RU2161054C2 - Method for treating oncological patients - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exposing tissues and organs to radiation and low intensity laser beams. The low intensity laser therapy is applied to the tissues and organs exposed to the radiation treatment after the radiation treatment. The laser therapy is carried out with red and infrared radiation mainly being used in the wavelength bandwidth from 0.63 to 0.89 mcm in continuous or pulsating mode. The total power given in one session is equal to 0.1-55.0 J at 0.3 -25.0 mW power level. Low intensity laser radiation is applied in remote and/or contact and/or intraorganic and/or intravascular mode combined with electronic, braking or gamma-radiation. EFFECT: enhanced effectiveness of treatment; prevented and treated injuries caused by radiation therapy. 2 cl

Description

 The invention relates to medicine, in particular to oncology, and can be used to prevent and treat injuries resulting from radiation therapy.

 A known method of treating post-radiation cheilitis, including exposure to a pathological focus with a helium-neon laser light (RF patent N 2103037, IPC A 61 N 5/06, publ. 01/27/98, Bull. N 3). The disadvantage of this method is the limited application, since cheilitis is a special case of post-radiation damage. In addition, the known method cannot be used to prevent damage resulting from radiation therapy.

The closest method of the same purpose to the claimed invention in terms of features is a method of treating cancer patients (RF patent N 2088285, IPC A 61 N 5/06; A 61 N 5/10, publ. 27.08.97, Bull. N 24), adopted as a prototype. The known method, as well as the claimed invention, includes combined radiation exposure and exposure to low-intensity laser radiation. The known method has several disadvantages that impede the achievement of the following therapeutic result:
radiation exposure is carried out 6-25 minutes after each exposure to low-frequency laser radiation, the use of such a sequence does not allow to achieve the effect of preventing the occurrence of radiation damage;
only the tumor is exposed to laser radiation without affecting the tissues and organs involved in the radiation exposure zone, which also does not allow to achieve the effect of preventing the occurrence and treatment of radiation injuries;
- radiation exposure is limited by the use of remote gamma therapy.

 The invention is aimed at solving the problem of preventing and treating injuries that occur in cancer patients due to radiation exposure.

Using the proposed method allows to achieve the following therapeutic results:
- treatment of adverse reactions resulting from previous radiation exposure;
the exclusion of drug exposure for the treatment of injuries caused by radiation exposure, which has its negative sides;
prevention of radiation reactions;
the use of the proposed method also allows to achieve an economic result in the form of an exception or a significant reduction in the dose of expensive chemotherapy.

 These therapeutic results in the implementation of the invention is achieved by the fact that, as in the prototype, the treatment of cancer patients is carried out by radiation exposure and exposure to low-intensity laser radiation. A feature of the proposed method of treatment is that exposure to low-intensity laser radiation is carried out on tissues and organs involved in the radiation exposure zone after radiation exposure.

 In addition, a feature of the proposed method is that the exposure to laser radiation is carried out remotely, and / or contact, and / or intraorgan, and / or interstitial, and / or intravascular.

 In this case, exposure to low-intensity laser radiation is carried out daily 1 to 2 times a day with a laser radiation power of 0.3-25.0 mW and the total energy recruited per session, 0.1-55.0 J.

 Exposure to laser radiation is carried out during the course of radiation treatment 30-40 minutes after the end of the radiation exposure session.

 When implementing a split course of radiation treatment in between the courses of radiation treatment continue to carry out exposure to low-intensity laser radiation.

 Treatment of cancer patients in accordance with the claimed method is as follows.

 A course of laser treatment of cancer patients is carried out in conjunction with a course of radiation therapy. In this case, treatment in accordance with the claimed method can be carried out regardless of the type of radiation exposure. For example, laser therapy can be used in conjunction with electronic, inhibitory or gamma radiation. To implement a course of laser therapy, a dye laser, or helium-neon, or IR, or other types of low-intensity lasers are used. In this case, to achieve the best therapeutic effect in the course of laser therapy, various laser equipment can be used. The tissues and organs involved in the radiation injury zone are exposed to low-intensity laser radiation. A prerequisite for achieving the above therapeutic results is the implementation of laser exposure after radiation. This sequence of radiation and laser exposure allows you to achieve the effect of tissue repair, as well as the neutralization of disorders of organs that are in the area of radiation exposure. At the same time, there is no decrease in the indicators of the therapeutic effect of radiation therapy on tumor cells. The type of laser radiation used, its power, the total energy recruited during the session, and other parameters are determined by the attending physician depending on the location and localization of the pathology focus and individual characteristics of the patient.

