Abstract: An apparatus for treating pelvic organ prolapse in a patent is provided. The apparatus includes a support portion having first and second ends. A first elongated end portion is connected to the first end of the support portion. The first elongated end portion includes a first dilator configured to attach securely with a tip of a needle. A second elongated end portion is connected to the second end of the support portion. The second elongated end portion includes a second dilator configured to attach securely with a tip of a needle. The first and second needles include a straight portion, a tip, a first radius, and a second radius distinct from the first radius. The first radius and the second radius are disposed between the straight portion and the tip. A method and kit for the treatment is further provided.
Abstract: A system for planning transplantation of follicular units in a body surface of a patient includes a user interface comprising a software-controlled processor, a monitor, and an input device, wherein the system is configured for acquiring images of the body surface, processing the images to produce a three-dimensional model of the body surface, displaying a graphic rendering of the body surface model on the monitor, and displaying on the body surface model a proposed recipient area for implanting follicular units based at least in part on an actual or desired physical characteristic of the patient.
Abstract: Various example embodiments are disclosed. According to one example embodiment, an apparatus may include a motor, a rechargeable battery, a plurality of visual indicators, and a microprocessor. The motor may be configured to spin a disk upon which is mounted a plurality of magnets. The rechargeable battery may be configured to supply power to the motor. The microprocessor may be configured to monitor a voltage level of the rechargeable battery and to light a number of the plurality of visual indicators. The number may be based on the monitored voltage level.
Abstract: In a method and system for treating pain or impairment a video imaging device obtains image frames of a continuous portion of the patient's body including a selected impaired member in proper spatial relationship to a facial image of the patient. A processor coupled to the imaging device processes the image frames to form composite image frames in substantially real time wherein the impaired member is replaced by a virtual image of a corresponding healthy member so as to depict the imaged portion of the patient's body performing healthy movement of the selected impaired member. An interface is coupled to the processor for controlling virtual movement of the impaired limb in the composite image frames, and a display screen is coupled to the processor for displaying at least some of the composite image frames in substantially real time synchronism with operation of the interface.
Type:
Grant
Filed:
March 26, 2008
Date of Patent:
August 10, 2010
Assignee:
Hadasit Medical Research Services & Development Company Ltd.
Inventors:
Shimon Shiri, Zeev Meiner, Uri Feintuch, Meir Shahar, Maya Tuchner
Abstract: The sleep diagnosis device 1 of the present invention comprises three-dimensional acceleration sensors 2a and 2b, a posture detector 5 which detects a posture of the patient from a DC component of the three-dimensional acceleration sensors, and a breathing movement detector 4 which detects a breathing movement of the patient from the AC component of the three-dimensional acceleration sensors. The sleep diagnosis device of the present invention can detect the posture (sleeping posture) and the breathing movement of the patient by using one three-dimensional acceleration sensor, so it is possible to reduce the number of sensors. Furthermore, the sleep diagnosis device can detect the breathing movement accurately by the three-dimensional acceleration sensors.
Type:
Grant
Filed:
May 17, 2006
Date of Patent:
August 3, 2010
Assignee:
Panasonic Electric Works Co., Ltd.
Inventors:
Matsuki Yamamoto, Shogo Fukushima, Aki Nakatsukasa
Abstract: This invention relates to a system for influencing of a biological cellular structure, for instance, to generate a therapeutic effect in a human or animal body, making use of a combination of light energy and magnetic energy, said system being provided with at least one light source (2), (8), a magnetic energy source (12), which is preferably capable of generating a pulsing magnetic field, and devices to adjust and/or modulate the frequencies and/or phases and/or amplitudes of the light and/or the magnetic field so that resonances and/or interferences may be obtained in the biological cellular structure. The system preferably comprises a first (2) and a second light source (8), which generate light with a different coherence, in which the light coming from the first light source (2) and the light coming from the second light source (8) is preferably used alternately and/or with a phase shift and is polarized.
Abstract: The invention concerns a device for preventing female stress incontinence designed to be arranged in the vagina, comprising a proximal part (12) extending between a free end and a second end, configured to be undeformable under pressure and to be placed in the suburethral region of the vagina, and a distal part (14) extending the second end of the proximal part (12), made of a material reversibly deformable under pressure, and designed to be placed in the subvesical region of the vagina. The invention is characterized in that the distal part (14) delimits a closed outline which receives the weight of the bladder and transforms same into an ascending force acting on the urethra.
Abstract: A method and apparatus for planning a radiation therapy are disclosed. A radiation dose distribution is adapted on the basis of shape and position variations of the organs of interest determined from a comparison of a first image and a second image which were taken at different points of time during the radiation treatment process.
Type:
Grant
Filed:
September 10, 2004
Date of Patent:
May 4, 2010
Assignee:
Koninklijke Philips Electronics N.V.
Inventors:
Vladimir Pekar, Michael R. Kaus, Todd McNutt