RO128699B1 - Knee orthosis with magnets - Google Patents

Abstract

The invention relates to a knee orthosis with magnets that creates a magnetic field using several permanent magnets fixed on a classic knee orthosis worn by a patient during the treatment, the said orthosis being useful in the treatment of knee cartilage lesions, after having previously introduced therein an active visco-elastic substance which contains magnetic nanoparticles bio-functionalized by hyaluronate coating. According to the invention, the orthosis consists of a classic orthosis (1) having, in the knee joint area, a centering recess (a) on top of which there is placed a complement covering (2) provided with some pockets (3) which are fixed to the complement covering (2) by some attachments (4), wherein the magnets (5) are introduced, some other attachments (b) being located in the medial magnet area, the pockets (3) ending at their top part with some resilient elements (c), while some resilient tapes (6) are placed on the perimeter of the classic orthosis (1), the magnets being placed at a certain distance (d) in the vertical plane and having, in the horizontal plane, an angle (α) therebetween.

Description

The invention relates to a knee brace magnet, which creates a magnetic field using several permanent magnets fixed to a classic knee brace worn by the patient during treatment, usable in the treatment of cartilaginous knee injuries, where it was introduced into the knee. previously a viscoelastic active substance, which contains biofunctionalized magnetic nanoparticles by hyaluronate coating.

Known knee braces are known for which the magnetic control of the visco-supplementation is aimed at restoring the viscoelastic quality of the synovial fluid, while improving the rheology as a result of the controlled degradation of hyaluronic acid in the joint. Magnets for medical use in neodymium, especially neodymium-iron-boron (NdFeB), confer a potential analgesic effect through the effect of the static magnetic field created.

The invention has osteoarthritis, a complex condition characterized by a mixture of degradative and reparative processes in the articular cartilage and subchondral bone, associated with the formation of marginal osteophytes and a degree of synovial inflammation. In some countries, the disease is the second cause of incapacity for work in men over 50 years, after cardio-vascular ischemic impairment, over 40% hospitalizations for disabling osteoarthritis in orthopedic services with an average hospitalization duration of more than 9 days. Publications for 1998 showed that more than 20 million people in the US (representing over 5% of the population) had osteoarthritis symptoms. By 2020, osteoarthritis is expected to affect 59.4 million (18.2%) of Americans (National Institute of Health estimates), similar statistics for Europe (Bone and Joint Decade initiative) showing over 25% growth in every 10 years.

The main goals in treating degenerative impairment are to reduce pain, maintain or improve joint mobility, and reduce functional impairment. Intra-articular infiltration with steroidal anti-inflammatory drugs has been used in medical practice for over 50 years, and visceral supplementation over 10 years [Balazs, E.A., Denlinger, J.L., "Viscosupplementation: a new concept in the treatment of osteoarthritis". J Rheumatol Suppl 1993 Aug; 39: 3-9.]. A study of the clinical practices of rheumatologists in the United States shows that over 50% of them use infiltration routinely, and up to 95% discontinued.

Controlled visco-supplementation is a different concept, which aims to restore the viscoelastic qualities of the articular fluid, with the concomitant improvement of the articular fluid rheology, as a result of normalizing the endogenous synthesis and inhibiting the accelerated degradation of the hyaluronate compounds in the joint. Used successfully in veterinary medicine for about 30 years (election treatment in osteoarthritis of horses), in human medicine the method is most recent (after 1997), with studies on the type, molecular weight and density of supplements being used. for optimum effect. In this therapeutic context, the recovery of the patient with cartilage lesions represents a major difference from the majority of the protocols, being an important therapeutic element and supported by modern techniques: arthroscopy, visco-supplementation, chondroprotection. According to current practices, the start of walking recovery can be done in the pool or on specialized equipment. Walking (a closed kinetic chain activity) increases joint compressive strength and increases stability. Through multi-plane movements, gait stimulates proprioceptive feedback from ligaments, tendons, and the joint capsule. The exercises in the open kinetic chain use certain muscle groups and joint functions, the movement being generally uniplanar, aided by various specialized medical support devices, respectively, orthoses, systems with a specific design for each joint and with different purposes, depending on the selected therapeutic target. : protection of certain ligament or muscle groups, loading or unloading

RO 128699 Β1 of certain articular areas [Chew K.Y., Lew H.L., Data E., et al: “Current evidence and 1 clinic! applications of therapeutic knee braces ”. Am J Phys Med Rehabil 2007; 86 (8): 678-686, Pollo, F.E., "Bracing and heel wedging for unicompartmental 3 osteoarthritis of the knee." Am J Knee Surg 1998; 11: 47-50].

