RU2211714C2 - Method for treating malignant neoplasms - Google Patents

Abstract

FIELD: medicine, oncology. SUBSTANCE: the suggested innovation deals with treating local malignant neoplasms of different localization. It is suggested to carry out local UHF- hyperthermia, moreover, before each seance of local thermochemothermia one should inject not less than 5 U oxytocin into tumor-surrounding tissues. The present method enables to increase tumor respectability and increase life duration in patients. EFFECT: higher efficiency of therapy. 2 ex

Description

 The invention relates to medicine, namely to oncology, and can be used for the treatment of locally advanced malignant neoplasms of various localization.

 A general idea of the analogues of the proposed technical solution can give the results of clinical trials that have proven the effectiveness of the combined use of local hyperthermia and chemoradiotherapy (Falk MH, Issels RD Hyperthermia in oncology. - International Journal of Hyperthermia. - V 17. - 1. - P 1-18 ) In particular, in the treatment of locally advanced head and neck cancer (Hoshina H., Takagi R., Tsurumaki H., Nagashima K. et al. Clinical result of thermochemoradiotherapy for advanced head and neck cancer. - Japanese Journal of Cancer and Chemotherapy. - V 28. - 3. - P 331-336. - 2001). Evidence has been accumulated that, in relation to the areas of the tumor that are hypooxygenated, i.e. adapted to the state of acidosis, hyperthermia is a more effective factor in inducing apoptosis than radiotherapy (Ohtsubo T., Igawa H., Saito T., Matsumoto H. et al Acidic environment modifies heat - or radiation-induced apoptosis in human maxillary cancer cells. - International Journal of Radiation Oncology, Biology, Physics. - V 49. - 5. - P 1391-1398. - 2001). In this regard, studies that confirm the ability to modify the resistance of tumor cells and their ability to repair chemoradiation injuries by changing microcirculation in the tumor zone under local hyperthermia (Ressel A., Weiss C., Feyerabend T. Tumor oxygenation after radiotherapy, chemotherapy , and / or hyperthermia predicts tumor free survival. - International Journal of Radiation Oncology, Biology, Physics. - V 49. - 4. - P 1119-1125. - 2001).

 The prototype of the claimed technical solution should be recognized as a method of treating malignant tumors (AC 5063098/14 with priority from 09/25/1992; patent 2048824; bull. 33 from 11/27/95). The essence of the technical solution chosen by the prototype is to inhibit blood flow in the tumor due to a 0.1% solution of vasoconstriction mesatone initiated in peritumoral injections in healthy soft tissues surrounding the neoplasm.

 We list the main disadvantages of the selected prototype.

 - The cytoreductive effect is directly related to the area of lymphoplasmacytic infiltration bordering the tumor. Therefore, it directly depends on the state of the oxygen regime of this zone. Accordingly, the negative consequences of inhibition of blood flow in the area of lymphoplasmacytic infiltration, which exposes it to additional heating as well (during the microwave hyperthermia session) due to a decrease in heat dissipation, are quite predictable. A worsening of both immediate and long-term treatment results should be expected.

 - The use of the method is contraindicated in patients suffering from diseases of the cardiovascular system, since the lumping of a tumor with a 0.1% solution of mesatone, especially in combination with a subsequent microwave hyperthermia, in some patients provokes a persistent, in combination with bradycardia, increase in blood pressure.

 The aim of the invention is to improve the immediate and long-term results of antitumor therapy.

 The goal is achieved by that. that before each session of local thermochemotherapy, at least 5 units of oxytocin are injected into the tissues surrounding the tumor.

 The invention is new, since for the oncologist, the claimed technical solution does not explicitly follow from the level of development of medicine and related areas of knowledge related to oncology.

