RU2164787C1 - Stereotactic method for carrying out local destruction of functionally significant brain structures - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves using high intensity diode or neodymium laser radiation delivered to intervention place through a light guide. Radiation power is 0.5-1.5 W. Destruction procedure is applied at least once. EFFECT: enhanced effectiveness of treatment; excluded postoperative complications. 1 tbl

Description

 The invention relates to surgery, more specifically to neurosurgery, and can be widely used in the treatment of diseases such as epilepsy, parkinsonism, spasmodic torticollis, torsion muscle dystonia, cerebral palsy, drug addiction, mental illness, pain syndromes, etc.

 One of the most important problems of stereotactic surgery is the development of the most effective, simple and safe method of destruction of brain tissue. The severity and persistence of the therapeutic effect of the operation, as well as the frequency and severity of postoperative complications, largely depend on the destruction method used.

An ideal method of local destruction should meet the following requirements:
- the possibility of destruction of a predetermined volume of brain tissue, i.e. obtaining a focus of destruction of a given size and shape. To achieve this goal, a direct relationship is necessary between the size of the lesion and the amount of destructive agent used;
- minimal perifocal reaction of brain tissue to the destruction site, which should be clearly limited from neighboring brain structures. The smaller the reaction, the lower the risk of damage to the surrounding formations;
- the absence of harmful or damaging effects on the brain as a whole with a minimal overall brain reaction to the destruction site, which ensures good tolerance of the operation without any complications;
- the method should almost completely eliminate the risk of a damaging effect on the blood vessels of the brain in order to minimize the likelihood of intracerebral hemorrhage;
- the destruction of brain tissue should not take much time, and the practical application of the method should be convenient and simple.

 Known stereotactic method of local destruction of functionally significant structures of the brain, involving exposure to a destructive agent, brought to the site of intervention through a conductor. As a destructive agent in the known method, cold is used (see the book by E.I. Kandel "Functional and stereotactic neurosurgery". - M .: Medicine, 1981, pp. 96-105).

 The method of cryodestruction involves the formation of foci of cryonecrosis in the deep structures of the brain. When implementing this method, a sufficiently low temperature is maintained at the distal end of a thin instrument inserted into the brain, which can turn a predetermined volume of brain tissue into ice.

 The method allowed to significantly expand the indications for operations in patients who were previously considered inoperable by age or severity of the disease. The number of various postoperative complications, in particular mental disorders, decreased significantly: after 500 operations performed using cryodestruction, the mortality rate was 0.9%. Significantly increased security and increased efficiency of stereotactic operations.

 However, during cryodestruction, it is necessary to exclude cold damage to the brain tissue surrounding the entire length of the cannula. This is a rather complicated technical task, providing for the separation of the cannula body from the cold line either with reliable vacuum insulation, or embedding the thinnest thermocouple or other no less complicated methods, which in turn complicates the known method.

 Moreover, all known methods that exclude cold damage to brain tissue increase the diameter of the cannula and, as a result, increase the bar channel formed in the brain tissue, thereby damaging its larger volume.

 Thus, despite the fact that the method of local freezing is much safer than other methods of destruction, it is not possible to completely eliminate lethality after this operation. In addition, there are postoperative complications, in particular mental disorders.

 There is a known stereotactic method for local destruction of functionally significant brain structures, selected as the closest analogue, providing for thermal exposure to a destructive agent brought to the site of intervention through a conductor (see book by E.I. Kandel "Functional and stereotactic neurosurgery." - M .: Medicine, 1981, pp. 107-109).

 This method is a coagulation of brain tissue with a high frequency sinusoidal current. With the passage of a high-frequency current through the brain tissue, a high temperature develops in it, which is the cause of the destruction of nerve cells and fibers. The focus of destruction after high-frequency electrocoagulation is the central zone of necrosis, surrounded by a zone of incomplete damage to the surrounding brain tissue.

 Many studies conducted to assess high-frequency coagulation, as well as morphological control during autopsy and in the experiment, showed that this method gives defined and reasonably controlled foci.

 However, with high-frequency electrocoagulation, a "deposit" occurs around the active end of the electrode with the coagulated tissue "welded" to it. In this regard, after removal of the electrode, tearing of this “deposit” and mechanical damage to the brain tissue with subsequent bleeding and the formation of intracerebral hematoma are possible. Another danger is that local heating of the vascular wall can subsequently lead to aneurysmal protrusion with possible rupture and hemorrhage.

 To prevent complications, it is necessary to carry out high-temperature coagulation under temperature control to ensure a constant temperature of the electrode end for the required time, which greatly complicates the method.

 Thus, the technical result, the solution of which the invention is directed, is to increase the efficiency of the method of local destruction by simplifying it, eliminating postoperative complications and increasing its safety.

 The specified technical result is achieved by the fact that in the known stereotactic method for local destruction of functionally significant brain structures, providing for thermal exposure to a destructive agent brought to the site of intervention through a conductor, according to the invention, high-intensity radiation of a diode or neodymium laser with a power of 0.5 is used as a destructive agent - 1.5 W, and exposure to a destructive agent is carried out at least once.

 The use of high-intensity radiation of diode or neodymium lasers as a destructive agent can significantly increase the efficiency of the stereotactic method of local destruction of functionally significant brain structures.

 This is achieved by increasing the safety of the method due to the fact that high-intensity laser radiation eliminates the appearance of coarse scars and reduces perifocal edema of brain tissue, thereby reducing the likelihood of postoperative complications.

 The use of high-intensity laser radiation provides a more predictable destruction result, in particular, the shape and volume of the destruction center, which also increases its efficiency.