 The advantages of the proposed method of treatment include the fact that this technique can be used regardless of the depth of the location of the focus of the pathology. To treat lesions of the skin or mucous membranes, laser exposure is carried out remotely or by contact. In case of radiation injuries of hollow and / or tubular organs (stomach, bladder, etc.), laser irradiation is carried out by the intraorgan method using special rigid or flexible laser optical fibers. In the presence of pronounced post-radiation fibrous changes in the external or internal tissues of the body with the presence of pain and disturbances in the regional and / or local lymph and hemodynamics, irradiation of the altered tissues with laser radiation in the interstitial manner is used. In cases of severe immunosuppression of the common stages of the cancer process, laser irradiation of blood is carried out by the intravascular method. Moreover, various types of laser exposure can be combined with each other within the same course of laser therapy.

 In cases where radiation treatment is carried out continuously, each session of laser exposure takes place after radiation in 30-40 minutes.

 In cases where it is advisable to conduct a split course of radiation therapy, laser irradiation is continued to be carried out between the courses of radiation exposure.

 The inventive method of treating cancer patients has been successfully used to treat adverse reactions that have already arisen as a result of previous radiation exposure, as well as to prevent radiation reactions that harm tissues and organs involved in the radiation lesion zone, and the body as a whole. In addition, the use of the proposed method allowed to exclude completely or significantly reduce the number of expensive drugs prescribed to patients in the course of post-radiation therapy.

 Extensive medical practice allows us to conclude that it is advisable to use the proposed method for the treatment of cancer patients, which can be illustrated by the following examples.

 Example 1. Patient P., 39 l. Clinical diagnosis: cancer of the right breast 1 tbsp., T1N0M0; condition after radical resection of the right breast. Gist. N K2090-2101: invasive ductal cancer of a solid-trabecular structure of the 2nd degree of malignancy - 7 points.

 At the 2nd stage of treatment, 22 days after the operation, postoperative radiation therapy was carried out for 30 days on the remaining breast tissue from 2 tangent fields (ROD = 2.5 Gy, SOD = 45 Gy) locally on the postoperative scar with an electron beam with total dose of 62.3 Gy.

 Prior to the start of radiation therapy, examination revealed a section of hyperemia and swelling of the tissues in the outer quadrant in the area of the postoperative scar of 1x6 cm in size. For anti-inflammatory purposes and for the prevention of radiation complications, the patient was treated with a yellow laser with a yellow range dye at a power of 25.0 mW remotely by two fields with a total energy of 15.0 J. Irradiation was carried out daily for 5 minutes 30-40 minutes after the radiation therapy session. At the 5th procedure of laser therapy, relief of inflammatory phenomena was noted. 15 days after the start of radiation therapy, signs of a radiation reaction appeared in the form of weak skin erythema in the field of radiation fields. With the continuation of radiation therapy in parallel with laser therapy, the signs of radiation epidermitis did not increase, which made it possible to completely conduct a postoperative course of radiation therapy.

 Example 2. Patient C. 67 years. Clinical diagnosis: colorectal cancer T3N1M0. Condition after abdominal-anal resection of the rectum with sigma reduction. Gist. 373/98: moderate adenocarcinoma of differentiation. Germinates all layers of the intestinal wall with access to fiber.

 40 days after the operation, the patient underwent remote gamma-therapy from two opposite fields with a split rate, ROD = 2 Gy daily, SOD = 48 Gy with an interval of 5 days.

 On the tenth day after the start of radiation therapy, the patient complained of frequent urination, loose stools; over the next four days, dysuric phenomena increased, a feeling of incomplete emptying of the bladder appeared.

 Regarding radiation cystitis and radiation enteritis, the patient received infrared contact laser therapy 30–40 minutes after the radiation therapy session lasting 5 minutes after the start of radiation therapy. Laser therapy was carried out in two fields: on the area of the bladder and on the projection of the rectum daily until the end of radiation therapy. The average laser radiation power was 0.3 mW; the total energy accumulated by the surface per session was 0.18 J.

 As a result of laser treatment, it was possible to stop the effects of radiation complications and to fully conduct a postoperative course of radiation therapy.

 Example 3. Patient M., 47 years old. Clinical diagnosis; cancer of the oral mucosa of the 3rd stage T3N1M0.

