RU2459642C2 - Method of treating traumatic neuropathies - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly neurotraumatology. A method involves using pharmacological preparations and physiotherapeutic procedures. As pharmacological preparations, neuromedin, vitamins B₁ B₁₂, trental are administered. The physiotherapeutic procedures involve trasspinal exposure of the spinal cord and cerebrospinal roots at a level of the occurrence of the roots involved in injured nerve formation to pulse magnetic field. The exposure includes rhythmed pulses at frequency 3 Hz at intensity 1.5-2 T. Duration of a session is 5-7 minutes. The therapeutic course is 10-15 procedures.

EFFECT: method provides reduced length of treatment and higher degree of body functional recovery ensured by the integrated treatment involving exposure on the injured region.

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Description

The invention relates to medicine, in particular neurotraumatology, and can be used to treat traumatic nerve damage.

There is a method of treating traumatic neuropathies by prescribing anticholinesterase drugs (proserin, etc.), B vitamins, vascular preparations (trental), massage, physiotherapeutic procedures (Roelofs R.I. Treatment of peripheral neuropathies // Treatment of nervous diseases: Transl. From English. - M., 1984. - S.189-239; Akimov G.A., Odinak M.M., Zhivolupov S.A., Silyavin S.B., Shapkov Yu.T. Modern ideas about pathogenesis, diagnosis and treatment of traumatic lesions of nerve trunks of limbs (review) // Journal of Neuropathology and Psychiatry named after Kor Sakova. - 1989.- T.89, issue 5. - S.126-132).

The disadvantage of this method is the duration of treatment and the inferiority of the restoration of functions.

The purpose of the invention:

- reduce treatment time

- increase the efficiency and degree of restoration of functions.

The goal is achieved in that, along with traditional treatment, patients are injected with neuromidine and transspinal magnetic stimulation in the form of rhythmic pulses (with a frequency of 3 Hz) with an intensity of 1.5-2 T, the duration of the session is 5-7 minutes. The number of procedures is from 10 to 15 per treatment course. Transspinal magnetic stimulation is a method of applying a pulsed magnetic field to the spinal cord and spinal roots in the area of their projection along the midline of the back.

The method is implemented as follows: for a patient with traumatic neuropathy, the following procedures are performed daily: physiotherapeutic procedures, massage, neuromidine (15 mg IM daily for 10 days, and then 20 mg 3 times a day orally for 20 days), vitamin B ₁ 2 ml IM every other day, vitamin B ₁₂ 2 ml IM every other day, trental 0.4 1 tablet 3 times a day inside. And along with this, transspinal magnetic stimulation is carried out in the form of rhythmic pulses (with a frequency of 3 Hz) with an intensity of 1.5-2 T, the duration of the session is 5-7 minutes. The number of procedures is from 10 to 15 per treatment course. The courses are repeated with a break of 2 months. There are 3 such treatment courses. Magnetic stimulation is carried out by a stimulating round coil of a Mag-2 magnetic stimulator with a diameter of 8-10 cm, which is superimposed on the spine along the midline at the level of the spinal roots involved in the formation of the damaged nerve (for example, in the cervical or lumbar region thickening).

The innovation in our method is the combined use of traditional methods of treatment, neuromidin and transspinal magnetic stimulation.

Clinical example: Patient K., 27, a volleyball player, has been in the clinic of military traumatology and orthopedics since 05/19/09 because of damage to the anterior cruciate ligament of the left knee joint, bilateral arthrosis of the knee joints, intraarticular bodies of the right knee joint. 05/25/09, during the operation (meniscectomy), the common peroneal nerve was accidentally compressed by the Farabeh hook at the level of the popliteal fossa for 5-10 minutes. During our examination on 06.06.09, she complained of pain in the area of the postoperative suture, the impossibility of extension of the right foot in the ankle joint. Objectively: weak convergence on the left, slight deviation of the tongue to the left, otherwise cranial nerves without pathology. Deep reflexes on the arms and legs are animated, (D> S). On examination, the right foot hangs, the fingers are bent. The contours of the extensor extensor tendons are not visible. Hypotension of the extensor muscles of the right foot and fingers. The right foot is cold, mild hyperhidrosis of its dorsum. There are no active extensor movements in the right ankle joint, and passive movements in full. Pain and temperature sensitivity are sharply reduced in the first interdigital space on the right foot. Hyperesthesia on the plantar surface of the right foot. The trunk of the right fibular nerve during pain on palpation below the head of the fibula is painful. With percussion in the popliteal fossa, paresthesia appears in the first interdigital space of the right foot.

Additional research methods.

