CN115365028A - PRP injection device - Google Patents

Abstract

The invention provides a PRP injection device, which comprises a PRP injector, a thrombin injector, a handle piece, a propelling component, a spraying piece and a three-way piece, wherein the PRP injector is arranged on the front end of the PRP injector; the PRP injector is used for containing PRP, and the thrombin injector is used for containing thrombin; the handle member is fixed with any one of the PRP syringe and the thrombin syringe; the propelling component is arranged at the rear end of the core bar of the PRP injector and the rear end of the core bar of the thrombin injector, and the three-way piece is respectively communicated with the PRP injector, the thrombin injector and the injection piece; the spray member is used to mix the PRP and thrombin and apply the mixed components to a target site. The PRP injection device is quickly assembled in real time, the structure is simple, the cost is low, the injection can be pushed without an external pressure device, the operation is simple and effective, the practicability is strong, and the prepared PRP can be prevented from being polluted.

Description

PRP injection device

Technical Field

The invention relates to the technical field of medical instruments, in particular to a PRP injection device.

Background

PRP (platelet rich plasma) is a plasma component obtained by centrifuging and extracting autologous blood and containing a large amount of platelets, which are significantly higher than the level of platelets in normal human plasma. Platelets are very small blood cells less than 2 μm in diameter, usually invisible to the naked eye, and at least one hundred thousand to fifteen thousand platelets per 1 μ l of normal human blood. The PRP can be classified into various types according to the content of leukocytes and fibrin, such as leukocyte-depleted PRP, leukocyte-enriched PRP, fibrin-depleted PRP, and platelet-enriched fibrin PRP. The Growth Factors (GFs) in PRP are very abundant and are mainly produced by the α -granules released from platelets after activation, such as vascular endothelial growth factor, platelet-derived growth factor, transforming growth factor- β 3, etc., which have beneficial effects on wound healing and tissue repair. In addition, the growth factors contained in PRP, such as insulin-like growth factor (IGF), transforming growth factor beta and fibroblast growth factor, can promote the expression of Col-II and protease in mesenchymal stem cells, promote the proliferation of chondrocytes, regulate the differentiation capacity of mesenchymal stem cells and the synthesis of extracellular matrix, and further participate in the repair of tissue injury, articular cartilage defect, bone defect and wound healing.

Chinese patent publication No. CN112058174B discloses a Platelet Rich Plasma (PRP) spray gun device, comprising: a reservoir accommodating chamber in which a platelet-rich plasma reservoir and a thrombin reservoir are disposed; the metering pump set comprises a platelet-rich plasma metering pump and a thrombin metering pump, wherein an inlet of the platelet-rich plasma metering pump is connected with the platelet-rich plasma storage device, and an inlet of the thrombin metering pump is connected with the thrombin storage device; a storage blender, comprising: the temporary storage device comprises two stirrer inlets which are respectively connected with an outlet of the platelet-rich plasma metering pump and an outlet of the thrombin metering pump, and a stirring component is arranged in the temporary storage device; an inlet of the self-sucking pump is connected with the temporary storage device, and an outlet of the self-sucking pump is an outlet of the stirrer; and one end of the connecting pipe is connected with the outlet of the stirrer, and the other end of the connecting pipe is connected with the spray gun. The device mixes platelet-rich plasma and thrombin by pump pressure and ejects the mixed liquid. The structure can uniformly mix PRP and thrombin according to a specific proportion, but the structure is complex, the cost is higher, an external pressure device is required, and the practicability is lower.

Chinese patent with publication number CN111992351A discloses a two-in-one spray gun, which comprises a gun body, a trigger and a conveying pipe connected with the rear part of the gun body, wherein the front part of the gun body is detachably connected with a nozzle mechanism, and a locking mechanism for locking the nozzle mechanism and the gun body is arranged between the nozzle mechanism and the gun body for facilitating the replacement of the nozzle mechanism. The nozzle mechanism comprises a cylindrical and hollow shell, a connecting cover is arranged at one end, close to the gun body, of the shell, and a conical funnel-shaped nozzle is arranged at one end, far away from the gun body, of the shell. The hollow shell is used for mixing components to be mixed, but the spray gun is not used in the field of medical treatment, and the spray gun has a closed cavity structure and complex structural matching, so that the spray gun is not beneficial to aseptic guarantee and aseptic operation.

