Abstract: A disposable cap for a body temperature detector includes a body having a viewing end and a retaining end. The retaining end includes an inward protrusion that expands over a wider portion of an end of the detector and contracts after the retaining end has passed over the wider portion to snugly secure the cap on the detector. The cap further includes a flange with an aperture therethrough adjacent the viewing end to permit a radiation sensor of the detector to view a target surface. Preferably, the cap is sufficiently large so as to not be insertable into an ear of a human. The cap is formed from a sheet of material, preferably by thermoforming, from a material such as polypropylene, polyethylene, polystyrene, or other similar material which has relatively low hardness and low thermal conductivity properties. The cap has a generally uniform thickness of about 0.020 inch.

Abstract: A blood collection device includes a syringe assembly containing a slidable needle assembly within the cavity of a syringe body. The syringe body has a syringe top for receiving a seal assembly wherein the seal assembly is reversibly locked to the top of the syringe top. Within the insertable tube of the seal assembly is an occluding seal secured within the insertable cylinder with retaining rings. The occluding seal allows blood to flow from on end of a double pointed needle into a fully inserted collection tube. When the collection tube is removed the occluding seal keeps blood from flowing into the cavity of the insertable cylinder.

Abstract: A system for, and method of identifying a use of countermeasures by a subject of a polygraph test, the method including the steps of: (a) posing a plurality of questions to the subject; (b) determining, for each question, a time interval between an end of the question and a start of an answer by the subject to the question, thereby generating a plurality of time intervals, and (c) comparing the time intervals to identify the countermeasures.

Abstract: This invention is an improved tissue-localizing device with an electrically energized locator element for fixedly yet removably marking a volume of tissue containing a suspect region for excision. The electrical energizing of the locator element facilitates the penetration of the locator element in to subject's tissue and minimizes resistance due to dense or calcified tissues. At least one locator element is deployed into tissue and assumes a predetermined curvilinear shape to define a tissue border containing a suspect tissue region along a path. Multiple locator elements may be deployed to further define the tissue volume along additional paths defining the tissue volume border that do not penetrate the volume. Delivery of electric current may be achieved through monopolar or bipolar electronic configuration depending on design needs. Various energy sources, e.g. radio frequency, microwave or ultrasound, may be implemented in this energized tissue-localizing device.

Abstract: A surgical biopsy system is provided for removing at least one tissue sample from a surgical patient. The surgical biopsy system comprises an elongated, hollow piercer and a cutter rotatably and axially positionable relative to the piercer. The piercer has a lateral port for receiving the tissue sample into the piercer. The surgical biopsy system further comprises a power transmission source operatively connected to the cutter for rotating and translating the cutter, a control unit, and a display mounted in a display frame for showing an operator a plurality of operational modes of the surgical biopsy system. The surgical biopsy system further comprises at least one control button operatively connected to the control unit by a circuit and remotely located from the control unit. The operator may actuate the control button(s) to select any one of the operational modes and the selected operational mode is visually identifiable on the display.

Abstract: A simulator assembly (600) for simulating the tactile response of an item is disclosed. The simulator assembly includes a playback module (602) having sensory modulation subunits (636) operable to exert a force in response to an input signal. A tactile playback assembly (800) for translating input signals into tactile sensations upon a user is also provided. The tactile playback assembly includes a playback garment (806) having sensory modulation subunits adapted to generate a force upon a user in response to an input signal. An imaging exam assembly (900) for palpating a body and obtaining images of the body is also disclosed. An ultrasonic imaging system is further disclosed. A device for remotely conducting a direct manual examination of a patient is disclosed. A method of imparting tactile sensations to a body of a user is disclosed. A method of recording tactile data is disclosed.

Abstract: The invention relates to a measuring instrument for the measurement of an existing pain or a feeling of nausea of a patient. The measuring instrument induces pain in an arbitrary body part of said patient, by supplying an electrical current. The measuring instrument provides a current increase into said body part, until said induced pain is experienced by the patient as being as great as the existing pain/nausea. The current is supplied from a current source arranged in the measuring instrument via wires (H, I) and electrodes (C, D), said electrodes being applied onto that part of the body in which pain is to be induced. When the pain induced is experienced to be as great as the existing pain/nausea, the body part is removed from the electrodes, whereupon a pain value is registered and shown on a display (F).