 In addition, the ability to quickly stop the destruction process contributes to an even greater degree to increase its effectiveness, as well as simplify the method.

 The applicant experimentally selected modes of exposure to functionally significant structures of the brain with high-intensity laser radiation: the radiation power for diode or neodymium lasers is 0.5 - 1.5 watts.

 It has been experimentally established that the use of high-intensity radiation from diode or neodymium lasers for local destruction of functionally significant brain structures with powers less than 0.5 W is insufficient for the qualitative destruction of these brain structures.

 The use of high-intensity laser radiation from diode or neodymium lasers with powers greater than 1.5 W can cause too extensive damage to tissues of these brain structures, their edema, as well as rupture of large vessels.

 The possibility of effecting a destructive agent on functionally significant brain structures at least once, i.e. if necessary, a larger number of times, to an even greater extent, allows to increase the efficiency of destruction of these brain structures. This is achieved by improving the quality of destruction, without affecting the safety of the method and without causing postoperative complications.

 The set of essential features of the claimed object "method" has differences from the prototype and does not follow explicitly from the studied prior art, which indicates in the opinion of the applicant about his "novelty" and "inventive step".

 The inventive method can be widely used in stereotactic neurosurgery, which indicates its "industrial applicability".

 The method is as follows.

 The choice of purpose, i.e., the structure to be destroyed, is made before the operation. The position of the biological object on the operating table depends on the method of stereotactic surgery.

 The treatment of the surgical field is the same as with other neurosurgical operations.

 Anesthesia methods are different depending on the nature of the operation and its task.

The main stages of this method are:
1. Anesthesia and trepanation.

 2. Installation of a stereotaxic apparatus.

 3. Calculation of the structure to be destroyed by NMR studies.

 4. Preliminary calculation at the phantom of the accuracy of the conductor to a given structure (to the place of intervention).

 5. Leading the conductor.

 6. Joint with a conductor or a separate lead to a given structure (place of intervention) of a laser fiber (fiber diameter 0.3 - 0.5 mm).

 7. Checking the accuracy of the conductor (with the optical fiber) getting to the place of intervention by the electrophysiological method (removal of the EEG, electrical stimulation using electrodes).

 8. Directly local destruction of a given brain structure by high-intensity laser radiation using diode or neodymium lasers with powers of 0.5-1.5 watts.

 Local destruction of functionally significant brain structures is carried out using neodymium with a wavelength of 1064 nm and diode with a wavelength of 805 or 985 nm lasers in constant or pulsed modes.

 The objects of exposure to high-intensity laser radiation are functionally significant brain structures: cerebral cortex (gyrus); subcortical nuclei; cingulate gyrus; amygdala; anterior third of the anterior thigh of the inner capsule.

 The time of exposure of high-intensity laser radiation to functionally significant structures of the brain depends on the nature of the disease, on the structure of the exposure, on the size of the destruction focus and other indicators, on the type and parameters of laser radiation, and can range from 10 seconds to 1 minute.

 Checking the accuracy of the conductor with the fiber to the point of intervention is carried out electrophysiologically (for example, by removing the EEG or by using electrostimulation using electrodes) by the method or radiological. When using the electrophysiological method, the standing of the conductor is estimated by the amplitude and type of signal.

 The depth of introduction of the conductor with the fiber is also a quantity that depends on many indicators, in particular on the depth of the location of a given structure.

 After determining the location of the conductor, high-intensity laser radiation of diode or neodymium lasers with a power of 0.5 - 1.5 W is applied to predetermined functionally significant brain structures.

 After the destruction is completed, the fiber with the conductor is removed, the stereotactic apparatus is removed, and the quality of the destruction is monitored using NMT or clinically. In the absence of a positive clinic with confirmation of the unsatisfactory quality of destruction during nuclear magnetic resonance, the local destruction procedure is repeated as many times as necessary, correcting the place, type and modes of exposure to high-intensity laser radiation.

 At biological objects, the quality of destruction is determined by pathomorphological studies, which consist in the fact that the studied biological object is clogged after 1, 2, 3 or more days, the tissue of the destruction site is taken for examination, and with the complete death of nerve cells in the destruction zone and a given destruction area, the quality of destruction considered satisfactory. Additionally, in a chronic experiment, the quality of destruction is determined by a positive clinic.

 The proposed method is illustrated by examples.

 Example 1. A biological object weighing 4 kg. The diagnosis is experimental addiction. The object is placed on the stomach, under an intravenous anesthesia, a trepanation hole is applied and a stereotactic apparatus is installed. Calculation of the structure to be destroyed by NMR studies. As a functionally significant structure, the lumbar gyrus was selected. A preliminary calculation of the accuracy of bringing the conductor to a given structure is carried out, after which the conductor is brought to the place of intervention. The accuracy of the conductor is checked by removing the EEG. The destruction is carried out by radiation of a diode laser with a wavelength of 985 nm, a power of 0.5 W for 10 seconds in continuous mode, after which the fiber is removed, the stereotactic apparatus is removed. Destruction quality control is determined using NMT. NMT showed a high quality of destruction - a given size of the destruction zone in a strictly calculated place. Repeated exposure was not required.

 Observation of the biological object for 8 days showed a positive clinic: the absence of a detailed syndrome, improvement of well-being, etc.

 Other examples of specific applications are summarized in table.

Claims (1)

 A stereotactic method for local destruction of functionally significant brain structures, which involves thermal exposure to a destructive agent brought to the site of intervention through a conductor, characterized in that high-intensity laser radiation of diode or neodymium lasers with a power of 0.5-1.5 W is used as a destructive agent, and exposure to a destructive agent is carried out at least once.

Images