Patent application number | Description | Published |
20090124869 | Medical Apparatus Capable of Recording Physiological Signals - The present invention related to a medical apparatus capable of recording physiological signals, which uses a EEG detecting circuit to detect the human brain and produce a EEG signal, a ECG detecting circuit to detect the human heart and produce a ECG signal, a microcontroller circuit to receive the EEG and ECG signals and produce a control signal, and a storage unit to receive the control signal and store the EEG and ECG signals. The EEG and ECG signals are correlated. Accordingly, physicians can analyze diseases conveniently. | 05-14-2009 |
20090134887 | CONTACT SENSOR - A contact sensor is disclosed. The contact sensor includes a main body and at least one conductor. At least one end of the conductor is disposed on the main body and a contact surface is on one side of the conductor for contact the body surface. The surface of the conductor is in the shape of arc. By the contact surface of the conductor, the contact sensor contacts the human body easily without tangling hair. Moreover, there is not need for the present invention to apply any conductive gel on the body surface so that the measurement of physiological signals is easily and conveniently. | 05-28-2009 |
20090156949 | Medical device with real-time physiological signal analysis function - A medical device with real-time physiological signal analysis function is disclosed. An ECG signal is generated by detection of detection circuit to the human heart while conversion circuit receives the ECG signal and converts it into an ECG data. The ECG data is sent to a process control unit for being processed to generate a HRV parameter. The ECG data and the HRV parameter are shown by a display unit for real-time analysis of changes of HRV in time domain and frequency domain. Thus doctors can make diagnosis according to these data. Moreover, The process control unit is coupled to the memory module so as to save the ECG data and the HRV parameter. Thus after long-term data collection of the ECG and HRV, doctors can make diagnosis by means of these data. | 06-18-2009 |
20100262024 | HEART RATE VARIABILITY MEASUREMENT METHOD - A heart rate variability measurement method is revealed. The method includes the following steps. At first, play a piece of music for a participant. Then detect a change in vascular volume of the participant. Next depict a continuous waveform signal of the change in vascular volume. Thus while measuring the heart rate as well as heart rate variability, the participant is not easy to get nervous or impatient and the real heart rate as well as heart rate variability can be obtained, without being affected by the mood. Therefore, the accuracy of the heart rate variability during measurement is increased. | 10-14-2010 |
20100262025 | APPARATUS FOR MEASUREMENT OF HEART RATE VARIABILITY - The present invention provides an apparatus for measurement of heart rate variability, comprising a main body of a earphone to be inserted into a patient's ear, a light source disposed on one side of the main body, emitting light projected onto the skin of the patient's ear, and a sensor disposed on the same side of the main body with the light source, receiving a reflection light from the skin of the patient's ear, and accordingly generating and transmitting a sensing signal to an analyzer for measurement of the heart rate variability. Thus, the heart rate variability of the patient can be measured by operation of the light source and the sensor when the patient is listening to the music through the earphone. In this way, true heart rate variability, without being affected by the patient's nervousness or impatience, can be derived. | 10-14-2010 |
20100274109 | MEASUREMENT APPARATUS FOR HEART RATE VARIABILITY - The present invention relates to a measurement apparatus for heart rate variability, which comprises an earpiece, a measurement module for photoplethysmographic (PPG) signal measuring an ear and producing a first physiological signal of a person under test, a measurement module for electrocardiographic (ECG) signal measuring a second physiological signal of the person under test, and a control and processing unit transmitting a sound signal to the earpiece. By playing the sound signal from the earpiece, the attention of the person under test can be detracted from the measurement module for PPG signal or the measurement module for ECG signal. Thereby, nervousness and impatience of the person under test can be eliminated, and hence the real heart rate variability of the person under test can be measured. | 10-28-2010 |
20100274144 | MEASUREMENT CIRCUIT FOR HEART RATE VARIABILITY - The present invention relates to a measurement circuit for heart rate variability, which uses a measurement circuit for photoplethysmographic (PPG) signal to measure an ear and produces a first measured signal, a measurement circuit for electrocardiographic (ECG) signal to measure a second measured signal, an audio processing unit to produces a sound signal, a control and processing unit for controlling the audio processing unit to play the sound signal, for receiving the first measured signal to produce a corresponding first waveform diagram, and for receiving the second measured signal to produce a corresponding second waveform diagram. Thereby, nervousness and impatience of a person under test can be eliminated, and hence the real heart rate variability of the person under test can be measured. | 10-28-2010 |
