CN107320155A - A kind of digitlization forming method of intraoral tumor resection and repairing accessory - Google Patents

Abstract

The invention discloses a kind of intraoral tumor resection and the digitlization forming method of repairing accessory, method includes：Jawbone model is obtained by CT scanner, according to jawbone model, the positions and dimensions parameter of tumour, the tumor resection for obtaining being provided with the first fixed hole and the first cutter track by 3D printing aids in guide plate model；Fibula model is obtained by CT scanner, obtain corresponding with fibula osteotomy guide plate model being provided with the second fixed hole and the fibula osteotomy guide plate model of the second cutter track by 3D printing, obtained by CT scanner and work as premaxilla model, obtaining the fibular autograft for being provided with implantation guide channel corresponding with fibular autograft auxiliary guide plate model by 3D printing aids in guide plate model.The present invention realizes the quick design and shaping of intraoral tumor resection and repairing accessory, more facilitates user to be used in surgical procedure.

Description

A kind of digitlization forming method of intraoral tumor resection and repairing accessory

Technical field

The present invention relates to recovery technique of oral cavity field, more particularly to a kind of intraoral tumor resection and repairing assisted parts The digitlization forming method of part.

Background technology

At present, when patient is intraoral there is tumour, common processing method be doctor rule of thumb, carry out operation opening and Tumor resection.So success or not of the excision of mouth intracavitary neoplasm, relies heavily on the experience and technical ability of doctor.But, In the prior art not over one or more guide plates are designed to instruct doctor to be cut off, the difficulty of operation also can not be just reduced Degree.

Therefore, prior art has yet to be improved and developed.

The content of the invention

In view of above-mentioned the deficiencies in the prior art, it is an object of the invention to provide a kind of intraoral tumor resection and repair with auxiliary Help the digitlization forming method of part, it is intended to one or more not over designing when solution cuts off intraoral tumour in the prior art Guide plate causes operation difficulty and the defect of operating time has been significantly greatly increased to instruct doctor to be cut off.

Technical scheme is as follows：

A kind of digitlization forming method of intraoral tumor resection and repairing accessory, including：

S1, by CT scanner obtain jawbone model, and according to jawbone model obtain tumour positions and dimensions parameter；

S2, according to jawbone model, the positions and dimensions parameter of tumour, and receive user on jawbone model regional frame choosing instruction The tumor resection auxiliary guide plate model for being provided with the first fixed hole and the first cutter track is generated with correspondence；

S3, obtain by 3D printing aiding in the corresponding tumor resection of guide plate model to aid in guide plate with tumor resection；

S4, by CT scanner obtain fibula model, and receive user on fibula model regional frame choosing instruction with correspondence give birth to Into the fibula osteotomy guide plate model for being provided with the second fixed hole and the second cutter track；

S5, fibula osteotomy guide plate corresponding with fibula osteotomy guide plate model obtained by 3D printing；

S6, by CT scanner obtain work as premaxilla model, and receive user when on premaxilla model regional frame select instruction The fibular autograft auxiliary guide plate model for being provided with implantation guide channel is generated with correspondence；

S7, obtain by 3D printing aiding in the corresponding fibular autograft of guide plate model to aid in guide plate with fibular autograft.

The digitlization forming method of the intraoral tumor resection and repairing accessory, wherein step S6 is specifically included：

S61, by CT scanner obtain work as premaxilla model；

S62, the choosing instruction of real-time detection zone frame, when detecting user when when the regional frame choosing instruction on premaxilla model, then Display is when the region selected on premaxilla model by frame；

S63, in real time detection guide plate generation instruction, are then generated when detecting guide plate generation instruction according to the region correspondence selected by frame Initial fibular autograft auxiliary guide plate model；

S64, when detect user implantation guide channel increase instruction when, then initial fibular autograft auxiliary guide plate model on it is right Implantation guide channel should be increased；

S65, when detect user adjustment complete instruction when, then correspond to generation be provided with implantation guide channel fibular autograft it is auxiliary Assistant director of a film or play's Slab.

