RU2210326C1 - Method for treating chronic arterial ischemia of limb - Google Patents

Abstract

FIELD: medicine, vascular surgery. SUBSTANCE: one should carry out perforation of bony tissue and stimulation of bone marrow due to high-intensive laser radiation for 5-10 sec. In space between distal and proximal osseous segments one should form, also, additional canals in muscular tissue by the circumference along the limb. The method enables to decrease traumaticity level. EFFECT: increased efficiency of revascularization. 2 ex

Description

 The invention relates to medicine, in particular to vascular surgery, and is intended for the treatment of chronic arterial limb ischemia that occurs with obliterating endateritis and atherosclerosis, post-thromboembolic circulatory failure, bandaged vessel syndrome.

 There is a method of treating chronic arterial limb ischemia by the formation of new vascular connections, which involves perforating bone tissue through the skin and soft tissues on the distal and proximal segments to the medullary canal, followed by bone marrow irritation (see ed. St. USSR 1061803, M.cl. A 61 B 17/00, publ. 12/23/1983).

 According to the authors of this method, the formation of new blood vessels is significantly activated and the blood supply to the limb segments is increased.

 However, as you can see, this method is quite traumatic, since it provides for such traumatic transitions as separation with a chisel or saw bone fragments.

 This method is also quite long, since it involves postoperative distraction of bone fragments, which on the femoral segment begins only on the 4th-5th day and lasts 30-40 days, and on the lower leg - on the 7th-9th day after the operation and is carried out for 40- 60 days, after which the fixation by the apparatus continues for 2-4 weeks until the bone regenerators are densified.

 A known method of treating chronic limb ischemia, selected as the closest analogue, comprising performing osteoperforations along the lower leg and thigh with subsequent irritation of the bone marrow and additional dosed mechanical effect on the contents of the medullary canal of the metatarsal bones to obtain clinical signs of improved blood supply to the foot (see application RU 99109887 / 14, M. cl. A 61 B 17/56, publ. 02.20.2001).

 This method activates the formation of new blood vessels and increases the blood supply to the limb and foot segments.

 However, this method remains traumatic and lengthy. In addition, the effectiveness of this method increases slightly.

 Thus, the technical result, the solution of which this invention is directed, is a significant reduction in the morbidity and duration of the known method and a significant increase in its effectiveness.

 The specified technical result is achieved by the fact that in the known method of treating chronic arterial limb ischemia by the formation of new vascular connections, comprising perforating the bone tissue of the limb to the medullary canal followed by irritation of the bone marrow, according to the invention, formation is performed in the muscle between the distal and proximal bone segments tissue of additional channels located around the circumference along the limb, while perforating bone tissue, The formation of additional channels and bone marrow irritation is carried out using high-intensity laser radiation and a bone marrow irritation time of 5-10 s.

 The formation in the muscle tissue in the interval between the distal and proximal bone segments of additional channels located around the circumference along the limb, significantly improves the effectiveness of the method of treatment of limb ischemia.

 This is due to the fact that in the interval between the proximal and distal bone segments an additional network of small arteries is formed, which successfully compensates for the absence of blood flow in this segment of the limb.

 The presence of a network of small arteries significantly accelerates the normalization of blood flow and, as a result, reduces the duration of treatment of the patient.

 And the use of high-intensity laser radiation for perforating bone tissue and forming additional channels, as well as bone marrow irritation, significantly reduces the invasiveness of the method and its duration, as well as increases efficiency. This is due to the fact that the laser radiation is low-traumatic. In addition, laser radiation provides reliable hemostasis, asepticism and promotes revascularization.

 In addition, it was experimentally established that the method achieves the best results with a bone marrow irritation time of 5-10 s.

 The set of essential features of the claimed object "method" has differences from the closest analogue and does not follow explicitly from the studied prior art, which indicates its compliance with the criteria of "novelty" and "inventive step".

 The method can be widely used in healthcare, which indicates its compliance with the criterion of "industrial applicability".

 The method is as follows.

 A laser with a wavelength of 1.064 mnm is used as a source of high-intensity laser radiation (VILI). Perforation holes are applied using a fiber with a diameter of 0.4 mm in the limb after 3-4 cm through the skin, soft tissue to the periosteum. Then bone tissue is perforated to the medullary canal, after which bone marrow is irritated through these openings for 5-10 s.

 Bone marrow irritation is carried out using the same fiber using a VILI with a wavelength of 1.064 mnm and a power of 9-20 W in a pulsed mode (pulse duration 10-60 ms, pause duration 10-60 ms).