Therefore, there is a need to provide a new type of PRP injection device to solve the above-mentioned problems in the prior art.

Disclosure of Invention

The invention aims to provide a PRP injection device, which solves the problems that the PRP injection device in the prior art has a complex structure, higher cost, needs an external pressure device, has lower practicability and is not beneficial to aseptic guarantee and aseptic operation.

In order to achieve the above purpose, the PRP injection device of the invention comprises a PRP injector, a thrombin injector, a handle piece, a propelling assembly, a spraying piece and a tee piece;

the PRP syringe is used for containing PRP, and the thrombin syringe is used for containing thrombin;

the handle piece is fixed with any one of the PRP injector and the thrombin injector;

the pushing assembly is arranged at the rear end of the core bar of the PRP syringe and the rear end of the core bar of the thrombin syringe and is used for synchronously pushing the core bar of the PRP syringe and the core bar of the thrombin syringe so as to enable the core bar of the PRP syringe and the core bar of the thrombin syringe to move towards the head of the PRP syringe and the head of the thrombin syringe respectively;

the three-way piece is communicated with the PRP injector, the thrombin injector and the ejector respectively, so that the PRP and the thrombin are mixed in the ejector after flowing into the ejector through the three-way piece;

the spray member is used to mix the PRP and thrombin and apply the mixed components to a target site.

The PRP injection device of the present invention has the following beneficial effects: the PRP injection device comprises a PRP injector, a thrombin injector, a handle piece, a propulsion assembly, an injection piece and a three-way piece, wherein the handle piece is fixed with any one of the PRP injector and the thrombin injector, the propulsion assembly is arranged at the rear end of a core rod of the PRP injector and the rear end of a core rod of the thrombin injector, and the three-way piece is respectively communicated with the PRP injector, the thrombin injector and the injection piece; the push assembly can connect the rear ends of the core rods of the syringes filled with the PRP and the thrombin, can fix the syringes, and synchronously push the core rods of the PRP syringes and the thrombin syringes, thereby ensuring the stability of the push process, keeping the mixing volume ratio of the PRP and the thrombin constant, being beneficial to the realization of the manufacture of gel-like PRP and being beneficial to the aseptic guarantee and aseptic operation.

Optionally, the pushing assembly includes a first pushing part and a second pushing part, the first pushing part and the second pushing part are fixedly connected, the first pushing part is disposed at the rear end of the core rod of the PRP syringe, and the second pushing part is disposed at the rear end of the core rod of the thrombin syringe. The beneficial effects are that: the core rod of the PRP injector and the core rod of the thrombin injector can be synchronously pushed by the pushing component, so that the mixing volume ratio of PRP and thrombin can be kept constant, and the gel-like PRP can be manufactured.

Optionally, the first pushing part is provided with a first mounting groove adapted to the core rod of the PRP syringe, and the second pushing part is provided with a second mounting groove adapted to the core rod of the thrombin syringe. The beneficial effects are that: the PRP injector and the thrombin injector are respectively and rapidly assembled and disassembled in the first propelling part and the second propelling part conveniently.

Optionally, the handle member includes a holding portion and a groove portion, the groove portion is disposed at an end of the holding portion, the groove portion is in an arc structure to be matched with an outer wall of any one of the PRP syringe and the thrombin syringe, and the groove portion is detachably connected with any one of the PRP syringe and the thrombin syringe. The beneficial effects are that: the PRP injection device is convenient for a user to hold the hand-holding part to use, and more accords with human ergonomics, the handle piece is matched with the injector in a clamping way through the groove part, so that the operation is simpler and more convenient, and the PRP injection device can be disassembled and is convenient to recycle.