The novelty of the claimed technical solution is:
- to increase the selectivity of local hyperthermia, which is achieved by chipping the neoplasm zone with oxytocin in quantities that cause vasodilation and increased peritumoral blood flow (a fundamental difference from the prototype). In this regard, the area of lymphoplasmacytic infiltration along the perimeter of the neoplasm is not subjected to thermal damage and can maintain its activity, on which the cumulative effect of cytoreductive therapy (thermoradiotherapy, thermochemotherapy) substantially depends;
- in the mechanism of "robbing" the vascular bed of the tumor due to the activation of peritumoral blood flow. In this regard, (i) in the neoplasm zone, due to a decrease in heat removal, hyperthermia intensifies; (ii) which, in turn, initiates the induction of apoptosis; (iii) in contrast to radiotherapy, regardless of the severity of acidosis in the neoplasm zone;
- in the choice of oxytocin, which initiates a dose-dependent vasodilation due to the interaction with the receptor apparatus of the vascular endothelium, which, therefore, directly depends on the number of oxytocin receptors. In this regard, taking into account the perversity of tumor angiogenesis, a decrease in the number of receptors in the endothelium of neoplasms is quite likely. Therefore, with the same probability, an additional increase in the perfusion gradient between the tumor zone and the soft tissues surrounding the tumor should be expected;
- in the choice of oxytocin, which, as a mitogen, provokes dose-dependent proliferation of endothelial cells (Ca, calmodulin kinase II, protein kinase C). The current level of knowledge on this issue leaves the authors in the field of assumptions regarding (i) the more pronounced damaging effect of cytoreductive therapy in relation to the vascular segment, which is in a state of proliferation, (ii) increased vascularization (capillarization) of the peritumoral zone.

 The invention has an inventive step, since the claimed technical solution does not explicitly follow from the level of modern knowledge in the field of oncology.

 The inventive method is not obvious, is not known in the medical literature and clinical practice, neither in Russia, nor in the CIS, nor abroad.

A comparative analysis with the selected prototype allows us to conclude that the set of features of the claimed technical solution has significant differences in the approach to achieving the goal - improving the immediate and long-term results of thermochemotherapy of locally advanced malignant neoplasms:
- inhibition of blood flow in the neoplasm is carried out by the mechanism of "robbing", that is, due to increased peritumoral blood flow (according to the prototype - due to inhibition);
- to enhance peritumoral blood flow into the soft tissues surrounding the neoplasm, oxytocin is injected in an amount sufficient for peritumoral vasodilation (according to the prototype - mesatone);
- in combination with chemotherapy, especially with local administration of cytostatic, peritumoral vasodilation, expanding the access of the chemotherapy drug to the soft tissues surrounding the tumor, becomes an additional factor in improving the results of antitumor treatment - in contrast to the prototype.

 The invention is industrially applicable, as it can be used in healthcare: research institute of oncology, oncology dispensaries with equipment for local hyperthermia (for example, "Yacht-3").

 The claimed technical solution can be used to treat locally advanced neoplasms of the head and neck involving the neurovascular bundles, in particular the carotid arteries, in the tumor conglomerate.

 Clinical and experimental observations indicate that for damage to the metastatic node up to 2.5-3.0 cm, the minimum dose can reach 70 Gy, which minimizes the possibility of repeated use of radiation treatment in case of relapse. Systemic chemotherapy using a standard technique is usually not effective. That is why patients with unresectable relapses of head and neck malignancies and regional metastases after previous radiation treatment are considered to be among those requiring only palliative and symptomatic therapy.

 The claimed technical solution can be used to treat this category of patients.

 A method of treating malignant neoplasms is as follows.

 Before each session of local thermochemotherapy, oxytocin is injected into the tissues surrounding the neoplasm (5 ED-1.0 ml of oxytocin in 10.0 ml of a 0.9% NaCl solution). Injection is carried out from several sides at 2.0-2.5 ml per injection so that the injected solution infiltrates the entire bed of the tumor.

 Similarly, after oxytocin, a chemotherapy drug, for example, methotrexate, is injected into the tissues surrounding the neoplasm.

