Abstract: Provided are dermatological medical devices and methods comprising a distal end for positioning at a region proximal a target therapeutic region of tissue, an output port at the distal end, an energy source that generates optical energy, which is output from the output port to the target therapeutic region of tissue, and a control device that controls the optical energy at the target therapeutic region of tissue for increasing a temperature of the target therapeutic region of tissue for a period of time to a temperature that is less than an injuring temperature and induces an expression of heat shock proteins (HSPs) at the target therapeutic region of tissue.
Abstract: A self-aligning laser system that is capable of accurate placement for xyz coordinate and rotational alignment and registration of optical lens or lenses in relation to a laser diode without the need for active alignment. This approach reduces complexity, assembly time and costs without sacrifice to precision of alignment and optical performance.
Abstract: Provided are dermatological medical devices and methods comprising a distal end for positioning at a region proximal a target therapeutic region of tissue, an output port at the distal end, an energy source that generates optical energy, which is output from the output port to the target therapeutic region of tissue, and a control device that controls the optical energy at the target therapeutic region of tissue for increasing a temperature of the target therapeutic region of tissue for a period of time to a temperature that is less than an injurying temperature and induces an expression of heat shock proteins (HSPs) at the target therapeutic region of tissue.
Abstract: Provided are dermatological medical devices and methods comprising a distal end for positioning at a region proximal a target therapeutic region of tissue, an output port at the distal end, an energy source that generates optical energy, which is output from the output port to the target therapeutic region of tissue, and a microcontroller that processes replenishment data that controls an operation parameter of the device. The device is activated for performing a treatment operation in response to a receipt and processing of the replenishment data.
Type:
Grant
Filed:
September 10, 2013
Date of Patent:
November 18, 2014
Assignee:
Dermal Photonics Corporation
Inventors:
Paul Dunleavy, David Bean, Drake Stimson
Abstract: Provided are dermatological medical devices and methods comprising a distal end for positioning at a region proximal a target therapeutic region of tissue, an output port at the distal end, an energy source that generates optical energy, which is output from the output port to the target therapeutic region of tissue, and a microcontroller that processes replenishment data that controls an operation parameter of the device. The device is activated for performing a treatment operation in response to a receipt and processing of the replenishment data.
Type:
Application
Filed:
September 10, 2013
Publication date:
March 13, 2014
Applicant:
Dermal Photonics Corporation
Inventors:
Paul Dunleavy, David Bean, Drake Stimson
Abstract: Provided are dermatological medical devices and methods comprising a distal end for positioning at a region proximal a target therapeutic region of tissue, an output port at the distal end, an energy source that generates optical energy, which is output from the output port to the target therapeutic region of tissue, and a control device that controls the optical energy at the target therapeutic region of tissue for increasing a temperature of the target therapeutic region of tissue for a period of time to a temperature that is less than an injurying temperature and induces an expression of heat shock proteins (HSPs) at the target therapeutic region of tissue.