CN114176662A - Triple-zero-based ultra-fast thoracic implant and method of use thereof - Google Patents

Abstract

The invention provides a Triple-zero based very fast thoracic implant comprising: a prosthesis for implantation within a breast of a patient, the prosthesis having a plurality of expandable sets of fill cavities disposed therein for adjusting the size of the prosthesis; each group of injection mechanisms is respectively connected with each group of filling cavities, and the injection mechanisms inject filling liquid into the filling cavities so as to enlarge the whole prosthesis; the injection mechanism extracts the filling liquid from the filling cavity, so that the whole prosthesis becomes smaller; the invention has the beneficial effects that: first chamber, the second is filled and is filled the chamber and cooperate with injection mechanism respectively, when implanting the prosthesis, can conveniently carry out the prosthesis and adjust to suitable size, simultaneously because the prosthesis is slowly enlarged, can make skin tissue slowly adapt to tension, can the effectual phenomenon that reduces the capsule contracture.

Description

Triple-zero-based ultra-fast thoracic implant and method of use thereof

Technical Field

The invention relates to the technical field of medical instruments, in particular to a Triple-zero-based extremely-fast chest implant and a using method thereof.

Background

Breast augmentation requires the incision of a wound to insert a filler, which is of course hidden from the human findings, and the selection of the underarm, in the areola, or under the breast as the place of operation, and care is taken because breast augmentation is a short-term operation that enlarges the breast, which is thinner than normal skin under the stretch of the implant.

In the operation process of breast augmentation, an expansion capsule needs to be implanted into a body, then the expansion capsule expands, when the expansion capsule expands to a proper volume, the expansion capsule is removed and then a prosthesis is implanted, but the existing prosthesis is inconvenient to adjust the size, if the breast augmentation effect after the operation is not ideal, the prosthesis needs to be taken out and replaced by another proper set of prosthesis, capsular contracture is easily caused, the operation period is long, and discomfort of a patient is easily caused.

Disclosure of Invention

The present invention addresses the deficiencies of the prior art by providing Triple-zero based very fast thoracic implants and methods of use thereof.

The invention solves the technical problems through the following technical means:

triple-zero based very fast thoracic implants comprising:

a prosthesis for implantation within a breast of a patient, the prosthesis having a plurality of expandable sets of fill cavities disposed therein for adjusting the size of the prosthesis;

each group of injection mechanisms is respectively connected with each group of filling cavities, and the injection mechanisms inject filling liquid into the filling cavities so as to enlarge the whole prosthesis; the injection mechanism draws the filling fluid from the filling cavity, so that the prosthesis becomes smaller as a whole.

As an improvement of the above technical solution, the filling cavities are at least provided with two groups, which are a first filling cavity and a second filling cavity, respectively, the filling liquid in the first filling cavity is physiological saline, and the filling liquid in the second filling cavity is silicone gel.

As an improvement of the above technical solution, the prosthesis includes a first shell and a second shell, the second shell is disposed inside the first shell, a first filling cavity is disposed between the first shell and the second shell, and a second filling cavity is disposed inside the second shell.

As an improvement of the above technical solution, the injection mechanism includes an injection tube, the injection tube is communicated with the cavity of the filling cavity, a valve for stopping is arranged in the injection tube, a connection hose is arranged on the injection tube, and an injection seat for injecting or extracting the filling liquid is arranged on the connection hose.

As an improvement of the above technical solution, the first housing is provided with a first connecting portion, the second housing is provided with a second connecting portion, and the first connecting portion and the second connecting portion are fixedly connected.

Use method of a Triple-zero based very fast thoracic implant comprising the steps of:

s1: implant prosthesis

Sterilizing the surface of breast skin, cutting the sterilized area by using a scalpel, implanting the prosthesis into the lower layer of the skin, and exposing the connecting hose and the injection seat outside the skin;

s2: physiological saline for injection

Injecting saline into the first filling cavity through an injection mechanism on the first filling cavity, so that the first filling cavity expands and enlarges under the breast;

s3: observation of the implanted region

After the physiological saline is injected, observing whether the skin of the area implanted with the prosthesis has skin ischemia phenomenon or not, simultaneously inquiring whether the patient has discomfort or not, and when the skin ischemia phenomenon does not occur and the patient does not have discomfort, continuously injecting the physiological saline into the first filling cavity until the breast is adjusted to have proper breast enhancement effect;

s4: injection of silicone gel

When the first filling cavity is expanded to a proper size, pumping out the physiological saline in the first filling cavity, and simultaneously injecting the silica gel into the second filling cavity through an injection mechanism on the second filling cavity until the second filling cavity is filled to form the size of the expanded first filling cavity;

s5: removal injection mechanism

After the prosthesis is finally adjusted, the connecting hose is taken off from the injection seat, and finally the implantation work is finished.

