CN113679941A

CN113679941A - Composite probe for treating pelvic floor muscles

Info

Publication number: CN113679941A
Application number: CN202111070107.XA
Authority: CN
Inventors: 易辉; 王实果; 刘娟
Original assignee: Shenzhen Jumper Medical Equipment Co Ltd
Current assignee: Shenzhen Jumper Medical Equipment Co Ltd
Priority date: 2021-09-13
Filing date: 2021-09-13
Publication date: 2021-11-23
Anticipated expiration: 2041-09-13
Also published as: CN113679941B

Abstract

The invention belongs to the field of medical instruments, and particularly relates to a composite probe for treating pelvic floor muscles, which comprises a probe shell, a mounting seat, a pressure film sheet, an electrode plate and a control unit, wherein the mounting seat comprises a fixed tube, a mounting plate and a movable seat, the mounting plate is mounted in the mounting groove, the fixed tube is positioned inside the probe shell, the mounting plate is fixedly connected with the fixed tube through an air duct, a cavity for accommodating a piston is arranged in the fixed tube, the air duct enables the cavity to be in fluid communication with the surface of one side, far away from the fixed tube, of the mounting plate, the piston is connected with the movable seat through a piston rod, and the movable seat is movably clamped on the probe shell; the pressure film sheets and the electrode sheets are sequentially and alternately attached to the surface of one side, away from the fixed pipe, of the mounting plate; the control unit is fixedly arranged in the probe shell and is respectively and electrically connected with the pressure film sheet and the electrode sheet. The invention avoids the pressure film sheet and the electrode sheet from falling off because the stickers lose the viscosity, and improves the detection precision and the treatment effect.

Description

Composite probe for treating pelvic floor muscles

Technical Field

The invention belongs to the field of medical instruments, and particularly relates to a composite probe for treating pelvic floor muscles.

Background

Pelvic floor diseases are the general names of pelvic organ prolapse and stress urinary incontinence, and are one of the common diseases bothering women; its manifestations include uterine prolapse, vaginal wall bulging, stress urinary incontinence, dyschezia, unpleasant sexual life, etc.

Although the pelvic floor disease does not seriously threaten the life of people like cardiovascular and cerebrovascular diseases and cancer, the pelvic floor disease greatly influences the life and interpersonal interaction of patients, and can also cause physical barriers such as inferior quality, depression, appetite reduction, hyposexuality and the like while hurting the bodies of the patients, thereby bringing double pains to the bodies and the mind of the patients.

The existing non-operative treatment means of the pelvic floor muscles comprise pelvic floor muscle training, biofeedback treatment and electrical stimulation treatment, and the existing probe for treating the pelvic floor muscles mainly comprises two types, namely a conductive type and a pressure type, which are respectively used for carrying out the biofeedback training, the electrical stimulation treatment and the pressure signal detection on the pelvic floor muscles.

Most of the probe surfaces used in the market at present for treating the pelvic floor muscles are integrally arranged, elements used for detecting and training the pelvic floor muscles are all adhered to the surfaces of the probes, the falling-off condition is easy to occur when the probe is used, the pressure detection effect is poor, fine dead angles exist between the side edges of the elements and the probes, pollutants are easy to accumulate, and the probes are not easy to clean.

Disclosure of Invention

In view of the above problems, the present invention provides a composite probe for treating pelvic floor muscles, comprising:

the probe comprises a probe shell, wherein the outer surface of the probe shell is provided with at least one annular groove and a plurality of longitudinal grooves intersected with the annular groove, the probe shell array is divided into a plurality of mounting grooves by the grooves, and the mounting grooves are communicated with the interior of the probe shell;

the mounting seat comprises a fixed pipe, a mounting plate and a moving seat, the mounting plate is mounted in the mounting groove, the fixed pipe is positioned inside the probe shell, the mounting plate is fixedly connected with the fixed pipe through an air duct, a cavity for accommodating a piston is arranged in the fixed pipe, the air duct enables the cavity to be in fluid communication with the surface of one side, away from the fixed pipe, of the mounting plate, the piston is connected with the moving seat through a piston rod, and the moving seat is movably clamped on the probe shell;

the pressure film sheet and the electrode sheet are sequentially and alternately attached to the surface of one side, far away from the fixed pipe, of the mounting plate;

and the control unit is fixedly arranged in the probe shell and is electrically connected with the pressure film sheet and the electrode sheet respectively.

