Dermatological systems and methods for providing a therapeutic laser treatment using a handpiece delivering one or more therapeutic laser pulses to a target skin area along a first optical path, and sensing the temperature of the target skin area based on infrared energy radiating from the target skin area along a second optical path generally counterdirectional to the first office action, and sharing a common optical axis with the first optical path for at least a portion of the first and second optical paths. The handpiece may also provide contact cooling for a first skin area comprising the target skin area.

A device for treating a skin lesion including a container, an applicator tube and an applicator tip, wherein the applicator tube is attached to the container and applicator tip to allow the passage of a skin lesion treatment agent from the container to the applicator tip.

A device and system for removing polyps is provided and includes a tubular member having proximal and distal ends, a snare portion operably extending from within the distal end of the tubular member, the snare portion including a cutting member for severing the sealed tissue. The polyp removal device may further include a handle portion operatively extending from within the proximal end of the tubular member. The handle portion may be configured for operable engagement by a user and the cutting member may extend between distal ends of the first and second electrodes.

Aspects of the present disclosure are directed toward systems and methods for detecting force applied to a distal tip of a medical catheter. In some embodiments, a medical catheter with a deformable body near a distal tip of the catheter deforms in response to a force applied at the distal tip, and a force sensor detects various components of the deformation. Processor circuitry may then, based on the detected components of the deformation, determine a force applied to the distal tip of the catheter.

Smart torquers are provided. Aspects of the smart torquers include: an engager for releasably engaging an elongated intravascular device; a communications module; a contact associated with the engager and configured to communicatively contact an elongated intravascular device engaged by the engager with the communications module; and a manipulator configured to allow a user to torque an elongated intravascular device engaged by the engager. Aspects of the invention further include methods of using the smart torquers, as well as systems and kits employed in such methods.

Electrosurgical lysing devices and related systems and methods. In some embodiments, the lysing device may comprise a lysing tip comprising a plurality of beads. One or more of the plurality of beads may be electrically non-conductive, at least along their respective surfaces. The lysing tip may further comprise at least one lysing member defining at least one lysing segment extending between each pair of adjacent beads. At least a subset of the plurality of beads may protrude both distally and proximally relative to the at least one lysing member.

Electrosurgical lysing devices and related systems and methods. In some embodiments, the lysing device may comprise a lysing tip comprising at least one bead comprising an at least substantially electrically non-conductive surface and at least one lysing member defining at least one lysing segment extending within a recess defined, at least in part, by the at least one bead, wherein the at least one bead protrudes both distally and proximally relative to the at least one lysing member.

This invention relates to the treatment of a patient's lung, for example, a lung exhibiting chronic obstructive pulmonary disease (COPD) and in particular to methods and devices for affecting lung volume reduction, preferably for achieving acute or immediate lung volume reduction following treatment. The lung volume reduction is effected by delivering a condensable vapor at a temperature above body temperature to the desired regions of the patient's lung to damage tissue therein. Blood flow and air flow to the damaged tissue region is essentially terminated, rendering the target region non-functional. Alternative energy sources may be used to effect the thermal damage to the lung tissue.

A cordless surgical device includes a battery and a memory that stores data in which, with each of a plurality of energy output modes in which living tissue is treated by applying energy to the living tissue, a minimum power necessary to execute the energy output mode is associated, and a processor. The processor monitors a remaining power in the battery, selects an energy output mode in which the minimum power is less than the remaining power in the battery from among the energy output modes, and executes the selected energy output mode. The energy output modes include a normal output mode and an urgent output mode between which types of energy applied to the living tissue are the same. The minimum power corresponding to the normal output mode is higher than the minimum power corresponding to the urgent output mode.

Apparatuses and methods are disclosed for applying laser energy having desired pulse characteristics, including a sufficiently short duration and/or a sufficiently high energy for the photomechanical treatment of skin pigmentations and pigmented lesions, both naturally-occurring (e.g., birthmarks), as well as artificial (e.g., tattoos). The laser energy may be generated with an apparatus having a resonator with a sub-nanosecond round trip time.