CN116115309B - Be applicable to control skin muscle tension development line under CT guide - Google Patents

Abstract

The invention discloses a developing line suitable for controlling skin and muscle tension under CT guidance, which comprises a developing line body formed by a developing line and transparent adhesive tapes, wherein a plurality of developing lines are arranged side by side, the adhesive surfaces of the transparent adhesive tapes are adhered and fixed on the same side surfaces of the developing lines, at least two opposite sides of the developing line body are provided with self-adhesive elastic intramuscular effect adhesive cloths which are used for stretching and fixing skin and muscle at a relaxation part in the same direction or in opposite directions, the ends of the self-adhesive elastic intramuscular effect adhesive cloths, close to the developing line body, are radially bifurcated to form a plurality of traction belts which can be pulled in the same direction, and the ends of the self-adhesive elastic intramuscular effect adhesive cloths, far away from the developing line body, are fixed ends fixed on a CT bed. The invention can reduce the occurrence of errors in the developing line mark and improve the success rate of acquiring the target tissue by biopsy.

Description

Be applicable to control skin muscle tension development line under CT guide

Technical Field

The invention relates to the technical field of medical appliances, in particular to a device suitable for controlling skin and muscle tension development lines under CT guidance.

Background

Currently, clinicians and patients in hospitals have more options to examine using CT scans, and the number of people who confirm lung disease has also grown rapidly. Through low dose chest CT scanning and artificial intelligence screening, an increasing number of pulmonary nodules have also been found, which not only places a serious psychological burden on the patient, but may even have a serious impact on his life safety. Thus, for pulmonary nodule patients, a needle biopsy is performed as early as possible to make a decisive contribution to clinical diagnosis.

The lung nodule puncture biopsy operation under CT guidance belongs to a minimally invasive diagnosis method with higher application rate, CT images have higher resolution, and the method has wider application in treating lung diseases and certain timeliness. After the sample is obtained through CT guided lung nodule puncture biopsy, evaluation and pathological examination are carried out, and a certain reference basis is provided for diagnosis and treatment of clinical diseases. However, because the operation is invasive and complications are easy to occur, the positioning accuracy and the safety of the puncture needle into organs or tissues in the CT-guided lung nodule puncture biopsy are required to be high. A doctor can select different puncture positions according to the pathological change positions of a patient, and the patient has influence on puncture precision due to factors such as skin and muscle relaxation and the like caused by different ages.

In order to improve the puncture accuracy and reduce complications, the body surface fixing mode, the patient positioning mode and the accurate positioning and fixing of the puncture needle in the puncture operation are required to be repeated and accurate, and the fixing mode is required to be stable and effective, so that the puncture operation risk and difficulty can be reduced, the operation time can be shortened, the puncture success rate and the pathology positive rate can be improved, and the occurrence rate of complications can be reduced.

Chinese patent CN202121216153.1 discloses a CT-guided puncture body surface developing line, which comprises a plurality of developing lines, wherein the plurality of developing lines are closely arranged side by side in a manner of adhering adjacent developing lines, and a tape-shaped adhesive tape for fixing the plurality of developing lines closely arranged side by side is arranged at least at two ends of the length direction of the developing lines.

By adopting the CT to guide the puncture body surface development line, the positioning accuracy of the development line is effectively improved, and the pathology examination accuracy is further improved. However, for patients with more relaxed skin muscles, such CT guided penetration body surface development lines cannot be used to stretch and immobilize the skin muscles. If the loose part of the patient is not pulled and fixed, errors can occur when the developing line is used for marking, and the success rate of obtaining target tissues by biopsy is easily reduced.

Therefore, it is desirable to design a control of skin muscle tone development line suitable for CT guidance to ameliorate the aforementioned drawbacks.

Disclosure of Invention

The invention aims to provide a method suitable for controlling skin and muscle tension development lines under CT guidance, which can reduce errors of development line marks and improve the success rate of obtaining target tissues by biopsy.