Optionally, the ratio of the inner diameter of the PRP syringe to the inner diameter of the thrombin syringe is equal to the ratio of PRP to thrombin when preparing gel-like PRP. The beneficial effects are that: the internal tube diameters of both syringes are fixed so that the liquids in the PRP syringe and the thrombin syringe advance the same distance when the advancing assembly is pushed, thereby ensuring that the same ratio of PRP and thrombin can be injected to produce a good gel-like PRP, i.e. so that the volume ratio of the mixed components remains fixed.

Optionally, the three-way member includes a first flow passage portion, a second flow passage portion, and a third flow passage portion, the first flow passage portion communicates with the head of the PRP injector, the second flow passage portion communicates with the head of the thrombin injector, and the third flow passage portion communicates with the injection member. The beneficial effects are that: after the PRP in the PRP injector and the thrombin in the thrombin injector pass through the three-way piece, the PRP and the thrombin in the thrombin injector can smoothly enter the spraying piece to be mixed and sprayed to a target part or coated to the target part.

Optionally, the head of the PRP syringe and the head of the thrombin syringe are both provided with male luer connectors, and the end of the first flow channel part and the end of the second flow channel part are both provided with female luer connectors matched with the male luer connectors. The beneficial effects are that: luer seals are formed between the first flow channel part and the PRP syringe and between the second flow channel part and the thrombin syringe, so that the sealing effect is good, and the connection is more convenient.

Optionally, the spray member comprises any one of a spray head and a conical nozzle. The beneficial effects are that: the spray head or the conical nozzle can be selected to be matched according to different spraying forms, namely, the coating mode of the mixed liquid can be freely switched.

Optionally, the spray head includes a liquid inlet chamber portion and a nozzle portion, one end of the liquid inlet chamber portion is communicated with the three-way component, the liquid inlet chamber portion is provided with a through hole communicated with the nozzle portion, and the nozzle portion is provided with a spiral step structure. The beneficial effects are that: the mixed components are pressurized and rotated through the spiral step structure, so that the mixed components are sprayed out of the spray head in a spray shape.

Optionally, the inner wall of the groove portion is provided with a plurality of reinforcing ribs, and the direction of the reinforcing ribs is consistent with the length direction of the PRP syringe or the thrombin syringe. The beneficial effects are that: the clamping fit is realized, so that the groove part is more firmly fixed with any one of the PRP injector and the thrombin injector, and the clamping position can be adjusted along the length direction of the PRP injector or the thrombin injector.

Optionally, the ratio of the inner tube diameter of the PRP syringe to the inner tube diameter of the thrombin syringe is 9.

Drawings

Fig. 1 is a schematic structural view of a PRP injection device according to an embodiment of the invention;

FIG. 2 is a front view of the advancing assembly in the PRP injection device shown in FIG. 1;

FIG. 3 is a side view of the advancing assembly in the PRP injection device shown in FIG. 1;

FIG. 4 is a front view of the handle member of the PRP injection device shown in FIG. 1;

FIG. 5 is a side view of the handle member of the PRP injection device shown in FIG. 1;

FIG. 6 is a schematic view of the tee in the PRP injection device of FIG. 1;

FIG. 7 is a first perspective view of the spray head of the PRP injection device of FIG. 1;

fig. 8 is a second perspective view of the spray head of the PRP injection device of fig. 1;

fig. 9 is a structural sectional view of a spray head in the PRP injection device shown in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. As used herein, the word "comprising" and similar words are intended to mean that the element or item preceding the word comprises the element or item listed after the word and its equivalent, but not the exclusion of other elements or items.

In order to solve the problems in the prior art, the embodiments of the present invention provide a solution to the problems in the prior art that a PRP injection device has a complex structure, a high cost, a need for an external pressure device, a low practicability, and an adverse effect on sterility assurance and sterility operation.

Fig. 1 is a schematic structural view of a PRP injection device according to an embodiment of the present invention.

