KR100564897B1 - Photodynamic Therapy using Photosensitizer and Chemical Light - Google Patents

Abstract

In particular, the present invention discloses a photodynamic therapy method in which a cytotoxic activity is obtained by irradiating chemical light locally after administering a photosensitizer to contract or destroy an animal tumor.

The present invention is to obtain a stable treatment effect at a low cost by performing photodynamic therapy using chemical light as a light source capable of activating the photosensitizer, the present invention is to administer a hypericin (hypericin), etc. By irradiating visible light source with chemical light on the tumor site of animal, light rays irradiated to cancer tissue with selective photosensitizer accumulation and high photosensitivity due to active ingredient selectively in cancer tissue To damage it.

Accordingly, the present invention controls the cytotoxic ability of only the site irradiated with chemical light without affecting other normal tissues at any cost, regardless of the place or environment, and stable local skin cancer treatment effect of animal and animal dermatology Of psoriasis, vitiligo treatment effect can be expected.

Description

 Photodynamic Therapy using Photosensitizer and Chemical Light

The present invention relates to a photodynamic therapy method using a photosensitive agent such as hyperlysine and chemical light. In particular, after administering the photosensitizer, the chemical light is locally irradiated so that cytotoxic activity is obtained to constrict animal tumors. It relates to photodynamic therapies that allow them to be destroyed or destroyed.

As is well known, cancer may be operated at the same time as three major treatments, surgery, chemotherapy, and radiation treatment, or cancer treatment may be performed after surgery to stop metastasis of the cancer.

Cancer treatment begins with the concept of total cell killing.

Therefore, it is desirable to perform a proper mixing of the various therapies as listed below.

First, while surgical surgery is the most classic cancer treatment, surgery still occupies an important place in cancer treatment. The best method for resection is to consider the type of cancer, location, metastasis, and patient's condition. Surgery, however, should be prepared to remove some of the surrounding normal tissue to ensure clear cancer.

In addition, cancers such as breast cancer, sarcoma, lymphoma, and testicular cancer may cause physical disorders due to surgery, which requires reconstruction or rehabilitation after surgery.

Therefore, various therapies have been mixed to minimize the problems associated with the reconstruction and rehabilitation of patients by further detaching normal tissues around these tumors.

In other words, chemotherapy is taking the anticancer drug as a pill or intramuscularly or intravenously. This is a systemic treatment that can kill cancer cells that spread as the cancer goes through the bloodstream. Mechanisms of action are effective by anticancer agents by inhibiting the synthesis of nucleic acids, the body of genes in cancer cells, or by impairing the function of cytoplasm.

Such chemotherapy has the problem that the cancer drug causes damage to normal cells as well as cancer cells, causing side effects such as bone marrow disorders, gastrointestinal disorders, hair loss, immune disorders in almost all patients.

In addition, radiation therapy is a topical treatment that uses high-energy radiation to kill cancer cells, rather than killing them immediately, destroying their nuclei, causing them to lose their division and proliferative function so that cancer cells that no longer divide can die throughout their lifespan. It is.

Although it is the cheapest in terms of cost among many chemotherapy treatments, due to its serious side effects, radiation is limited to two times.

Therefore, recently, photodynamid therapy (PDT) therapy has been proposed to overcome problems such as loss of normal tissue by surgical surgery, severe side effects from chemotherapy, or limiting the number of irradiation by radiation therapy. It is utilized.

As is well known, photodynamic therapy is a new cancer treatment method using photosensitizers that react sensitively to abundant oxygen and externally supplied lasers and laser light. The principle of photodynamic therapy is that if a photosensitizer is administered to a patient and after a certain time, the photosensitizer is selectively accumulated only in cancer tissues. It can be specifically removed. At present, it is applied to psoriasis and vitiligo in the dermatology field as well as cancer treatment using photodynamic therapy. However, in order to perform photodynamic therapy, a light source capable of activating the photosensitizer is required in addition to the photosensitizer. Currently, lasers that emit light of a specific wavelength are commonly used, but medical laser treatment equipments are too expensive and have a long service life. There is a problem that is not permanent.

