SYNCHRONIZATION OF PATIENT MOTION DETECTION EQUIPMENT WITH MEDICAL IMAGING SYSTEMS

摘要

An improved system and method to acquire physiological information about a state of a subject, such as SPECT and PET information. The system generates a predetermine sequence of pulse signals and combines that sequence with a first physiological signal to generate a time-base signal. The time-base signal is than combined with a second physiological signal. The combined signals are analyzed to determine accurate temporal synchronization of the first and second physiological signals. The system can be generalized to handle more than two physiological signals. Examples of physiological signals can be for example EKG signals, tomography signals, gross-body motion signals, respiratory motion signals, voluntary motion signals, involuntary motion signals and other signals. The analyzed data can be displayed and/or recorded, and provides physiological information about a state of the subject.

主权项

1. A system of synchronization of two physiological measurements, comprising:
a first physiological sensor configured to measure a first physiological measurement as a function of time from a subject and to provide a first electrical signal that encodes data representative of said first physiological measurement, said first physiological sensor having a first physiological sensor output terminal at which said first electrical signal is provided; a second physiological sensor configured to measure a second physiological measurement as a function of time from said subject and to provide a second electrical signal that encodes data representative of said second physiological measurement, said second physiological sensor having a second physiological sensor output terminal at which said second electrical signal is provided; at least one of said first physiological sensor and said second physiological sensor having a respective input terminal configured to receive a time base signal; a pulse sequence generator configured to generate a pulse sequence signal having a predetermined number N equal to or greater than 3 of pulses spaced apart in a predetermined temporal sequence, said pulse sequence generator having a pulse sequence generator input terminal configured to receive a start command, said pulse sequence generator having a pulse sequence generator output terminal at which said pulse sequence signal is provided; an input channel combiner having two input channel combiner input terminals configured to receive a respective first input electrical signal and a second input electrical signal, a respective input terminal of said two input channel combiner input terminals connected to said pulse sequence generator output terminal and the other of said two input channel combiner input terminals connected to a selected one of said first physiological sensor output terminal and said second physiological sensor output terminal, said input channel combiner configured to combine said first input electrical signal and said second input electrical signal according to the logic represented by Table I for active-low logic or Table II for active-high logic, said input channel combiner having one input channel combiner output terminal configured to provide a time base signal as an output signal to the input terminal of the other of said first physiological sensor and said second physiological sensor; and a signal analyzer configured to receive an electrical signal for analysis from said output terminal of said the other of said first physiological sensor and said second physiological sensor, said electrical signal for analysis comprising a combination of said first electrical signal, said second electrical signal and said pulse sequence signal.