Abstract: The present invention relates to a support structure for supporting and positioning medical equipment with respect to a patients. The support structure includes a support plate for positioning external to the patient. The support plate has a weight bearing area for positioning beneath the patient so that the patient's weight rests on the support plate to securely hold the support plate in place. The support structure also includes a mounting bracket which can be removably secured to a piece of medical equipment, such as a speculum, so that the proximal end of the speculum is generally positioned over a first end of the support plate and the distal end of the speculum extends over the support plate in the direction of a second end support plate. The present invention also relates to a method of accessing a medical treatment site using the support structure and speculum.

Abstract: An introducer for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method of treating and angeological disease using a bifurcated stent; an endoluminal stent having perpendicular hoop members, each hoop member formed of wire in a sinuous configuration, at least some of juxtaposed apices in neighboring hoops being secured to one another, such stents also forming axially aligned segments in straight stents, and segments of bifurcated stents in particular embodiments. Certain embodiments of such stents also include barbs, fabric covering and radiopaque markers.

Abstract: An introducer for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method of treating and angeological disease using a bifurcated stent; an endoluminal stent having perpendicular hoop members, each hoop member formed of wire in a sinuous configuration, at least some of juxtaposed apices in neighboring hoops being secured to one another, such stents also forming axially aligned segments in straight stents, and segments of bifurcated stents in particular embodiments. Certain embodiments of such stents also include barbs, fabric covering and radiopaque markers.

Abstract: Apparatus for delivering an endoluminal stent or prosthesis in the vasculature of a body. The apparatus has an introducer adapted for insertion into the vasculature having a diameter and a first portion of lock fitting on its distal end. It also has a cartridge exterior the body having inner tubular member with a diameter equal to or less than the diameter of the introducer which contains the endoluminal stent or prosthesis in its entirety in a compressed state, an outer sheath, and a second portion of the lock fitting. The apparatus also includes a pusher adapted to fit within the inner tubular member of the cartridge and engage a distal end of the endoluminal or prosthesis. The first portion of the locking fitting on the introducer mates with the second portion of the lock fitting on the cartridge to prevent relative movement of the introducer in the cartridge. The inner tubular member and the introducer form a continuous lumen upon attachment of the cartridge and the introducer.

Abstract: An intraluminal stent and graft includes a stent made of a continuous helix of zig-zag wire and loops which connect adjacent apices of the wire. The stent is compressible and self-expandable substantially to a pre-compressed configuration. The device also includes a graft secured to the stent and made of a suitable biocompatible material.

Abstract: The invention comprises:An introducer for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method of treating and angeological disease using a bifurcated stent; an endoluminal stent having perpendicular hoop members, each hoop member formed of wire in a sinuous configuration, at least some of juxtaposed apices in neighboring hoops being secured to one another, such stents also forming axially aligned segments in straight stents, and segments of bifurcated stents in particular embodiments. Certain embodiments of such stents also include barbs, fabric covering and radiopaque markers.

Abstract: A intraluminal stent and graft includes a stent made of a continuous helix of zig-zag wire and loops which connect adjacent apices of the wire. The stent is compressible and self-expandable substantially to a pre-compressed configuration. The device also includes a graft secured to the stent and made of a suitable biocompatible material.

Abstract: The invention comprises:An introducer for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method for delivering into the vasculature a straight or bifurcated stent or prosthesis; a method of treating and angeological disease using a bifurcated stent; an endoluminal stent having perpendicular hoop members, each hoop member formed of wire in a sinuous configuration, at least some of juxtaposed apices in neighboring hoops being secured to one another, such stents also forming axially aligned segments in straight stents, and segments of bifurcated stents in particular embodiments. Certain embodiments of such stents also include barbs, fabric covering and radiopaque markers.

Abstract: An optical weather identification system employing a light beam source that transmits a partial coherent beam of light along a prescribed path to detect precipitation and distinguish rain from snow is improved by the provision of another channel that is further able to distinguish solidified precipitation, namely sleet and hail. The additional output is derived from an acoustic, rather than an optical input. An acoustic receiver is positioned at a remote site to be monitored, along with an optical transmitter and receiver. The acoustic receiver employs a microphone located beneath the center of the underside of a domed top of the acoustic receiver casing. Falling precipitation is optically detected using prior optical precipitation detection techniques. However, if the particles of precipitation are solidified, as in the case of sleet and hail, the microphone will detect the impact of the sleet and hail on the domed receiver casing as an audible input.

