Abstract: A wheel assembly kit for a Mecanum wheel is provided. The kit includes a convex hub having a central axis and a perimeter. The perimeter comprises a plurality of flat spoke faces extending therearound. A spoke is releasably couplable to each spoke face. The spoke is alignable on the spoke face in a first orientation for one of left-handed and right-handed drive. When the spoke is rotated ninety degrees about its respective spoke face, the spoke is alignable in a second orientation for the other of the left-handed and the right-handed drive. A method of assembling the wheel assembly is also provided.

Abstract: An adjustable mechanical stop for a tube bender is disclosed. The tube bender includes an elongated arm having a pivoting end and a free end, wherein the pivoting end is pivotally connectable to a tube bender. A stop is disposed at the free end of the elongated arm, wherein the stop is disposed to engage a tube in the tube bender. A lock is disposed along the elongated arm, wherein the lock is engageable with the tube bender to adjustably secure the stop relative to the tube bender. A tube bender incorporating the mechanical stop is also disclosed.

Abstract: An information ring for use with a catheter is disclosed. The information ring includes a body having a first end and a second end. The body has a first body face extending between the first end and the second end, and a second, generally convex face extending between the first end and the second end. The body has an opening extending therethrough between the first body face and the second face. A first indicia portion is located at the first end. The first indicia portion has a first indicia face sized to allow indicia to be printed on the first indicia face.

Abstract: An optical waveguide is disclosed. The waveguide includes a first cladding layer having a first exposed surface portion and a second surface portion generally opposing the first exposed surface portion, and a core disposed on a portion of the second surface portion. The core has a first end and a second end. The waveguide also includes a second cladding layer having a first exposed surface portion and a second surface portion generally opposing the first exposed surface portion. The second surface portion of the second cladding layer is disposed on the core and a remaining portion of the second surface portion of the first cladding layer. An optical waveguide assembly incorporating the optical waveguide and a method of manufacturing the waveguide are also disclosed.

Abstract: An L band optical amplifier in disclosed. The amplifier includes a signal line for transmitting a signal light in a first direction. The signal line includes an input, an output disposed optically downstream of the input, and a first amplifying gain medium optically disposed between the input and the output. A first laser is optically aligned with the first amplifying gain medium to transmit a first pump light to the first amplifying gain medium toward the output. A first reflector is disposed along the signal line between the first amplifying gain medium and the output to reflect a first bandwidth of light from the first amplifying gain medium back into the first amplifying gain medium. A second laser is optically aligned with the first amplifying gain medium to transmit a second pump light to the first amplifying gain medium toward the input.

Abstract: Continuous flow catheters, diffusers for catheters, catheters having a diffuser, and methods for continuous flow peritoneal dialysis are provided. The continuous flow catheter includes at least two lumens, of which one is short and the other is long. The long lumen is coiled and contains a plurality of openings. Another similar continuous flow catheter also includes a diffuser for the dispensing of fluid in a diffused manner. The catheters are used for peritoneal dialysis. The diffuser, for use with a catheter, has a plurality of openings for the dispensing of matter in a diffused manner. One method for continuous flow peritoneal dialysis includes creating an incision in the body of the user and separating the anatomical layers, making a circular suture in the peritoneal membrane, making an incision in the peritoneal membrane, inserting the catheter, and tightening the parietal peritoneum.

Abstract: A method of extracting a catheter assembly with an extracting device. The catheter includes a tissue ingrowth cuff that is grown into a subcutaneous location. The extracting device includes a handle and a head having an external gripping surface which is sized for inserting into a lumen of the catheter assembly for gripping an internal surface of the catheter assembly within the tissue ingrowth cuff and dislodging the cuff from surrounding tissue.

Abstract: An L band optical amplifier in disclosed. The optical amplifier includes a signal line which has an input, an output disposed optically downstream of the input, and an amplifying gain medium optically disposed between the input and the output. The optical amplifier further includes a laser optically connected to the first amplifying gain medium and an apparatus for directing C band light into the amplifying gain medium.

