WO2012169936A2 - Method for the intravenous laser-induced light and oxygen treatment of background, precancerous, malignant and metastatic diseases - Google Patents

Abstract

The invention relates to medicine, and specifically to laser medicine. Intravenous treatment of the blood is carried out with laser light having a wavelength in one of the spectral ranges of 620-650, 1050-1080 or 1240-1280 nm at a power output of 0.5-40 mW. The lasers are used in a pulsed-intermittent or continuous mode, and the duration of the irradiation is determined in accordance with the radiation power output and spectral efficiency of the light and oxygen effect. The course of treatment amounts to 8-15 procedures lasting 15-60 minutes at an interval of 2-3 days. Furthermore, the administration of traditional photosensitizing dyes is eliminated. The use of the invention ensures deep penetration of singlet oxygen into a mass of tumorous tissue and cessation of tumorous growth of tissues, prevents cosmetic imperfection and post-operative complications owing to the rapid healing of the affected area, and reduces injury caused by the method and the number of relapses.

Description

 METHOD FOR INTERNAL LASER-INDUCED

 LIGHT OF ORGANIC THERAPY OF BACKGROUND, PRE-CANCER, MALIGNANT, AND METASTATIC DISEASES

The invention relates to medicine, namely to laser medicine and can be used to treat background, precancerous, malignant and metastatic diseases.

It is known the use of laser radiation for the treatment of background, precancerous, malignant and metastatic diseases as the primary affecting physical factor.

In particular, there is a known method of increasing the body's resistance to the occurrence of malignant tumors, which consists in producing direct low-intensity laser irradiation of the spleen with a wavelength of 0.67 μm for 55-60 s, alternating this effect with an interval of 3-4 days with subcutaneous the introduction of interferon, a total of 5 to 6 times each of these effects (patent RU 2164425, 2001). The disadvantage of this method is the need to deliver a laser beam to the affected organ, which is not always possible.

A known method of treating background and precancerous diseases of the cervix uteri, characterized in that they carry out intravenous drip of the photosensitizer "Photoditazine" based on the glucamine salt of chlorin E6 in a dose of 0.5-1, 0 mg / kg in 200 ml of saline and 2 hours after infusion - continuous laser irradiation at a wavelength of 660 nm and a density of energy supplied to the wound of 80-200 J / cm ² for 8-20 minutes (patent RU 2274478, 2006). The disadvantage of this method is the need for intravenous administration of a substance foreign to the body, which often leads to adverse consequences. There is a method of treating metastases, which consists in the fact that a chlorine-type photosensitizer (PS) is administered intravenously into the cubital vein of one arm as a drug at a dose of 0.7-0.8 mg / kg, and intravenous laser blood irradiation is carried out into the cubital vein of the other hand (BLOCK) with a wavelength corresponding to the maximum absorption of light by the photosensitizer at a radiation dose of 600-850 J / cm ³ . The introduction of FS and BLOCK is carried out simultaneously for 30-50 minutes, after 3-4 days the method is repeated in full. When repeated metastatic lesions appear, up to 6 treatment sessions are performed. In the presence of superficially located metastatic foci at the first stage of treatment, transcutaneous irradiation of superficially located metastatic foci with low-intensity laser radiation at a dose of 0.15-0.20 J is carried out (patent RU 2289455, 2006). This known method is also associated with the introduction into the blood of exogenous compounds, which is associated with potentially adverse consequences.

A known method of suppressing tumor growth is that phthalocyanine nanoparticles are administered intravenously at a dose of not less than 5 mg / kg body weight and not higher than the maximum tolerated dose, followed by irradiation of the tumor with laser pulses with a wavelength in the region of intense absorption of nanoparticles with an energy density of not below 0.1 J / cm ² and the total energy density of not less than 10 J / cm ² (patent RU 2339414, 2008). This method has the same drawback as the two previous methods.

A known method for the selective destruction of cancer cells using magnetic microcontainers with photodynamic or photothermal dyes, which consists in the fact that the photosensitizer is encapsulated in polymer microcontainers, the shell of which contains magnetite nanoparticles (Fe ₃ 0 ₄ ) and introduce biological tissue into the surrounding tumor. An external permanent magnetic field is created in the volume of the tumor, the spatial configuration of which coincides with the shape of the tumor. Laser irradiation is performed through the time corresponding to the maximum accumulation of microcontainers in the tumor at a radiation energy density sufficient for photodynamic or photothermal destruction of the shells of microcontainers inside the tumor and subsequent photodynamic or photothermal destruction of cancer cells. In this case, the photosensitizer is selected with an absorption band in the red and near IR spectral regions of 650-1200 nm (patent RU 2405600, 10.02. 2011.). The disadvantage of this method is also due to the potentially dangerous consequences of introducing foreign substances into the body.