Furthermore, a plurality of air holes are formed in the mounting plate, and the air guide pipe is in fluid communication with the air holes.

Furthermore, a plurality of the mounting plates comprise a first mounting plate and a second mounting plate, the pressure film sheet is attached to the surface of one side, away from the fixed pipe, of the first mounting plate, and the electrode sheet is attached to the surface of one side, away from the fixed pipe, of the second mounting plate.

Furthermore, the cavity in the fixed pipe comprises a first cavity and a second cavity, the first mounting plate is communicated with the first cavity in the fixed pipe through the air duct, and the second mounting plate is communicated with the second cavity in the fixed pipe through the air duct.

Further, the cavity in the fixed tube includes first cavity and second cavity, the piston is including being located first piston in the first cavity and being located second piston in the second cavity, it includes that first removal seat and second remove the seat to remove the seat, first piston pass through the piston rod with first removal seat fixed connection, the second piston pass through the piston rod with the second removes seat fixed connection, first mounting panel passes through the air duct with first cavity fluid intercommunication in the fixed tube, the second mounting panel passes through the air duct with second cavity fluid intercommunication in the fixed tube.

Furthermore, the probe shell comprises a probe end part, a probe middle part and a probe tail part which are detachably connected in sequence; the recess reaches the mounting groove is located the probe middle part, the cover is equipped with spacing muscle on the recess, it connects to remove the seat removal joint the probe afterbody.

Furthermore, the probe afterbody is equipped with the spout, the both ends of spout are equipped with first card respectively and end the position and the second card ends the position, it is in through the spout to remove the seat first card ends the position with the second card is stopped and is switched between the position.

Further, the moving seat comprises a moving block and a clamping block which are connected through a spring; one end, close to the end of the probe, of the moving block is fixedly connected with the piston rod, and the moving block is clamped in the sliding groove.

Further, the movable seat comprises a clamping part and a sliding part positioned above the clamping part, and the clamping part and the sliding part are connected through a spring; the clamping part is clamped in the sliding groove, and the sliding part can be clamped in the first clamping stop position and the second clamping stop position; the cross section size of the clamping part is matched with the cross section sizes of the first clamping position and the second clamping position, and the cross section size of the sliding part is matched with the cross section size of the sliding groove.

Furthermore, pressure sensors are arranged in the first cavity and the second cavity, and the pressure sensors are electrically connected with the control unit.

The invention has the beneficial effects that:

1. be negative pressure state through the space of adjustment fixed tube in for the probe is when taking out, and pressure film piece and electrode slice firm absorption more are on the mounting panel, have avoided pressure film piece and electrode slice to drop because the sticker loses viscidity, leave over at the patient internal, cause medical accident, use safelyr.

2. Thereby remove the seat through control and make the piston remove the atmospheric pressure between regulation pressure film piece and electrode slice and the mounting panel respectively, and then regulation pressure film piece and electrode slice are in the state of stretching to can increase the contact surface with pelvic floor muscle, improve pressure detection's precision and the effect of electrode treatment, the malleation of fixed pipe is favorable to improving the sealing performance of probe simultaneously, avoids the body fluid to get into.

3. When the first cavity and the second cavity are respectively in a positive pressure and a negative pressure condition, the pressure film sheet and the electrode sheet are in a contraction and expansion state, so that mutual interference between the pressure film sheet and the electrode sheet can be avoided, and the working precision of each cavity is improved.

