RU2086227C1 - Method for treating neurovascular orbital structures injuries - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves injecting ATP into the acupuncture points in the orbital region and then performing contactless magnetic perosseous stimulation of the neurovascular orbital structures and vision centers in the cerebral cortex. Immediately after applying magnetic stimulation, low frequency electric neurostimulation of sensory and vegetative fibers of the optic nerve and trifacial nerve branches is carried out. Immediately after applying the stimulation, percutaneous electric stimulation of the orbital region is carried out by applying sinusoidal modulated current. EFFECT: repaired function of every orbital nerve and blood circulation in the orbital region. 1 tbl

Description

 The invention relates to medicine, namely neurosurgery, neuropathology, neuroophthalmology and physiotherapy, and can be used to treat patients, adults and children, with injuries and diseases of the nerves and blood vessels of the orbit as a result of neurosurgical operations, traumatic, vascular and inflammatory lesions.

 A known method of treating lesions of the neurovascular structures of the orbit by endonasal electrophoresis of noshpa and trental (Morozov V.I. Yakovlev A.A. Pharmacotherapy of eye diseases. M. Medicine, 1989. S. 177). However, the known method is aimed at improving blood circulation in the orbit and does not allow to restore the function of the nerves of the orbit, since the stimulation of nerve structures is not carried out.

 The prototype of the proposed method is a method of treating lesions of the neurovascular structures of the orbit by electromyostimulation with a sinusoidal modulated current (The use of electrical stimulation in the rehabilitation treatment of patients with cerebral impairment. Method. Recommended. Kiev, 1986. p. 11). Moreover, after instillation of dicain into the conjunctiva of the eye, an active electrode is placed on the outer surface of the eyeball near the attachment of the oculomotor muscles and paretic muscles are stimulated in patients with damage to the oculomotor nerves.

The disadvantage of this method is the inability to restore the function of all the nerves of the orbit and blood circulation in the orbit, namely, the known method does not allow:
restore the function of sensitive and vegetative fibers of the optic and trigeminal nerves, as in the known method they stimulate the muscles with physiological currents for muscle tissue, but do not stimulate the nerves;
effectively stimulate the oculomotor nerves, since in the known method stimulate only the muscles through the electrodes on the outer surface of the eyeball and there is no direct stimulation of the oculomotor nerves in the depths of the orbit;
restore blood circulation in the orbit, since the electric current in the known method acts only on the outer surface of the eyeball and does not affect vessels located deep in the orbit;
in addition, dicaine blocks conjunctival receptors, which prevents the restoration of trigeminal function, the innervation zone of which is the conjunctiva. In this case, the electrodes located on the eyeball during the procedure injure the conjunctiva, which is extremely unfavorable for patients with trigeminal lesions and conjunctival denervation.

 The invention is aimed at creating a method for treating lesions of the neurovascular structures of the orbit, allowing to restore the function of all the nerves of the orbit and blood circulation in the orbit.

 The essence of the method lies in the fact that ATP is first injected into the acupuncture points of the orbit, which can quickly increase muscle contractility, metabolism and blood flow in the tissues of the orbit. The orbit tissues prepared by chemical and reflex pathways conduct non-contact magnetic stimulation of the orbit nerve-receptor structures of the orbit, the neurovascular structures of the orbit deep in the orbit and the visual centers in the cerebral cortex.

 A pulsed magnetic field with an amplitude of magnetic induction of 0.5 to 3.0 T and a frequency of 0.1 to 0.2 Hz induces an electric current in the nerve tissues of the orbit and allows it to directly stimulate all the nerves of the orbit, increases the excitability in the cerebral cortex and directly stimulates the visual centers. With such magnetic stimulation, the patient may experience a sensation of a flash of light (phosphene) due to excitation of the optic nerve, projection sensations in the skin of the eyelids and forehead due to excitation of the trigeminal nerve, tearing due to excitation of the vegetative fibers of the lacrimal gland, twitching of the eyeball and eyelids due to excitation oculomotor neuromuscular apparatus and circular muscle of the eye. In addition, the magnetic field improves blood circulation, trophism and reduces edema in both superficial and deeply located tissues of the orbit, directly stimulates blood flow in the main vessels of the orbit.

 Immediately after magnetic, a low-frequency electroneurostimulation of sensitive and autonomic fibers of the optic nerve, branches of the orbital and infraorbital nerves (branches of the trigeminal nerve) is performed. Such stimulation allows you to directly restore the function of these nerves, as well as indirectly through biological feedback due to afferent impulse and excitation of the middle structures of the brain to increase the functional ability of the oculomotor centers and the corresponding neuromuscular apparatus and prepare the latter for direct stimulation.

 Immediately after electroneurostimulation, percutaneous electromyostimulation is performed with a sinusoidal modulated current in the region of the orbit and forehead. The vascular reaction that occurs in muscle tissue reflexively also stimulates blood circulation and reduces edema in deeply located tissues of the orbit.

 The inventive method differs from the prototype in that ATP is additionally injected at the acupuncture points of the orbit, magnetic stimulation and low-frequency electroneurostimulation are performed.