Pass through DLP- in the digitlization forming method of the intraoral tumor resection and repairing accessory, wherein step S3 3D printing instrument successively accumulates printing tumor resection auxiliary guide plate model；Wherein, each layer of printing piling height is 0.04- 0.06mm。

The digitlization forming method of the intraoral tumor resection and repairing accessory, it is characterised in that the step Printing fibula osteotomy guide plate model is successively accumulated by DLP-3D printing instruments in S5；Wherein, each layer of printing piling height is 0.04-0.06mm。

Pass through DLP- in the digitlization forming method of the intraoral tumor resection and repairing accessory, wherein step S7 3D printing instrument successively accumulates printing fibula plantation auxiliary guide plate model；Wherein, each layer of printing piling height is 0.04- 0.06mm。

The digitlization forming method of the intraoral tumor resection and repairing accessory, its it is described printing piling height be 0.05mm。

The digitlization forming method of the intraoral tumor resection and repairing accessory, wherein step S3 also includes：Will Tumor resection auxiliary guide plate is placed on power for 300W, wave-length coverage 10- below 300nm-400nm quartz burner 15cm, and solidified 3-4 minutes with immersion method, secondary solidification is carried out to tumor resection auxiliary guide plate, the tumour after being solidified is cut Except auxiliary guide plate.

The digitlization forming method of the intraoral tumor resection and repairing accessory, wherein step S5 also includes：Will Fibula osteotomy guide plate is placed on power for 300W, wave-length coverage 10-15cm below 300nm-400nm quartz burner, and Solidified 3-4 minutes with immersion method, secondary solidification, the fibula osteotomy guide plate after being solidified are carried out to fibula plantation auxiliary guide plate.

The digitlization forming method of the intraoral tumor resection and repairing accessory, wherein, the step S7 is also wrapped Include：Fibula plantation auxiliary guide plate is placed on power for 300W, wave-length coverage is below 300nm-400nm quartz burner 10-15cm, and solidified 3-4 minutes with immersion method, secondary solidification, the fibula after being solidified are carried out to fibula plantation auxiliary guide plate Plantation auxiliary guide plate.

The digitlization forming method of intraoral tumor resection and repairing accessory of the present invention, method includes：It is logical Cross CT scanner and obtain jawbone model, and according to the positions and dimensions parameter of jawbone model acquisition tumour；According to jawbone model, swell The positions and dimensions parameter of knurl, and receive user on jawbone model regional frame choosing instruction with correspondence generation be provided with first consolidate The tumor resection auxiliary guide plate model of position hole and the first cutter track；Obtain aiding in guide plate model corresponding with tumor resection by 3D printing Tumor resection auxiliary guide plate；Fibula model is obtained by CT scanner, and receives regional frame choosing of the user on fibula model Instruction is generated with correspondence and is provided with the second fixed hole and the fibula osteotomy guide plate model of the second cutter track；Obtained and calf by 3D printing The corresponding fibula osteotomy guide plate of bone osteotomy guide plate model；Jawbone model is obtained by CT scanner, and receives user in jawbone mould The fibular autograft that regional frame choosing instruction in type is provided with implantation guide channel with correspondence generation aids in guide plate model；Beaten by 3D Print obtains fibular autograft auxiliary guide plate corresponding with fibular autograft auxiliary guide plate model.The present invention realize intraoral tumor resection and The quick design and shaping of repairing accessory, more facilitate user to be used in surgical procedure.

Brief description of the drawings

Fig. 1 is the digitlization forming method preferred embodiment of intraoral tumor resection of the present invention and repairing accessory Flow chart.

Embodiment

The present invention provides the digitlization forming method of a kind of intraoral tumor resection and repairing accessory, to make the present invention Purpose, technical scheme and effect it is clearer, clear and definite, the present invention is described in more detail below.It should be appreciated that this place The specific embodiment of description only to explain the present invention, is not intended to limit the present invention.

Fig. 1 is refer to, it is the digitlization forming method of intraoral tumor resection of the present invention and repairing accessory The flow chart of preferred embodiment.As shown in figure 1, the digitlization forming method of the intraoral tumor resection and repairing accessory Including：

Step S1, by CT scanner obtain jawbone model, and according to jawbone model obtain tumour positions and dimensions parameter；

Step S2, according to jawbone model, the positions and dimensions parameter of tumour, and receive user on jawbone model regional frame choosing Instruct and the tumor resection auxiliary guide plate model for being provided with the first fixed hole and the first cutter track is generated with correspondence；

Step S3, obtain by 3D printing aiding in the corresponding tumor resection of guide plate model to aid in guide plate with tumor resection；

Step S4, by CT scanner obtain fibula model, and receive user on fibula model regional frame choosing instruction with right The fibula osteotomy guide plate model for being provided with the second fixed hole and the second cutter track should be generated；

Step S5, fibula osteotomy guide plate corresponding with fibula osteotomy guide plate model obtained by 3D printing；

Step S6, by CT scanner obtain work as premaxilla model, and receive user when on premaxilla model regional frame choosing Instruct and the fibular autograft auxiliary guide plate model for being provided with implantation guide channel is generated with correspondence；

Step S7, obtain by 3D printing aiding in the corresponding fibular autograft of guide plate model to aid in guide plate with fibular autograft.