In order to achieve the above-mentioned object, the present invention provides a developing line for controlling skin and muscle tension under CT guidance, comprising a developing line body composed of a developing line and transparent adhesive tapes, wherein the developing line is provided with a plurality of developing lines and arranged side by side, the adhesive surfaces of the transparent adhesive tapes are adhered and fixed on the same side surfaces of the plurality of developing lines, at least two opposite sides of the developing line body are provided with self-adhesive elastic intramuscular effect adhesive cloths for stretching and fixing skin and muscle at a loose part in the same direction or opposite directions, the ends of the self-adhesive elastic intramuscular effect adhesive tapes, which are close to the developing line body, are radially bifurcated to form a plurality of traction belts capable of being pulled in the same direction, and the ends of the self-adhesive elastic intramuscular effect adhesive tapes, which are far from the developing line body, are fixed ends fixed on a CT bed.

Preferably, the traction belts are at least three, and each two adjacent traction belts form an acute included angle with variable angle.

In the embodiment, skin muscles at different positions of the relaxation part are conveniently pulled to the same direction through at least three pulling belts, so that the pulling effect is improved, errors of the developing line marks are further reduced, and the success rate of acquiring target tissues by biopsy is further improved; the setting of acute angle contained angle can promote the traction area itself and with the compliance of skin to promote the effect of pulling and guarantee the fastness of pasting on skin.

Preferably, the at least three traction belts are formed by shearing self-adhesive elastic intramuscular effect adhesive cloth, and ventilation holes are formed in each traction belt at intervals along the length direction of the traction belt.

In the embodiment, the traction belt is formed by shearing the self-adhesive elastic intramuscular effect patch, so that the manufacture is simple and convenient; the air holes are formed in the traction belt, so that the air holes are convenient for the adhered skin to breathe and the damage caused by adhering the adhesive cloth to the skin is reduced.

Preferably, the sum of the widths of the drawn tapes of each self-adhesive elastic intramuscular effect patch is equal to the width of any other positions of the self-adhesive elastic intramuscular effect patch.

In the above embodiment, the sum of the widths of the drawn tapes is equal to the widths of the rest arbitrary positions of the self-adhesive elastic intramuscular effect patch, that is, the self-adhesive elastic intramuscular effect patch with the same width at the arbitrary positions is cut to form the drawn tapes, so that the cutting is more convenient and rapid.

Preferably, the ends of the plurality of traction belts are traction ends of self-adhesive elastic intramuscular effect stickers, two opposite long side sides of the developing line body are respectively provided with two self-adhesive elastic intramuscular effect stickers, fixed ends of the two self-adhesive elastic intramuscular effect stickers on each long side of the developing line body are mutually far away, traction ends of the two self-adhesive elastic intramuscular effect stickers are mutually close to each other, and an included angle between two traction belts closest to the two self-adhesive elastic intramuscular effect stickers and an included angle between two traction belts farthest from the two self-adhesive elastic intramuscular effect stickers are acute angles, and the number of traction belts of the two self-adhesive elastic intramuscular effect stickers is the same or different.

In the embodiment, four self-adhesive elastic intramuscular effect patches are adopted to pull skin muscles at the relaxation part from four directions, and each self-adhesive elastic intramuscular effect patch pulls the skin muscles at different positions to the same direction through a plurality of pulling belts, so that the pulling effect of pulling the skin muscles at the relaxation part can be effectively improved, the occurrence error of a developing line mark is further reduced, and the success rate of obtaining target tissues by biopsy is further improved; the setting of acute angle contained angle can promote self-adhesive elastic intramuscular effect paste cloth itself and with the compliance of skin to promote the effect of pulling and guarantee the fastness of pasting on skin.

Preferably, the adhesive surface of the transparent adhesive tape completely covers the plurality of developing lines, the periphery of four sides of the transparent adhesive tape is provided with fixed band-shaped adhesive tapes which are not contacted with the transparent adhesive tape, every two adjacent fixed band-shaped adhesive tapes are mutually adhered and fixed at the corner positions of the transparent adhesive tape, each pulling belt of the two self-adhesive elastic intramuscular effect adhesive tapes on each long side of the developing line body is adhered and fixed on the lower surface of the fixed band-shaped adhesive tape on the corresponding long side of the transparent adhesive tape, the four fixed band-shaped adhesive tapes enclose a rectangular opening, and the transparent adhesive tape and the developing line are positioned in the rectangular opening.