An object of the present invention is to solve the problems of the light sensitizer and chemical light as a light source capable of activating the light sensitizer to perform a photodynamic therapy using a chemical light sensitizer and chemical light to obtain a stable treatment effect at low cost It is to provide a photodynamic therapy used.

The object of the present invention is to administer hyperactive lysine (hypericin), etc., as an active ingredient of St John's wort as a photosensitizer, and to irradiate a visible light source with a chemical light on the tumor site. We propose an excellent photodynamic therapy that selectively irradiates cancer tissues with selective photosensitizer accumulation and increased photosensitivity to damage tissues of cancer cells.

Accordingly, the present invention controls the cytotoxic ability of only the site irradiated with chemical light without affecting other normal tissues at any cost, regardless of the location or environment, and stable local skin cancer treatment effect of the animal and dermatology Can be expected to treat psoriasis and vitiligo.

When explaining the present invention in more detail as follows.

In the present invention, hyperlysine can be used as a light sensitizer.

This hyperlysine is an active substance of St John's wort, which is widely used in the West as an antidepressant, and the animal body due to the hyperlysine component contained in the herbal medicine when it is administered and exposed to sunlight. A study found that the problem could occur. Exposure to sunlight after taking this herb has been shown to cause cataract. The findings were recently published at a conference of the American Society of Photobiology in Washington, DC.

The active ingredient of Sado Johann grass is a substance called hypericin and is known to have a characteristic of generating free radicals when reacted with visible light or ultraviolet light. In a lab conducted by Joan Roberts, a research team at Fordham Univ., New York, USA, free radicals produced by reactions with hyperlysine and light are found in the eye. It has been found to be damaging. Proteins affected by free radicals are said to have the effect of keeping the lens transparent. If the free radicals produced by hyperlysine and light damage the protein in the eye, the protein itself does not dissolve in the liquid phase and precipitates, resulting in clouding of the lens, resulting in cataracts.

However, such hyperlysine alone is not known to affect any kind of protein, and only light is induced to cause protein damage.

Geoffrey Bove, a neurophysiologist at Harvard Medical School, also found that exposure to sunlight causes very intense pain in exposed areas. Bob's findings were published in The Lancet, Vol. 352, 1121. Bob explained that the pain caused by exposure to sunlight after ingestion of the apostolic grass is because free radicals produced by hyperlysine damage nerve cells.

The present invention focuses on the pharmacological properties of such photosensitizers such as hyperlysine, thereby irradiating visible or ultraviolet rays to the skin of an animal to which hyperlysine has been administered, thereby generating free radicals in the area where skin cancer occurs and damaging cancer cells. When the present invention is described in more detail with reference to the accompanying drawings to achieve an excellent therapeutic effect as follows.

In the present invention, in the case of skin cancer, in the case of skin cancer, hyperlysine and petrolatum are diluted in a ratio of 0.5: 5 to 1.5: 5 and applied to the skin to react for at least 6 hours to 8 hours to allow sufficient absorption into the epidermis. An energy of 150-100 J / cm ² is irradiated to the lesion site. Subsequently, the chemical light is attached to the skin where the tumor of the animal is present, but the shading measures are taken to prevent the light from being irradiated to other parts. It is practical to use an adhesive band for this purpose.

In the method of applying the present invention to the skin, lesion areas such as skin cancer, psoriasis, vitiligo, etc. in the dermatology area are different depending on the symptoms, but the lesion site where PDT is performed has a diameter of about 10 cm in diameter, depending on the shape of the lesion site. Various types of chemical lights are available in the form of square, stick and stick.

In addition, the quantity of use of the chemical light may be used more than one depending on the shape of the lesion site, of course, in the case where the lesion site is a curvature area that is not flat, the chemical light of the lesion as a flexible material lesion Match the curvature of the site.

In this way, the intensity of 2mW and the wavelength of 490nm to 670nm chemical light is irradiated for 6 hours in the early stage of the onset, depending on the degree of symptoms, and irradiated for 7 hours in the middle stage of the onset. Investigation of time resulted in significant treatment of cancer cell destruction, psoriasis and vitiligo.

