CN110477997A - A kind of 3D printing guide plate of the controllable osteotomy depth for fibular flap moulding operation - Google Patents

Abstract

The present invention provides a kind of 3D printing guide plates of controllable osteotomy depth for fibular flap moulding operation, the guide plate includes guide plate ontology, the guide plate ontology is equipped with multiple positioning regions, each positioning region is made of one or more positioning plate, the outer end face of each positioning region is equipped with the deep-controlled groove of fibula osteotomy and fibula osteotomy direction controlling through slot, and the fibula osteotomy direction controlling through slot is configured along the trend of the deep-controlled groove of fibula osteotomy.The deep-controlled groove of fibula osteotomy and fibula osteotomy direction controlling through slot being arranged on the guide plate can effectively control the trend of osteotomy and the depth of osteotomy, so that saw blade is under the premise of guaranteeing that fibula is sectioned without damaging vessel pedicle on the inside of fibula.Therefore, guide plate of the present invention using when be not required to vessel pedicle on the inside of removing fibula, effective protection fibula blood supply, and substantially reduce operating time improves the efficiency that medical staff carries out fibular flap moulding operation.

Description

A kind of 3D printing guide plate of the controllable osteotomy depth for fibular flap moulding operation

Technical field

The present invention relates to a kind of 3D printing guide plates, and in particular to a kind of controllable osteotomy for fibular flap moulding operation is deep The 3D printing guide plate of degree.

Background technique

The transplanting of vascularization fibula free flap is an important means for repairing upper and lower jaw defect.Hand is transplanted in fibular flap In art, need to carry out fibula segmentation osteotomy, the splicing moulding of three-dimensional.Though there is some surgical template auxiliary to carry out calf at present Bone osteotomy, moulding, but it is only guided on the direction of segmentation osteotomy, so depositing problem both ways: first is that in osteotomy mistake In order to protect vessel pedicle on the inside of fibula in journey, need periosteum stripping around osteotomy line on the inside of fibula, and place stripper etc. to protect Nurse's tool will cause fibular flap part blood supply forfeiture in this way；Second is that the process of periosteum stripping causes operating time significantly to prolong It is long.

Summary of the invention

It is above of the existing technology in order to solve the problems, such as, present invention seek to address that fibula segmentation osteotomy in osteotomy depth not The problem of easy to control, fibula medial periosteum removing causes blood supply to reduce, devise a kind of novel personalized 3D printing fibula section Bone conduction plate.

To achieve the goals above, the present invention the following technical schemes are provided:

A kind of 3D printing guide plate of the controllable osteotomy depth for fibular flap moulding operation, including guide plate ontology, it is described Guide plate ontology is equipped with multiple positioning regions, and each positioning region is made of one or more positioning plate, the outer end face of each positioning region It is equipped with the deep-controlled groove of fibula osteotomy and fibula osteotomy direction controlling through slot, the fibula osteotomy direction controlling through slot is along calf The trend of the deep-controlled groove of bone osteotomy is configured.

Further, the number of the positioning region matches with the number of segment that fibula is cut into.

Further, the guide plate ontology is arcuate structure, the curved surface phase of the inside and fibula outer surface of arc-shaped concave It coincide.

Further, the external surface shape of the deep-controlled groove of fibula osteotomy is consistent with fibula inner surface configuration, The bottom surface of the deep-controlled groove of fibula osteotomy is the length of the effective sword of saw blade at a distance from fibula inner surface.

Further, multiple nail hole being evenly distributed are evenly arranged on the guide plate ontology.

The utility model has the advantages that the present invention provides a kind of 3D printings of controllable osteotomy depth for fibular flap moulding operation to lead Plate, the guide plate are equipped with multiple positioning regions, and the outer end face of each positioning region is equipped with the deep-controlled groove of fibula osteotomy and fibula is cut Bone direction controlling through slot, so that the trend of osteotomy and the depth of osteotomy are effectively controlled, so that saw blade is guaranteeing that fibula is cut Without damaging vessel pedicle on the inside of fibula under the premise of opening.Therefore, guide plate of the present invention using when be not required to removing fibula on the inside of blood Guan Di, effective protection fibula blood supply, and operating time is substantially reduced, it improves medical staff and carries out fibular flap moulding operation Efficiency.