In the embodiment, the fixed banded adhesive tape is adopted, so that the self-adhesive elastic intramuscular effect patch is conveniently and assisted to be balanced and fixed; the four fixed banded rubberized fabrics are not contacted with the transparent adhesive tape, and the transparent adhesive tape can completely cover a plurality of development lines, so that the transparent adhesive tape and the development lines can be conveniently torn off together; the mode that four fixed banded rubberized fabrics enclose into a rectangle mouth, after CT scanning is accomplished and tear transparent adhesive tape and developing line, conveniently expose rectangle mouth inside region puncture position and disinfect to the skin in this rectangle mouth.

Preferably, the fixed end is a magic tape surface end adhered and fixed on the bottom surface of the CT bed.

In the above embodiment, the fixing end is convenient to be adhered and fixed to the hook surface of the hook-and-loop fastener on the bottom surface of the CT bed, and the fixing end is also convenient to detach.

Preferably, the length of the magic tape surface at the end of the magic tape surface is 15cm, the length of the self-adhesive elastic intramuscular effect patch is 40cm, the diameter of each development line is 1mm, and the length is 5cm or 10cm.

In the embodiment, the length of the magic tape is 15cm, so that the fixed end is firmly fixed and is not easy to loosen; the self-adhesive elastic intramuscular effect patch is 40cm long, and the purpose of fixing the self-adhesive elastic intramuscular effect patch at the bottom of a CT bed can be achieved through enough length; the developing line adopts a diameter of 1mm, and the puncture position is accurately distinguished through CT scanning images; the development line is 5cm or 10cm long, and can be used for different parts of the surface of the human body, so that the application range is increased.

Preferably, the plurality of developing lines are equally spaced along the width direction of the developing line body, and a gap between every two adjacent developing lines is 1cm.

In the above embodiment, the puncture site is easily distinguished and marked by a gap of 1cm.

Preferably, each developing line is provided with scale marks, and the scale marks on each developing line at intervals correspond to each other one by one.

In the embodiment, the skin wrinkles, muscles and other tissues of the puncture part are tensioned and fixed through the elastic intramuscular effect patch, and then the distance between the position of the puncture point on the body surface and the focus position can be measured through measuring scales on the skin, so that the puncture target can be accurately locked.

Compared with the prior art, the beneficial effects of the invention are as follows, which are applicable to controlling skin muscle tension development line under CT guidance:

(1) The self-adhesive elastic intramuscular effect patch is added on the basis of the developing line body to pull the skin around the pasting position of the developing line body, so that the error of the developing line mark can be effectively reduced, and the success rate of acquiring target tissues by biopsy is improved.

(2) The skin is pulled towards the same direction through the traction belts distributed in a plurality of radial branches, so that the use of the number of self-adhesive elastic intramuscular effect patches can be reduced, the materials are saved, the traction effect can be improved, the occurrence error of the developing line mark is further reduced, and the success rate of acquiring target tissues by biopsy is improved.

(3) The fixed end is directly fixed on the CT bed, and the operation is simple and convenient.

The invention will become more apparent from the following description taken in conjunction with the accompanying drawings which illustrate embodiments of the invention.

Drawings

Fig. 1 is a schematic illustration of a control skin muscle tone development line suitable for CT guidance, with the scotch tape not torn away.

Fig. 2 is an enlarged view of the position a in fig. 1.

Fig. 3 is a schematic diagram II of a development line for controlling skin and muscle tension under CT guidance, and the transparent adhesive tape is removed.

Fig. 4 is an enlarged view of the position B in fig. 3.

Fig. 5 is a schematic diagram III of a development line suitable for controlling skin and muscle tone under CT guidance, wherein both the scotch tape and the development line have been torn away.

Reference numerals illustrate: the developing line 1, the scale mark 11, the transparent adhesive tape 2, the self-adhesive elastic intramuscular effect patch 3, the pulling belt 31, the fixed end 32, the fixed belt-shaped adhesive tape 4 and the developing line body 100.