The application of the aforementioned therapy is hampered by the lack of a suitable 5-ring magnet. In general, the activity in the field of orthosis design and manufacture is reduced, being addressed more to sports traumatology. Specialized, customized devices, 7 are still a must for many countries.

In the patent literature related to this subject, several models 9 for alternating magnets of different polarity are presented, to produce magnetic fields with different spatial configurations. US Patents 44,89711 / 25.12.1984, US 5277692 / 11.01.1994, 11

US 5514072 / 07.05.1996, US 5538495 / 23.07.1996 presents a variety of magnetic patches and pads having certain geometries, in order to achieve magnetic fields with different 13 configurations, which however has the disadvantage of the patient's lack of comfort.

It is known how to offer or support magnetic therapy by inserting 15 magnets between an orthosis and the associated area of the body. Recently, stronger static magnetic materials have become available on the commercial market, especially on permanent magnets that incorporate the neodymium element (numeratomic 60) that provides strong magnetic fields (over 1 Tesla), at temperatures below 50 ° C. The magnets were also incorporated 19 in flexible materials or similar fabrics, to provide adequate support for placement around the joints. 21

There is also known a magnetic orthosis for the knee or elbow (JPH 11342212 A), which has a support layer provided with a central clearance and a cushion in which 23 magnets are incorporated.

Also known is a magnetic knee brace 25 (US D 510140 S), provided at the central part with a recess and an approximately annular portion, in which some magnets are fixed. 27

The disadvantage of these braces is the lower efficiency of the devices, and the instability during use. 29

The technical problem that the invention solves is to provide a knee brace, which allows for the magnification of the magnets effect in combination with intra-articular administration therapy, under the conditions of increased articular mobility of the user, and rigorous fixation of the device. 33

Magnetic orthosis for the knee according to the invention, which is provided in the area of the ball bearing with a center clearance, solves the technical problem and removes the disadvantages shown 35 above by having a complementary shell, provided with pockets arranged next to some. openings practiced in the complementary shell, fixed by the shell 37 with some fastenings, and ending at the top with elastic elements, pockets in which the magnets are arranged under the action of which a viscoelastic substance, having nano-39 magnetic particles, injected at the joints , is concentrated at the level of the diagnosed area, the magnets being placed relative to each other at a predetermined distance and angle. 41

The orthosis according to the invention is a mixed therapeutic device, composed of a specialized orthosis, with a specific anatomical design (oriented on the specific lesion - femoral-patellar joint, internal or external femoral-tibial involvement), modified to allow insertion of some groups of permanent magnets for therapeutic use. Thus, a knee brace, 45 with magnets, assists in intra-articular therapy (viscoelastic adjuvants), the magnetic nanoparticles of the injected substance are guided under the action of the created magnetic field 47, and concentrated on the diagostic area of the joint defect. for this purpose, on the foot P

RO 128699 Β1 there is a classic orthosis that has in the area of the ball joint a centering clearance, over which there is a complementary casing, provided with pockets fixed to the complementary casing with some fasteners with some magnets, in the middle area of the magnets. some openings in the additional shell, the pockets ending at the top with some elastic elements, and perimeter being arranged on the classical orthosis some elastic bands, the magnets being arranged vertically at a given distance, and horizontally with an angle between them. . The magnets used are designed for medical use, allowing sufficient penetration into human tissues. They can have different shapes, preferably parallelepipedal shape, and can be positioned in a flexible matrix as a structure, determined by the sizes of the distances and angles between the magnets, depending on the target area. The arrangement of the magnets is optimally chosen for the control in the area of the femoral-patellar joint of the knee, but the adaptation can be made according to the location of the joint damage - around the patella, for the patelo-femoral disorders, or around each compartment, respectively, medially or laterally, in tibio-femoral disorders.

The number, dimensions and location of the magnets, as well as the values of the distances and angles between the magnets, as well as the remaining induction of the magnetic field created by them, are determined by analyzes performed with software programs dedicated to modeling and analyzing the magnetic field on the magnetic nanoparticles contained in the injected substance. advance. The elastic bands for adjustment and pretensioning are made of elastic material, allowing the correct positioning of the assembly and the magnets during the treatment. The openings in the form of cuts in the complementary sheath allow maximum mobility in the flexion of the limb, without conflict with the soft tissues.

