RU177189U1 - Device for entering and moving needles in soft tissues - Google Patents

Abstract

The utility model relates to the field of medical technology, namely to surgical instruments, in particular to devices for carrying, gripping and manipulating a needle. It can be used for brachytherapy, biopsy, neurosurgery, surgery, as well as for research purposes. The device consists of a module for the translational movement of the needle, a module for the rotational movement of the needle, the shafts of which are hollow, a straight hollow needle and cannula, a feed and supply channel for micro sources located inside the hollow shafts along the entire body of the device, through which a direct stylet delivers micro sources of ionizing radiation into soft tissue. The technical result consists in the delivery and bookmark of micro sources of ionizing radiation.

Description

The utility model relates to the field of medical technology, namely to surgical instruments, in particular to devices for carrying, gripping and manipulating a needle. It can be used for brachytherapy, biopsy, neurosurgery, surgery, as well as for research purposes.

A device is known "Method and device for controlling a needle with a distal asymmetric tip" ["Distal bevel-tip needle control device and algorithm" US 7,822,458 B2, (2010)], comprising a steering system, a drive unit, a sensor unit, a processor unit and a memory unit .

A device is known "Device and method for motorized placement of the needle" ["Apparatus and method for motorized placement of needle" WO 2007/085953 A1], containing a drive unit of vertical and horizontal orientation of the tip of the needle, a block of mechanical units, a metal frame.

These devices belong to the class of surgical instruments, the main disadvantage of which is the misaligned arrangement of the drive mechanisms of rotation and translational movement of the needle (stylet). This leads to the appearance of cantilever loads on the needle (stylet) and reduces the accuracy of positioning of the tip of the needle (stylet). The presence of complex mechanical assemblies based on gears, the presence of telescopic mechanisms, the use of complex structural and layout solutions, the absence of controlled translational movement of the needle - all this does not allow to realize high-precision positioning of the needle tip, curved trajectories of the needle tip.

The closest technical solution adopted for the prototype is the "Needle steering device" ["Needle steering device" US 7,662,128 B2, (2010)].

The device relates to a needle guidance system with a stylet. The needle has a cannula and a stylet. The device has two degrees of mobility. One degree of mobility is responsible for the longitudinal movement of the stylet, the second degree of mobility is responsible for the rotation of the stylet relative to the longitudinal axis of the cannula. Management of these degrees of mobility provides orientation of the stylet in space.

The design of the device is represented by a translational motion module made in the form of an electromechanical assembly consisting of a direct current motor with a protruding shaft connected to a rotation angle sensor, bearings and a screw pair, a rotational motion module made in the form of an electromechanical assembly from a direct current motor with a protruding shaft associated with the angle sensor, bearings and a straight cannula with a cannula having a main longitudinal axis and an open blunt end, and stylet Having a curved portion a predetermined curvature. The principle of operation of the device is based on the movement of the stylet inside the hollow cannula rod due to the alternating or simultaneous inclusion of DC motors located in the modules of rotational and translational motion. In the rotational motion module, the DC motor is fixed at the base of the cylindrical body of the device. The protruding output shaft of the DC motor of the rotary motion module is a U-shaped design that is rigidly engaged with the base of the DC motor of the linear motion module through a helical pair and thus provides a rotational degree of mobility. At the end of the protruding output shaft of the DC motor of the linear motion module, the base of the needle with a stylet located inside it is fixed. Thus, a translational degree of mobility is realized. A bearing is mounted between the direct current motor of the linear motion module and the cylindrical body of the device, which holds the motor symmetrically with respect to the longitudinal axis of the device and ensures its smooth and shockless rotation. The end face of the body is equipped with a rigidly fixed non-removable cannula. The DC motors of the rotational and translational motion modules comprise rotation angle sensors located on the protruding shafts. The sensors measure the angular position of the protruding motor shafts.

The disadvantage of the considered prototype is the limited scope of the device, namely the impossibility of delivering micro sources of ionizing radiation through this device to soft tissues.

The task to which the proposed utility model is aimed is to expand the functionality of the device due to the possibility of delivery and laying of micro-sources of ionizing radiation in soft tissues.

The problem of delivery and laying of micro-sources of ionizing radiation is solved by introducing into the device a transport channel for loading and supplying micro-sources passing along the entire device body inside the shafts, for which the shafts of the modules for translational and rotational movement of the needle are hollow, and the stylet is straight to push the micro-source through the feed channel and feeding it into a straight cannula.