4. Through the bottom surface and the side of mounting panel all leave the interval with the mounting groove for in the liquid can flow into the probe tip along the through-hole of first closing plate, the viscidity thing of pressure film piece and electrode slice and mounting panel junction can reduce the contact with liquid, the sticky effect of gluing of extension viscidity thing, has increased the security that pressure film piece and electrode slice and mounting panel pasted.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 shows a schematic structural diagram of a composite probe according to an embodiment of the present invention;

FIG. 2 shows a schematic cross-sectional view of a composite probe according to an embodiment of the invention;

FIG. 3 is a schematic cross-sectional view of a first state of the middle of a probe according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a second state of the middle of the probe according to an embodiment of the present invention;

fig. 5 shows a schematic structural diagram of a mobile seat according to an embodiment of the present invention.

In the figure: 100. a probe housing; 110. the middle part of the probe; 111. mounting grooves; 112. a first sealing plate; 113. a second sealing plate; 120. a probe end portion; 130. a probe tail; 131. a chute; 132. a first stop position; 133. a second stop position; 200. limiting ribs; 300. a mounting seat; 310. a fixed tube; 311. a first cavity; 312. a second cavity; 320. mounting a plate; 321. air holes are formed; 322. an air duct; 330. a piston; 340. a movable seat; 341. a locking part; 342. a sliding part; 343. a bump; 400. a pressure membrane sheet; 500. an electrode sheet; 600. a control unit.

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.

The embodiment of the invention provides a composite probe for treating pelvic floor muscles, which comprises a probe shell 100, a pressure membrane 400, an electrode plate 500 and a control unit 600, and is shown in figures 1 and 2.

The probe shell 100 is of an arc-shaped tubular structure, and the section of the probe shell is formed by a plurality of pairs of arcs which are symmetrical in the direction of arc openings and are connected end to end; the edges and corners of the whole probe exposed outside are provided with fillets for preventing scratching patients.

The probe shell 100 comprises a probe end part 120, a probe middle part 110 and a probe tail part 130 which are detachably connected in sequence; the probe middle part 110, the probe end part 120 and the probe tail part 130 are all arranged into shells with hollow interiors, and one ends of the probe end part 120 and the probe tail part 130 are both in an open structure; a first sealing plate 112 is fixedly mounted at one end of the middle part 110 of the probe, and a plurality of groups of through holes are formed in the first sealing plate 112; a second sealing plate 113 is fixedly arranged at the other end of the middle part 110 of the probe; the end of the probe end part 120 with an open structure is connected with the end of the probe middle part 110 provided with the first sealing plate 112 in a threaded manner, and the end of the probe tail part 130 with an open structure is fixedly connected with the end of the probe middle part 110 provided with the second sealing plate 113.

The outer surface of probe middle part 110 is provided with at least one annular groove to and with many vertical recesses that the annular groove is crossing, the annular groove with it is equipped with spacing muscle 200 respectively to overlap in the vertical recess, the recess divides probe middle part shell array into a plurality of mounting grooves 111, just mounting groove 111 through the through-hole on the first closing plate 112 with the inside intercommunication of probe tip 120. The mounting seats 300 are fixedly mounted in each row of the mounting grooves 111, the pressure film sheets 400 and the electrode sheets 500 are sequentially and alternately attached to the outer surface of one end of the mounting seat 300, and the other end of the mounting seat 300 penetrates through the second sealing plate 113 in a sealing manner and is located in the probe tail portion 130. A plurality of groups of the pressure membrane pieces 400 are respectively installed on two opposite rows of the installation seats 300, and a plurality of groups of the electrode plates 500 are respectively installed on the other two rows of the installation seats 300.

The control unit 600 is fixedly installed inside the middle portion 110 of the probe, and the control unit 600 is electrically connected to the plurality of sets of pressure membrane sheets 400 and the plurality of sets of electrode sheets 500, respectively.

Illustratively, the probe end part 120 and the probe tail part 130 are respectively arranged at two ends of the probe middle part 110, and the three parts are assembled into a complete probe shell 100; the probe can be used after all the accessories in the probe are assembled.

When the probe is used, if liquid enters the mounting groove 111 in the patient's pelvic cavity, the liquid flows into the probe end part 120 through the through hole of the first sealing plate 112 along the mounting groove 111; when the pressure signals of the pelvic floor of the patient need to be collected, the two rows of opposite pressure membrane sheets 400 are pressed by the pelvic floor muscles to send corresponding pressure signals, and then the corresponding pressure signals are transmitted through the control unit 600; when a patient needs to be subjected to biofeedback training or pelvic floor muscle electrical stimulation, the control unit 600 controls the two groups of electrode plates 500 to emit pulse electricity to the pelvic floor muscles of the patient, so that stimulation treatment is performed on the pelvic floor muscles.

