The present system and method relates in general to treating warts using a triple combination of therapies contained within a kit. The therapies are easy for a patient to self-apply, eliminating the need for constant physician supervision. The first therapy involves a patient applying a patch within the kit to a wart, which may be in the form of a transdermal patch. The patch may contain a first medicine, such as salicylic acid, and be worn for a period of twelve hours. Once removed, the second therapy involves using an ablative tool to gently slough away the treated wart, said ablative tool being contained within the kit. The third therapy involves applying a second patch, which may contain a second medicine, such as imiquimod, and also be worn for a period of twelve hours. This three step process may be repeated until the wart is fully treated.

This disclosure relates to an in vivo treatment of tissue, for example, a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

This disclosure relates to an in vivo treatment of a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond at the full-width-half-maximum. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

The subject matter described herein provides non-invasive tape stripping methods for the collection of a skin sample. The tape stripping method includes applying and removing at least one adhesive tape, provided that a skin sample is adhered to the adhesive tape after removal. The at least one adhesive tape is supplied in an adhesive skin sample collection kit. The adhesive skin sample collection kit further comprises a sample collector and instructions for use sheet.

A distance between a surface of a treatment head and tip opening of a skin treatment hand piece is adjustable. In an implementation, the distance is adjusted by moving the tip opening relative to the treatment head surface. Different distances may be used to treat different skin types, problems, and conditions. In an implementation, the hand piece includes a fluid delivery and a vacuum or suction mechanism to provide various therapeutic benefits to the skin.

This disclosure relates to an in vivo treatment of a skin lesion of a mammal comprising application of electrical energy to the skin lesion in a form of electrical pulses. At least one electrical pulse is applied. The pulse duration may be at least 1 nanosecond at the full-width-half-maximum. Surface of a tissue surrounding the skin lesion may be marked to guide the device to deliver the electric pulses at substantially precise locations on the lesion surface. This treatment may prevent at least growth of the lesion.

A laser treatment device may include a laser module which irradiates a patient's skin with a laser. The device may also include a sensing unit which detects a temperature of surface of the patient's skin before, during, or after the skin is heated by the laser, a cooling module which includes an inlet which receives a refrigerant from a refrigerant storage unit, a nozzle which sprays the refrigerant on the skin, and a conduit which connects the inlet with the nozzle. The device may further include an flow rate control unit which controls a spray amount of the refrigerant by using a valve which is positioned on the conduit and connects or disconnects the inlet with or from the nozzle, and a refrigerant condition control unit which applies a thermal energy to the refrigerant by using a thermoelectric element located between the flow rate control unit and the nozzle.

A distance between a surface of a treatment head and tip opening of a skin treatment hand piece is adjustable. In an implementation, the distance is adjusted by moving the tip opening relative to the treatment head surface. Different distances may be used to treat different skin types, problems, and conditions. In an implementation, the hand piece includes a fluid delivery and a vacuum or suction mechanism to provide various therapeutic benefits to the skin.

The subject matter described herein provides non-invasive tape stripping methods for the collection of a skin sample. The tape stripping method includes applying and removing at least one adhesive tape, provided that a skin sample is adhered to the adhesive tape after removal. The at least one adhesive tape is supplied in an adhesive skin sample collection kit. The adhesive skin sample collection kit further comprises a sample collector and instructions for use sheet.