Abstract: The presence or absence of objects tagged with transponders may be determined in an environment in which medical procedures are performed via an interrogation and detection system which includes a controller and a plurality of antennas positioned along a patient support structure. The antennas may be positioned along an operating table, bed, mattress or pad, sheet, or may be positioned on a drape, or shade. Respective antennas may successively be activated to transmit interrogation signals. Multiple antennas may be monitored for responses from transponders to the interrogation signals. For example, all antennas other than the antenna that transmitted the most recent interrogation signal may be monitored. Antennas may be responsive to force, a signal indicative of such force being produced. A wireless physiological condition monitor may detect patient physiological conditions and wirelessly transmit signals indicative of such.

Abstract: Various embodiments of a wirelessly detectable object to be used in medical procedures are provided. The object may include a piece of absorbent material, a transponder to wirelessly receive and transmit signals, and a cover. The cover is attached directly to the piece of absorbent material to retain the transponder. Methods of manufacturing wirelessly detectable objects are also provided.

Abstract: The presence or absence of objects (e.g., medical implements, medical supplies) tagged with transponders may be determined in an environment in which medical procedures (e.g., surgery) are performed via an interrogation and detection system which includes a controller and a plurality of antennas positioned along a patient support structure. The antennas may, for example, be positioned along an operating table, bed, a mattress or pad or a sheet and may be radiolucent. Respective antennas may successively be activated to transmit interrogation signals. Multiple antennas may be monitored for responses from transponders to the interrogation signals. For example, all antennas other than the antenna that transmitted the most recent interrogation signal may be monitored.

Abstract: Various embodiments of a wirelessly detectable object to be used in medical procedures are provided. One example wirelessly detectable object includes a radio frequency identification (RFID) transponder that, when interrogated, wirelessly returns a first response signal that contains identification information associated with a surgical object. The wirelessly detectable object further includes a presence transponder that, when interrogated, wirelessly returns a second response signal that does not contain identification information. The presence transponder is received and freely movable within a pouch. The presence transponder is independently movable with respect to the RFID transponder. Another example wirelessly detectable object includes at least one active antenna element and at least one passive antenna element that together operate as a directional antenna.

Abstract: A hand-held antenna system allows medical personnel to ascertain the presence or absence of objects (e.g., medical supplies) tagged with transponders in an environment in which medical procedures are performed. In use, the hand-held antenna system may be positioned proximate a patient at a time after a medical procedure, such as after childbirth, so the system can scan the patient's body to determine the presence of objects tagged with transponders. The antenna system includes two sets of three antenna elements arranged mutually orthogonal to each other to transmit and receive signals in at least three coordinate directions. A controller is coupled to the antenna elements to transmit signals to the transponders and to receive response signals. The antenna system may operate in a static scan mode wherein the antenna system is held in a fixed position by a user and a dynamic scan mode wherein the antenna system is moved by a user.

Abstract: A hand-held antenna system allows medical personnel to ascertain the presence or absence of objects (e.g., medical supplies) tagged with transponders in an environment in which medical procedures are performed. In use, the hand-held antenna system may be positioned proximate a patient at a time after a medical procedure, such as after child birth, so the system can scan the patient's body to determine the presence of objects tagged with transponders. The antenna system includes three antenna elements arranged mutually orthogonal to each other to transmit and receive signals in three coordinate directions. A controller is coupled to the antenna elements to transmit signals to the transponders and to receive response signals. The antenna system may operate in a static scan mode wherein the antenna system is held in a fixed position by a user and a dynamic scan mode wherein the antenna system is moved by a user.

Abstract: The presence or absence of objects is determined by interrogating or exciting transponders coupled to the objects using pulsed wide band frequency signals. Interrogation is broken down into a number of subsample scan cycles each having interrogation cycles a start time forward in time by a fraction of a period of an expected transponder response signal. Ambient or background noise is evaluated and a threshold adjusted based on the level of noise. Adjustment may be based on multiple noise measurements or samples. Noise detection may be limited, with emphasis placed on interrogation to increase the signal to noise ratio. Matched filtering may be employed. Presence/absence determination may take into account frequency and/or Q value to limit false detections. Appropriate acts may be taken if detected noise is out of defined limits of operation, for example shutting down interrogation and/or providing an appropriate indication.

