Abstract: Systems and methods for assembling an illuminated infusion cannula involving an optical fiber support assembly with an optical fiber support tube and a positioning insert that couples within a cannula and that can position an optical fiber in the tip of the cannula while supporting substantially laminar and minimally-restricted fluid flow through the cannula.

Abstract: An example laser probe comprises one or more fibers extending from a proximal end of the laser probe to at least near a distal end of the laser probe, where the proximal end of the laser probe is configured to be coupled to a laser source via an adapter interface, and a cannula having a distal end and surrounding the one or more fibers along at least a portion of the laser probe at or near the distal end of the laser probe. The laser probe further comprises one or more lens elements, where each lens element is fused to or formed directly on the distal end of a corresponding one of the one or more fibers. In some embodiments, the laser probe is a multi-fiber, multi-spot laser probe, e.g., comprising four or more fibers and four or more corresponding lens elements.

Abstract: An example multi-fiber, multi-spot laser probe comprises a plurality of fibers extending from a proximal end of the laser probe to at least near a distal end of the laser probe, where the proximal end of the laser probe is configured to be coupled to a laser source via an adapter interface, and a cannula having a distal end and surrounding the plurality of fibers along at least a portion of the laser probe at or near the distal end of the laser probe, where a distal end of each of the plurality of fibers is angle-polished so that the distal end of each fiber is angled relative to a longitudinal axis of the cannula and relative to a plane perpendicular to the longitudinal axis of the cannula. Additional embodiments employ lensed fibers, a distal window, ball lens, lens array, or faceted wedge.

Abstract: Multi-fiber laser probes utilize relative motion of fibers and other laser probe elements to preserve small-gauge compatibility while providing for multi-spot beam deliver, or to provide for the selectively delivery of single-spot or multi-spot beam patterns. An example probe includes fibers having distal ends that are movable as a group onto a distal ramp element affixed to a distal end of a cannula, so that the distal ends of the fibers can be moved between a retracted position, in which the distal ends of the fibers are within the cannula or ramp element, and an extended position, in which distal ends of the fibers are guided by grooves or channels of the ramp so as to extend at least partially through external openings in the distal end of the laser probe and so as to be pointed angularly away from a longitudinal axis of the cannula.

Abstract: In some embodiments, an illuminated microsurgical instrument system includes a microsurgical instrument having a distally projecting tubular member arranged to perform a medical procedure. The tubular member has a distal tip and an outer surface, the outer surface having a flat surface formed therein. The instrument includes a sheath member surrounding a portion of the tubular member and extending toward the distal tip of the tubular member and an optical fiber extending along a length of the flat surface between the tubular member and the sheath member. The instrument may include an opening such as a slot in the distal end of the sheath member to direct exiting air away from the tip of the optical fiber. The instrument may further include a slack chamber, collar structure, and fiber guard member to support and guide the optical fiber to the distal tip.

Abstract: Provided herein is an illuminated microsurgical instrument system and an illuminated microsurgical instrument. In one implementation, the system includes a microsurgical instrument having a distally projecting tubular member arranged to perform a medical procedure at an interventional site. The tubular member has a distal tip and an outer surface, the outer surface having a flat surface formed therein. The instrument includes a sheath member surrounding a portion of the tubular member and extending toward the distal tip of the tubular member and an optical fiber extending along a length of the flat surface between the tubular member and the sheath member. The instrument may further include a slack chamber, collar structure, and fiber guard member to support and guide the optical fiber to the distal tip.

Abstract: An accessory is adapted to removably couple to a laser source connector separate from a fiber connector. The accessory includes a first contact element configured to form an electrical connection to a first portion of the laser source connector. The accessory further includes a second contact element configured to form an electrical connection to a second portion of the laser source connector. The second portion of the laser source connector is electrically insulated from the first portion of the laser source connector. The accessory also includes a network connected to the first contact element and the second contact element. The network establishes a defined electrical characteristic between the first and second contact element when a fiber connector is connected to laser source connector.

Abstract: A platen for use with the heating and melting of thermoplastic material from bulk containers is disclosed. The platen includes channels having a channel depth that varies and increases to a maximum depth near the center of the platen.

Abstract: An apparatus used in a system for liquefying and dispensing a hot melt adhesive from a container to a substrate using an improved platen with fins to help guide the hot melt adhesive to a pump. The fins consist of primary, secondary, tertiary, and perimeter fins. The primary fins of the platen extend from the outer periphery radially inward to the center of the platen. The secondary fins are interposed between the pairs of primary fins, and the tertiary fins are interposed between each pair of primary and secondary fins. Both the secondary and tertiary fins taper to provide for a gradual pressure drop along their radial extent to provide for a better fluid flow. The perimeter fins, which are located radially inward along the outer circumference of the platen, provide for an increased surface area at the outer edges of the platen. A pair of elastomeric seals provides a fluid tight seal between the platen and the container of hot melt material.