1. Magnetic diagnostics (dated 10.06.09): a slight weakening of the electroexcitability of the right fibular nerve (muscle contraction is observed when the nerve is irritated by an electromagnetic field of 2.5 T), the contraction of the muscles corresponding to the right fibular nerve is somewhat slowed down. 2. Global EMG. The absence of arbitrary bioelectric activity of the extensor muscles of the right foot was found; on the left, the readings of the bioelectric activity of the same muscles are normal. 3. ENMG: during electrical stimulation of the right peroneal nerve, the M-response in the extensor muscles of the foot is not caused; SRV in the distal part of the left fibular nerve is 52 m / s. A sensory low-amplitude action potential of the right peroneal nerve and CHD was obtained; on the contralateral side, these indicators were close to normal. Diagnosis: compression damage to the right peroneal nerve at the level of the popliteal fossa as a partial axonal break with moderate impaired motor and sensory function of the limb. Conducted a comprehensive treatment: injections of vitamins B1 2 ml IM every other day, B12 2 ml IM every other day, neuromidine 15 mg IM every day for 10 days, and then 20 mg 3 times a day by mouth for 20 days , trentalum 0.4 3 times a day inside. Transspinal magnetic stimulation (with a frequency of 3 Hz) with an intensity of 1.5-2 T, the duration of the session is 5-7 minutes. Number of procedures 15. Twice the patient received spa treatment. A distinct improvement in clinical and electrophysiological parameters occurred 5 months after the injury. The patient continues to engage in volleyball.

To prove the effectiveness of the proposed method of treatment, an observation was performed on rats: modeling of compression-ischemic neuropathy was carried out. A strong short-term (30 seconds) compression effect was applied to the open sciatic nerve of the rat at the level of the middle third of the thigh with jaws of the vascular clamp, after which the wound was sutured in layers and the animal was placed in a cage. Then the animals (20 rats) were divided into two equal groups: the control group (treatment with neuromidine at a dose of 0.07 mg daily for 15 days) and the main group, in which the experimental animals underwent rhythmic pulsed magnetic stimulation of the spinal cord and spinal roots (in connection with that the sciatic nerve, which is formed from the roots of the lumbar thickening, was injured, the stimulation was carried out at the level of the lumbar spine with an intensity of 0.8-1 T, a frequency of 3 Hz and a duration of 3-5 minutes for a month after compression of the nerve) and led neuromidin (intramuscularly at a dose of 0.07 mg daily for 15 days). To study the neuromorphological features of natural and modulated neuroplasticity in an experimental CIN, light-optical and electron-microscopic studies of the sciatic nerve of rats of both groups in the compression zone were performed 1 month after the start of the experiment.

Material for electron microscopy was also prepared according to standard methods (Mironov A.V., Komissarchik Y. Yu., Mironov A.A., 1995). Histological sections of the sciatic nerve, prepared by conventional neurohistological methods and stained with hematoxylin and eosin, according to the methods of Van Gieson and Mallory, were studied by light microscopy. Semi-thin sections of a nerve up to 1 μm thick were stained using the Nissl method for light microscopy, and ultrathin sections from the same section of a nerve 300–500 nm thick were contrasted, examined with a LEO-910 electron microscope, photographed on a Kodak film, scanned and described on a computer image . Thus, according to the histological studies of the experimental CIN, a significant improvement in compensatory-recovery processes (neuroplasticity) using high-frequency IC was revealed. This was manifested in a decrease in the manifestations of inflammation and demyelination, a decrease in the number of cells entering into apoptosis, and an intensification of the repair processes of lemmocytes and myelin fibers. The presence in our experiment after 1 month in the sciatic nerve of rats of the control group of demyelination sites in the form of “foamy myelin” coincides with a description of similar changes obtained when studying the scrapie model in hamsters and spongiform encephalopathy of livestock (Liberski PP, Yanagihara R., Wells GA, 1992 ) The data obtained on the splitting of lamellae in myelin fibers, macrophage myelophagia coincide with the results of a study of the optic nerves in the model of Creutzfeldt-Jakob disease, Gerstman-Strassler disease and scrapie (Walls A., Bratosiewicz J., Sikorska B., 2003). Similar data were obtained in the study of demyelination as a result of congenital neuropathy (Moss T.N., 1981), experimental allergic encephalomyelitis (Onishchenko L.S., 2000) and diabetic neuropathy (Fazan VP, Rodrigues Filho OA, Jordão C.E., 2009 .). In light of the foregoing, demyelination in the form of thickening and delamination of lamellae is a widespread pathology of myelin in various diseases, while “foamy” myelin is described only in experimental spongiform encephalopathies and injuries of peripheral nerves.

Relevance: traumatic neuropathies are an urgent problem of modern neurology due to their significant prevalence, long treatment periods, frequent disability of patients of working age due to the incomplete restoration of lost functions.

Claims (1)

A method of treating traumatic neuropathies using pharmacological preparations, physiotherapeutic procedures, characterized in that neuromidine, vitamins B ₁ , B ₁₂ , trental are used as pharmacological preparations, and physiotherapeutic procedures are carried out by transspinal action of a pulsed magnetic field on the spinal cord and spinal roots on the level of entry of the roots involved in the formation of the damaged nerve by rhythmic pulses with a frequency of 3 Hz, with an intensity of 1.5-2 Tesla, duration Iew a session of 5-7 minutes and the number of procedures from 10 to 15 per treatment course.