 A course of radiation therapy was started. ROD = 2 Gy from two opposite fields to the tumor area and supraclavicular zones on both sides on the background of symptomatic detoxification therapy. On the fifteenth day after the start of radiation therapy, signs of islet epithelitis appeared, which turned into a drain one day later, which led to the interruption of radiation therapy.

 Simultaneously with the cessation of radiation therapy, a course of combined laser therapy was started, including He-Ne laser therapy intraorally lasting 5 minutes at a power output of the optical fiber of 16.0 mW and the total energy received by the surface of the oral cavity for a session of 4.8 J, and exposure to an infrared laser from two fields contact on the projection of the tumor at an exposure time of 2 min on the field and the total energy received by the surface per session is 0.2 J. On the tenth day of laser therapy, relief of epithelitis was noted. Thirteen days after the start of laser therapy, radiation therapy was resumed with a positive effect in the form of a decrease in tumor infiltration of the tongue and the bottom of the oral cavity.

 Example 4. Patient F. 53 years. Clinical diagnosis: cervical cancer, condition after combined treatment in 1993; condition after chemoradiotherapy - relapses in the pelvis in 1997

 In 1993, for cervical cancer of stage 1B of stage T1N0M0, the patient underwent combined treatment in the amount of expanded uterine extrusion with appendages and intraoperational therapy with an electron beam of 12 meV per vaginal stump, ROD = 15 Gy.

 Histology N E075078-103; infiltrative growth of squamous non-keratinized cancer with lesions of the external pharynx, cervical canal.

 In 1997, for a recurrence of cancer in the small pelvis (4.2 x 3.7 x 3.0 cm), chemoradiotherapy was carried out, including remote gamma therapy from two opposite fields of 16 x 17 cm, SOD = 39.5 Gy for TDF = 44.5 Gy.

 After seven months, a thickening of the soft tissues of the anterior abdominal wall of 20x15 cm was revealed, of dense consistency, fragmented, painful on palpation, severe hyperpigmentation of this entire area, restriction of movement of the lower extremities, dysuric disorders.

 This condition is regarded as late radiation fibrosis of the soft tissues of the lower third of the anterior abdominal wall, pelvis, and upper parts of the lower extremities.

 Interstitial laser therapy was carried out in the amount of 15 procedures with red laser radiation with a power of 1.5 mW and a total exposure energy of 0.9 J.

 As a result of treatment, a decrease in the zone of fibrosis and pigmentation was noted, the consistency of fibrosed tissues became less dense, pain decreased, and the range of motion of the lower extremities increased.

 Example 5. Patient M., 47 years old. Clinical diagnosis: cancer of the right breast 3-B stage T3N1M0. The condition after combined treatment, against the background of postoperative radiation therapy with SOD = 40 gR on the skin in the irradiation zone, developed early radiation epidermitis, sometimes desquamative. As a result, radiation therapy was stopped and combined laser therapy was started, including intravasal laser blood irradiation with red laser radiation together with remote laser baths of damaged skin with a power of 25 mW from seven positions and a total exposure energy of 52.5 J. At the fifth session of laser therapy, a decrease in symptoms was noted radiation epidermitis. Fifteen laser therapy procedures were performed, inflammatory phenomena were eliminated, which allowed to complete radiation therapy in full.

Thus, the above information indicates that the inventive method of treating cancer patients meets the required criteria for patentability and has significant advantages compared with known methods of treating similar diseases. Namely:
effective for the treatment of adverse reactions resulting from radiation treatment;
allows to exclude drug exposure for the treatment of injuries caused by radiation exposure, which has its negative sides;
contributes to the prevention of negative reactions of radiation therapy:
the use of the proposed method also allows to achieve an economic result in the form of an exception or a significant reduction in the dose of expensive chemotherapy.

Claims (3)

 1. A method of treating cancer patients, including radiation exposure, followed by exposure to low-intensity laser radiation on the tissues and organs involved in the radiation exposure zone, characterized in that the laser exposure is carried out mainly by the red and infrared wavelengths of 0.63 and / or 0, 89 μm in continuous or pulsed mode at a power of 0.3 - 25.0 mW and the total energy recruited per session 0.1 - 55.0 J remotely, and / or contact, and / or intraorgan, and / or intravascular method with together with electronic, or braking, or gamma radiation.  2. The method according to claim 1, characterized in that the exposure to laser radiation is carried out daily 1 to 2 times a day 30 to 40 minutes after the end of radiation exposure.  3. The method according to claim 1, characterized in that when implementing a split course of radiation treatment in between the courses of radiation exposure, they are exposed to laser radiation.