In some embodiments of the present invention, referring to fig. 1, the PRP injection device comprises a PRP syringe 1, a thrombin syringe 2, a handle member 3, a propulsion assembly 4, a tee member 5, and a jet member 6. The PRP syringe 1 is used for containing PRP, and the thrombin syringe 2 is used for containing thrombin. The handle member 3 is fixed to either one of the PRP syringe 1 and the thrombin syringe 2. The pushing assembly 4 is disposed at the rear end of the core rod of the PRP syringe 1 and the rear end of the core rod of the thrombin syringe 2, and the pushing assembly 4 is configured to push the core rod of the PRP syringe 1 and the core rod of the thrombin syringe 2 synchronously, so that the core rods of the PRP syringe 1 and the thrombin syringe 2 move towards the head of the PRP syringe 1 and the head of the thrombin syringe 3, respectively. The three-way member 5 is respectively communicated with the PRP injector 1, the thrombin injector 2 and the injection member 6, so that the PRP and the thrombin are mixed in the injection member 6 after flowing into the injection member 6 through the three-way member 5. The spray member 6 is used to mix the PRP and thrombin and apply the mixed components to a target site.

Specifically, the PRP injection device comprises a PRP injector, a thrombin injector, a handle piece, a propulsion assembly, a jet piece and a three-way piece, wherein the handle piece is fixed with any one of the PRP injector and the thrombin injector, the propulsion assembly is arranged at the rear end of a core rod of the PRP injector and the rear end of a core rod of the thrombin injector, and the three-way piece is respectively communicated with the PRP injector, the thrombin injector and the jet piece, namely the PRP injection device with an injection gun structure can be assembled by assembling the injectors, the handles and other devices in an assembling way, so that the PRP injection device can be rapidly assembled in real time, the structure is simple, the cost is low, the injection can be pushed without an external pressure device, the operation is simple and effective, the practicability is strong, and the prepared PRP can be prevented from being polluted; the push assembly can connect the rear ends of the core rods of the syringes filled with the PRP and the thrombin, can fix the syringes, and synchronously push the core rods of the PRP syringes and the thrombin syringes, thereby ensuring the stability of the push process, keeping the mixing volume ratio of the PRP and the thrombin constant, being beneficial to the realization of the manufacture of gel-like PRP and being beneficial to the aseptic guarantee and aseptic operation.

FIG. 2 is a front view of the advancing assembly in the PRP injection device shown in FIG. 1; fig. 3 is a side view of the advancing assembly in the PRP injection device shown in fig. 1.

In some embodiments of the present invention, referring to fig. 1 to 3, the pushing assembly 4 includes a first pushing component 41 and a second pushing component 42, the first pushing component 41 and the second pushing component 42 are fixedly connected, the first pushing component 41 is disposed at the rear end of the core rod of the PRP syringe 1, and the second pushing component 42 is disposed at the rear end of the core rod of the thrombin syringe 2. The core rod of the PRP injector 1 and the core rod of the thrombin injector 2 can be synchronously pushed by the pushing component 4, so that the mixing volume ratio of PRP and thrombin can be kept constant, and the gel-like PRP can be manufactured.

In some embodiments of the present invention, referring to fig. 1 to 3, the first pushing part 41 is provided with a first mounting groove 411 adapted to the core rod of the PRP syringe 1, and the second pushing part 42 is provided with a second mounting groove 421 adapted to the core rod of the thrombin syringe 2. The PRP injector 1 and the thrombin injector 2 are respectively and rapidly assembled and disassembled in the first propelling part 41 and the second propelling part 42.

In some embodiments of the present invention, referring to fig. 1 to 3, the first mounting groove 411 is a first semicircular groove that is matched with a circular push plate at the rear end of the core rod of the PRP syringe 1, and the diameter and width of the first semicircular groove are slightly larger than those of the circular push plate at the rear end of the core rod of the PRP syringe 1, so as to ensure the assembling, disassembling, and clamping matching. The second mounting groove 421 is a second semicircular groove matched with the circular push plate at the rear end of the core rod of the thrombin injector 2, and the diameter and width of the second semicircular groove are slightly larger than those of the circular push plate at the rear end of the core rod of the thrombin injector 2, so as to ensure the assembly, disassembly and clamping matching.

FIG. 4 is a front view of the handle member of the PRP injection device of FIG. 1; fig. 5 is a side view of the handle member of the PRP injection device of fig. 1.