Description of the embodiments

Embodiments of the present invention will now be described with reference to the drawings, wherein like reference numerals represent like elements throughout.

Referring to fig. 1-5, the developing line suitable for controlling skin and muscle tension under CT guidance includes a developing line body 100 composed of a developing line 1 and transparent adhesive tapes 2, wherein the developing line 1 has a plurality of developing lines and is arranged side by side, and the adhesive surfaces of the transparent adhesive tapes 2 are adhered and fixed on the same side surfaces of the developing lines 1.

The plurality of developing lines 1 are distributed at equal intervals along the width direction of the developing line body 100, and the gap between every two adjacent developing lines 1 is 1cm, so that the puncture positions are easy to distinguish and mark. The development lines 1 are provided with scale marks 11, the scale marks 11 on each development line 1 which are spaced are in one-to-one correspondence, and the distance between the body surface puncture point position and the focus position can be measured by measuring scales on the skin, so that the puncture target can be accurately locked. The diameter of each development line 1 is 1mm, and the puncture positions are accurately distinguished through CT scanning images. The length of each development line 1 was 5cm.

The transparent adhesive tape 2 is rectangular, and the adhesive surface of the transparent adhesive tape 2 completely covers the plurality of developing lines 1.

The developing line body 100 is rectangular in shape as a whole. The two opposite long sides of the developing wire body 100 are provided with self-adhesive elastic intramuscular effect patches 3 for stretching and fixing skin muscles at the relaxation part in opposite directions, and each long side of the developing wire body 100 is provided with two self-adhesive elastic intramuscular effect patches 3.

The ends of the self-adhesive elastic intramuscular effect patches 3, which are close to the developing line body 100, are radially bifurcated to form a plurality of traction belts 31 capable of being pulled in the same direction, the traction belts 31 are distributed at intervals, an acute angle is formed between every two adjacent traction belts 31, the acute angle can be changed according to the difference of the distances of the two adjacent traction belts 31, and the width of each traction belt 31 is equal. The plurality of pulling straps 31 terminate in a pulling end of a self-adhesive elastic intramuscular patch. The end of the self-adhesive elastic intramuscular effect patch 3 far from the development line body 100 is a fixed end 32 fixed to the CT bed.

The fixed ends 32 of the two self-adhesive elastic intramuscular effect patches 3 on each long side of the developing line body 100 are far away from each other, and the pulling ends of the two self-adhesive elastic intramuscular effect patches 3 are close to each other to form an included angle. The included angle between the two closest traction bands 31 and the included angle between the two farthest traction bands 31 of the two self-adhesive elastic intramuscular effect plasters 3 are acute angles, and the number of the traction bands 31 of the two self-adhesive elastic intramuscular effect plasters 3 is different.

In the two self-adhesive elastic intramuscular effect patches 3 on each long side of the developing line body 100, the number of the pulling belts 31 of one of the self-adhesive elastic intramuscular effect patches 3 is three, the three pulling belts 31 are formed by shearing from the self-adhesive elastic intramuscular effect patches 3, and the sum of the widths of the three pulling belts 31 after being gathered is equal to the width of any other positions of the self-adhesive elastic intramuscular effect patches 3; the number of the traction belts 31 of the other self-adhesive elastic intramuscular effect patch 3 is four, the four traction belts 31 are formed by shearing from the other self-adhesive elastic intramuscular effect patch 3, and the sum of the widths of the four traction belts 31 after being gathered is equal to the width of any other positions of the other self-adhesive elastic intramuscular effect patch 3.

The total four self-adhesive elastic intramuscular-effective patches 3 on the two opposite long sides of the developing line body 100 are symmetrical along the center line of the developing line body 100 in the length direction.

The length of the self-adhesive elastic intramuscular effect patch 3 is 40cm, and the self-adhesive elastic intramuscular effect patch 3 can be fixed at the bottom of a CT bed through enough length. The fixed end 32 is a magic tape surface end which is adhered and fixed on the bottom surface of the CT bed, the bottom surface of the CT bed is provided with a magic tape hook surface, and the length of the magic tape surface end is 15cm, so that the fixed end 32 is firmly fixed and is not easy to loose.

