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find Keyword "Photoplethysmography" 4 results
  • CLINICAL VALUE OF PHOTOPLETHYSMOGRAPHY IN THE DIAGNOSIS OF VENOUS VALVULAR INCOMPETENCE OF LOWER EXTREMITYCOMPARISON WITH VENOGRAPHY

    【Abstract】Objective To evaluate the clinical value of photoplethysmography (PPG) in the diagnosis of venous valvular incompetence of lower extremity. Methods Two hundreds and six lower limbs in 181 patients including primary deep venous incompetence(PDVI), simple superficial veins incompetence and simple cross veins incompetence were examined by PPG in the assessment of venous refill time(VRT). All limbs underwent deep vein venography. Results Using venography as control the sensitivity of PPG was 89.8% and the specificity was 83.3 % in the diagnosis of venous valvular incompetence of lower extremity. Conclusion PPG could be taken as clinical diagnostic method for venous valvular incompetence of the lower extremity. The feature of PPG is noninvasive, painless with nonallergic reaction. The authors suggest that PPG can be used as a screening procedure for performing venography and postoperative follow-up.

    Release date:2016-08-28 05:30 Export PDF Favorites Scan
  • Heart rate extraction algorithm based on adaptive heart rate search model

    Photoplethysmography (PPG) is a non-invasive technique to measure heart rate at a lower cost, and it has been recently widely used in smart wearable devices. However, as PPG is easily affected by noises under high-intensity movement, the measured heart rate in sports has low precision. To tackle the problem, this paper proposed a heart rate extraction algorithm based on self-adaptive heart rate separation model. The algorithm firstly preprocessed acceleration and PPG signals, from which cadence and heart rate history were extracted respectively. A self-adaptive model was made based on the connection between the extracted information and current heart rate, and to output possible domain of the heart rate accordingly. The algorithm proposed in this article removed the interference from strong noises by narrowing the domain of real heart rate. From experimental results on the PPG dataset used in 2015 IEEE Signal Processing Cup, the average absolute error on 12 training sets was 1.12 beat per minute (bpm) (Pearson correlation coefficient: 0.996; consistency error: −0.184 bpm). The average absolute error on 10 testing sets was 3.19 bpm (Pearson correlation coefficient: 0.990; consistency error: 1.327 bpm). From experimental results, the algorithm proposed in this paper can effectively extract heart rate information under noises and has the potential to be put in usage in smart wearable devices.

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  • A method for photoplethysmography signal quality assessment fusing multi-class features with multi-scale series information

    Photoplethysmography (PPG) is often affected by interference, which could lead to incorrect judgment of physiological information. Therefore, performing a quality assessment before extracting physiological information is crucial. This paper proposed a new PPG signal quality assessment by fusing multi-class features with multi-scale series information to address the problems of traditional machine learning methods with low accuracy and deep learning methods requiring a large number of samples for training. The multi-class features were extracted to reduce the dependence on the number of samples, and the multi-scale series information was extracted by a multi-scale convolutional neural network and bidirectional long short-term memory to improve the accuracy. The proposed method obtained the highest accuracy of 94.21%. It showed the best performance in all sensitivity, specificity, precision, and F1-score metrics, compared with 6 quality assessment methods on 14 700 samples from 7 experiments. This paper provides a new method for quality assessment in small samples of PPG signals and quality information mining, which is expected to be used for accurate extraction and monitoring of clinical and daily PPG physiological information.

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  • Application of photoplethysmography for atrial fibrillation in early warning, diagnosis and integrated management

    Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia. Early diagnosis and effective management are important to reduce atrial fibrillation‐related adverse events. Photoplethysmography (PPG) is often used to assist wearables for continuous electrocardiograph monitoring, which shows its unique value. The development of PPG has provided an innovative solution to AF management. Serial studies of mobile health technology for improving screening and optimized integrated care in atrial fibrillation have explored the application of PPG in screening, diagnosing, early warning, and integrated management in patients with AF. This review summarizes the latest progress of PPG analysis based on artificial intelligence technology and mobile health in AF field in recent years, as well as the limitations of current research and the focus of future research.

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