Abstract: A planar optical waveguide is disclosed. The waveguide includes a substrate, a first cladding disposed on the substrate, and a first core disposed on a first portion of the first cladding. The first core is constructed from a first material. The optical waveguide also includes a second core disposed on a second portion of the first cladding, with the second core being constructed from a second material and a second cladding disposed on the first core, the second core, and a remaining portion of the first cladding. A method of manufacturing the waveguide is also disclosed.

Abstract: A multilumen catheter assembly and methods for making and inserting the same are provided. The catheter assembly includes a unitary catheter and at least two distal end tubes which extend distally from the unitary catheter. The at least two lumens in the unitary catheter are in fluid communication with passageways through the distal end tubes. The catheter assembly may be made by extruding a unitary catheter tube having internal longitudinally extending lumens, then splitting the tube on its distal end portion to form distal end tubes. The tubes are then ground and polished to form a smooth surface on the exterior of the tubes. The catheter assembly may also be made by forming an outer layer on at least two longitudinally extending catheters while leaving two distally extending portions of the tubes outside the outer layer to form the distal end tubes.

Abstract: A multilumen catheter assembly is provided, which includes a unitary portion and at least two distal end tubes extending distally from the unitary portion. The unitary portion includes an exterior having a generally round or oval shape in cross section and includes at least two distal end tubes of generally circular (or other) cross sectional shape extending longitudinally therethrough. The catheter assembly may be made by extruding a unitary tube having internal longitudinally extending lumens (of circular or other shape), then splitting the tube on its distal end portion to form distal end tubes. The tubes are then ground and polished, the finished tubes retaining in combination the generally oval cross sectional shape of the unitary extrusion, or the finished tubes can each be finished to a circular, or other, cross sectional shape, or the finished tubes could include a combination of cross sectional shapes over its longitudinal length.

Abstract: A method for inserting a double catheter assembly into an area of a body to be catheterized is provided. A formula is included for determining the optimal size of dilator device to be used in the method provided.

Abstract: A channel waveguide optical amplifier is disclosed. The amplifier includes a substrate and an optical waveguide channel disposed on the substrate. The optical waveguide channel includes a first generally spiraling portion having a first free end and a first connected end, a second generally spiraling portion having a second free end and a second connected end, and a transition portion. The transition portion has a first transition section connected to the first connected end, a second transition section connected to the second connected end, and an inflection between the first and second transition sections. An amplifier assembly incorporating the channel waveguide and a method of amplifying a light signal are also disclosed.

Abstract: An optical waveguide assembly is disclosed. The optical waveguide assembly includes having a substrate face, a cladding disposed on the substrate, and a waveguide core disposed within the cladding. The waveguide core has a waveguide core face such that the waveguide core face is aligned with the substrate face. The assembly further comprises a fiber support assembly having a support face in contact with the substrate face and a fiber having a fiber core face optically aligned with the waveguide core face. Non-adhesive means fixedly connects the substrate face to the support face. A method of non-adhesively bonding an optical waveguide to a fiber support is also disclosed.

Abstract: A dual mode electronic amplifier controller is disclosed. The amplifier includes a first amplifier electronically connectable to an optical input signal and a second amplifier electronically connectable to an optical output signal. The first amplifier has a first output and the second amplifier has a second output. The amplifier controller further includes a microprocessor electronically connected to the first and second outputs. The microprocessor is adapted to operate in one of a first mode wherein the microprocessor compares functions of the first and second outputs and generates a first microprocessor output, and a second mode wherein the microprocessor compares the second output to a predetermined value and generates a second microprocessor output, such that, in either the first or second modes, each of the first and second microprocessor outputs is adapted to adjust electrical current to a laser.

Abstract: An L band optical amplifier in disclosed. The optical amplifier includes a signal line for transmitting a light signal in a first direction. The signal line has an input, an output disposed optically downstream of the input, and an amplifying gain medium optically disposed between the input and the output. The optical amplifier further includes a laser optically connected to the first amplifying gain medium and an apparatus for directing C band light generated in a second direction, opposite the first direction, into the amplifying gain medium.