As an improvement of the above technical solution, in step S3: in the step of observing the implanted region, after injecting the physiological saline, observing whether the skin of the implanted prosthesis region has a skin ischemia phenomenon, simultaneously inquiring whether the patient has discomfort, in the presence of the skin ischemia phenomenon and the patient having discomfort, extracting the physiological saline in the first filling cavity until reaching the expansion of the skin at the breast to adapt to the first filling cavity, and repeating the step S2 until the appropriate breast augmentation effect is adjusted when the skin adapts to the tension of the first filling cavity.

The invention has the beneficial effects that:

1. first chamber, the second is filled and is filled the chamber and cooperate with injection mechanism respectively, when implanting the prosthesis, can conveniently carry out the prosthesis and adjust to suitable size, simultaneously because the prosthesis is slowly enlarged, can make skin tissue slowly adapt to tension, can the effectual phenomenon that reduces the capsule contracture.

2. After finally accomplishing the planting, be used for the first chamber of filling of expansion directly to be detained at internal along with the second chamber of filling, reduce original twice planting operation to once planting operation, time that can effectual reduction operation also can prevent simultaneously that the patient from appearing uncomfortable.

3. After the prosthesis is finally implanted, the first shell is in contact with the second shell, the thickness of the second shell can be effectively improved, the service life of the prosthesis can be effectively prolonged, and the prosthesis can be effectively prevented from being damaged.

Drawings

Fig. 1 is a schematic flow chart of a method for using a Triple-zero-based very fast thoracic implant according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a Triple-zero-based very fast thoracic implant according to an embodiment of the present invention.

In the figure: 10. a prosthesis; 11. a first housing; 111. a first fill cavity; 112. a first connection portion; 12. a second housing; 121. a second fill cavity; 122. a second connecting portion; 20. an injection mechanism; 21. an injection tube; 22. a connecting hose; 23. an injection seat.

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 with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Examples

As shown in fig. 2, the Triple-zero-based very fast thoracic implant of the present embodiment includes:

a prosthesis 10, said prosthesis 10 being adapted to be implanted in a patient's breast, said prosthesis 10 having a plurality of expandable sets of filling cavities disposed therein for adjusting the size of the prosthesis 10;

the injection mechanisms 20 are respectively connected with the filling cavities, and the injection mechanisms 20 inject filling liquid into the filling cavities, so that the whole prosthesis 10 is enlarged; the injection mechanism 20 draws the filling fluid from the filling cavity so that the prosthesis 10 is smaller overall.

When carrying out the operation, implant patient's breast department with prosthesis 10 earlier, later pour into the filling chamber of prosthesis 20 through injection mechanism 20 with filling liquid, prosthesis 20 inflation grow under being full of filling liquid, the prosthesis 20 of inflation grow extrudees the implantation region, make implantation region form one and hold the chamber, prosthesis 20 after convenient the design deposits, and when injection mechanism 20 injected filling liquid, injection mechanism 20 adjusts how much to the filling liquid that injects, can effectually make prosthesis 20 expand to a suitable size, reach an optimal abundant breast effect, and because prosthesis 20 can carry out the regulation of size when implanting, do not need the later stage to change different prostheses 20, can effectually prevent the capsular contracture phenomenon.

As shown in fig. 2, at least two groups of filling cavities are provided, namely a first filling cavity 111 and a second filling cavity 121, the filling liquid in the first filling cavity 111 is physiological saline, and the filling liquid in the second filling cavity 121 is silicone gel.

When the size of the prosthesis 20 is adjusted, the first filling cavity 111 is enlarged in advance by injecting physiological saline, so that the implanted region is expanded to form a proper accommodating cavity, when a proper breast enlarging effect is achieved, the breast enlarging effect is determined according to the actual condition of a patient, when the breast reaches the proper breast enlarging effect, the silicone gel is injected into the second filling cavity 121, the physiological saline is extracted along with the silicone gel when the silicone gel is injected, so that the breast enlarging effect is prevented from being influenced, and the injection and extraction can be conveniently performed when the size of the prosthesis 20 is adjusted, the working time can be effectively shortened, the cost of the physiological saline is smaller than that of the silicone gel, and the waste phenomenon of the silicone gel can be effectively prevented when the size of the prosthesis is adjusted.

