Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in organs. Examples of suitable organs are the breast, skin, oral cavity, lung, liver, colon, rectum, cervix, and prostate and determine probability of tumors containing malignant cancer cells being present in tissue. The approach can also be applied to biopsied tissue samples. The device has the capability of providing the location of the abnormality. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in organs. Examples of suitable organs are the breast, skin, oral cavity, lung, liver, colon, rectum, cervix, and prostate and determine probability of tumors containing malignant cancer cells being present in tissue. The approach can also be applied to biopsied tissue samples. The device has the capability of providing the location of the abnormality. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in organs. Examples of suitable organs are the breast, skin, oral cavity, lung, liver, colon, rectum, cervix, and prostate and determine probability of tumors containing malignant cancer cells being present in tissue. The approach can also be applied to biopsied tissue samples. The device has the capability of providing the location of the abnormality. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in organs. Examples of suitable organs are the breast, skin, oral cavity, lung, liver, colon, rectum, cervix, and prostate and determine probability of tumors containing malignant cancer cells being present in tissue. The approach can also be applied to biopsied tissue samples. The device has the capability of providing the location of the abnormality. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with one or a plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in the breast and determine probability of tumors containing malignant cancer cells being present in a breast. The device has the capability of providing the location of the abnormality, at least to the quadrant. Either single or multiple source electrodes can be used. Either palpable lumps can be evaluated or screening or breasts, whether with palpable masses or not, can be accomplished. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in the breast and determine probability of tumors containing malignant cancer cells being present in a breast. The device has the capability of providing the location of the abnormality, at least to the quadrant. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: This application relates to a device for the local delivery of a substance to a mammary duct by ductal cannulation via an orifice on a nipple, wherein the substance may any substance or combinations of substances, such as for example, compositions capable of forming a solid or semisolid gel within the ducts, a marker, and/or an active agent which is preferably effective in treating and/or preventing breast cancer. More particularly, a device is disclosed comprising a probe for locating the orifice on the nipple, wherein the device is further configured to cannulate the duct and allow local delivery of a substance(s).

Abstract: Apparatus, systems and methods for providing electrical energy to treat a tissue condition includes a high voltage pulse generator for generating short high voltage pulses of energy and a delivery device for receiving the pulses of energy. The delivery device includes at least a pair of needle electrodes for penetrating into the tissue and delivering the pulses of energy to the tissue.

Abstract: A device is described for measuring electrical characteristics of biological tissues with one or a plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in the breast and determine probability of tumors containing malignant cancer cells being present in a breast. The device has the capability of providing the location of the abnormality, at least to the quadrant. Either single or multiple source electrodes can be used. Either palpable lumps can be evaluated or screening or breasts, whether with palpable masses or not, can be accomplished. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in the breast and determine probability of tumors containing malignant cancer cells being present in a breast. The device has the capability of providing the location of the abnormality, at least to the quadrant. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A device is described for measuring electrical characteristics of biological tissues with plurality of electrodes and a processor controlling the stimulation and measurement in order to detect the presence of abnormal tissue masses in the breast and determine probability of tumors containing malignant cancer cells being present in a breast. The device has the capability of providing the location of the abnormality, at least to the quadrant. The method for measuring electrical characteristics includes placing electrodes and applying a voltage waveform in conjunction with a current detector. A mathematical analysis method is then applied to the collected data, which computes spectrum of frequencies and correlates magnitudes and phases with given algebraic conditions to determine mass presence and type.

Abstract: A system for providing electrical energy to tissue to treat the tissue, including a pair of output electrodes for delivering the electrical energy to the tissue, a pulse forming network for generating short high voltage pulses of electrical energy; an isolation transformer disposed between the pulse forming network and the pair of output electrodes to deliver the short high voltage pulses of electrical energy from the pulse forming network to the pair of output electrodes and to provide voltage isolation between the pulse forming network and the electrodes, and a common mode choke disposed between the isolation transformer and the pair of output electrodes to keep the pulse current flowing out from the first electrode approximately equal to the pulse current flowing back into the second electrode to substantially reduce stray or leakage currents in the tissue.

Abstract: This application relates to a device for the local delivery of a substance to a mammary duct by ductal cannulation via an orifice on a nipple, wherein the substance may any substance or combinations of substances, such as for example, compositions capable of forming a solid or semisolid gel within the ducts, a marker, and/or an active agent which is preferably effective in treating and/or preventing breast cancer. More particularly, a device is disclosed comprising a probe for locating the orifice on the nipple, wherein the device is further configured to cannulate the duct and allow local delivery of a substance(s).

Abstract: Apparatus, systems and methods for providing electrical energy to treat a tissue condition includes a high voltage pulse generator for generating short high voltage pulses of energy and a delivery device for receiving the pulses of energy. The delivery device includes at least a pair of needle electrodes for penetrating into the tissue and delivering the pulses of energy to the tissue.

Abstract: A general purpose integrated circuit (IC) tester includes a set of channels, one for each input or output pin of an IC device under test (DUT). Each channel is programmed by a host computer to either supply a test signal to a DUT I/O pin or sample a DUT output signal appearing at the I/O pin and produce sample data representing its magnitude or logic state. The tester also includes an amorphous logic circuit (ALC) having a set of input and output terminals and a programmable logic circuit interconnecting the input and output terminals. Some of the ALC input and output terminals receive the sample data produced by each channel and other ALC terminals send control signals directly to each channel. Other ALC terminals transmit data to the host computer.

Abstract: A digitizer can be programmed to digitize an ANALOG signal with a complex frequency pattern determined in response to set of trigger signals. The digitizer includes an addressable packet memory storing a set of data packets and produces one of its stored data packets as output when addressed. The output data packet includes both PERIOD and MODE data fields. The digitizer also incudes an analog-to-digital converter for digitizing the ANALOG signal at the frequency controlled by the PERIOD data output of the packet memory. The MODE data output of the packet memory tells a trigger logic circuit how to choose a next packet memory address and selects one of the trigger signals to tell the trigger logic circuit when to change the packet memory address so as to alter the digitizing frequency.