 The method is as follows: a patient in a supine position is injected subcutaneously with 0.3 0.5 ml of ATP at 2 points of acupuncture of the orbit, changing points in each subsequent procedure. After 1 5 min, magnetic stimulation begins. An inductor with a diameter of 9 cm is applied to the upper eyelid of the closed eye and stimulated with an amplitude of magnetic induction of 0.5 T, then on the temple area and stimulated with an amplitude of 1.5 2.0 T, then on the occipital region and stimulated with an amplitude of 2.0 3.0 T. Each field is affected for 20 s 1 min.

 For low-frequency electroneurostimulation, an electrode with a diameter of 2.5 mm is sequentially applied to the projections of the optic nerve at the inner corner of the eye, the branches of the orbital nerve at the upper edge of the orbit, and the branches of the infraorbital nerve at the lower edge of the orbit. Stimulate by alternating current with a frequency of 5 Hz, a pulse duration of 5 MS, a voltage of 5 10 V for 1 5 minutes

 For percutaneous electromyostimulation with a sinusoidal modulated current, a bipolar electrode is sequentially applied to the upper and lower edges of the orbit and the forehead muscle projection. Stimulate 4 fields of 1 2 min each.

 The dose of exposure depends on the age of the patient and the volume of damage to the neurovascular structures of the orbit.

 The method is developed in the Russian National Research Institute of Chemical Technology. prof. A.L. Polenova also underwent clinical trials in the treatment of 15 patients with combined or isolated lesions: optic, oculomotor, block, abducent nerves, trigeminal branches, facial nerve with impaired function of the lacrimal gland, orbit vessels.

 Example. Extract from the medical history N 1323-93. Patient R., aged 15, was treated at the institute from 13.9.93 to 11.26.93 with a diagnosis of craniopharyngioma, a condition after subtotal removal of the tumor. Upon receipt of the pathology of the neurovascular structures of the orbit was not detected. On October 20, 2009, osteoplastic trepanation of the skull and total removal of the tumor were performed, basal arachnoiditis was detected, and when the tumor was isolated, vessels near the nerves were coagulated before they entered into orbit. On October 21, 93, craniotomy and epidural hematoma were performed.

 In the postoperative period marked on the left: decreased visual acuity; complete ptosis, paralysis of muscles innervated by the oculomotor nerve; hypesthesia 2 points in the zone of innervation of the ophthalmic nerve, swelling of forehead tissues and paralysis of the frontal muscle and the muscle wrinkling the eyebrow; pale spot of forehead, worse when crying.

 According to the proposed method, ATP was introduced into the acupuncture points of the left orbit, magnetic stimulation was performed in 3 fields of 30 s each, low-frequency electroneurostimulation for 5 min and electromyostimulation with a sinusoidal modulated current in I mode, 2 types of work, modulation frequency 30 Hz, modulation depth 75% with a ratio of current and pause 2: 3 in 4 fields for 2 min each. Performed 8 daily procedures. Control was carried out every 3 procedures (table. 1). The function of the muscle raising the upper eyelid was evaluated by the size of the palpebral fissure in mm and its restoration was judged by the increase in the size of the palpebral fissure. To assess the function of the oculomotor muscles, the distance from the inner edge of the iris to the inner corner of the eye was measured when the eyeball was turned inside, and restoration was judged by reducing this distance. The restoration of blood circulation was judged by the disappearance of a pale spot on the skin of the forehead and edema. The sensitivity and strength of the muscles of the frontal region were evaluated in points.

 The table shows that the restoration of the function of the neurovascular structures of the left orbit began during treatment and was noted after 3 procedures. After the course of treatment, the function of the optic, oculomotor nerves, ocular nerve, and forehead muscles improved significantly, forehead edema disappeared, and the blood circulation of the forehead and orbit improved.

 Thus, in a patient with severe damage to the oculomotor nerve, optic nerve, orbital nerve, vessels of the left orbit that arose after total removal of craniopharyngioma, a significant restoration of the function of all the affected neurovascular structures of the left orbit was obtained after a course of combined drug-induced electroneurostimulation and magnetic stimulation.

The proposed method has the following advantages compared with the prototype allows you to restore the function of all the nerves of the orbit and blood circulation in the orbit due to:
multilevel magnetic stimulation of all neurovascular structures of the orbit, which allows you to effectively restore the function of nerves and blood vessels located deep in the orbit;
the introduction of ATP into the acupuncture points of the orbit, which allows you to optimally, quickly improve muscle contractility, blood flow and tissue metabolism of the orbit;
low-frequency electroneurostimulation of sensitive and vegetative fibers and orbit receptors, which allows the most physiologically restore the function of the optic and trigeminal nerves;
stimulation of the visual analyzer all the way from the neuro-receptor apparatus during percutaneous magnetic stimulation and low-frequency electroneurostimulation, transverse magnetic stimulation of the orbit to the visual center in the cerebral cortex during transverse magnetic stimulation of the occipital region;
percutaneous electromyostimulation and the exclusion of inhibitory effects on the affected neuro-receptor apparatus of dicain and the damaging effects on the denervated conjunctiva of the electrodes.

Claims (1)

 A method of treating lesions of the neurovascular structures of the orbit by electromyostimulation with a sinusoidal modulated current, characterized in that they additionally inject ATP into the acupuncture points of the orbit, carry out magnetic stimulation and low-frequency electroneurostimulation.

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