The four edges of the transparent adhesive tape 2 are provided with fixed band-shaped adhesive tapes 4 which are not contacted with the transparent adhesive tape 2, every two adjacent adhesive tapes 4 are mutually adhered and fixed at the corner position of the transparent adhesive tape 2, and the two fixed band-shaped adhesive tapes 4 positioned at the two ends of the length direction of the developing line body 100 are adhered on the developing line 1. The traction belts 31 of the two self-adhesive elastic intramuscular effect patches 3 on each long side of the development line body 100 are adhered and fixed on the lower surface of the fixed belt-shaped adhesive tape 4 at the corresponding long side of the transparent adhesive tape 2, and the fixed belt-shaped adhesive tape 4 is adopted, so that the self-adhesive elastic intramuscular effect patches are conveniently and auxiliary balanced and fixed; the four fixed banded rubberized fabrics 4 are not contacted with the transparent adhesive tape 2, and the transparent adhesive tape 2 completely covers the plurality of developing lines 1, so that the transparent adhesive tape 2 and the developing lines 1 can be conveniently torn off together. Four fixed banded rubberized fabrics 4 enclose into a rectangle mouth, and transparent adhesive tape 2 and developing wire 1 are located this rectangle mouth, and after CT scanning was accomplished and tear transparent adhesive tape and developing wire, the rectangle mouth can expose the puncture position that is located its inside and be convenient for disinfect to the skin in this rectangle mouth.

When the patient takes the lying position, the breast expands and sags outwards due to the action of gravity, a nurse smoothes the breast fold outwards, then the nurse tightens the skin muscle to the maximum extent by controlling the skin muscle tension development line, namely the development line body 100, to be attached to the part needing to be punctured, the elastic adhesive tape, namely each traction belt 31 is pulled to tightly adhere the skin, the magic tape surface of the fixed end 32 is attached to the bottom surface of the CT bed to be fixed, the four fixed belt-shaped adhesive tapes 4 are attached to the tail ends of the traction belts 31 at the periphery of the four sides of the transparent adhesive tape 2, and finally the transparent adhesive tape 2 is torn off together with the development line 1, so that the skin, namely the puncture part, in the rectangular opening surrounded by the four fixed belt-shaped adhesive tapes 4 is exposed, and the skin is sterilized at the exposed position conveniently. The self-adhesive elastic intramuscular effect patch 3 tightens tissues such as skin folds and muscles, so that errors of developing line marks can be reduced, and the success rate of acquiring target tissues by biopsy is improved.

In other embodiments, one self-adhesive elastic intramuscular patch 3 may be provided on only two long sides of the developing line body 100, respectively.

In other embodiments, one self-adhesive elastic intramuscular patch 3 may be provided on only two short side sides of the developing line body 100, respectively.

In other embodiments, two self-adhesive elastic intramuscular effect patches 3 may be provided only on one long side of the development line body 100.

In other embodiments, the number of the pulling belts 31 of the two self-adhesive elastic intramuscular effect patches 3 on each long side of the developing line body 100 is the same, and is three or four.

In other embodiments, the ventilation holes 311 are formed on each of the stretching belts 31 at intervals along the length direction of the stretching belt 31, so as to facilitate ventilation of the skin to be adhered and reduce damage caused by adhering the patch to the skin.

In other embodiments, the sum of the widths of the multiple drawn tapes of the respective adhesive elastic intramuscular effect patches 3 after being gathered is equal to the width of any of the remaining positions of the self-adhesive elastic intramuscular effect patches.

In other embodiments, the length of each developing line 1 is 10cm.

In other embodiments, the sum of the widths of the plurality of pulling straps 31 after being gathered may be larger than the width of any other position of the self-adhesive elastic intramuscular effect patch 3.

The invention has been described in connection with the preferred embodiments, but the invention is not limited to the embodiments disclosed above, but it is intended to cover various modifications, equivalent combinations according to the essence of the invention.