In some embodiments of the present invention, referring to fig. 1, 4 and 5, the handle member 3 includes a holding portion 31 and a groove portion 32, the groove portion 32 is disposed at an end of the holding portion 31, the groove portion 32 has an arc-shaped structure to fit an outer wall of any one of the PRP syringe 1 and the thrombin syringe 2, and the groove portion 32 is detachably connected to any one of the PRP syringe 1 and the thrombin syringe 2. The PRP injection device is convenient for a user to hold the hand-holding part 31 to use, and is more in line with human ergonomics, the handle piece 3 is tightly matched with the injector through the groove part 32, the operation is simpler and more convenient, and the device can be detached and is convenient to recycle.

In some embodiments of the present invention, referring to fig. 1, 4 and 5, the inner wall of the groove portion 32 is provided with a plurality of ribs 321, and the direction of the ribs 321 is the same as the length direction of the PRP syringe 1 or the thrombin syringe 2. A clamping fit is achieved so that the groove portion 32 is more firmly fixed to any one of the PRP syringe 1 and the thrombin syringe 2, and a clamping position can be adjusted in a length direction of the PRP syringe 1 or the thrombin syringe 2.

In some embodiments of the present invention, referring to fig. 1, the ratio of the inner diameter of the PRP syringe 1 to the inner diameter of the thrombin syringe 2 is equal to the ratio of PRP to thrombin when preparing a gel-like PRP. The internal tube diameters of both syringes are fixed so that the liquids in the PRP syringe 1 and the thrombin syringe 2 advance the same distance when the advancing assembly 4 is pushed, thereby ensuring that the same ratio of PRP and thrombin can be injected to produce a good gel-like PRP, i.e. so that the volume ratio of the mixed components remains fixed.

In some embodiments of the invention, the ratio of the internal tube diameter of the PRP syringe to the internal tube diameter of the thrombin syringe is 9. That is, the ratio of PRP to thrombin in the preparation of gel-like PRP is 9 or 8.

In some possible embodiments of the invention, the ratio of the internal tube diameter of the PRP syringe to the internal tube diameter of the thrombin syringe is 9.

In other possible embodiments of the present invention, the ratio of the inner tube diameter of the PRP syringe to the inner tube diameter of the thrombin syringe is 8.

Fig. 6 is a schematic structural view of a tee in the PRP injection device shown in fig. 1.

In some embodiments of the present invention, referring to fig. 1 and 6, the three-way member 5 includes a first flow channel portion 51, a second flow channel portion 52 and a third flow channel portion 53, the first flow channel portion 51 is communicated with the head of the PRP injector 1, the second flow channel portion 52 is communicated with the head of the thrombin injector 2, and the third flow channel portion 53 is communicated with the injection member 6. After the PRP in the PRP injector 1 and the thrombin in the thrombin injector 2 pass through the three-way member 5, the two components can smoothly enter the spraying member 6 to be mixed, and are sprayed to a target part or coated on the target part.

In some embodiments of the present invention, referring to fig. 1 and 6, the head of the PRP syringe 1 and the head of the thrombin syringe 2 are both provided with male luer connectors (not shown), and the end of the first flow channel 51 and the end of the second flow channel 52 are both provided with female luer connectors 54 adapted to the male luer connectors (not shown). Luer seals are formed between the first flow channel part 51 and the PRP syringe 1 and between the second flow channel part 52 and the thrombin syringe 2, so that the sealing effect is good, and the connection is more convenient.

In some embodiments of the present invention, referring to fig. 1, spray member 6 includes any one of a spray head 61 and a conical nozzle 62. The spray head 61 or the conical nozzle 62 can be selected and matched according to different spraying forms, namely, the coating mode of the mixed liquid can be freely switched.

The structure of the conical nozzle 62 is conventional in the art, and will not be described herein.

Fig. 7 is a first perspective view of the spray head of the PRP injection device of fig. 1; fig. 8 is a second perspective view of the spray head of the PRP injection device of fig. 1; fig. 9 is a structural sectional view of a spray head in the PRP injection device shown in fig. 1.