The closest analogue of the invention (prototype) is a method of laser suppressing the growth and elimination of malignant tumors, including the impact on the malignant formation by infrared laser radiation in a pulsed mode, while they are affected by the average radiation power that does not lead to thermal coagulation of the tissue and provides the generation of chemically active electronically -excited oxygen, laser irradiation is produced in the absorption bands of molecular oxygen. The wavelength is 1268 nm, the pulse power is more than 1 kW / cm ² , the pulse duration is ΔΤ, where 10 ^"8 s <ΔΤ <10 ^'5 s (patent RU 2325200, 2008).

The disadvantages of the prototype method is the limited use of those forms of diseases in which, firstly, the localization of the tumor is reliably established, and, secondly, it is these localizations so that the laser can be delivered directly to the tumor. However, only superficial forms of tumors are available for treatment. In addition, this method is difficult to implement technically, because it requires the manufacture of a non-standard laser generating one specific wavelength (1268 nm) in a pulsed mode.

The objective of the invention is to expand the field of application of laser radiation in oncology in such a way as to use it for the treatment of background, precancerous, malignant and metastatic diseases, regardless of depth and the prevalence of the tumor process, as well as increasing the technical availability of the method.

The technical result when using the invention is the deep penetration of singlet oxygen into the thickness of the tumor tissue, the prevention of a cosmetic defect, postoperative complications due to the rapid healing of the affected area, the cessation of tumor tissue degeneration, a decrease in the invasiveness of the method, contraindications to treatment and the number of relapses. This result is achieved due to the fact that in the method of treatment of background, precancerous, malignant and metastatic diseases, including exposure to laser radiation in the singlet oxygen generation band, according to the invention, the irradiation is carried out intravenously, while using radiation with a wavelength in one of the spectral ranges 620- 650, 1050-1080, 1240-1280 nm with an output power of 0.5-40 mW. In this case, lasers are used, operating both in pulse-periodic and in continuous modes. The duration of irradiation for any of the used wavelengths is determined in accordance with the output radiation power and the spectral efficiency of the light-oxygen effect in biosystems at a given wavelength. The course of treatment is 8-15 procedures lasting 15-60 minutes with an interval of 2-3 days.

The proposed method for the treatment of background, precancerous, malignant and metastatic diseases is as follows: using a sterile disposable kit for intravenous laser blood processing (KIVL-01), a vein (for example, cubital) is punctured, the inserted needle with a light guide to the skin is fixed with an adhesive plaster and connected set to the laser apparatus using a light guide with an adapter. Then they turn on a laser with a wavelength in one of the spectral ranges 620-650, 1050-1080 or 1240-180 nm, and at a power output of 0.5 - 40 mW, a treatment session is performed. They use lasers operating in both pulse-periodic and continuous modes. Duration of exposure for any of used wavelengths is determined in accordance with the output radiation power and spectral efficiency of the light-oxygen effect in biosystems at a given wavelength. In this case, the effect is carried out without the use of traditional photosensitizers. Dynamic monitoring is carried out after 1 week, 10 days, 1 month, 6 months and 12 months after the course of treatment.

The authors in the available scientific, medical and patent literature did not find information about the popularity of the proposed method for the treatment of background, precancerous, malignant and metastatic diseases using intravenous laser-induced light-oxygen therapy without first introducing a dye photosensitizer into the tumor tissue. Thus, the claimed invention meets the criterion of "novelty."

The authors first established that intravenous laser-induced light-oxygen therapy using laser light with a wavelength in one of the ranges of 620-650, 1050-1080, 1240-1280 nm at an output power of 0.5-40 mW causes active generation of singlet oxygen in the body from dissolved triplet oxygen regardless of the depth and prevalence of the tumor process. The resulting singlet oxygen leads to the selective death of altered tumor cells, in which the content of their own porphyrins is increased, in contrast to healthy cells, which allows their photochemical destruction without the introduction of dye photosensitizers, promotes accelerated healing of the affected area, termination of tumor proliferation of tissues and significantly reduces relapse diseases. Thus, the claimed invention meets the criterion of "inventive step".

