RU2063249C1 - Device for dilatation of hollow organs - Google Patents

Abstract

FIELD: surgical instruments. SUBSTANCE: the device is made in the form of a cylindrical helix; each turn of the helix in formed by a zigzag wire spring of material with a shape memory, with a preset and the same number of zigzags; the bendings of each turn are placed in the intervals of the adjacent zigzags of adjacent turns. The helix zigzags may be inclined to the longitudinal axis of their symmetry with even and uneven height and lead of the helix. In a cooled state the device is compressed in radius and introduced in the pathologically stenosed section of the hollow organ. When heated to the body temperature, it restores its original shape dilating the hollow organ. Due to lateral and longitudinal elasticity, the device well initiates the shape of the hollow organ and is most effective in use with minimum probability of tissue necrosis in sections with a prolonged pathology. EFFECT: enhanced convenience in use. 2 dwg

Description

 The invention relates to surgical instruments and is intended to expand the lumen of the deformed hollow organs and restore their patency.

 A device for dilating hollow organs in the form of a metal cylindrical spiral / I /, delivered in some way to the affected area of the hollow organ, restoring its normal clearance and maintaining patency for a sufficiently long period. The disadvantages of the device are the complexity of its delivery, especially to the obturated areas of the hollow organ, the high probability of trauma during evacuation, the violation of the physiological functions (for example, peristalsis) of the hollow organ due to high lateral stiffness, reduced dilatation ability in areas with large closure or obstruction of the lumen due to longitudinal elasticity and, therefore, the possibility of longitudinal extension of the links of the device in these areas.

 Known dilator of Nickel-titanium wire / 2 /, the closest in technical essence to the proposed device. The device contains a closed, rolled into a cylinder zigzag spring with a regular step of zigzags, with bends radially and conically outwardly bent.

 To actuate the device in a cooled state, they are compressed in a radial direction until the linear sections of the ziage are completely closed and, using a tubular conveyor, they are introduced into the narrowed section of the hollow organ. When heated to the patient’s body temperature, the device seeks to restore its original shape, gradually expanding the lumen of the hollow organ and restoring its patency. Bent zigzag curves prevent the device from migrating into a hollow organ.

 The disadvantages of the device are low dilatation ability when restoring prolonged constrictions due to the distribution of the efforts of form restoration on large surfaces of the organ and, therefore, reducing the specific force of decompression, the geometric incompatibility of the device with curved sections of hollow organs (for example, the esophagus, intestines, blood vessels, etc. ), leading to a high necrotizing ability in non-conjugate areas in case of forced use of the device.

 The aim of the invention is the prevention of tissue necrosis.

 The goal is achieved in that the device containing a zigzag wire spring of material with shape memory is made in the form of a cylindrical spiral, each coil of which is formed by a spring with a given and the same number of zigzags, while the bends of one coil of the spiral are located in the spaces of the other coil of the spiral, opposite each other.

 The execution of the dilator in the form of a cylindrical spiral makes its design elastic in the transverse direction and, therefore, adaptable to the curvilinear configuration of extended hollow organs if it is necessary to treat their prolonged pathology. This reduces, compared with the prototype, the possibility of recompression in non-conjugated areas and the formation of necrosis with prolonged action.

 The implementation of each coil of this spiral in the form of a zigzag spring results in the maximum use of the advantages of the mechanism of thermomechanical restoration of the shape of the product: uniform and soft effect on the walls of the organ, a large amplitude of this effect, a wide range of efforts and, therefore, the adaptability of a separate device to the anatomical features of the patient. The dignity of the prototype is preserved - good biocompatibility of the material with shape memory, which mainly uses titanium wikelide. The assignment and uniformity of the number of zigzags is due to the need for regularity of the structure, which increases the uniformity of the distribution of specific pressure during decompression.

 The location of the bends of one coil of the spiral in the spaces of adjacent turns allows you to vary in a wide range the "density" of the spiral pattern, the specific pressure on the walls of the hollow organ in order to reduce the possibility of necrosis.

 Alternative signs of the solution - the execution of zigzags inclined to the longitudinal axis of their symmetry, uniform and uneven height and pitch of the zigzags of the spiral make up a set of possible variations in the design of the device for maximum biomechanical compatibility in accordance with the anatomy of the hollow organ and its pathology.

 In FIG. 1 of the response to the request for examination depicts a fragment of the proposed device for dilatation of hollow organs.

 In FIG. 2a, b, e of the answer are linear sweeps of the turns of a cylindrical spiral, respectively: with a zero angle of inclination of the zigzags to the longitudinal axis of their symmetry, with a finite angle of inclination to the longitudinal axis of symmetry, with an uneven height and pitch of the zigzags of the spiral.

 A specific example of the device is given by the description of the medical history N 782 of the hospital surgery clinic of the Tomsk Medical Institute.

 Patient Zalazaeva T.L. For 24 years she was admitted to the clinic with a complete overlap of the lumen of the esophagus, which developed over a period of 16 months as a result of a chemical burn and an after-burn scar structure and unsuccessful treatment, during which two gastrostomy cadets were applied.

 A patient is implanted with a dilation device. The device is made in the form of a cylindrical spiral (Fig. 1 response), each coil of which is formed by a four-wave zigzag spring made of nickel-titanium wire (TH - 10) with a diameter of 0.5 mm. The length of the device is 60 mm, the diameter in the initial state is 12 mm, and the spiral pitch is 8.5 mm.

 After esophagotamia and through the esophagostoma, the esophagus is bougie toward the oral cavity. In the opposite direction, using the bougie as a mandrel, a chlorirvinyl tube with nylon thread inside was drawn. Through the esophagostoma, using a thread, a device pre-compressed along the radius in a cooled state is inserted into the tube and extended to the dilated area at the level of 5 7 cervical vertebrae. The vinyl chloride tube is removed through the oral cavity. When heated to body temperature, the device restored its original form, i.e. radial size of the spiral and dilated the affected area of the esophagus. The patient has restored the patency of the esophagus from the oral cavity to the esophagostomy, through which saliva is removed. Nutrition due to the closure of the lumen of the lower portion of the esophagus is made through the gastrostomy.

 Preliminary tests of the proposed device on animals showed its performance and high dilatation efficiency of pathological narrowing of hollow organs in the absence of biological destruction.

Claims (4)

 1. A device for dilation of hollow organs, containing a zigzag wire spring of material with shape memory, characterized in that, in order to prevent tissue necrosis, the device is made in the form of a cylindrical spiral, each coil of which is formed by a spring with a given and the same number of zigzags, the bends of some turns of the spiral are located in the intervals of other turns of the spiral, opposite to each other.  2. The device according to claim 1, characterized in that the zigzags of the spiral are made with an angle of inclination to the longitudinal axis of their symmetry.  3. The device according to claims 1 and 2, characterized in that the zigzags of the spiral are made with uniform height and pitch.  4. The device according to claims 1 and 2, characterized in that the zigzags of the spiral are made with an uneven pitch pitch.

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