In some embodiments of the present invention, referring to fig. 1 and 7 to 9, the spray head 61 comprises a liquid inlet chamber portion 611 and a nozzle portion 612, one end of the liquid inlet chamber portion 611 is communicated with the three-way member 5, the liquid inlet chamber portion 611 is provided with a through hole 613 communicated with the nozzle portion 612, and the nozzle portion 612 is provided with a spiral step structure 614. The mixed components are forced to rotate through the helical step structure 614 so that the mixed components are ejected from the spray head in a spray.

Although the embodiments of the present invention have been described in detail hereinabove, it is apparent to those skilled in the art that various modifications and variations can be made to the embodiments. However, it is to be understood that such modifications and variations fall within the scope and spirit of the present invention as set forth in the following claims. Moreover, the invention as described herein is capable of other embodiments and of being practiced or of being carried out in various ways.

Claims (11)

1. A PRP injection device comprising a PRP injector, a thrombin injector, a handle member, a pusher assembly, a jet member, and a tee member;

the PRP injector is used for containing PRP, and the thrombin injector is used for containing thrombin;

the handle piece is fixed with any one of the PRP injector and the thrombin injector;

the pushing assembly is arranged at the rear end of the core bar of the PRP syringe and the rear end of the core bar of the thrombin syringe and is used for synchronously pushing the core bar of the PRP syringe and the core bar of the thrombin syringe so as to enable the core bar of the PRP syringe and the core bar of the thrombin syringe to move towards the head of the PRP syringe and the head of the thrombin syringe respectively;

the three-way piece is communicated with the PRP injector, the thrombin injector and the jet piece respectively, so that the PRP and the thrombin are mixed in the jet piece after flowing into the jet piece through the three-way piece;

the spray member is used to mix the PRP and the thrombin and apply the mixed components to a target site.

2. The PRP injection device of claim 1, wherein the advancement assembly comprises a first advancement portion and a second advancement portion, the first advancement portion and the second advancement portion being fixedly connected, the first advancement portion being disposed at a rear end of a core rod of the PRP syringe, the second advancement portion being disposed at a rear end of a core rod of the thrombin syringe.

3. The PRP injection device of claim 2, wherein the first propulsion portion is provided with a first mounting groove adapted to the core rod of the PRP syringe, and the second propulsion portion is provided with a second mounting groove adapted to the core rod of the thrombin syringe.

4. The PRP injection device of claim 1, wherein the handle member includes a hand-held portion and a recessed portion disposed at an end of the hand-held portion, the recessed portion having an arcuate configuration to conform to an outer wall of either the PRP syringe or the thrombin syringe, and the recessed portion being removably coupled to either the PRP syringe or the thrombin syringe.

5. The PRP injection device according to claim 1, wherein the ratio of the inner tube diameter of the PRP syringe to the inner tube diameter of the thrombin syringe is equal to the ratio of PRP to thrombin when preparing a gel-like PRP.

6. The PRP injection device of claim 1, wherein the tee comprises a first flow channel portion in communication with a head of the PRP injector, a second flow channel portion in communication with a head of the thrombin injector, and a third flow channel portion in communication with the injector.

7. The PRP injection device according to claim 6, wherein the head of the PRP syringe and the head of the thrombin syringe are each provided with a male luer, and the end of the first flow channel portion and the end of the second flow channel portion are each provided with a female luer fitting that is adapted to the male luer fitting.

8. The PRP injection device of claim 1, wherein the spray member includes any one of a spray head and a conical nozzle.

9. The PRP injection apparatus according to claim 8, wherein the spray head includes a liquid inlet chamber portion and a nozzle portion, one end of the liquid inlet chamber portion communicating with the three-way member, the liquid inlet chamber portion being provided with a through hole communicating with the nozzle portion, the nozzle portion being provided with a spiral step structure.

10. The PRP injection apparatus according to claim 4, wherein the inner wall of the groove portion is provided with a plurality of ribs, and the direction of the ribs coincides with the length direction of the PRP syringe or the thrombin syringe.

11. The PRP injection device according to claim 1, wherein a ratio of an inner tube diameter of the PRP syringe to an inner tube diameter of the thrombin syringe is 9.

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