The proposed method is illustrated by the following clinical examples. Example 1. Patient P. 54 years. Complaints upon receipt of a bleeding formation on the lower lip. Considers himself ill for about 4 months. Based on the history, clinical picture and cytological studies, the patient was diagnosed with squamous cell carcinoma of the lower lip. The patient had 10 sessions of intravenous light-oxygen therapy induced by a laser in a pulse-periodic mode, wavelength 1264 nm with an output power of 0.5 mW, the exposure was carried out using disposable optical fibers with a puncture needle (KIVL-01). The duration of one session is 15 minutes, the intervals between sessions 2-3 days. At the control examination 1 week after the course of treatment, the patient does not show complaints. The formation on the lower lip is covered with a serous-bloody crust, there are no signs of inflammation. Control inspection after 10 days. The patient does not show complaints. The crust on the lower lip became thinner and decreased in size. Control examination after 1 month - no complaints, the crust on the lip separated on its own on the 20th day after the course of treatment. At the follow-up examination after 6 months, the patient does not complain, the treated area is covered with a mucous membrane, slightly pink. Follow-up examination 12 months after treatment - no complaints, lower lip clean, without signs of relapse of the underlying disease and gross cicatricial changes.

Example 2. Patient S. 43 years. Complaints on admission to constant itching in the vulva. Objectively: the mucosa of the vulva in the region of the large lips has a whitish color with areas of growths. Considers himself ill for about 2 years. Based on the history, clinical picture and cytological studies, the patient was diagnosed with vulvar leukoplakia, verrucous form.

The patient received a course of intravenous light-oxygen therapy induced by a laser with a wavelength of 1060 nm and a power of 20 mW in a continuous mode. The treatment course was 8 treatment sessions of 30 minutes each, with breaks between sessions of 2-3 days. On the control examination after 1 week after the course of treatment, the patient has no complaints. The area of the vulvar mucosa is covered with serous-fibrous plaque. Control inspection after 10 days. The patient has no complaints. There are no signs of inflammation. Control examination after 1 month - no complaints, the entire surface of the vulva without signs of inflammation and relapse. At the follow-up examination after 6 months, the patient does not complain, the mucous membrane of the vulva is of a normal color without signs of pathology. Control examination 12 months after treatment - no complaints, vulva without signs of relapse and inflammation.

Example 3. Patient G. 65 years. Complaints upon admission of general weakness, the presence of many tumor formations along the postoperative scar (left breast was removed for intraductal cancer. Madden surgery. PCT without effect). Diagnosis: Condition after removal of the left breast, subcutaneous metastases along the postoperative scar. The patient received a course of intravenous light-oxygen therapy induced by a laser with a wavelength of 632 nm and a power of 40 mW in a continuous mode. The treatment course included 12 treatment sessions of 60 minutes each, with breaks between sessions of 2-3 days. At the control examination 1 week after the end of the course of treatment, the patient does not complain. Tumor masses significantly decreased in size. Control inspection after 10 days. The patient has no complaints. Notes improvement in overall well-being. A follow-up examination after 1 month - no complaints, the postoperative scar is clean, its surface without signs of inflammation and relapse. At the follow-up examination 6 months after the end of the course of treatment, the patient does not complain, there are no signs of a relapse of the disease. Control examination 12 months after the course of treatment - no complaints, the area of the postoperative scar without signs of relapse and inflammation.

This method treated 29 patients with various types of background, precancerous, malignant and metastatic diseases. In all cases, the specified technical result was achieved. Proposed the method is easily reproducible in a hospital and clinic. Thus, the claimed invention meets the criterion of "industrial applicability".

Claims

Claim

1. The method of treatment of background, precancerous, malignant and metastatic diseases, including exposure to laser radiation in the singlet oxygen generation band, characterized in that the irradiation is carried out intravenously, using radiation with a wavelength in one of the spectral ranges 620-650, 1050-1080 , 1240-1280 nm at an output power of 0.5-40 mW.

2. The method according to claim 1, characterized in that for irradiation using lasers operating in both pulse-periodic and continuous modes.

3. The method according to claim 1 or p. 2, characterized in that the duration of irradiation for any of the used wavelengths is determined in accordance with the output radiation power and spectral efficiency of the light-oxygen effect in biosystems at a given wavelength.

4. The method according to one of claims 1 to 3, characterized in that the course of treatment is 8-15 procedures lasting 15-60 minutes with an interval of 2-3 days.