As shown in fig. 2, the prosthesis 10 includes a first shell 11 and a second shell 12, the second shell 12 is disposed inside the first shell 11, a first filling cavity 111 is disposed between the first shell 11 and the second shell 12, and a second filling cavity 121 is disposed inside the second shell 12.

After the physiological saline in the first filling cavity 111 is pumped out, the first shell 11 is attached to the second shell 12, the wall thickness of the second shell 12 is increased, the silicone gel leakage can be effectively prevented, and because the physiological saline is previously filled between the first shell 11 and the second shell 12, when the first shell 11 is attached to the second shell 12, the friction can be reduced, when the first shell 11 at the outside is rubbed with subcutaneous tissues, the friction reducing force can act on the second shell 12, and the service life of the second shell 12 can be effectively prolonged.

As shown in fig. 2, the injection mechanism 20 includes an injection tube 21, the injection tube 21 is communicated with the cavity of the filling cavity, a valve for stopping is disposed in the injection tube 21, a connection hose 22 is disposed on the injection tube 21, and an injection seat 23 for injecting or extracting filling liquid is disposed on the connection hose 22.

When filling liquid is injected, the filling liquid is sucked by an external injector and then is connected with the injection seat 23, the filling liquid can be effectively introduced into the filling cavity through the injector, and after the later regulation is finished, the prosthesis 20 can effectively form a closed space through the valve, so that the leakage of the filling liquid is prevented.

As shown in fig. 2, the first housing 11 is provided with a first connecting portion 112, the second housing 12 is provided with a second connecting portion 122, the first connecting portion 112 and the second connecting portion 122 are fixedly connected, and the contact between the first connecting portion 112 and the second connecting portion 122 can effectively increase the wall thickness, so that when the first connecting portion 112 contacts with the pectoralis major muscle, the service life of the prosthesis 20 can be effectively prolonged.

Use method of a Triple-zero based very fast thoracic implant comprising the steps of:

s1: implant prosthesis

Performing a sterilization treatment on the skin surface of the breast, cutting the sterilized area using a scalpel, implanting the prosthesis 10 in the lower layer of the skin, exposing the connection hose 22 and the injection seat 23 to the outside of the skin;

s2: physiological saline for injection

Injecting saline into the first filling chamber 111 through the injection mechanism 20 on the first filling chamber 111, so that the first filling chamber 111 expands under the breast;

s3: observation of the implanted region

After the physiological saline is injected, observing whether the skin of the prosthesis implantation area has skin ischemia phenomenon or not, simultaneously inquiring whether the patient has discomfort or not, and when the skin ischemia phenomenon does not occur and the patient does not have discomfort, continuously injecting the physiological saline into the first filling cavity 111 until the breast is adjusted to have proper breast enhancement effect;

s4: injection of silicone gel

When the first filling cavity 111 is expanded to a proper size, the physiological saline in the first filling cavity 111 is pumped out, and simultaneously the silicone gel is injected into the second filling cavity 121 through the injection mechanism 20 on the second filling cavity 121 until the second filling cavity 121 is filled to the size of the expanded first filling cavity 111;

s5: removal injection mechanism

After the prosthesis 10 has been finally adjusted, the connecting hose 22 is removed from the injection seat 23 to finally complete the implantation.

Through the matching of the first filling cavity 111 and the physiological saline, when the prosthesis 20 is implanted, the size of the prosthesis 20 can be conveniently adjusted, the adjustment of the operation is not needed again in the later period, the operation time can be effectively reduced, and the physiological saline is convenient to inject, so that the operation time can be reduced, and the risk is reduced; the second filling cavity 121 and the silicone gel are matched, so that the adjusted prosthesis 20 can be shaped, and a proper breast enhancement effect can be conveniently achieved; when the second filling cavity 121 is filled in the first filling cavity 111, the first shell 11 and the second shell 12 are contacted, so that the wall thickness can be increased, and the service life of the prosthesis 20 can be prolonged.

As shown in fig. 1, the step S3: in the step of observing the implanted region, after injecting the physiological saline, observing whether the skin of the implanted prosthesis region is in the skin ischemia state, simultaneously inquiring whether the patient has discomfort, in the presence of the skin ischemia state and in the patient' S discomfort, extracting the physiological saline in the first filling lumen 111 until reaching the expansion of the skin at the breast to adapt to the first filling lumen 111, and repeating S2 until the appropriate breast enhancement effect is adjusted when the skin adapts to the tension of the first filling lumen 111.

