needle or steel plate It is fixed, so as to remove outrigger, outrigger can be shortened in this way and use the time.But it is still inevitable using outer in handling process Frame, to occur due to infection caused by outrigger use, tendon interference etc..And for Complex fixation, once go out Even more serious consequence will be occurred by now infecting, and because still having metal inside-fixture in vivo, can not only be treated by debridement, need by In-vivo metal inside-fixture complete resection.Secondly, the metal fixed pin of traditional external fixing rack is needed across the soft tissues knot such as muscle Structure, these metal fixed pins often will affect contraction of muscle and then cause joint motion limited, and patient during outrigger extension It is unable to walking with load, patient comfort is lower during wearing outrigger, in addition to walking with load function limitation, controls using external fixing rack Outrigger will affect patient since size is larger and wear the clothes during treatment, and especially in north cold area, winter needs thicker clothing When, this disadvantage of outrigger is more obvious.

Relative to external fixing rack Limb lengthening, screw way sense in therapeutic process can be reduced using Internal fixation technology, such as intramedullary needle The risks such as dye, fracture, but traditional intramedullary needle cannot achieve bone carrying.

Summary of the invention

In view of the above-mentioned problems, the object of the present invention is to provide a kind of electromagnetic drive intramedullary needles that can be used for bone carrying.

To achieve the above object, the present invention takes following technical scheme：It is a kind of to can be used in the electromagnetic drive marrow that bone is carried Needle, which is characterized in that including the internal electromagnetic drive traction mechanism (1) being connected between self epiphysis and osteotomy end, the body Interior electromagnetic drive traction mechanism (1) can control to drive under the driving of electromagnetic field in vitro carries bone section to far from the osteotomy end Direction it is mobile.

In a preferred embodiment, the internal electromagnetic drive traction mechanism (1) includes：Outer sleeve (11), connection Between the self epiphysis and osteotomy end, a sliding slot (15) are opened up along axial direction on the outer sleeve (11)；Permanent magnet (12), if It sets in the outer sleeve (11), the permanent magnet (12) can control in vitro to be rotated under the driving of electromagnetic field；Linearly Lead screw (13) is rotatably supported in the outer sleeve (11) along the axial direction of the outer sleeve (11), the linear lead screw (13) One end connect with the permanent magnet (12) and can be with the permanent magnet (12) synchronous rotary；Guiding piece (14), is slidably arranged in institute It states in outer sleeve (11) and threaded engagement is on the linear lead screw (13), and is solid through the sliding slot (15) and the carrying bone section Fixed, the guiding piece (14) can drive the carrying bone section to far from the osteotomy end under the driving of the linear lead screw (13) Direction it is mobile.

In a preferred embodiment, reduction gearbox (16) are set between the permanent magnet (12) and linear lead screw (13), The input terminal of the reduction gearbox (16) connects the permanent magnet (12), and the output end of the reduction gearbox (16) connects the linear silk Thick stick (13).

In a preferred embodiment, several screw holes are offered on the guiding piece (14), the carrying bone section is logical It crosses several mono cortex screws (17) and passes through the sliding slot (15) and connect afterwards with the screw hole on the guiding piece (14).

In a preferred embodiment, the permanent magnet (12) uses cylindrical structure, is radially magnetized, material Using neodymium-iron-boron magnetic material.

In a preferred embodiment, the screw pitch of the linear lead screw (13) is designed as 1mm.

The invention adopts the above technical scheme, which has the following advantages：The present invention is logical using external alternating electromagnetic field The permanent magnet rotating in cordless driving body in intramedullary needle is crossed, and then drives the lead screw rotation in intramedullary needle, lead screw rotation It drives the guiding piece connecting with carrying bone section mobile to the direction far from osteotomy end, carrying bone section is made gradually to move through defect Section finally realizes knitting with bone defect end in contact and by pressurization, and bone can be completed in intramedullary needle dismounting after bony union Carry, thus realize it is noninvasive, at the uniform velocity pull osteotomy at periosteum, induce periosteum skeletonization, realize bone defects rebuild.

Detailed description of the invention

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the partial enlargement diagram of outer sleeve of the present invention；

Fig. 3 is the driving principle figure of external control electromagnetic field of the invention.

Specific embodiment

The present invention is described in detail below with reference to embodiment.

Fig. 1 illustrates the electromagnetic drive intramedullary needle provided according to the present invention, including internal electromagnetic drive traction mechanism 1, uses In being connected between self epiphysis 10 and osteotomy end 20, which can control electromagnetic field in vitro Driving under drive that carry bone section 30 mobile to the direction far from osteotomy end 20, make to carry bone section 30 and gradually move through defect Section finally contacts with self epiphysis 10 and realizes knitting by pressurization, to realize the periosteum distraction osteogenesis of defect section.

In a preferred embodiment, internal electromagnetic drive traction mechanism 1 includes：Outer sleeve 11 (shell), is connected to Between self epiphysis 10 and osteotomy end 20, a sliding slot 15 (as shown in Figure 2) is opened up along axial direction on outer sleeve 11；Permanent magnet 12, if It sets in outer sleeve 11, which can control in vitro is rotated under the driving of electromagnetic field；Linear lead screw 13, along outer The axial direction of sleeve 11 is rotatably supported in outer sleeve 11, and one end of linear lead screw 13 connect with permanent magnet 12 and can be with permanent magnet 12 Synchronous rotary；Guiding piece 14, is slidably arranged in outer sleeve 11 and on the online sex pilus thick stick 13 of threaded engagement, and through sliding slot 15 with remove It transports bone section 30 to fix, which can drive carrying bone section 30 to the side far from osteotomy end 20 under the driving of online sex pilus thick stick 13 To movement, sliding slot 15 is used to constrain the moving direction of guiding piece 14.