When the pelvic floor muscles of the patient are stimulated, the pelvic floor pressure signals can be measured, and the contraction state of the pelvic floor muscles can be judged.

After the detection is finished, the probe is drawn out from the pelvic cavity of the patient, the probe is vertically hung at a certain position, the end part of the probe is located below the probe, liquid in the installation groove 111 can directly slide into the probe end part 120 along the bottom surface of the installation groove 111, and the probe end part 120 can be taken down to clean the inside of the installation groove 111 after the liquid in the installation groove is drained.

The mounting block 300 includes a stationary tube 310, a mounting plate 320, and a movable block 340, as shown in fig. 3 for example; a plurality of the mounting panel 320 install in the mounting groove 111, fixed pipe 310 is located the inside of probe shell 100, mounting panel 320 with through an air duct 322 fixed connection between the fixed pipe 310, be equipped with a plurality of bleeder vents 321 on the mounting panel 320, air duct 322 with bleeder vent 321 fluid intercommunication. A cavity for accommodating a piston 330 is arranged in the fixed tube 310, the air duct 322 enables the cavity to be in fluid communication with the surface of one side of the mounting plate 320, which is far away from the fixed tube 310, the piston 330 is connected with a movable seat 340 through a piston rod, and the movable seat 340 is movably clamped on the probe shell 100;

specifically, the plurality of mounting plates 320 include a first mounting plate and a second mounting plate, the pressure membrane sheet 400 is attached to a side surface of the first mounting plate away from the fixed pipe 310, and the electrode sheet 500 is attached to a side surface of the second mounting plate away from the fixed pipe 310.

The cavity in the fixed pipe 310 comprises a first cavity 311 and a second cavity 312, the first mounting plate is in fluid communication with the first cavity 311 in the fixed pipe 310 through the air duct 322, and the second mounting plate is in fluid communication with the second cavity 312 in the fixed pipe 310 through the air duct 322.

The piston 330 is moved in a direction away from the probe end 120 by controlling the movable seat 340, so that the space between the fixed tube 310 and the pressure membrane 400 and the electrode plate 500 is increased, the pressure inside the fixed tube 310 is reduced, the pressure of the external atmospheric pressure is greater than the pressure inside the fixed tube 310, a negative pressure state is formed, and the pressure membrane 400 and the electrode plate 500 are in a contracted state and are more closely attached to the end of the fixed tube 310 close to the mounting plate 320. The falling off is avoided; illustratively, when the probe is ready to be taken out from the patient, the space in the fixing tube 310 can be adjusted to be in a negative pressure state, so that when the probe is taken out, the pressure film sheet 400 and the electrode sheet 500 are more firmly adsorbed on the mounting plate 320, and the pressure film sheet and the electrode sheet are prevented from falling off due to the fact that stickies are lost, left in the patient, causing medical accidents, and are safer to use.

The piston 330 moves towards the direction close to the probe end 120 by controlling the movable seat 340, the space between the fixed tube 310 and the pressure membrane sheet 400 and the electrode plate 500 is reduced, the pressure inside the fixed tube 310 is increased, the pressure of the external atmospheric pressure is smaller than the pressure inside the fixed tube 310, a positive pressure state is formed, the pressure membrane sheet 400 and the electrode plate 500 are in a stretching state, the contact surface with pelvic floor muscles can be increased, and the accuracy of pressure detection and the effect of electrode treatment are improved.