Abstract: Provided herein is a tag comprising an imaging sphere suspended within a matrix. In some embodiments, the matrix comprises a polymer. In some embodiments, the matrix comprises an adhesive polymer. In some embodiments, the matrix comprises a shelf-stable polymer. In some embodiments, the matrix comprises an epoxy. In some embodiments, the adhesive polymer comprises cyanoacrylate. In some embodiments, the imaging sphere comprises a cavity loaded with an imaging agent surrounded by a shell. In some embodiments, the imaging agent exhibits echogenic properties. Further provided is a method for preparing an imaging sphere comprising: depositing organic or inorganic material onto a bead surface to form a sphere with a solid core; removing the solid core by solvent extraction or calcination to form a hollow sphere; and loading the hollow sphere with an imaging agent.

Abstract: The presence or absence of objects is determined by interrogating or exciting transponders coupled to the objects using pulsed wide band frequency signals. Interrogation is broken down into a number of subsample scan cycles each having interrogation cycles a start time forward in time by a fraction of a period of an expected transponder response signal. Ambient or background noise is evaluated and a threshold adjusted based on the level of noise. Adjustment may be based on multiple noise measurements or samples. Noise detection may be limited, with emphasis placed on interrogation to increase the signal to noise ratio. Matched filtering may be employed. Presence/absence determination may take into account frequency and/or Q value to limit false detections. Appropriate acts may be taken if detected noise is out of defined limits of operation, for example shutting down interrogation and/or providing an appropriate indication.

Abstract: A mat based antenna and heater system allows medical personnel to ascertain the presence or absence of objects (e.g., medical implements, sponges) tagged with transponders during medical procedures (e.g., surgery, labor and delivery), and may allow reading of information from the transponders, writing information to the transponders and/or controlling or commanding the transponders. In use, the mat based antenna and heater system may be positioned beneath a patient, such as during surgery or child birth. A controller is coupled to the antennas to transmit signals (e.g. interrogation signals) to the transponders and to receive signals (e.g., response signals) from the transponders. The controller also operates one or more heaters or heating elements to selectively provide warmth to a patient. One or more sensors can detect temperatures at one or more locations, and the controller can use temperature readings in as feedback in controlling the heaters or heating elements.

Abstract: A hand-held antenna system allows medical personnel to ascertain the presence or absence of objects (e.g., medical supplies) tagged with transponders in an environment in which medical procedures are performed. In use, the hand-held antenna system may be positioned proximate a patient at a time after a medical procedure, such as after childbirth, so the system can scan the patient's body to determine the presence of objects tagged with transponders. The antenna system includes two sets of three antenna elements arranged mutually orthogonal to each other to transmit and receive signals in at least three coordinate directions. A controller is coupled to the antenna elements to transmit signals to the transponders and to receive response signals. The antenna system may operate in a static scan mode wherein the antenna system is held in a fixed position by a user and a dynamic scan mode wherein the antenna system is moved by a user.

Abstract: Apparatuses and methods to physically couple a transponder to a surgical object are provided. One example apparatus includes a first clamp comprising a first fastener and a first channel member that has a first base and a first pair of side portions that extend from the first base to form a first channel therebetween. The first fastener adjustably engages with the first channel member to securingly clamp a surgical object in the first channel of the first channel member. The apparatus further includes a housing that has at least a first cavity that receives at least a portion of the first pair of side portions of the first channel member, a first passageway that receives the first fastener and permits the first fastener to extend at least in part into the first cavity, and a second passageway to receive at least one transponder that wirelessly receives and returns signals.

Abstract: Various embodiments of a wirelessly detectable object to be used in medical procedures are provided. One example wirelessly detectable object includes a radio frequency identification (RFID) transponder that, when interrogated, wirelessly returns a first response signal that contains identification information associated with a surgical object. The wirelessly detectable object further includes a presence transponder that, when interrogated, wirelessly returns a second response signal that does not contain identification information. The presence transponder is received and freely movable within a pouch. The presence transponder is independently movable with respect to the RFID transponder. Another example wirelessly detectable object includes at least one active antenna element and at least one passive antenna element that together operate as a directional antenna.