In the present embodiment, in step S1 by CT scanner obtain jawbone model, equivalent to obtain user it is intraoral just Beginning model, the acquired corresponding model data of jawbone model can be imported into Design of digital software（As in 3Shape softwares）. The positions and dimensions parameter of tumour can be obtained according to jawbone model in Design of digital software, thus passes through indirect side Formula accurately realizes the positioning to tumour.

In step s 2, user can specify a region in Design of digital software by frame choosing, to generate with being somebody's turn to do The tumor resection auxiliary guide plate model that region is adapted.For the ease of resting guide, and knife under doctor is aided in cut by the guide plate Except tumour, it is necessary to set the first fixed hole on tumor resection auxiliary guide plate model（First fixed hole is through hole）, and First cutter track（The cutter track is groove）.Guide plate die is so aided in regard to that can be quickly obtained tumor resection by Design of digital Type.

In step s3, tumor resection auxiliary guide plate model Design of digital obtained is led from Design of digital software Go out, and 3D printing is carried out using 3D printing technique, obtain the tumor resection auxiliary guide plate of entity.So, first tumour can be cut Except auxiliary guide plate is fixed on the specified location in oral cavity by retention pin, intraoral tumour is then carried out along cutter track by operation device again Excision, so realizes accurate surgical navigational by the Design of digital of guide plate.

In step s 4, fibula model is obtained by CT scanner, can just obtains and treat that the fibula model correspondence of osteotomy is initial Model, the acquired corresponding model data of fibula model can be imported into Design of digital software（As in 3Shape softwares）. The positions and dimensions parameter of fibula to be intercepted can be obtained in Design of digital software according to fibula model, thus by indirect Mode accurately realize the positioning to fibula to be intercepted.

In step s 5, fibula osteotomy guide plate model Design of digital obtained is exported from Design of digital software, And 3D printing is carried out using 3D printing technique, the fibula osteotomy guide plate of entity is obtained, and first is provided with fibula osteotomy guide plate Fixed hole and the first cutter track.So, fibula osteotomy guide plate can be first fixed on to the specified location of leg by retention pin, then Resection of fibula is carried out along the first cutter track by operation device again, so realizes that precisely operation is led by the Design of digital of guide plate Boat.

In step s 6, obtained again by CT scanner and work as premaxilla model, with regard to the current of fibula to be planted can be obtained Jawbone model the second model of correspondence, it is acquired when the corresponding model data of premaxilla model can be imported into Design of digital software （As in 3Shape softwares）.In Design of digital software can according to obtained when premaxilla model fibula to be planted position and Dimensional parameters, thus accurately realize the positioning to planting fibula by indirect mode.

In the step s 7, fibular autograft auxiliary guide plate model Design of digital obtained is led from Design of digital software Go out, and 3D printing is carried out using 3D printing technique, obtain the fibular autograft auxiliary guide plate of entity, and on fibular autograft auxiliary guide plate It is provided with implantation guide channel.

It is preferred that, in an embodiment of the present invention, step S6 is specifically included：

Step S61, by CT scanner obtain work as premaxilla model；

Step S62, the choosing instruction of real-time detection zone frame, are instructed when detecting user when the regional frame on premaxilla model is selected When, then display is when the region selected on premaxilla model by frame；

Step S63, in real time detection guide plate generation instruction, when detecting guide plate generation instruction then according to the region correspondence selected by frame Generate initial fibular autograft auxiliary guide plate model.

In step S61, by CT scanner obtain patient work as premaxilla model, and will obtain work as premaxilla model Input is into Design of digital software.

In step S62, real-time detection zone frame choosing instruction, when detecting user when the regional frame on premaxilla model During choosing instruction, then the region selected on jawbone model by frame is shown, it is possible to which further amplification shows the region of institute's frame choosing, makes user The area image of selection becomes apparent from, and facilitates user to carry out the operation of next step.

In step S63 when detecting guide plate generation instruction, then initial fibula is generated according to the region correspondence selected by frame Transplanting auxiliary guide plate model, so completes the initial designs that initial fibular autograft aids in guide plate model.

In step 64, when the implantation guide channel for detecting user increases instruction, then aided in initial fibular autograft Increased on guide plate model in correspondence increase implantation guide channel, the image by amplifying display in Design of digital software The operation of guide channel is implanted into, can make the set implantation guide channel more reasonable, it is to avoid conventional art is easily produced The defect of error.

