RU189353U1 - IMPLANT FOR REAR SPONDYLODESIS - Google Patents

Abstract

The invention relates to neuro-orthopedics and can be used in the surgical treatment of degenerative lesions of the spine using dynamic systems that preserve the spinal movement capacity as much as possible. An implant is proposed for posterior spinal fusion, containing a body in the form of a cylinder, lateral restraints made of solid material, with the body and lateral the limiters are made one-piece, the body length is equal to the thickness of the spinous processes of the problematic vertebrae, the outer diameter of the body is equal to the size I spinous interval in a healthy segment of enlarged width narazmera spinous processes; the side stops are made in the form of flanges, the diameter of the smaller of which is 1.3 times the diameter of the body, and the diameter of the larger - 2 times; a through channel is made inside the body. The suggestion allows to reduce the morbidity of the operation, increase patient safety, improve long-term results, preserve the mobility of the vertebral segments. 1 il.

Description

The invention relates to neuro-orthopedics and can be used in the surgical treatment of degenerative lesions of the spine using dynamic systems that preserve the spinal movement capacity as much as possible.

A device used to implement a method for the treatment of degenerative diseases of the spine in elderly and senile patients is an X-shaped implant made of porous titanium nickelide. The implant is installed through a “window” in the interstitial gap, the shape of which corresponds to the shape of the end surface of the implant, the implant is initially carried out with a smaller transverse size to the central narrow part, it is rotated by 90 ° until the lateral masses of the implant are adjacent to the parts of the spinous processes IPC AV 17/70 (2006.01).

Invasive interstice spacers are known (Patent Application RU No. 2012123373, 05.11.2010) containing a balloon-like body having a distal end, a proximal end and a longitudinal axis extending between the proximal and distal end, wherein the balloon-like body may be in an unstretched and stretched configuration; The first folding protruding part, installed near the proximal end, and the second folding protruding part, installed near the distal end, the first and second folding protruding parts in an unstretched configuration are oriented, as a rule, parallel to the longitudinal axis, and in a stretched configuration - perpendicular to the longitudinal axis .

In the known device for the treatment of degenerative diseases of the spine, the implant is H-shaped, one half of it is two times thicker than the opposite, which allows you to insert a thinner part of the implant (in a vertical position) into the interspinal gap (after distraction), then The implant is placed in a horizontal position and acts as a spacer. At the same time, the inter-spinal distance, the size of the intervertebral foramen are increasing, the load on the intervertebral disc is reduced, due to the shape memory wire it is stabilized. The specified device is implemented in the method of performing the operation within only one vertebral motor segment, which will reduce the injury and the duration of the operation. It can be performed only on one side without crossing the supraspastic ligament. (Patent for invention RU 2601855 IPC AV 17/70).

In the early 20s, the idea of treating degenerative vertebral stenosis with the method of interosseous distraction arose and was implemented (Whitesides, TE, Jr. (2003) the effect of an intervertebral implant on the pressure of intervertebral disks. Spine; 28: 1906-19070). Starting from the 1990s, a number of interspin implants were developed with the aim of applying them between the spinous processes and thus unloading the posterior part of the annulus and the adjacent facet joints. Their use has been scientifically justified (Eugene T, Unglaub F, Lorenz H et al (2006)). Eur Spine J; 15 (5): 597-604; Specchia N, Martiniani M, De Benedetto M (2007) Eur Spine J; 16 (Suppl 1).

There are various types of interstitial implants.

DIAM or COFLEX implants are known that are installed between the spinous processes of the problematic vertebrae in the form of a “spreader”, which allows the surgeon to restore the normal disc height, relieve intervertebral joints, relieve or reduce the compression pressure on the nerve root during the operation. The material of implants is hard but elastic, so the range of movements in the operated segment practically does not decrease, the spine continues to move in the physiological range. The method of installing intercostal dynamic implants COFLEX and DIAM is not technically difficult, does not imply the destruction of any anatomical structures of the spine and can be widely used not only to eliminate, but also to prevent segmental instability.

The closest to the claimed is a device for fixation of the vertebral segment using an intersinuated implant X-STOP, made of titanium, consisting of the main body (including the oval spacer part with a conical expander tissue) and a universal wing (Yerby S et al. / International Society of lumbar Spine (2001), Edinbur /, Richards J et al. / International Meeting on Advanced Spine Techniques (2002), Montreux, Switzerland /; Swanson KE et al. / Spine, 28 (1) (2003), pp. 26- 32 /). One part of the device is implanted near and under the spinous process, and the second part of the spacer in the form of a plate is installed on the other side of the spinous process, and then to the first part of the spacer.

