Abstract: The present invention relates to a flexible electric field capacitive coupled energy transfer means formed from a conductive metal coated flexible material or flexible metallic net. The improved energy transfer means is flexible, porous, light and easy to manipulate treatment electrode and is used in non-invasive electrical field hyperthermia.

Abstract: The invention provides methods for the detection of the amount of a nucleic acid in a sample. The described methods exploit the ability to disrupt and redirect a PCR direction, and the ability to physically pair nucleic acid molecules in a sample that have a reference sequence with nucleic acid molecules in the sample that have a target sequence. The redirection of the PCR reaction enables partial amplification as a preparatory step to other techniques within the same tube. The pairing can result in the presence of unpaired target or reference sequence indicating a difference in the amount of the target sequence versus the reference sequence. The methods are broadly applicable for the determination of differences in the amount of nucleic acids in diagnostic and research applications.

Abstract: The present invention relates to a flexible electric field capacitive coupled energy transfer means formed from a conductive metal coated flexible material or flexible metallic net. The improved energy transfer means is flexible, porous, light and easy to manipulate treatment electrode and is used in non-invasive electrical field hyperthermia.

Abstract: Method and a measuring device for measuring and evaluating a measurable signal emitted by a system being investigated during operation or in response to an external excitation. The device includes a signal receiving unit, an output unit and an evaluating unit. The latter includes elements for Fourier transforming the time dependant signal captured by the receiving unit and characteristic of the system as a whole, the signal is transformed directly in its captured form; elements for calculating the power density function of the Fourier transform; elements for calculating an invariant quantity in the form of the exponent ? of the power density function versus the frequency, as well as elements for providing data indicative of the invariant quantity obtained to the output unit.

Abstract: The invention provides methods for the detection of the amount of a nucleic acid in a sample. The described methods exploit the ability to disrupt and redirect a PCR direction, and the ability to physically pair nucleic acid molecules in a sample that have a reference sequence with nucleic acid molecules in the sample that have a target sequence. The redirection of the PCR reaction enables partial amplification as a preparatory step to other techniques within the same tube. The pairing can result in the presence of unpaired target or reference sequence indicating a difference in the amount of the target sequence versus the reference sequence. The methods are broadly applicable for the determination of differences in the amount of nucleic acids in diagnostic and research applications.

Abstract: Method and a measuring device for measuring and evaluating a measurable signal emitted by a system being investigated during operation or in response to an external excitation. The device includes a signal receiving unit, an output unit and an evaluating unit. The latter includes elements for Fourier transforming the time dependant signal captured by the receiving unit and characteristic of the system as a whole, the signal is transformed directly in its captured form; elements for calculating the power density function of the Fourier transform; elements for calculating an invariant quantity in the form of the exponent ? of the power density function versus the frequency, as well as elements for providing data indicative of the invariant quantity obtained to the output unit.

Abstract: The invention relates to methods for the detection of the amount of a nucleic acid in a sample. The described methods exploit the ability to physically pair nucleic acid molecules in a sample that have a reference sequence with nucleic acid molecules in the sample that have a target sequence. The presence of unpaired target or reference sequence following such physical pairing indicates a difference in the amount of the target sequence versus the reference sequence. The methods are broadly applicable for the determination of differences in the amounts of nucleic acids in diagnostic and research applications.

Abstract: The invention relates to methods for the detection of the amount of a nucleic acid in a sample. The described methods exploit the ability to physically pair nucleic acid molecules in a sample that have a reference sequence with nucleic acid molecules in the sample that have a target sequence. The presence of unpaired target or reference sequence following such physical pairing indicates a difference in the amount of the target sequence versus the reference sequence. The methods are broadly applicable for the determination of differences in the amounts of nucleic acids in diagnostic and research applications.