When the first filling cavity 111 expands and becomes large, the actual condition of the patient can be judged by observing whether the skin has the ischemia phenomenon or not, the risk of the operation can be effectively reduced when the operation is carried out, the occurrence of the patient at the breast of the patient caused by excessive expansion is prevented, and the operation safety can be effectively improved.

It is noted that, in this document, relational terms such as first and second, and the like, if any, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (7)

1. Based on Triple-zero extremely fast chest implant its characterized in that: the method comprises the following steps:

a prosthesis (10), wherein the prosthesis (10) is used for being implanted into the breast of a patient, and a plurality of groups of filling cavities which can be expanded are arranged in the prosthesis (10) and are used for adjusting the size of the prosthesis (10);

the injection mechanisms (20) are respectively connected with the filling cavities, and the injection mechanisms (20) inject filling liquid into the filling cavities, so that the prosthesis (10) is enlarged; the injection mechanism (20) draws the filling fluid from the filling chamber, so that the prosthesis (10) becomes smaller overall.

2. The Triple-zero based very fast thoracic implant of claim 1, wherein: the filling cavities are at least provided with two groups, namely a first filling cavity (111) and a second filling cavity (121), filling liquid in the first filling cavity (111) is physiological saline, and filling liquid in the second filling cavity (121) is silicone gel.

3. The Triple-zero based very fast thoracic implant of claim 2, wherein: the prosthesis (10) comprises a first shell (11) and a second shell (12), wherein the second shell (12) is arranged inside the first shell (11), a first filling cavity (111) is formed between the first shell (11) and the second shell (12), and a second filling cavity (121) is formed inside the second shell (12).

4. The Triple-zero based very fast thoracic implant of claim 1, wherein: the injection mechanism (20) comprises an injection tube (21), the injection tube (21) is communicated with the cavity of the filling cavity, a valve used for stopping is arranged in the injection tube (21), a connecting hose (22) is arranged on the injection tube (21), and an injection seat (23) used for injecting or extracting filling liquid is arranged on the connecting hose (22).

5. The Triple-zero based very fast thoracic implant of claim 3, wherein: the first shell (11) is provided with a first connecting portion (112), the second shell (12) is provided with a second connecting portion (122), and the first connecting portion (112) and the second connecting portion (122) are fixedly connected.

6. The method of using Triple-zero based extreme chest implant according to any of claims 1-5 wherein: the method comprises the following steps:

s1: implant prosthesis

Sterilizing the surface of breast skin, cutting the sterilized area with a scalpel, implanting the prosthesis (10) into the underlying layer of skin, and exposing the connection hose (22) and the injection seat (23) to the outside of the skin;

s2: physiological saline for injection

Injecting saline into the first filling cavity (111) by an injection mechanism (20) on the first filling cavity (111) so that the first filling cavity (111) expands under the breast;

s3: observation of the implanted region

After the physiological saline is injected, observing whether the skin of the area implanted with the prosthesis has skin ischemia phenomenon or not, simultaneously inquiring whether the patient has discomfort or not, and when the skin ischemia phenomenon does not occur and the patient does not have discomfort, continuously injecting the physiological saline into the first filling cavity (111) until the breast is adjusted to have proper breast enhancement effect;

s4: injection of silicone gel

When the first filling cavity (111) is expanded to a proper size, the normal saline in the first filling cavity (111) is pumped out, and simultaneously the silicone gel is injected into the second filling cavity (121) through the injection mechanism (20) on the second filling cavity (121) until the second filling cavity (121) is filled to the size of the expanded first filling cavity (111);

s5: removal injection mechanism

After the prosthesis (10) is finally adjusted, the connecting hose (22) is removed from the injection seat (23) to finally complete the implantation.

7. The method of using a Triple-zero based very fast thoracic implant of claim 6, wherein: the step S3: in the step of observing the implanted region, after injecting the physiological saline, observing whether the skin ischemia phenomenon occurs on the skin of the implanted prosthesis region, simultaneously inquiring whether the patient has discomfort, in the presence of the skin ischemia phenomenon and the patient having discomfort, extracting the physiological saline in the first filling cavity (111) until reaching the expansion of the skin at the breast to adapt to the first filling cavity (111), and repeating S2 until the appropriate breast augmentation effect is adjusted when the skin adapts to the tension of the first filling cavity (111).

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