The disadvantage of this device is that the implant, inserted from the side into the interstitial space, requires additional assembly in the wound to prevent its migration, and the need for careful selection of the size (5) creates technical difficulties. Installation of the device requires significant bilateral detachment of soft tissues from the spinous processes with their traction to the sides throughout the entire operation period, which leads to damage to the paravertebral tissues, increased postoperative pain, prolongs the recovery period, causes a decrease in functional results in the postoperative period. The device is recommended by the authors only for the treatment of lumbar degenerative stenosis in patients who have symptoms of stenosis of the spinal canal in a sitting position, is used without a decompressive phase of the operation, which limits the possibilities of its use. (Zucherman JF, Hsu KY, Hartjen CA, et al. (2005) A Multicenter, Prospective, Randomized Trial Assessment for Two-Year Follow-Up Results. Spine; 30 (12): 1351-1358).

The purpose of the utility model is to reduce the morbidity of the operation, increase patient safety, improve long-term results, preserve the mobility of the vertebral segments.

размера ширины остистых отростков; боковые ограничители выполнены в виде фланцев, диаметр меньшего из которых в 1,3 раза превосходят диаметр тела, а диаметр большего - в 2 раза; внутри тела выполнен сквозной канал.The goal is achieved by using a device - an implant for posterior spinal fusion, containing a body in the form of a cylinder, lateral restraints made of solid material, the body and side restraints are made permanent, the length of the body is equal to the thickness of the spinous processes of the problematic vertebrae, the outer diameter of the body is equal to the size of the intestinal span in the healthy segment, increased by

the size of the width of the spinous processes; the side stops are made in the form of flanges, the diameter of the smaller of which is 1.3 times larger than the diameter of the body, and the diameter of the larger diameter is 2 times; inside the body is made through the channel.

FIG. 1 shows a general view of the device.

размера ширины остистых отростков; боковые ограничители (2. 3) выполнены в виде фланцев, диаметр меньшего из которых (2) в 1,3 раза превосходит диаметр тела (1), а диаметр большего (3) - в 2 раза; внутри тела (1) выполнен сквозной канал (4).The implant for posterior spinal fusion contains a body (1) in the form of a cylinder, side stoppers (2, 3) made of solid material, the body (1) and side stoppers (2, 3) are made one-piece, the body length (1) is equal to the thickness the spinous processes of the problem vertebrae, the outer diameter is equal to the size of the interspinal gap in the healthy segment, increased by

the size of the width of the spinous processes; lateral stops (2. 3) are made in the form of flanges, the diameter of the smaller of which (2) is 1.3 times the diameter of the body (1), and the diameter of the larger (3) - 2 times; inside the body (1) the through channel (4) is made.

The device is used as follows.

размера ширины остистых отростков; боковые ограничители выполнены в виде фланцев цилиндра, меньший (2) из которых ограничен окружностью диаметром в 1,3 раза, больший (3) - в 2 раза превосходят диаметр тела (1).In the preoperative period, using computed tomography, information is obtained on the size of the spinous processes of the interested vozvonokov, interspinous gaps. Taking into account the obtained data, the spicer is prepared using 3D printers so that the body (1) would have the shape of a hollow cylinder with side stops (2, 3) made one-piece. The length of the body (1) is equal to the thickness of the spinous processes of the problem vertebrae, the outer diameter of the body (1) is equal to the size of the interspinal gap in the adjacent healthy segment, increased by

the size of the width of the spinous processes; the side stops are made in the form of cylinder flanges, the smaller (2) of which is limited by a circle with a diameter of 1.3 times, the larger (3) - 2 times the diameter of the body (1).

частей обращенных друг е другу остистых отростков с целью создания ложа для спайсера с сохранением межостистой и надостистой связок. Производят дистракцию смежных остистых отростков с целью создания адекватного натяжения межостистой и надостистой связок и восстановления нормальных взаимоотношений в дугоотростчатых суставах, Растягивают остистые отростки цангами и размещают в приготовленное ложе спайсер, для чего проводят внедрение более тонкой части имплантата (2) в наклонном положении в межостистый промежуток с переводом его после выхода из ложа в вертикальное положение. Тело (1) устройства размещается в сформированном ложе меду остистыми отростками позвонков, боковые ограничители (2, 3) предотвращают перемещение устройства по оси.During the operation, the patient is placed on the stomach, in the projection of the spinous processes of the closed vertebrae, an incision is made in the skin and underlying soft tissues 5-6 cm long. After the aponeurosis is cut from the disc herniation, the spinous processes and arcs of two adjacent vertebrae are skeletonized. After removal of the intervertebral disc (microsurgical discectomy), in the intervertebral space between the adjacent spinous processes of the Karison cutters, an edge resection is performed