In step S65, when the adjustment for detecting user completes instruction, then correspond to generation and be provided with implantation guide channel Fibular autograft auxiliary guide plate model.After all adjustment of user's completion and setting, the fibular autograft auxiliary after the completion of being tuned into Guide plate model is exported from Design of digital software, and carries out 3D printing using 3D printing technique, obtains the fibular autograft of entity Aid in guide plate.So, first guide plate can be aided in be fixed on the specified location in oral cavity by retention pin fibular autograft, moves fibula Plant auxiliary guide plate firmly to fix, fibula obtained by then again by operation device along implantation guide channel passing through in step S5 Osteotomy guide plate is placed at user's fibula and cuts down one end fibula come and precisely transplanted.

Printing tumor resection is successively accumulated in embodiments of the invention, in the step S3 by DLP-3D printing instruments to aid in Guide plate model；Wherein, each layer of printing piling height is 0.04-0.06mm.

In DLP-3D printing instruments, DLP is Digital Light Processing, represents digital light processing, is to pass through Projecting apparatus successively solidifies photosensitive polymer liquid, so as to be created that 3D printing object.Can comprising one in DLP-3D printing instruments , can be by the resin of the ultraviolet light solidify afterwards of specific wavelength for holding to accommodate the liquid bath of resin（Such as polymethylacrylic acid Methyl esters）, DLP imaging systems are placed in below liquid bath, and its imaging surface is placed exactly in liquid bath bottom, by energy and Graph Control, often Secondary curable certain thickness（Such as 0.05mm）And the pellicular resins of shape（This layer of resin and cross-sectional shape obtained by above cutting are complete It is exactly the same）.One shift mechanism is set above liquid bath, certain altitude is lifted upwards after the completion of each section exposure（This highly with Lift height is consistent）So that the solid resin of current curing completion separates with liquid bath bottom surface and is bonded in lifting plate or last time On the resin bed of shaping, so 3D solid is generated by successively exposing and being lifted.

Likewise, in an embodiment of the present invention, printing calf is successively accumulated by DLP-3D printing instruments in the step S5 Bone osteotomy guide plate model；Wherein, each layer of printing piling height is 0.04-0.06mm.

Likewise, in an embodiment of the present invention, printing calf is successively accumulated by DLP-3D printing instruments in the step S7 Bone plantation auxiliary guide plate model；Wherein, each layer of printing piling height is 0.04-0.06mm.

Optimal, in step S3, step S5 or step S7, the printing piling height is 0.05mm.

In embodiments of the invention, the step S3 also includes：Tumor resection auxiliary guide plate is placed on power for 300W, Wave-length coverage 10-15cm below 300nm-400nm quartz burner, and solidified 3-4 minutes with immersion method, to tumor resection Guide plate is aided in carry out secondary solidification, the tumor resection auxiliary guide plate after being solidified.By the above-mentioned means, tumor resection can be realized Aid in the rapid curing of guide plate.

In embodiments of the invention, the step S5 also includes：Fibula osteotomy guide plate is placed on power for 300W, wavelength Scope 10-15cm below 300nm-400nm quartz burner, and solidified 3-4 minutes with immersion method, to fibula osteotomy guide plate Carry out secondary solidification, the fibula osteotomy guide plate after being solidified.By the above-mentioned means, the quick solid of fibula osteotomy guide plate can be realized Change.

In embodiments of the invention, the step S7 also includes：Fibula plantation auxiliary guide plate is placed on power for 300W, Wave-length coverage 10-15cm below 300nm-400nm quartz burner, and solidified 3-4 minutes with immersion method, fibula is planted Guide plate is aided in carry out secondary solidification, the fibula plantation auxiliary guide plate after being solidified.By the above-mentioned means, can realize that fibula is planted Aid in the rapid curing of guide plate.

In summary, the digitlization forming method of intraoral tumor resection and repairing accessory of the present invention, side Method includes：Jawbone model is obtained by CT scanner, and according to the positions and dimensions parameter of jawbone model acquisition tumour；According to jaw The positions and dimensions parameter of bone model, tumour, and receive user on jawbone model regional frame choosing instruction with correspondence generation set It is equipped with the first fixed hole and the tumor resection auxiliary guide plate model of the first cutter track；Obtain leading with tumor resection auxiliary by 3D printing The corresponding tumor resection auxiliary guide plate of Slab；Fibula model is obtained by CT scanner, and receives user on fibula model Regional frame choosing instruction with correspondence generate be provided with the second fixed hole and the fibula osteotomy guide plate model of the second cutter track；Beaten by 3D Print obtains fibula osteotomy guide plate corresponding with fibula osteotomy guide plate model；Jawbone model is obtained by CT scanner, and receives use The fibular autograft that regional frame choosing instruction of the family on jawbone model is provided with implantation guide channel with correspondence generation aids in guide plate die Type；Fibular autograft corresponding with fibular autograft auxiliary guide plate model is obtained by 3D printing and aids in guide plate.The present invention realizes mouth The quick design and shaping of interior tumor resection and repairing accessory, more facilitate user to be used in surgical procedure.