The advantage of the invention is given by the fact that a magnetic field is created that concentrates the substance in the affected compartment, in which it is desired that the properties of the previously introduced viscoelastic substance be maximum, due to the properties of the biofunctionalized magnetic nanoparticles by coating with hyaluronate, thus removing load the affected articular cartilage, giving it time for healing. The substance injected into the joints, under the action of the external magnetic field, created by the magnets located in a given matrix, gives elasticity and supple cartilage in the desired areas, maintaining or improving joint mobility, and minimizing functional deterioration. There is a restoration of the viscoelastic quality of the synovial fluid, together with the improvement of the rheology, as a result of the controlled degradation of the hyaluronic acid in the joint. The invention confers a potential analgesic effect through the effect of the created static magnetic field.

Another advantage of the invention is that the proposed design of the orthosis allows adaptation to the anatomy of the patient, offers ease in fixation and use, allowing kinetotherapy (assisted and protected mobilization), the solution allowing the flexion of the limb without the request of soft tissues of the knee by the magnets.

An example of embodiment of the invention is given below, in relation to the figures which represent:

FIG. 1, longitudinal section through the magnetized orthosis, for the knee, according to the invention;

FIG. 2, cross-section through the knee having the magnetized orthosis of fig. 1.

The orthosis with magnets, for the knee, is placed on the P-leg and is made of the classic orthosis, which has in the area of the ball joint a centering clearance of, over which there is a complementary cover 2, provided with some pockets 3, fixed to the complementary cover 2 with some fasteners 4, in which the magnets 5 are arranged, in the middle area of the magnets being practiced some openings b, the pockets 3 ending at the top with some elastic elements c, and perimeter being placed on the classical orthosis some elastic bands 6, the magnets being arranged vertically at the distance d, and horizontally with the angle a between them.

RO 128699 Β1

The magnets used are designed for medical use, having dimensions, preferably 1 order 2 ... 3 cm, a wide field of about +1000 Gauss at the surface, which allows sufficient penetrability in human tissues, for example, about 50 cm. Magnets 3 with the composition having the international codes N38, N40 can be used. They may have different shapes, preferably, parallelepipedal shape, and may be positioned in a flexible matrix as a structure, 5 determined by the sizes of the distances d and angles between magnets a depending on the target area, respectively, peri-rotulian, inter-tibio- femoral etc. The optimum arrangement of the magnets is chosen 7 for the control in the area of the femoral-patellar joint of the knee, but the adaptation can be made depending on the location of the articular involvement - around the patella for the 9 patelo-femoral disorders, or around each compartment, respectively, medially or laterally, in the tibio-femoral disorders. 11

The number, dimensions and location of the magnets, as well as the values of the distances d and of the angles between the magnets a, as well as the remaining induction of the magnetic field created by them 13 are determined by analyzes performed with software programs dedicated to modeling and analyzing the magnetic field on the magnetic nanoparticles contained by the substance. 15 previously injected. The magnets 5 can be attached to the complementary cover 2 using the pockets 3, or in the usual way, using adhesives, plastic supports, etc. 17

The elastic bands 6, for adjustment and pretensioning, are made of elastic material, for example, detipneoprene; the bands may, for example, be bandeletevelcro, allowing the correct positioning of the assembly and the magnets during the treatment.

The openings b, in the form of cuts in the complementary sheath, allow maximum mobility in the flexion of the limb, without conflict with the soft tissues.

Claims (4)

1. Magnetic orthosis, for the knee, provided in the area of the ball joint with a centering clearance (a), characterized in that it has a complementary cover (2), provided with pockets (3) arranged next to openings (b). ) practiced in the complementary casing (2), fixed by the casing with some fastenings (4), and ending at the top with some elastic elements (c), pockets (3) in which the magnets (5) are arranged under the action of which a viscoelastic substance, having magnetic nanoparticles, injected at the joint level, is concentrated at the level of the diagnosed area, the magnets (5) being placed relative to each other at a predetermined distance and angle. Orthosis according to claim 1, characterized in that the magnets (5) are preferably of a parallelepipedal shape and are positioned in a flexible matrix as a structure, determined by the value of the distance and angle between the magnets, depending on the target area. 3. Orthosis according to claim 1, characterized in that the number, size and location of the magnets (5), respectively, the value of the distance and angle between the magnets, as well as the remaining induction of the magnetic field created by them, are determined by means of software programs dedicated to modeling and the analysis of the magnetic field on the magnetic nanoparticles contained by the viscoelastic substance previously injected. 4. Orthosis according to claim 1, characterized in that the openings (b) practiced in the complementary sheath (2) allow maximum mobility in the flexion of the member, without conflict with the soft tissues.