Abstract: A biopsy localization device made according to the invention includes a bioabsorbable element (34), such as a dehydrated collagen plug, delivered in a pre-delivery state to a soft tissue biopsy site (18) of a patient by an element delivery device (32). The bioabsorbable element preferably swells to fill the biopsied open region (26) and preferably is palpably harder than the surrounding soft tissue at the biopsy site. The bioabsorbable element permits the biopsy site to be relocated by palpation to eliminate the need to use metallic clips during biopsies and often eliminates the need for a return to the radiologist for pre-operative localization. In addition, the bioabsorbable element can be used as a therapeutic tool for treatment of the diseased lesion and for hemostasis.

Abstract: An apparatus for deploying a needle within a lumen is provided. The apparatus includes a housing having a threaded bushing radially disposed therein. The bushing rigidly couples with a nose cone having a guide tip disposed at an end opposite the bushing for penetrating an arterial wall of a lumen. During operation, a user incrementally advances the bushing within the housing, thereby incrementally advancing the guide tip into the lumen. The nose cone also includes a flex guide having a slot configuration which couples with the guide tip which deploys into the lumen along with the guide tip.

Abstract: Disclosed is a female physical condition managing apparatus comprising: a bioelectrical impedance-meter for determining BI values; a memory for storing the so determined BI values; a decision-making unit for making a decision about the monthly physical condition of a woman on the basis of the time series analysis of the variation of the BI values; and a display showing the so made decision on the monthly physical condition of the woman and a BI transition symbolic curve. This permits women to realize quickly what stage has been reached in the monthly physical condition. Presentation of measurement in the display is so dynamic that the viewer may not feel bored while the measurement is being made.

Abstract: An in vitro testing method for predicting a coefficient of friction exhibited by a material passed over human skin, in vivo. A material operatively connects between a scaffold and a load cell and a synthetic sheet mounts on the scaffold. A porous layer is applied to an exposed surface of the synthetic sheet, forming a simulated human tissue. The material engages the simulated human tissue and moves relative to the scaffold to measure the coefficient of friction between the material and the simulated human tissue with the load cell.

Abstract: The present application describes a an image-guided, vacuum assisted, percutaneous, coring, breast biopsy instrument which may be conveniently mounted to an x-ray machine, and incorporate into it a firing fork that is easy to remove and includes a means of maintaining the firing fork perpendicular to the base when the biopsy probe is fired into the patient. It would further be advantageous to design an image-guided, vacuum assisted, percutaneous, coring, breast biopsy instrument which may be conveniently mounted to an x-ray machine which would incorporate a firing fork with a means to maintain the firing fork perpendicular to the base when the biopsy probe is fired into the patient that is easy to remove without the use of special tools.

Abstract: A method and device for the quantification of muscle tone, particularly the wrist, wherein non-sinusoidal and non ramp trajectories are used to drive the wrist. Equation 1 is utilized determine the stiffness, viscosity and inertial parameters. &tgr;s(t)=KH&thgr;(t)+BH&thgr;(t)+JT&thgr;(t)+&tgr;off  [Eq. 1] wherein where &tgr;s is the total torque, &tgr;off is the offset torque, KH and BH are the angular stiffness and viscosity of the combined flexor and extensor muscle groups that act on the joint, JT is the combined inertia of the oscillating appendage, &thgr; is the angular displacement of the system, and θ . ⁢   ⁢ and ⁢   ⁢ θ ¨ are the velocity and acceleration.

Abstract: Disclosed is an esophageal bulking device for implantation below the mucosa in the vicinity of the lower esophageal sphincter. Preferably, the bulking device comprises an expandable hydrogel implant. Also disclosed are methods of treating gastroesophageal reflux disease, by implanting an expandable bulking device below the mucosa in the vicinity of the lower esophageal sphincter. The bulking device may be subsequently explanted from the vicinity of the lower esophageal sphincter.