20100313643 | Blood flow simulation system - The present invention relates to a blood flow simulation system, which comprises a first container, a phantom, and a second container. The blood flow simulation system according to the present invention contains a fluid by the first container. Then the phantom is used for transporting the fluid. Afterwards, the second container is used for containing the fluid output by the phantom, and transporting the fluid to the first container by way of the phantom. Thereby, the blood-vessel characteristics, the blood-flow characteristics, and the human muscle characteristics can be simulated effectively and hence facilitating experimental convenience. | 12-16-2010 |
20110071408 | METHOD FOR DETECTING VASCULAR SCLEROSIS - A method for detecting vascular sclerosis is revealed. Firstly set a cuff on a human hand. Then inflate the cuff and later deflate the cuff. Next measure a pressure of the cuff and generate a pressure sensing signal. Process the pressure sensing signal to generate a processed signal and convert the processed signal. Then calculate a systolic pressure and a diastolic pressure according to the converted processed signal and also obtain a vasodilation constant. Thus a hardening of blood vessels is detected according to the vasodilation constant. | 03-24-2011 |
20110071409 | BLOOD PRESSURE THAT DETECTS VASCULAR SCLEROSIS - A blood pressure monitor that detects vascular sclerosis is revealed. The blood pressure monitor includes a cuff, an air pump, an air escape valve, a pressure sensor, a processing circuit, a first conversion circuit, and an arithmetic circuit. The cuff is arranged at a user's hand and is pumped up and inflated by the air pump while the air escape valve is used to release air from the cuff. The pressure sensor is disposed on the cuff to detect a pressure of the cuff and generate a pressure sensing signal. The processing circuit processes the pressure sensing signal and generates a processed signal that is converted by the first conversion circuit, According to the converted processed signal, the arithmetic circuit calculates a systolic pressure, a diastolic pressure of a user and obtains a vasodilation constant so as to check vascular sclerosis of the user. | 03-24-2011 |
20110092827 | BLOOD PRESSURE MONITOR AND METHOD FOR CALCULATING BLOOD PRESSURE THEREOF - A blood pressure monitor and a method for calculating blood pressure thereof are revealed. The blood pressure monitor includes a cuff, an air pump, an air escape valve, a pressure sensor, a processing circuit, and an arithmetic circuit. The cuff is arranged a a body to be detected while and the air pump inflates the cuff and the air escape valve is for releasing air from the cuff. The pressure sensor is disposed on the cuff for detecting cuff pressure to generate analog pressures sensing signals. The processing circuit processes the analog pressure sensing signals and generates digital pressure sensing signals. A slope of each digital pressure sensing signal is calculated by the arithmetic circuit. A pressure value of the digital pressure sensing signal corresponding to a maximum slope is an average blood pressure. Then find a second derivative of each digital pressure sensing signal. A pressure value of the digital pressure sensing signal corresponding to a largest maximum value of the second derivative is systolic pressure while a pressure value of the digital pressure sensing signal corresponding to a smallest minimum value of the second derivative is diastolic pressure. | 04-21-2011 |
20110092829 | BLOOD PRESSURE MONITOR AND METHOD FOR MEASUREMENT OF BLOOD VESSEL HARDENING - A blood pressure monitor and a method for detecting vascular sclerosis thereof are revealed. The blood pressure monitor includes a cuff, an air pump, an air escape valve, a pressure sensor, a processing circuit, and an arithmetic circuit. The cuff is arranged at a body to be detected and the air pump inflates the cuff. The air escape valve is for releasing air from the cuff while the pressure sensor arranged at the cuff measures a cuff pressure to generate an analog pressure sensing signal. The processing circuit processes the pressure sensing analog signal and generates a digital pressure sensing signal. Then a systolic pressure and a diastolic pressure of the detected body are calculated according to the digital pressure sensing signal. The degree of blood vessel hardening is checked according to a systolic area of the calculated systolic pressure and a diastolic area of the calculated diastolic pressure. | 04-21-2011 |
20130170720 | EVALUATION SYSTEM FOR DETERMINATION OF CARDIOVASCULAR FUNCTION PARAMETERS USING ULTRASOUND IMAGES - An evaluation system for determination of cardiovascular function parameters using ultrasound images is provided. The evaluation system includes a data reading module, a 2D image generating module, a contour determination module, an active contour module, a geometric center axis computing module, and a function evaluation module. After reading cardiovascular ultrasonographic files with the data reading module, the 2D image generating module displays 2D images. Then, active contours are generated by the contour determination module and the active contour module, so as for the geometric center axis computing module to calculate geometric center axes. Finally, the function evaluation module calculates evaluation parameters according to the geometric center axes. Thus, evaluation parameters can be derived from cardiovascular ultrasound images for clinical diagnosis in the evaluation of cardiovascular functions. | 07-04-2013 |