Preferably, the first cavity and the second cavity are respectively positioned at two sides of the piston, namely, all the first mounting plates are respectively communicated with the first cavity body through the air ducts, all the second mounting plates are respectively communicated with the second cavity body through the air ducts, the first cavity body and the second cavity body are hermetically divided by the piston, so that the air pressure in the first cavity body and the air pressure in the second cavity body can be simultaneously controlled through the same piston, thereby realizing that the electrode plate extends and expands under the positive pressure action to increase the contact area with the pelvic floor muscle as much as possible when the electrical stimulation treatment and the pelvic floor muscle pressure detection are respectively carried out, and the pressure film piece contracts under the negative pressure effect at this moment and avoids contacting, extrudeing pelvic floor muscle and influence the treatment of electrode slice, and on the other hand pressure film piece stretches out and contacts pelvic floor muscle and the electrode slice contracts when pressure detection, and the result of detecting like this is more accurate.

Preferably, a pressure sensor may be further disposed in the first cavity 311 and the second cavity 312, the pressure sensor is electrically connected to the control unit 600, and the pressure sensor is configured to monitor an air pressure value in the cavity, so as to determine a bonding state of the pressure membrane 400 and the electrode plate 500, and avoid falling off and leaving behind in the body of the patient.

Preferably, as shown in fig. 4; the cavity in the fixed pipe 310 includes a first cavity 311 and a second cavity 312, the piston 330 is including being located first piston in the first cavity 311 and being located second piston in the second cavity 312, it includes that first removal seat and second remove the seat to remove the seat 340, first piston pass through the piston rod with first removal seat fixed connection, the second piston pass through the piston rod with second removal seat fixed connection, first mounting panel passes through air duct 322 with first cavity 311 fluid intercommunication in the fixed pipe 310, the second mounting panel passes through air duct 322 with second cavity 312 fluid intercommunication in the fixed pipe 310. By respectively controlling the first piston and the second piston, when the first cavity 311 and the second cavity 312 are under a positive pressure and a negative pressure, the pressure membrane 400 and the electrode plate 500 are in a contracted and expanded state, so as to avoid mutual interference between the pressure membrane 400 and the electrode plate 500.

The probe tail portion 130 is provided with a sliding groove 131, two ends of the sliding groove 131 are respectively provided with a first locking stop 132 and a second locking stop 133, and the moving seat 340 is switched between the first locking stop 132 and the second locking stop 133 through the sliding groove 131.

The bottom surface and the side end of the mounting plate 320 are spaced from the mounting groove 111, and the space is used for guiding the liquid in the patient body to the probe end 120 through the first sealing plate 112 for storage.

The bottom surface and the side end of the mounting plate 320 are spaced from the mounting groove 111, so that liquid can flow into the probe end 120 along the through hole of the first sealing plate 112, the sticky objects at the connection part of the pressure film sheet 400, the electrode sheet 500 and the mounting plate 320 can be reduced to contact with the liquid, the sticky effect of the sticky objects can be prolonged, and the sticking safety of the pressure film sheet 400, the electrode sheet 500 and the mounting plate 320 is improved.

The movable base 340 includes a locking portion 341 and a sliding portion 342 located above the locking portion 341, and the locking portion 341 and the sliding portion 342 are connected by a spring; the locking portion 341 is locked in the sliding groove 131, and the sliding portion 342 is locked in the first locking position 132 and the second locking position 133; the cross-sectional dimension of the locking portion 341 is adapted to the cross-sectional dimensions of the first locking portion 132 and the second locking portion 133, and the cross-sectional dimension of the sliding portion 342 is adapted to the cross-sectional dimension of the sliding groove 131.

The upper end of the sliding part 342 is further provided with a convex block 343, and the convex block 343 is used for closing the two groups of sliding parts 342 and releasing the fixing of the clamping part 341.

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

1. A composite probe for treating pelvic floor muscles, comprising:

the probe comprises a probe shell (100), wherein the outer surface of the probe shell (100) is provided with at least one annular groove and a plurality of longitudinal grooves intersected with the annular groove, the probe shell array is divided into a plurality of mounting grooves (111) by the grooves, and the mounting grooves (111) are communicated with the interior of the probe shell (100);