It should be appreciated that the application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can To be improved or converted according to the above description, all these modifications and variations should all belong to the guarantor of appended claims of the present invention Protect scope.

Claims (9)

1. the digitlization forming method of a kind of intraoral tumor resection and repairing accessory, it is characterised in that including：

S1, by CT scanner obtain jawbone model, and according to jawbone model obtain tumour positions and dimensions parameter；

S2, according to jawbone model, the positions and dimensions parameter of tumour, and receive user on jawbone model regional frame choosing instruction The tumor resection auxiliary guide plate model for being provided with the first fixed hole and the first cutter track is generated with correspondence；

S3, obtain by 3D printing aiding in the corresponding tumor resection of guide plate model to aid in guide plate with tumor resection；

S4, by CT scanner obtain fibula model, and receive user on fibula model regional frame choosing instruction with correspondence give birth to Into the fibula osteotomy guide plate model for being provided with the second fixed hole and the second cutter track；

S5, fibula osteotomy guide plate corresponding with fibula osteotomy guide plate model obtained by 3D printing；

S6, by CT scanner obtain work as premaxilla model, and receive user when on premaxilla model regional frame select instruction The fibular autograft auxiliary guide plate model for being provided with implantation guide channel is generated with correspondence；

S7, obtain by 3D printing aiding in the corresponding fibular autograft of guide plate model to aid in guide plate with fibular autograft.

2. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In the step S6 is specifically included：

S61, by CT scanner obtain work as premaxilla model；

S62, the choosing instruction of real-time detection zone frame, when detecting user when when the regional frame choosing instruction on premaxilla model, then Display is when the region selected on premaxilla model by frame；

S63, in real time detection guide plate generation instruction, are then generated when detecting guide plate generation instruction according to the region correspondence selected by frame Initial fibular autograft auxiliary guide plate model；

S64, when detect user implantation guide channel increase instruction when, then initial fibular autograft auxiliary guide plate model on it is right Implantation guide channel should be increased；

S65, when detect user adjustment complete instruction when, then correspond to generation be provided with implantation guide channel fibular autograft it is auxiliary Assistant director of a film or play's Slab.

3. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In, in the step S3 by DLP-3D printing instruments successively accumulate printing tumor resection aid in guide plate model；Wherein, each layer Printing piling height is 0.04-0.06mm.

4. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In, in the step S5 by DLP-3D printing instruments successively accumulate printing fibula osteotomy guide plate model；Wherein, each layer of printing Piling height is 0.04-0.06mm.

5. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In, in the step S7 by DLP-3D printing instruments successively accumulate printing fibula plantation auxiliary guide plate model；Wherein, each layer Printing piling height is 0.04-0.06mm.

6. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 3 or 4 or 5, its It is characterised by, the printing piling height is 0.05mm.

7. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In the step S3 also includes：Tumor resection auxiliary guide plate is placed on power for 300W, wave-length coverage is in 300nm-400nm Quartz burner below 10-15cm, and solidified 3-4 minute with immersion method, aid in tumor resection the secondary solidification of guide plate progress, Tumor resection auxiliary guide plate after being solidified.

8. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In the step S5 also includes：Fibula osteotomy guide plate is placed on power for 300W, purple of the wave-length coverage in 300nm-400nm 10-15cm below outside line fluorescent tube, and solidified 3-4 minutes with immersion method, secondary solidification is carried out to fibula osteotomy guide plate, solidified Fibula osteotomy guide plate afterwards.

9. the digitlization forming method of intraoral tumor resection and repairing accessory according to claim 1, its feature exists In the step S7 also includes：Fibula plantation auxiliary guide plate is placed on power for 300W, wave-length coverage is in 300nm-400nm Quartz burner below 10-15cm, and solidified 3-4 minute with immersion method, to the secondary solidification of fibula plantation auxiliary guide plate progress, Fibula plantation auxiliary guide plate after being solidified.