 There can be several options for applying perforations: a) from the thigh to the foot, bypassing the localization of nerve bundles; b) throughout the tibia and in the proximal and distal parts of the thigh; c) throughout the thigh and the proximal and distal portions of the lower leg; d) in the proximal and distal parts of the thigh and lower leg; e) only throughout the leg; e) throughout the thigh; g) in the distal and proximal parts of the lower leg; h) only in the distal and proximal parts of the thigh.

 In the case of applying perforations throughout the thigh and / or lower leg, the distance between them can be increased if necessary. Moreover, to form additional holes in muscle tissue, these same perforation holes, as well as others, independently made in muscle tissue on the free field of a limb, can be used.

 The formation of additional channels in the area between the distal and proximal bone segments is carried out using a diode laser with a wavelength of 805 nm. The power of the used radiation is 2-10 W in a pulsed mode (pulse - 3 ms, pause - 2 ms). Use a waveguide with a diameter of 0.6 mm.

 The formation of additional channels is as follows.

 Puncture, through an injection needle, the waveguide is inserted into the muscle tissue of the limb. When the laser source is turned on, the waveguide moves along the limb along the muscles to a distance of 5-15 cm. The distance between the places of introduction of the waveguide is 2-5 cm. The channels are formed around the circumference of the limb except for the projection zones of the neurovascular bundle. The upper limit of exposure passes above the site of occlusion of the main bloodstream.

 A biological object or a patient to whom perforation holes are applied and additional channels are formed during the procedure is lying on his stomach.

Holes are applied from the outside and inside of the limb, with perforations being applied in pairs. Locations of nerve bundles cost
The method is illustrated by examples.

 Example 1. Patient D., 64 years. Diagnosis: atherosclerosis obliterans of the vessels of the lower extremity 3 tbsp. Tibial artery occlusion. Limb ischemia 3 tbsp. by FONTEN.

 Under general anesthesia, the patient underwent surgery of laser osteoperforation of the bones of the leg and thigh along their entire length, bypassing the localization of nerve bundles.

 The operation was performed using a laser with a wavelength of 1.064 mnm. The radiation power is 20 watts. The fiber diameter is 0.4 mm. Bone marrow irritation time 10 s. Pulse and pause duration of 40 ms.

 After performing this operation, in the interval between the proximal and distal segments of the lower leg, additional channels were formed in the muscle tissue of the lower leg. The longitudinal channels in the muscle tissue were formed in a circle with a step of 5 cm (channel length - 8 cm) using a diode laser with a wavelength of 805 nm. The radiation power is 10 W in a pulsed mode (pulse - 3 ms, pause - 2 ms). The waveguide diameter is 0.6 mm. In some cases, perforations were used as an inlet for the formation of additional channels in muscle tissue. In other cases, additional channels were formed on the shin sections, free from perforations.

 The postoperative course is smooth. Two weeks later, the degree of ischemia regressed to 2B Art. by FONTEN. Two months later, during the control examination of ischemia, it regressed to 2A Art.

 Example 2. Patient C., 72 years old. Diagnosis: atherosclerosis obliterans of the lower limb. Femoral artery occlusion on both sides. Ischemia 2B Art. by FONTEN.

 Under internal anesthesia, osteoperforation of the distal and proximal parts of the lower leg and thigh was performed (bypassing the sites of localization of nerve bundles). Equipment and modes as in Example 1. Bone marrow irritation time in perforations 5 s.

 In the interval between the distal and proximal parts of the lower leg and thigh, additional channels were formed in the muscle tissue of the lower leg and thigh with a length of 12 cm with a circumferential step of 4 cm. The radiation power was 2 W. The mode is pulse.

 The postoperative course is smooth. After 1.5 weeks, the degree of ischemia regressed to 2A Art. by FONTEN. A follow-up examination after 2 months confirmed the good results of the operation: ischemia regressed, although slightly, but confidently.

Claims (1)

 A method of treating chronic arterial limb ischemia by forming new vascular connections, comprising perforating the bone tissue of the limb to the bone marrow canal followed by irritation of the bone marrow, characterized in that in the interval between the distal and proximal bone segments, additional channels are formed in the muscle tissue, arranged along the circumference along the circumference limbs, while perforating bone tissue, the formation of additional channels and irritation of the bone marrow effected with a high-intensity laser radiation and the time of bone marrow stimulation with 5-10.