the mounting seat (300) comprises a fixed pipe (310), a mounting plate (320) and a moving seat (340), the mounting plate (320) is mounted in the mounting groove (111), the fixed pipe is located inside the probe shell (100), the mounting plate (320) is fixedly connected with the fixed pipe (310) through an air duct (322), a cavity for accommodating a piston (330) is arranged in the fixed pipe (310), the air duct (322) enables the cavity to be in fluid communication with the surface of one side, far away from the fixed pipe (310), of the mounting plate (320), the piston (330) is connected with the moving seat (340) through a piston rod, and the moving seat (340) is movably clamped on the probe shell (100);

the pressure membrane sheets (400) and the electrode sheets (500) are sequentially and alternately attached to the surface of one side, away from the fixed pipe (310), of the mounting plate (320);

the control unit (600) is fixedly installed inside the probe shell (100), and the control unit (600) is respectively and electrically connected with the pressure membrane sheet (400) and the electrode sheet (500).

2. The composite probe for treating pelvic floor muscles according to claim 1, wherein the mounting plate (320) is provided with a plurality of air holes (321), and the air duct (322) is in fluid communication with the air holes (321).

3. The composite probe for treating pelvic floor muscles according to claim 2, wherein the plurality of mounting plates (320) comprises a first mounting plate and a second mounting plate, the pressure membrane sheet (400) is attached to one side surface of the first mounting plate away from the fixing tube (310), and the electrode sheet (500) is attached to one side surface of the second mounting plate away from the fixing tube (310).

4. A composite probe for treating pelvic floor muscles according to claim 3, wherein the cavity in the fixed tube (310) comprises a first cavity (311) and a second cavity (312), the first mounting plate being in fluid communication with the first cavity (311) in the fixed tube (310) via the airway tube (322), and the second mounting plate being in fluid communication with the second cavity (312) in the fixed tube (310) via the airway tube (322).

5. A composite probe for treating pelvic floor muscles according to claim 3, wherein the cavity in the fixed tube (310) comprises a first cavity (311) and a second cavity (312), the piston (330) comprises a first piston in the first cavity (311) and a second piston in the second cavity (312), the movable seat (340) comprises a first movable seat and a second movable seat, the first piston is fixedly connected with the first movable seat through a piston rod, the second piston is fixedly connected with the second movable seat through a piston rod, the first mounting plate is in fluid communication with the first cavity in the fixed tube (310) through the airway tube (322), and the second mounting plate is in fluid communication with the second cavity in the fixed tube (310) through the airway tube (322).

6. A composite probe for treating pelvic floor muscles according to claim 4 or 5, wherein the probe housing (100) comprises a probe end part (120), a probe middle part (110) and a probe tail part (130) which are detachably connected in sequence; the recess reaches mounting groove (111) are located the probe middle part, the cover is equipped with spacing muscle (200) on the recess, remove seat (340) and remove the joint and be in probe afterbody (130).

7. The composite probe for treating pelvic floor muscles according to claim 6, wherein the probe tail (130) is provided with a sliding groove (131), the two ends of the sliding groove (131) are respectively provided with a first locking position (132) and a second locking position (133), and the movable seat (340) is switched between the first locking position (132) and the second locking position (133) through the sliding groove (131).

8. The compound probe for the treatment of pelvic floor muscles according to claim 7, wherein the moving seat (340) comprises a moving block (341) and a fixture block (342) connected by a spring; one end, close to the probe end portion (120), of the moving block (341) is fixedly connected with the piston rod, and the moving block (341) is clamped in the sliding groove (131).

9. A composite probe for treating pelvic floor muscles according to claim 8, characterized in that the mobile seat (340) comprises a latch (341) and a glide (342) above the latch (341), the latch (341) being connected to the glide (342) by a spring; the clamping part (341) is clamped in the sliding groove (131), and the sliding part (342) can be clamped in the first clamping stop position (132) and the second clamping stop position (133); the cross-sectional dimension of the clamping part (341) is matched with the cross-sectional dimensions of the first clamping position (132) and the second clamping position (133), and the cross-sectional dimension of the sliding part (342) is matched with the cross-sectional dimension of the sliding groove (131).

10. Compound probe for the treatment of pelvic muscles according to claim 4 or 5, characterized in that a pressure sensor is provided inside the first and second cavities, electrically connected to the control unit (600).