A device for introducing and moving needles in soft tissues is proposed. The device consists of a module for the translational movement of the needle, a module for the rotational movement of the needle, the shafts of which are hollow, a straight hollow needle and cannula, a feed and supply channel for micro sources located inside the hollow shafts along the entire body of the device, through which a direct stylet delivers micro sources of ionizing radiation into soft tissue.

In FIG. The design of a device for introducing and moving needles in soft tissues is presented.

The module of the translational movement of the needle is an electromechanical assembly of a DC motor with a hollow shaft, a screw pair, a rotation angle sensor. The module of the translational movement of the needle is located in the housing 1, on which the stators of the DC motors 2 are fixed, the rotors of the DC motors 3 are located inside the stators, the rotors are mounted on the hollow shaft 5. Bearings 4 are located on both sides of the stators of the DC motors 2. Based on the stators dc motors 2 are located angle sensors 8. The angle sensors 8 are mounted on the housing 1. Along the longitudinal axis of the housing 1 pass a hollow shaft 5 and a hollow shaft 7 connected through a screw pair 10. Hollow the shaft 7 is connected with the hollow shaft 6 through linear guides 9.

The rotational motion module is an electromechanical assembly of a DC motor with a hollow shaft, linear guides and a rotation angle sensor. The module of the rotational movement of the needle is located in the housing 1, on which the stators of the DC motors 2 are fixed, the rotors of the DC motors 3 are located inside the stators, the rotors are mounted on the hollow shaft 6. The bearings 4 are located on both sides of the stators of the DC motors 2. Based on the stators dc motors 2 are located rotation angle sensors 8. The rotation angle sensors 8 are mounted on the housing 1. The hollow shaft 7 is connected to the hollow shaft 6 through linear guides 9.

Through the hollow shafts 5, 6 and 7 passes the channel of loading and supply of micro sources 13. The stylet 12 is located inside the channel of loading and supply of micro sources 13. The hollow shaft 7 is rigidly connected to the base of the straight hollow needle 11.

The device operates as follows.

In the needle translating module, the stator of the DC motor 2 drives the rotor of the DC motor 3, mounted on a hollow shaft 5, rotating relative to the device housing on bearings 4. The angle of rotation of the shaft 5 is monitored by a rotation angle sensor 8 located in the needle rotational motion module. The hollow shaft 7 transmits movement to the hollow shaft 5 through a screw pair 10.

In the module of the rotary motion of the needle, the stator of the DC motor 2 drives the rotor of the DC motor 3, mounted on a hollow shaft 6, rotating relative to the housing on bearings 4. The angle of rotation of the shaft is controlled by a rotation angle sensor 8. The hollow shaft 7 transmits the movement of the hollow shaft 6 through linear guides 9.

The loading of micro sources into the loading channel is carried out manually by the operator. The supply of microsources into the hollow needle 12 and implantation into soft tissues are carried out through the channel for loading and supplying microsources 13 by automatically pushing them with stylet 12.

With a fixed angle of rotation of the hollow shaft 6 of the module of the rotational movement of the needle and when the hollow shaft 5 of the module of the translational motion of the needle, the hollow shaft 7 and, accordingly, the hollow needle 11 move linearly. With a fixed angle of rotation of the hollow shaft 5 of the module of the translational motion of the needle and when the hollow shaft 6 of the module of the rotational motion of the needle is rotated, the hollow shaft 7 and, accordingly, the hollow needle 11 perform translational-rotational motion. When the hollow shaft 6 of the module for the rotational movement of the needle and the hollow shaft 5 of the module for the translational movement of the needle, the hollow shaft 7 and, accordingly, the hollow needle 12 rotate.

The technical result of the utility model is the delivery and bookmark of micro sources of ionizing radiation.

Claims (1)

A device for introducing and moving needles in soft tissues, including: a coaxially positioned needle translational motion module, which is an electromechanical assembly of a DC motor located on a shaft connected to a rotation angle sensor, bearings and a screw pair, and a needle rotational motion module, representing an electromechanical assembly of a DC motor located on a shaft connected to a rotation angle sensor, bearings and a straight hollow needle with a cannula and stylet, I distinguish In that the shafts of the modules for translational and rotational movement of the needle are hollow, an additional channel for loading and supplying micro sources located inside the hollow shafts along the entire body of the device is additionally introduced; the stylet is located inside the channel for loading and supplying micro sources and is made straight.

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