Abstract: A weather identification system is provided which employs a first photosensitive receiver positioned directly in the path of a beam of light a predetermined distance from a partially coherent light beam source. The first photosensitive receiver is in direct optical communication with the light beam source to produce electronic signals in response to scintillations caused by particle movement between the source and the first receiver. Signals from the detected scintillations are filtered to provide an output having a frequency range above one kilohertz indicative of rain intensity, and a second output having a frequency range lower than two hundred fifty hertz indicative of snow intensity. A second photosensitive receiver is positioned out of the path of the beam of light and is oriented at an oblique angle relative thereto to provide an output indicative of forward scattering of light from scintillations that occur in the beam of light.

Abstract: A weather identification system is provided for remotely detecting precipitation and for determining the nature of precipitation in an open environment, as at an aircraft landing field. The system employs an optical transmitter and receiver, wherein particles of precipitation passing through a light beam from the transmitter cause scintillations which are detected at the receiver. A drastic reduction in spatial separation between the light transmitter and receiver makes possible the use of a partially coherent light beam in place of a conventional laser beam. The transmitter and receiver are spaced apart a distance of approximately one meter, and the product of one half of the angle of incoherency multiplied by the spatial separation between the transmitter and receiver is no greater than about 2.5 millimeters. Rain passing through the light beam produces scintillations with substantial frequency components above one kilohertz. Snow induced frequencies are primarily below a few hundred hertz.

Abstract: A precipitation gauge is provided for remotely detecting precipitation and for measuring the rate of precipitation in an open environment, such as an aircraft landing field. The system employs an optical transmitter and receiver, wherein particles of precipitation passing through a light beam from the transmitter cause scintillations at the receiver. The spatial separation between the light transmitter and receiver is quite small, typically substantially less than one meter. The small separation between the transmitter and the receiver is made possible by the use of a partially coherent light beam, in place of a conventional laser beam. The transmitter and receiver are spaced apart a distance of approximately 0.6 meters. The product of one half of the angle of incoherency multiplied by the spatial separation between the transmitter and receiver is preferably about 1.5 millimeters.

Abstract: A tube expanding apparatus and method are disclosed utilizing a hollow, elastic, tubular bladder, an elongate connection member positioned within the bladder, a pair of end caps sealably connecting the bladder to the elongate member and forming an annular chamber between the bladder and elongate member in between the end caps, and means for providing fluid communication to the chamber for expanding the bladder against a tubular member. The connection member is disclosed as either a rigid tie rod or an axially inextendible, flexible member. The tie rod has reduced diameter portions adjacent each end forming shoulders and threaded portions at the end thereof for threadibly connecting the end caps thereon and clamping the bladder against the shoulders. An engagement means can be provided at one end of the connection member for urging the tubular member toward the opposite end of the connection member.

Abstract: A relay for electromagnetic radiation occurring in the optical portion of the electromagnetic spectrum has a receiver and a transmitter. The receiver senses a propagated beam of electromagnetic radiation providing a signal corresponding thereto which is shaped in an electrical circuit and provided as an excitation signal to the transmitter. An audio alignment feature is included providing audio indications for alignment of the receiver with the beam of electromagnetic radiation which is to be relayed. The transmitter is directionally adjustable to provide a relayed beam of electromagnetic radiation in a direction different from the received beam. The method includes aligning the receiver with the beam of electromagnetic radiation and converting the received electromagnetic radiation beam to a corresponding electrical signal in the receiver.

Abstract: A detector for marks having a color which contrasts with the mark background employs a solid state light source projecting a light beam having a plurality of wave length components corresponding to a plurality of colored light wave lengths. The light beam may approach the appearance of white light. A pulse modulated detector or sensor is used for receiving light reflected from colored surfaces having contrasting colored marks thereon, wherein high ambient light level rejection is obtained and high signal to noise ratio is provided in a sensor output. The sensor output is gated to eliminate between pulse noise, and the gated output is integrated to obtain a reference signal to which the gated pulse is continuously compared. An increase or decrease in signal is used to provide a light or dark mark indication respectively as a result of the comparison. Feedback from the output suppresses signal instability which may exist at the edges of the detection threshold.