In a preferred embodiment, also reduction gearbox 16 can be set between permanent magnet 12 and linear lead screw 13, this subtracts The input terminal of fast case 16 connects permanent magnet 12, the output end connecting line sex pilus thick stick 13 of reduction gearbox 16, and reduction gearbox 16 designs main Purpose is to obtain biggish output torque and lower revolving speed.

In a preferred embodiment, several screw holes are offered on guiding piece 14, are carried bone section 30 and are passed through several lists Cortex screw 17 is simultaneously connect after sliding slot 15 with the screw hole on guiding piece 14.

In a preferred embodiment, permanent magnet 12 uses cylindrical structure, is radially magnetized, and material uses neodymium Fe-Mn magnetism material.

In a preferred embodiment, 11 outer diameter of outer sleeve is the different thicknesses size of 8-13mm, to meet different solutions Cut open the patient of size bone.

In a preferred embodiment, the screw pitch of linear lead screw 13 is designed as 1mm.

As shown in Figure 1, Figure 3, in the use of the present invention, routinely intramedullary needle mounting means, passes through defect section one end first Long ossis then passes through defect section, enters defect section other end ossis later；When intramedullary needle enters appropriate length (length Spend is to carry bone section length) after, it carries out retaining periosteum osteotomy under C arm perspective, continues into intramedullary needle distally after osteotomy Pulp cavity, and respectively at close, distal end installation pinning 40, intramedullary needle is fixed on to close, the distal tubular bone of defect section, then passes through body Outer locator mono cortex screw 17 is fixed on bone section 30 is carried on guiding piece 14.When needing to carry out bone carrying, start body Outer control electromagnetic field and close limbs of patient skin, the alternating magnetic field of control electromagnetic field generation rotation in vitro, passes through alternation at this time The pole N in magnetic field itself and S are extremely constantly alternately converted, and drive the permanent magnet 12 of patient's body to rotate, permanent magnet 12 is with linear silk Thick stick 13 rotates and guiding piece 14 is pushed to slide axially along the sliding slot 15 of outer sleeve 11, so that driving guiding piece 14 carries bone section 30 To far from the movement of 20 direction of osteotomy end, the sutura at osteotomy is gradually pulled open by the mobile 1mm of promotion expense guiding piece 14 daily in this way Gap makes carrying bone section 30 gradually move through defect section, realizes the periosteum distraction osteogenesis of defect section.

The various embodiments described above are only used for carrying out exemplary description to the purpose of the present invention, technical scheme and beneficial effects, and Be not limited to above-mentioned specific embodiment, all within the spirits and principles of the present invention, any modification for being made, equivalent replacement, Improve etc., it should all be included in the protection scope of the present invention.

Claims (6)

1. a kind of electromagnetic drive intramedullary needle that can be used for bone carrying, which is characterized in that including being connected to self epiphysis and osteotomy end Between internal electromagnetic drive traction mechanism (1), the internal electromagnetic drive traction mechanism (1) can control electromagnetic field in vitro Driving under drive that carry bone section mobile to the direction far from the osteotomy end.

2. electromagnetic drive intramedullary needle according to claim 1, which is characterized in that the internal electromagnetic drive traction mechanism (1) include：

Outer sleeve (11) is connected between the self epiphysis and osteotomy end, is opened up one along axial direction on the outer sleeve (11) and is slided Slot (15)；

Permanent magnet (12), in the outer sleeve (11), the permanent magnet (12) can control the drive of electromagnetic field in vitro for setting It is rotated under dynamic；

Linear lead screw (13), is rotatably supported in the outer sleeve (11), the linear silk along the axial direction of the outer sleeve (11) One end of thick stick (13) connect with the permanent magnet (12) and can be with the permanent magnet (12) synchronous rotary；

Guiding piece (14) is slidably arranged in the outer sleeve (11) and threaded engagement is on the linear lead screw (13), and passes through The sliding slot (15) is fixed with the carrying bone section, and the guiding piece (14) can drive under the driving of the linear lead screw (13) The bone section of carrying is to the direction movement far from the osteotomy end.

3. electromagnetic drive intramedullary needle according to claim 2, which is characterized in that the permanent magnet (12) and linear lead screw (13) reduction gearbox (16) are set between, the input terminal of the reduction gearbox (16) connects the permanent magnet (12), the reduction gearbox (16) output end connects the linear lead screw (13).

4. electromagnetic drive intramedullary needle according to claim 2, which is characterized in that offered on the guiding piece (14) several Screw hole, the carrying bone section by several mono cortex screws (17) and pass through the sliding slot (15) afterwards with the guiding piece (14) On screw hole connection.

5. according to the described in any item electromagnetic drive intramedullary needles of claim 2 to 4, which is characterized in that the permanent magnet (12) is adopted With cylindrical structure, radially magnetized, material uses neodymium-iron-boron magnetic material.

6. according to the described in any item electromagnetic drive intramedullary needles of claim 2 to 4, which is characterized in that the linear lead screw (13) Screw pitch be designed as 1mm.