In addition, in the case of using the adhesive band, the following structure may be used. First, the material of the band to which the pressure-sensitive adhesive is applied must be opaque to prevent unnecessary light diffusion.

In addition, a pocket formed at both sides of the band to fix the chemical light may be used at the center of the band.

In addition, a protective tape is attached to prevent the pressure-sensitive adhesive of the band utilized in the present invention in the distribution or storage process.

In addition, the specific structure of the chemical light used in the present invention may be used in the following form.

In other words, the capillary tube is contained in the outer shell, and the chemicals in the capillary tube are activators (D.M.P: Dimethyl Phthalate), butanol, and hydrogen peroxide, which act as activators to promote luminescence. In addition, the oxalate (Oxalate) in the outer shell may be used dibutyl phthalate (D.B.P: Dibuthyl Phthalate), oxalichloride, dyes containing chemicals.

The color of the light ray may vary depending on the dye put into the shell,

The duration and brightness of the light is changed according to the combination ratio of the various drugs.

The band according to the present invention is to break the capillary tube of the inner portion by first bending the middle portion before adhering to the skin. As a result, the capillary tube

The chemicals in the inside stimulate the reaction of the oxalate in the skin to generate light, and thus light emission begins. In this state, the protective tape of the band is peeled off, and the adhesive surfaces on both sides of the band are adhered to both sides of the treatment site of the skin, so that all the light of the chemical light is concentrated on the tumor site. In this state, the first procedure is completed by removing the adhesive band after 6 hours have elapsed.

In addition, in the present invention, it is possible to achieve a predetermined therapeutic effect by allowing the light by the chemical light to be concentrated on the tumor site by the fixing means of other forms such as bandages in addition to the adhesive band, and preventing the light from being irradiated on other areas. .

In the present invention according to the embodiment, since the light by the chemical light is used, it is possible to destroy tumor cells or treat psoriasis, alum, etc., in particular, while the patient moves freely.

 In addition, since the adhesive band in the present invention is to give the most normal light between 15-20 ℃, it is necessary to pay attention to the ventilation so that the temperature of the skin epidermis does not rise above 30 ℃.

In fact, the hyperlysine according to the present invention was irradiated for 6 hours using a green light generating chemical light that generates light having a wavelength of 528 nm and an intensity of 510 au. The cell survival rate was 1.25 ug / Cell viability was observed at 5.6% in ml.

  These results can confirm the excellent cytotoxic cell performance when chemical light is irradiated to a specific site after administration of hyperlysine.

In this manner, the present invention enables the removal of cells only in the irradiated area without any effect on other tissues by chemical light irradiation having a simple structure such as an adhesive band after administration of the photosensitizer. Accordingly, the present invention has a useful effect that it is much cheaper than the optical dynamic therapy therapy using a laser and can be stable without regard to the place to expect a high therapeutic effect.

Claims (4)

Dilute the sensitizer and petrolatum at a ratio of 0.5: 5 to 1.5: 5 and apply it to the skin to react for 6 to 8 hours to be sufficiently absorbed by the epidermis, and energy of 150-100J / cm ² during laser irradiation Photodynamic therapy using a light sensitizer and chemical light, characterized in that irradiated to the lesion site of the animal except for irradiated with a chemical light of wavelength 490nm to 670nm locally. The method of claim 1, Light generating means is a photodynamic therapy using a chemical sensitizer and a chemical light characterized in that the adhesion to the tumor site by the opaque adhesive tape. The method of claim 1, The light generating means is filled with dimethyl phthalate (DMP), butanol, and hydrogen peroxide as an activator in the capillary tube, and in the outer periphery of the shell, oxalate (DBP), oxalichloride and dyes Photodynamic therapy using chemical sensitizer and chemical light, which is chemically filled chemical light. The method of claim 1, Photo sensitizer is a photodynamic therapy using a photo sensitizer and chemical light characterized in that hyperlysine.