parts of the spinous processes facing each other in order to create a bed for the spicer with preservation of the interspinous and supraspastic ligaments. The adjacent spinous processes are distracted in order to create an adequate tension between the interstosis and supraspinous ligaments and restore normal relationships in the arcuate joints. They stretch the spinous processes in collets and place them in the prepared Spicer bed, which is carried out by introducing a thinner part of the implant (2) in a slanted position in the inostomy outlet. with its translation after leaving the bed in a vertical position. The body (1) of the device is placed in the formed bed of honey by the spinous processes of the vertebrae, the lateral stops (2, 3) prevent the device from moving along the axis.

The advantages of the device according to the invention are that the implant, made exclusively for the patient individually, is installed from a small surgical incision; operation is a little traumatic and is accompanied by minimal blood loss; the fibers of the interspinal ligament are moved apart by the dilator, and not resected, thus, the integrity of the ligamentous apparatus is preserved. The device allows you to simultaneously relieve pain and maintain spinal mobility, limiting the load on the posterior sections of the fibrous ring, as a result of which the likelihood of a disc herniation (or its recurrence in the case of a parallel operation of discectomy) is reduced; increases the height of foraminal holes and decreases the compression of the roots at the exit from the spinal canal; mobility is maintained above and underlying vertebral segments.

As the material for the manufacture of the device, you can use "ink", developed by scientists from Northwestern University, USA, which can be used in 3D printing of flexible bone implants of any size and shape - from cylindrical structures of leg bones to the whole skull. It is noted that the material itself is made from the traditional for this industry hydroxyapatite (hydroxyapatite) - a mineral that is found in bones, and PLGA - a polymer that binds mineral particles together. It is this combination that determines the elasticity of the implant. It is noted that PLGA is a biocompatible and biodegradable polymer that is used in many medical fields (https://tengrinews.kz/medicine/uchenyie-nauchilis-remontirovat-perelomyi-kostey-pomoschi-3D-303181).

You can make the proposed device from other materials using traditional technologies.

Titanium devices for stabilizing surgical interventions are most common in orthopedic and neurosurgical practice, since they are endowed with almost all the properties of an ideal implant:

- high resistance to destruction under the action of internal stresses and light weight (they are about 6 times stronger than aluminum and 2 times lighter than iron);

- bioinertness - the absence of toxic effects of implantable components in direct contact with bone tissue;

- the mechanical behavior of the fixatives is as close as possible to the mechanical behavior of the bone, ligaments, cartilage;

- low coefficient of thermal expansion - at constant pressure and increasing temperatures, they maintain normal volume and linear dimensions;

- the possibility of ensuring life-long operation without gross violations of the functionality of the spine.

Polyetheretherketone has a number of advantages that distinguish it from other materials used for the production of implantable products [Use of a polyether ethernet in medicine and other industries. Review / S.V. Sheremetyev [and others] // Bulletin of Kazan Technological University. - 2012. - Vol. 15, no. 20. - p. 164-167., PEEK Biomaterials. Handbook / Ed. S. Kurtz. - New York: World Plastics Library, Elsevier, 2011. - 306 p.]:

- is a biologically inert material;

- about 3 times lighter than titanium;

- has high mechanical strength (composite materials based on polyetheretherketone), in terms of comparable to titanium alloys;

- has the highest fatigue strength (ten times higher than that of metal products);

- the modulus of elasticity of the material is close to the similar value of human bone tissue, which either does not allow or minimizes the development of stress-shedding of bone tissue syndrome in the area of the implanted product;

- is a radiolucent material;

- products implanted in the body, allows you to perform computed and magnetic resonance imaging with a minimum number of artifacts;

- possesses high chemical and physical resistance (products can be sterilized by steam under pressure, ethylene oxide, gamma radiation).

Claims (1)

Implant for posterior spinal fusion, containing a body in the form of a cylinder, lateral stops made of solid material, characterized in that the body and lateral stops are made one-piece, the length of the body is equal to the thickness of the spinous processes of the problematic vertebrae, the outer diameter of the body is equal to the size of the interspinal gap in the healthy segment, increased by

the size of the width of the spinous processes; the side stops are made in the form of flanges, the diameter of the smaller of which is 1.3 times the diameter of the body, and the diameter of the larger - 2 times; inside the body is made through the channel.

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