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Related Concept Videos

Respiratory Volumes01:15

Respiratory Volumes

2.9K
Respiratory volumes are crucial metrics, meticulously measured to quantify the air exchanged in and out of the lungs during various phases of the breathing cycle. These precise measurements are vital for assessing lung function, diagnosing respiratory conditions, and monitoring overall respiratory health. Each parameter provides specific insights into the mechanics of breathing and the functional capacity of the lungs.
Tidal Volume (TV) Tidal volume (TV) is the air inhaled or exhaled in a...
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Assessment of Ventilation II: Respiratory Depth and Rhythm01:29

Assessment of Ventilation II: Respiratory Depth and Rhythm

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Respiratory Depth
Respiratory depth measures the volume of air inhaled or exhaled during a breath. It can vary from shallow to deep and typically remains consistent when a person is at rest or asleep. Occasionally, individuals will automatically inhale deeply, known as sighing, which inflates the lungs with more air than normal breathing.
To assess respiratory depth, observe the degree of chest excursion or movement:
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Assessment of Respiration01:23

Assessment of Respiration

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The respiratory system's basic structures and primary functions lay the foundation for nurses' comprehensive respiratory assessments. This assessment includes subjective and objective data to gauge the patient's respiratory health.
Subjective Assessment: Nurses interview the patient to gather information directly during the subjective assessment. It includes questions about the individual's medical history, medications, and symptoms, focusing on past respiratory conditions like...
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Respiratory Volumes and Capacities01:22

Respiratory Volumes and Capacities

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The respiratory system is responsible for the intake of oxygen and the expulsion of carbon dioxide from the body. Respiratory volumes describe the volume of air in the lungs at different phases of the respiratory cycle. Tidal volume is the air breathed in and out during normal, quiet breathing. Inspiratory reserve volume is the air that can be forcefully inspired beyond the tidal volume. In contrast, expiratory reserve volume refers to the air that can be expelled from the lungs after a normal...
6.9K
Assessment of Ventilation I: Respiratory Rate01:20

Assessment of Ventilation I: Respiratory Rate

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Assessment of Ventilation
A Ventilation assessment is critical for monitoring a patient's health status. Respiration, one of the most accessible vital signs, provides insights into the function of numerous body systems and can indicate serious health issues, such as brainstem injuries from head trauma.
Critical Guidelines for Assessing Ventilation:
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Respiratory Volumes and Capacities I01:26

Respiratory Volumes and Capacities I

2.0K
Assessing the respiratory rate and rhythm for a complete minute is crucial for evaluating the breathing pattern. Even a minor increase in the patient's average respiratory rate, by as little as three to five breaths per minute, is an early and vital indicator of respiratory distress. Patients with a respiratory rate exceeding twenty-four breaths per minute require close monitoring to determine the physiological alterations. This careful observation is essential for prompt recognition and...
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Updated: Apr 23, 2026

3D Cine Magnetic Resonance Imaging of Respiratory Motion in Mechanically Ventilated Mice and Rats
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3D Cine Magnetic Resonance Imaging of Respiratory Motion in Mechanically Ventilated Mice and Rats

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Multivariate respiratory motion prediction.

R Dürichen1, T Wissel, F Ernst

  • 1University of Lübeck, Institute for Robotics and Cognitive Systems, Ratzeburger Allee 160, 23538 Lübeck, Germany. University of Lübeck, Graduate School for Computing in Medicine and Life Sciences, Ratzeburger Allee 160, 23538 Lübeck, Germany.

Physics in Medicine and Biology
|September 26, 2014
PubMed
Summary
This summary is machine-generated.

Adding sensors like accelerometers and strain belts improves tumor motion prediction accuracy in robotic radiotherapy. This enhances treatment precision by better compensating for patient movement during radiation delivery.

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Area of Science:

  • Medical Physics
  • Robotics
  • Biomedical Engineering

Background:

  • Extracranial robotic radiotherapy relies on tracking surrogates to compensate for tumor motion.
  • System-specific time delays necessitate time series prediction of external optical surrogates.

Purpose of the Study:

  • To evaluate if incorporating an accelerometer, strain belt, and flow sensor enhances prediction accuracy.
  • To adapt and compare four prediction algorithms (nLMS, wLMS, SVR, RVM) for multivariate inputs.
  • To propose and utilize a sequential forward selection (SFS) method for optimal sensor selection.

Main Methods:

  • Four prediction algorithms (nLMS, wLMS, SVR, RVM) were adapted for multivariate sensor inputs.
  • A sequential forward selection (SFS) method was used to identify the most relevant and least redundant sensors.
  • Data from 18 subjects were collected in two phases (M1: long-term trends, M2: breathing artifacts).

Main Results:

  • The clinically used univariate normalized least mean squares (nLMS) algorithm showed susceptibility to outliers.
  • For irregular breathing (M2), the root mean square error (RMSE) decreased from 0.66 mm (univariate nLMS) to 0.46 mm (multivariate RVM).
  • Further optimization using the full test set showed potential for RVM to reach 0.42 mm RMSE, with accelerometer and strain belt being frequently selected sensors.

Conclusions:

  • Multivariate models, particularly Relevance Vector Machines (RVM), significantly improve tumor motion prediction accuracy compared to univariate methods.
  • Integrating additional sensors like accelerometers and strain belts into clinical setups can enhance motion compensation precision in robotic radiotherapy.
  • Further research into sensor selection methods is warranted to fully leverage multivariate approaches for improved treatment accuracy.