Detailed description of the invention

Fig. 1 is the positive structure schematic of 3D printing guide plate of the present invention.

Fig. 2 is the structure schematic diagram of 3D printing guide plate of the present invention.

Fig. 3 is the structural schematic diagram of positioning region on 3D printing guide plate described in Fig. 1.

In figure: 1, guide plate ontology；2, the deep-controlled groove of fibula osteotomy；3, fibula osteotomy direction controlling through slot；4, first Positioning region；5, the second positioning region；6, third positioning region；7, the 4th positioning region；8, nail hole.

Specific embodiment

The invention will now be further described with reference to specific embodiments, but examples are merely exemplary, not to this hair Bright range constitutes any restrictions.It will be understood by those skilled in the art that without departing from the spirit and scope of the invention Can with the details and forms of the technical scheme of the invention are modified or replaced, but these modification and replacement each fall within it is of the invention In protection scope.

A kind of 3D printing guide plate of the controllable osteotomy depth for fibular flap moulding operation, as shown in Figure 1, including guide plate Ontology 1, the guide plate ontology 1 are equipped with multiple positioning regions, and each positioning region is made of one or more positioning plate, each positioning The outer end face in portion is equipped with the deep-controlled groove 2 of fibula osteotomy and fibula osteotomy direction controlling through slot 3, fibula osteotomy direction Control through slot 3 is configured along the trend of the deep-controlled groove 2 of fibula osteotomy.

When the number of the positioning region is four, the positioning region includes the first positioning region 4, the second positioning region 5, third Positioning region 6 and the 4th positioning region 7, first positioning region 4 and the second positioning region 5 are that monolithic positioning plate and being separately positioned on is led The both ends of plate ontology 1, the third positioning region 6 and the 4th positioning region 7 are arranged in the first positioning region 4 and the second positioning region 5 Between, the third positioning region 6 is fixedly connected with and is formed X-shaped by two pieces of positioning plates, the 4th positioning region 7 by two pieces of positioning plates simultaneously Row is formed by connecting.

The guide plate ontology 1 is arcuate structure, and the inside of arc-shaped concave matches with the curved surface of fibula outer surface.It is described The external surface shape of the deep-controlled groove 2 of fibula osteotomy is consistent with fibula inner surface configuration, and the fibula osteotomy is deep-controlled The bottom surface of groove 2 is the length of the effective sword of saw blade at a distance from fibula inner surface.

Multiple nail hole 8 being evenly distributed are evenly arranged on the guide plate ontology 1.

Claims (5)

1. a kind of 3D printing guide plate of the controllable osteotomy depth for fibular flap moulding operation, which is characterized in that including guide plate Ontology, the guide plate ontology are equipped with multiple positioning regions, and each positioning region is made of one or more positioning plate, each positioning region Outer end face be equipped with the deep-controlled groove of fibula osteotomy and fibula osteotomy direction controlling through slot, the fibula osteotomy direction controlling Through slot is configured along the trend of the deep-controlled groove of fibula osteotomy.

2. a kind of 3D printing guide plate of controllable osteotomy depth for fibular flap moulding operation according to claim 1, It is characterized in that, the number of the positioning region matches with the number of segment that fibula is cut into.

3. a kind of 3D printing guide plate of controllable osteotomy depth for fibular flap moulding operation according to claim 1, It is characterized in that, the guide plate ontology is arcuate structure, the inside of arc-shaped concave matches with the curved surface of fibula outer surface.

4. a kind of 3D printing guide plate of controllable osteotomy depth for fibular flap moulding operation according to claim 1, It is characterized in that, the external surface shape of the deep-controlled groove of fibula osteotomy is consistent with fibula inner surface configuration, the calf The bottom surface of the deep-controlled groove of bone osteotomy is the length of the effective sword of saw blade at a distance from fibula inner surface.

5. a kind of 3D printing guide plate of controllable osteotomy depth for fibular flap moulding operation according to claim 1, It is characterized in that, being evenly arranged with multiple nail hole being evenly distributed on the guide plate ontology.