Claims (10)

1. The utility model provides a be applicable to under CT guide control skin muscle tension development line, includes the development line body that comprises development line and scotch tape, and development line has many and arranges side by side, and the sticky surface of scotch tape is pasted and is fixed on the surface of many development lines, its characterized in that: the developing line comprises a developing line body, wherein two opposite long side sides of the developing line body are respectively provided with two self-adhesive elastic intramuscular effect stickers, the ends of the self-adhesive elastic intramuscular effect stickers, close to the developing line body, are radially bifurcated to form a plurality of traction belts capable of being pulled in the same direction, the ends of the plurality of traction belts, close to the developing line body, are traction ends of the self-adhesive elastic intramuscular effect stickers, the ends, far away from the developing line body, of the self-adhesive elastic intramuscular effect stickers are fixed on a CT (computed tomography) bed, the fixed ends of the two self-adhesive elastic intramuscular effect stickers on each long side of the developing line body are mutually far away, the traction ends of the two self-adhesive elastic intramuscular effect stickers are mutually close, and the self-adhesive elastic intramuscular effect stickers are used for traction and fixation of skin muscles at a relaxation part.

2. A method for CT guided control of skin muscle Zhang Lixian hatching as claimed in claim 1, wherein: the traction belts are at least three, and an acute included angle with a variable angle is formed between every two adjacent traction belts.

3. A method for CT guided control of skin muscle Zhang Lixian hatching as claimed in claim 2, wherein: at least three traction belts are formed by shearing self-adhesive elastic intramuscular effect adhesive cloth, and ventilation holes are formed in each traction belt at intervals along the length direction of the traction belt.

4. A method for CT guided control of skin muscle Zhang Lixian hatching as claimed in claim 3, wherein: the sum of the widths of the drawn tapes of the self-adhesive elastic intramuscular effect patch is equal to the width of any other positions of the self-adhesive elastic intramuscular effect patch.

5. A method for CT guided control of skin muscle Zhang Lixian hatching according to any one of claims 1-4, wherein: the included angle between the two nearest traction belts of the self-adhesive elastic intramuscular effect patch on each long side of the developing line body and the included angle between the two farthest traction belts are acute angles, and the number of the traction belts of the two self-adhesive elastic intramuscular effect patches is the same or different.

6. The method of claim 5 adapted for CT guided control of skin muscle Zhang Lixian hatching, wherein: the adhesive surface of the transparent adhesive tape completely covers a plurality of developing lines, the periphery of the four sides of the transparent adhesive tape is provided with fixed banded adhesive tapes which are not contacted with the transparent adhesive tape, every two adjacent fixed banded adhesive tapes are mutually adhered and fixed at the corner positions of the transparent adhesive tape, each pulling belt of the two self-adhesive elastic intramuscular effect adhesive tapes on each long side of the developing line body is adhered and fixed on the lower surface of the fixed banded adhesive tape on the corresponding long side of the transparent adhesive tape, the four fixed banded adhesive tapes form a rectangular opening, and the transparent adhesive tape and the developing line are positioned in the rectangular opening.

7. The apparatus of claim 6 adapted for CT guided control of skin muscle Zhang Lixian hatching, wherein: the fixed end is a magic tape surface end adhered and fixed on the bottom surface of the CT bed.

8. The apparatus of claim 7 adapted for CT guided control of skin muscle Zhang Lixian hatching, wherein: the length of the magic tape surface at the end of the magic tape surface is 15cm, the length of the self-adhesive elastic intramuscular effect patch is 40cm, the diameter of each development line is 1mm, and the length of each development line is 5cm or 10cm.

9. The apparatus of claim 8 adapted for CT guided control of skin muscle Zhang Lixian hatching, wherein: the plurality of developing lines are equally spaced along the width direction of the developing line body, and a gap between each adjacent two of the developing lines is 1cm.

10. The apparatus of claim 9 adapted for CT guided control of skin muscle Zhang Lixian hatching, wherein: the development lines are provided with scale marks, and the scale marks on each development line at intervals correspond to each other one by one.