After this, a session of local hyperthermia begins. The temperature in the tumor zone is brought to 41-43 ^o C, the duration of the session 30 minutes To create a local microwave hyperthermia, the Yacht-3 apparatus operating at a frequency of 915 MHz can be used.

 Examples of specific applications of the treatment of malignant neoplasms.

 In patients who have already undergone a full course of complex treatment, unresectable metastases in the head and neck remain a serious problem. In our clinic, over a 2-week course, these patients usually receive 10 injections of a chemotherapy drug (usually methotrexate; total dose of 100 mg), of which 6 injections are in accordance with the claimed technical solution (3 sessions of thermochemotherapy per week).

 As an illustration, we provide extracts from two case histories.

 1. Patient B.V.A., born in 1941, IB 3951 / a.

 He entered the RNII on 01.20.01. with a diagnosis of cancer of the mucosa of the bottom of the oral cavity, III tbsp. metastases in the lymph nodes of the neck on the left. The primary focus was cured by the combined method in 1993. Objectively: in the left supraclavicular region, a dense conglomerate of lymph nodes 8.0 x 6.0 cm is palpated, immobile, fused with the neurovascular bundle of the neck and surrounding tissues, spreading over the collarbone. Horner's syndrome is noted - the edge of the upper eyelid of the left eye covers the limb by 5 mm, the pupil is narrowed, exophthalmos - 5.0 mm. The severity of pain - 9 points on a visual-analogue scale.

 Given the prevalence of the process involving the sympathetic trunk, common carotid artery, the case was found to be inoperable. Since the possibilities of radiation therapy were exhausted, it was decided to conduct a 2-week course of local chemotherapy (a total of 10 injections of methotrexate 10 mg each), which included 5 sessions of thermochemotherapy in accordance with the claimed technical solution.

 At the end of the course, there was a decrease in pain, an improvement in overall well-being. On examination, 6.02.01g. - metastatic node 2.0x3.0 cm, limited movable.

 A similar course was carried out after 2 weeks. At the end of the course 11.03.01g. complete regression of the tumor node was noted. Horner's syndrome is not defined, the edge of the upper eyelid of the left eye slightly covers the limb, there is no anisocoria, the difference in the standing of the eyeballs is 2.0 cm.

 The patient is under clinical supervision for 6 months.

 2. Patient S.L.M., born in 1929, IB 4897 / l.

 Received January 17, 2001 with a diagnosis of cancer of the mucous membrane of the bottom of the oral cavity, stage III, with metastases to the lymph nodes of the neck on the right. The primary lesion was cured by the combined method in 2000 (surgery, DHT, SOD 40 Gy). Objectively: in the right submandibular region, a dense fixed node up to 8.0 cm in diameter is determined, fused to the neurovascular bundle of the neck and germinating skin. Due to the prevalence of the process, the case is considered inoperable. Since the possibilities of radiation therapy were exhausted, it was decided to conduct a course of thermochemotherapy in accordance with the claimed technical solution.

 On examination 02.26.01g. - metastatic node 5.0x4.0 cm, movable. The process is recognized as operable. 1.03.01g. the operation was performed - fascial-sheath cervical excision on the right. The operation is radical. We managed to separate the tumor conglomerate from the common carotid artery and the recurrent nerve. The postoperative period was uneventful. The patient was discharged on the 10th day. It is monitored without relapse for 6 months.

 In total, in accordance with the claimed method, thermochemotherapy was carried out to 38 patients for malignant neoplasms of the head and neck. For the period of observation of complications associated with the use of the proposed method is not registered.

The technical and economic effectiveness of the method of treating malignant neoplasms is:
- in increasing the resectability of malignant neoplasms;
- in the absence of contraindications for patients suffering from cardiovascular diseases;
- to improve the quality and increase the life expectancy of patients with malignant neoplasms available for implementation of the claimed technical solution.

Claims (1)

 A method for treating malignant neoplasms, including local thermochemotherapy with blood flow modification, characterized in that at least 5 U of oxytocin is injected into the tissues surrounding the tumor before each session of local thermochemotherapy.