Sphincterotomes and methods for making and using sphincterotomes are disclosed. An example sphincterotome may include an elongate shaft having an outer surface and a distal end region. The sphincterotome may also include a sphincterotome wire assembly having a distal end coupled to the distal end region of the elongate shaft and a body portion extending along the outer surface of the elongate shaft. The sphincterotome wire assembly may be designed to shift the distal end region of the elongate shaft between a first configuration and a curved configuration. The body portion of the sphincterotome wire assembly may include a cutting region and a nonconductive region.

The invention resides in the field of medical technology. It relates in particular to a sonotrode suitable for use with an ultrasonic surgical instrument. The invention refers further to an ultrasonic surgical instrument for cutting or punching bones, including such a sonotrode as well as a method for manufacturing the sonotrode of the invention.

The present disclosure provides a dual-blade tendon cutting apparatus and cartridge for multiple apparatuses. Exemplary aspects of the present disclosure relate to a cutting implement that comprises two parallel blades that are spaced apart from one another by a predefined distance. The distance between the blades determines a lateral size of a graft being taken from the quadriceps tendon. To simplify matters for the surgeon, a cartridge is provided with three different blade sets. Much like a razor that has a disposable head, the cutting implement may attach to a desired blade set and be used.

The present disclosure provides a dual-blade tendon cutting apparatus and cartridge for multiple apparatuses. Exemplary aspects of the present disclosure relate to a cutting implement that comprises two parallel blades that are spaced apart from one another by a predefined distance. The distance between the blades determines a lateral size of a graft being taken from the quadriceps tendon. To simplify matters for the surgeon, a cartridge is provided with three different blade sets. Much like a razor that has a disposable head, the cutting implement may attach to a desired blade set and be used.

A full core biopsy device includes a needle assembly having stylet, spoon, and at least one coring cannula. A window is located in at least one of the spoon and coring cannula. An excising finger is configured to prolapse through the window into a lumen of the inner spoon or cannula to sever a tissue sample upon translation or axial advancement of the excising finger.

Viruses around the uterine orifice and in the vagina are reliably and safely removed with a simple configuration. A virus removal device includes a drive source that generates power, a contact part that comes into contact with an affected part around the uterine orifice or in the vagina, a power transmission part that transmits the power generated by the drive source to the contact part, and an operation part that operates a position of the contact part, in which the contact part is operated by the operation part while being driven by the drive source, thereby scraping tissue of the affected part. The contact part scrapes the tissue of the affected part in squamo-columnar junction, which is a common site of cervical cancer, thereby physically removing the virus contained in the tissue of the affected part to prevent and treat cervical cancer.

An apparatus for treating skin has a console with a user input device and a handpiece assembly. The handpiece assembly is configured to treat skin. A fluid line provides fluid communication between the console and the handpiece assembly. A manifold system is coupled to the console and controlled by the user input device. The manifold system is configured to hold releasably a plurality of fluid sources and deliver fluid from at least one of the plurality of fluid sources to the handpiece assembly.

An apparatus for treating skin has a console with a user input device and a handpiece assembly. The handpiece assembly is configured to treat skin. A fluid line provides fluid communication between the console and the handpiece assembly. A manifold system is coupled to the console and controlled by the user input device. The manifold system is configured to hold releasably a plurality of fluid sources and deliver fluid from at least one of the plurality of fluid sources to the handpiece assembly.

This document relates to devices and methods for the treatment of heart conditions. For example, this document provides devices and methods for treating heart failure with preserved ejection fraction, including diastolic heart failure, by performing a pericardial modification procedure. The methods for treating diastolic heart failure of a patient include: creating an opening in a parietal layer, and only in the parietal layer, of a pericardial tissue of the patient. The creation of this opening reduces pressure exerted by the pericardial tissue on a heart of the patient.

Systems, instruments, and methods for minimally invasive procedures including one or more of fractional resection, fractional lipectomy, fractional skin grafting, and/or fractional scar revision are described. Embodiments include instrumentation comprising a scalpet assembly coupled to a carrier, and the scalpet assembly includes a scalpet array. The scalpet array includes one or more scalpets configured for fractional resection, fractional lipectomy, fractional skin grafting, and/or fractional scar revision. The system includes a vacuum component coupled to the scalpet assembly and configured to evacuate tissue from the a site. The carrier is configured to control application of a rotational force and/or a vacuum force to the scalpet assembly.