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84 results on '"Pulse wave transit time"'

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1. Frequency-Dependent Variability of Pulse Wave Transit Time: Pilot Study.

2. Changes of pulse wave transit time after haemodynamic manoeuvres in healthy adults: a prospective randomised observational trial (PWTT volunteer study)

3. Optimization and validation of a suprasystolic brachial cuff‐based method for noninvasively estimating central aortic blood pressure.

4. Comparative evaluation of stroke volume variation measured by pulse wave transit time and arterial pressure wave.

5. Сardiac index and stroke volume variation estimated by the pulse wave transit time analysis in comparison with variables derived by pulse contour analysis after coronary revascularization on a beating heart

6. Meta-Analysis of Randomized Clinical Trials on the Speed of Pulse Wave Propagation.

7. Non-invasive assessment of Pulse Wave Transit Time (PWTT) is a poor predictor for intraoperative fluid responsiveness: a prospective observational trial (best-PWTT study)

8. The Validation of Cardiac Index and Stroke-Volume Variation Measured by the Pulse-Wave Transit Time-Analysis Versus Conventional Pulse-Contour Analysis After Off-Pump Coronary Artery Bypass Grafting: Observational Study.

9. Non-invasive assessment of Pulse Wave Transit Time (PWTT) is a poor predictor for intraoperative fluid responsiveness: a prospective observational trial (best-PWTT study).

10. Factors Associated with Variability in Pulse Wave Transit Time Using Pulse Oximetry: A Retrospective Study.

11. 不同时间点高血压患者左腕脉搏波传导时间的 动态变化及影响因素.

12. Accuracy of Estimated Continuous Cardiac Output Monitoring (esCCO) Using Pulse Wave Transit Time (PWTT) Compared to Arterial Pressure-based CO (APCO) Measurement during Major Surgeries.

13. Systolic blood pressure measurement algorithm with mmWave radar sensor.

14. Personalization of the Oscillometric Blood-Pressure Measurement

15. 心电图 R 波法与生物雷达法测量脉搏波传导 时间的对比研究.

16. The Effect of Occlusion with the Cuff

17. Artery wall stiffness evaluation by new pneumatic sensor using improved method for measuring the pulse wave velocity.

18. Hemodynamic Monitoring: Would a Pulse Oximeter Do the Job?

19. Changes of pulse wave transit time after haemodynamic manoeuvres in healthy adults: a prospective randomised observational trial (PWTT volunteer study).

20. INVASIVE MONITORING OF CARDIAC OUTPUT BY PULSE WAVE TRANSIT TIME AFTER AORTOCORONARY BYPASS ON THE BEATING HEART

21. Does vascular stiffness predict white matter hyperintensity burden in ischemic heart disease with preserved ejection fraction?

22. Pulse wave transit time during exercise testing reflects the severity of heart disease in cardiac patients.

23. Single-point curved fiber optic pulse sensor for physiological signal prediction based on the genetic algorithm-support vector regression model.

24. Respiratory gating improves correlation between pulse wave transit time and pulmonary artery pressure in experimental pulmonary hypertension.

25. Noninvasive Cardiac Output Monitoring in Cardiothoracic Surgery Patients: Available Methods and Future Directions.

26. The effect of cuff occlusion on the pulse wave transit time from the heart to the cuff

27. Non-invasive continuous blood pressure measurement based on mean impact value method, BP neural network, and genetic algorithm.

28. Comparison of the ability of two continuous cardiac output monitors to detect stroke volume index: Estimated continuous cardiac output estimated by modified pulse wave transit time and measured by an arterial pulse contour-based cardiac output device

29. Srovnání monitorace srdečního výdeje metodou „Pulse wave transit time" a analýzou arteriální křivky.

30. 基于手机摄像头的血压估计方法.

31. Double-path acquisition of pulse wave transit time and heartbeat using self-mixing interferometry.

32. Hemodynamic indicators informativity in ischemic heart disease patients for forecasting results of coronary artery bypass grafting

33. The key role of pulse wave transit time to predict blood pressure variation during anaesthesia induction

34. Pulse Waves in the Lower Extremities as a Diagnostic Tool of Peripheral Arterial Disease and Predictor of Mortality in Elderly Chinese.

35. Noninvasive Cardiac Output Monitoring in Cardiothoracic Surgery Patients: Available Methods and Future Directions

36. Continuous Estimation of Cardiac Output in Critical Care: A Noninvasive Method Based on Pulse Wave Transit Time Compared with Transpulmonary Thermodilution

37. Cardiac output and stroke volume variation measured by the pulse wave transit time method: a comparison with an arterial pressure-based cardiac output system

38. INVASIVE MONITORING OF CARDIAC OUTPUT BY PULSE WAVE TRANSIT TIME AFTER AORTOCORONARY BYPASS ON THE BEATING HEART

39. Cuff-less continuous blood pressure measurement based on multiple types of information fusion

40. P0353 / #2022: ESTIMATED CONTINUOUS CARDIAC OUTPUT (ESCCO™) MONITORING USING PULSE WAVE TRANSIT TIME (PWTT) IN PATIENTS WITH ACUTE CIRCULATORY FAILURE (ACF) IN PEDIATRIC INTENSIVE CARE UNIT (PICU)

41. Reliability of non-invasive cardiac output monitoring based on pulse wave transit time in off-pump coronary artery bypass grafting

42. The Problem of Pulse Wave Feature Points Detection in Algorithms for Indirect Blood Pressure Estimation

43. Non-invasive continuous blood pressure measurement based on mean impact value method, BP neural network, and genetic algorithm

44. Noncontact sphygmomanometer based on pulse-wave transit time between the face and hand

45. The key role of pulse wave transit time to predict blood pressure variation during anaesthesia induction.

46. Aorta-to-arm pulse wave transit time ratio: Better prediction of coronary artery disease and stroke than pulse wave velocity

47. Response to Comment on 'Retinal pulse wave velocity measurement using spectral-domain optical coherence tomography'

48. Non-Invasive Monitoring of Cardiac Output in Critical Care Medicine

49. The Effect of Occlusion with the Cuff

50. Cardiac Output Measurements Based on the Pulse Wave Transit Time and Thoracic Impedance Exhibit Limited Agreement With Thermodilution Method During Orthotopic Liver Transplantation

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