Abstract: Various embodiments of a wirelessly detectable object to be used in medical procedures are provided. One example wirelessly detectable object includes a presence transponder that wirelessly receives a first interrogation signal and wirelessly returns a first response signal that does not contain identification information; a piece of absorbent material; and a pouch comprising at least a first flexible layer that forms an interior cavity and an adhesive layer physically coupled to at least the first flexible layer about at least a portion of a perimeter of the interior cavity. The adhesive layer retains structural and adhesive integrity at least at temperatures equal to 130 degrees Centigrade. The presence transponder is received and freely movable within the interior cavity. The pouch is physically coupled to at least a portion of the piece of absorbent material. The adhesive layer may be capable of withstanding multiple cycles of steam-based sterilization procedures.

Abstract: Medical procedure related objects (e.g., instruments, supplies) tagged with transponders may be accounted for in a medical procedure environment via a medical object accounting system using a number of antennas, and optional readers. A first set of antennas may be configured to interrogate sterile fields and/or non-sterile fields which do not encompass a body of a patient to account for the objects proximate a start and an end of a medical procedure. Sterile fields may encompass working surfaces of tables and stands, typically used by nurses. Readers (e.g., symbol, RFID) may be employed. A database may be maintained with information including a current status of each instrument or supply, for instance as checked in or checked out. On notification of a discrepancy, a handheld antenna and/or second set of antennas may interrogate a volume encompassing a body of a patient for retained instruments or supplies. The system may be automatically configured (e.g.

Abstract: Confectionary shaped and configured to resemble jewels are provided with various color tints and flavor enhancements. The confectionary are further enhanced by fabrication which includes formulations effective in improving the user's breath and oral hygiene. Novel packaging for supporting and presenting the confectionary resembling jewels are also provided. A dispensing wand receives and supports a plurality of confectionary resembling jewels and is operable to sequentially dispense the confectionary resembling jewels.

Abstract: Medical procedure related objects (e.g., instruments, supplies) tagged with transponders may be accounted for in a medical procedure environment via a medical object accounting system using a number of antennas, and optional readers. A first set of antennas may be configured to interrogate sterile fields and/or non-sterile fields which do not encompass a body of a patient to account for the objects proximate a start and an end of a medical procedure. Sterile fields may encompass working surfaces of tables and stands, typically used by nurses. Readers (e.g., symbol, RFID) may be employed. A database may be maintained with information including a current status of each instrument or supply, for instance as checked in or checked out. On notification of a discrepancy, a handheld antenna and/or second set of antennas may interrogate a volume encompassing a body of a patient for retained instruments or supplies. The system may be automatically configured (e.g.

Abstract: The presence or absence of objects is determined by interrogating or exciting transponders coupled to the objects using pulsed wide band frequency signals. Interrogation is broken down into a number of subsample scan cycles each having interrogation cycles a start time forward in time by a fraction of a period of an expected transponder response signal. Ambient or background noise is evaluated and a threshold adjusted based on the level of noise. Adjustment may be based on multiple noise measurements or samples. Noise detection may be limited, with emphasis placed on interrogation to increase the signal to noise ratio. Matched filtering may be employed. Presence/absence determination may take into account frequency and/or Q value to limit false detections. Appropriate acts may be taken if detected noise is out of defined limits of operation, for example shutting down interrogation and/or providing an appropriate indication.

Abstract: A mat based antenna system allows medical personnel to ascertain the presence or absence of objects (e.g., medical implements, medical supplies) tagged with transponders in an environment in which medical procedures (e.g., surgery) are performed, and may allow reading of information from the transponders, writing information to the transponders and/or controlling or commanding the transponders. In use, the mat based antenna system may be positioned beneath a patient, such as during surgery or child birth. A controller is coupled to the antennas to transmit signals (e.g. interrogation signals) to the transponders and to receive signals (e.g., response signals) from the transponders.