초록 ▼

A method and apparatus for treatment of fungal infections and/or other foot skin disorders, comprises a shoe-type housing having a substantially hollow interior forming a treatment chamber, a supporting platform disposed within the hollow chamber; so that a foot of a patient positioned within the tr

A method and apparatus for treatment of fungal infections and/or other foot skin disorders, comprises a shoe-type housing having a substantially hollow interior forming a treatment chamber, a supporting platform disposed within the hollow chamber; so that a foot of a patient positioned within the treatment chamber is supported by the platform, so that nails are disposed at the lower level of the front part of the chamber, whereas the heel of the foot is being elevated a rear part thereof. A delivery and control assembly for the aqueous solution is provided. At least one light delivery arrangement is disposed within or in the vicinity of the treatment chamber.

대표청구항 ▼

1. A method for treatment of one or more skin medical conditions of a limb of a patient, the skin medical conditions including a fungal infection, the method comprising: inserting the limb of said patient within a hollow treatment chamber formed within a shoe shaped housing, the shoe shaped housing

1. A method for treatment of one or more skin medical conditions of a limb of a patient, the skin medical conditions including a fungal infection, the method comprising: inserting the limb of said patient within a hollow treatment chamber formed within a shoe shaped housing, the shoe shaped housing having at least one light source configured to emit skin treatment light energy, a circulation assembly configured to circulate a skin treatment aqueous solution, one or more sensors, and a power and control unit to control the circulation assembly and the at least one light source;detecting one or more skin parameters of the limb with the one or more sensors, the skin parameters selected from the group consisting of skin melanin concentration, skin hemoglobin concentration, and skin water content;controlling with the power and control unit: a treatment protocol for the limb based on said one or more skin parameters detected by said one or more sensors, the treatment protocol including a duration of exposure of the limb to said aqueous solution and an amount of said skin treatment energy for irradiating the limb; andan amount of the skin treatment aqueous solution in the treatment chamber to partially or fully submerge the limb;submerging the limb or a portion thereof in said skin treatment aqueous solution by delivering the amount of skin treatment aqueous solution to the treatment chamber, with the circulation assembly;circulating the amount of the skin treatment aqueous solution within the treatment chamber with the circulation assembly for the duration of exposure; andirradiating said limb within the treatment chamber with the amount of skin treatment energy at a wavelength absorbed by the skin of the limb, with the at least one light source. 2. The method of claim 1, wherein the skin treatment aqueous solution is capable of eliminating skin pathogens. 3. The method of claim 1, wherein: the treatment chamber extends between front and rear areas of the housing;the housing further includes a supporting platform disposed within the hollow chamber with a top surface of the platform is positioned at an acute angle relative to a bottom of the apparatus;the treatment chamber is supported by the platform and angled having a front part at a lower level than a rear part thereof than a rear part of the treatment chamber; andwherein said step of inserting the limb of said patient comprises inserting a foot of a patient within said treatment chamber with nails of the foot disposed in said front part of said treatment chamber are lower than a heel of the foot disposed in said rear part of the treatment chamber. 4. The method of claim 3, wherein a top surface of the supporting platform is formed from a resilient material and a gel layer is provided below the resilient top surface of the platform, the method further comprising the step of adapting said resilient material to a specific shape of said foot of said patient. 5. The method of claim 3, wherein the treatment chamber includes an inner area covered by flexible material transparent to light radiation, the flexible material forming a disposable envelope positioned within the treatment chamber, and wherein said inserting said foot of said patient within said treatment chamber comprises covering said foot with said flexible material. 6. The method of claim 3, wherein said apparatus further comprises a cooling arrangement formed within the interior of the supporting platform and a solution reservoir, wherein the cooling arrangement and the interior of the treatment chamber form part of said circulation assembly, and said method further comprising the step circulating a cooling fluid within the treatment chamber thereby reducing a temperature of the aqueous solution. 7. The method of claim 6, wherein the apparatus further comprises a detecting arrangement selected from the group consisting of photoelements, photoresistors and photodiodes, and wherein the method further comprises the steps of: using said detecting arrangement, detecting a predetermined condition within the treatment chamber;when said predetermined condition is detected at said detecting arrangement generating a signal directed to the power and control unit; andresponsive to receipt of said signal directed to said power and control unit, producing a correcting signal directed to the circulation assembly containing the cooling fluid for activation thereof to adjust the condition in the treatment chamber. 8. The method of claim 6, said cooling arrangement comprising a resilient light transparent pocket disposed at the front area of said treatment chamber and including a circulation loop containing a cooling fluid, and wherein said method further includes circulating said cooling fluid within said circulation loop of said light transparent pocket thereby to cool the nails and to improve transmission of laser irradiation energy to the nails. 9. The method of claim 1, wherein said irradiating comprises providing different levels of radiation for different zones of treatment based on results of said detecting at least one of a level of melanin, hemoglobin, and skin water content. 10. The method of claim 1, further comprising a step of cooling the treatment chamber with a cooling plate within the shoe shaped housing.