Use of a within-breath forced oscillation technique : development and clinical applications

Macleod, Dominic Paul

January 1997

No description available.

610

The significance of behavioural (non-automatic) factors in the ventilatory response to exercise in man

Moosavi, Syed Shakeeb Hassan

January 1997

No description available.

612

Breathing control; Exercise hyperponea

Movement artefact rejection in impedance pneumography

Khambete, Niranjan D.

January 2000

Impedance pneumography is a non-invasive and a very convenient technique for monitoring breathing. However, a major drawback of this technique is that it is impossible to monitor breathing due to large artefacts introduced by the body movements. The aim of this project was to develop a technique for reducing these 'movement artefacts'. In the first stage of the project, experimental and theoretical studies were carried out to identify an 'optimum' electrode placement that would maximise the 'sensitivity' of measured thoracic impedance to lung resistivity changes. This maximum sensitivity was obtained when the drive and the receive electrode pairs were placed in two different horizontal planes. This sensitivity was also found to increase with increase in electrode spacing. In the second stage, the optimum electrode placement was used to record thoracic impedance during movements. Movement artefacts occurred only when the electrodes moved from their initial location along with the skin, during movements. Taking into consideration these observations, a strategy was decided for placing 4 electrodes in one plane so that movement artefacts could be reduced by combining the two independent measurements. Further studies showed that movement artefacts could be reduced using a strategic 6- electrode placement in three dimensions. It was also possible to detect obstructive apnoea, as the amplitude of the breathing signal was higher than that due to obstructive apnoea and this difference was statistically significant. In these studies, the main cause of movement artefacts was identified as the movement of electrodes with the skin. A significant reduction in movement artefacts was obtained using the 6-electrode placement. This advantage of the 6-electrode placement proposed in this project, can be of great use in clinical applications such as apnoea monitoring in neonates. Further studies can be carried out to determine an optimum frequency of injected current to achieve reduction in residual movement artefacts.

610.28

Breathing monitor; Electrode placement

Respiratory Therapy in Chronic Heart Failure Patients Complicated With Sleep-Disordered Breathing: Potential Study Bias

Felix Moscoso, Monica, Denegri Galvan, Jack, Ortega Loayza, Fernando, Hernandez, Adrian V.

04 1900

Cartas al editor

Chronic Heart Failure

Disordered Breathing

Changes in volumes and maximum expiratory flows following postural drainage in subjects with asthma

Erickson, Julie Ann

January 1979

No description available.

Asthma.

Breathing exercises -- Therapeutic use.

Directional Cell Breathing - A Framework for Congestion Control and Load Balancing in Broadband Wireless Networks

Ali, KHALED

27 April 2009

Despite the tremendous bandwidth increase in 3rd generation (3G) Broadband Wireless Networks (BWNs) such as Universal Mobile Telecommunication System (UMTS), maintaining the mobile users’ Quality of Service (QoS) requirements while maximizing the network operators’ revenues is still a challenging issue. Moreover, spatial distribution of network traffic has a negative impact on the overall network performance where network resources are overutilized in parts of the network coverage area while such resources are underutilized in other network coverage areas. Therefore, network congestion and traffic imbalance become inevitable. Hence, efficient Radio Resource Management (RRM) techniques which release congestion and balance network traffic are of utmost need for the success of such wireless cellular systems. Congestion control and load balancing in BWNs are, however, challenging tasks due to the complexity of these systems and the multiple dimensions that need to be taken into consideration. Examples of such issues include the diverse QoS requirements of the supported multimedia services, the interference level in the system, which vary the mobile users and base stations allocated transmission powers and transmission rates to guarantee certain QoS levels during the lifetime of mobile users connections. In this thesis, we address the problem of congestion control and load balancing in BWNs and propose efficient network coverage adaptation solution in order to deal with these issues, and hence enhance the QoS support in these systems. Specifically, we propose a directional coverage adaptation framework for BWNs. The framework is designed to dynamically vary the coverage level of network cells to release system congestion and balance traffic load by forcing mobile users handoff from a loaded cell to its nearby lightly loaded cell. The framework consists of three related components, namely directional coverage adaptation module, congestion control and load balancing protocol, and QoS provisioning module. These components interact with each other to release system congestion, balance network load, maximize network resource utilization, while maintaining the required QoS parameters for individual mobile users. / Thesis (Ph.D, Electrical & Computer Engineering) -- Queen's University, 2009-04-24 12:15:54.582

Cell Breathing, RRM, Congestion Control

The Effects of Continuous Positive Airway Pressure on the Work of Breathing at Rest and during Exercise

Machina, Matthew

19 March 2013

Ventilation may limit exercise. Wearing a gas mask may further compromise ventilation. Continuous positive airway pressure (CPAP) improves ventilation by reducing airway resistance and thus the work of breathing. We investigated the effects of wearing a gas mask with and without CPAP on the work of breathing (WOB) during resting and exercise conditions to determine (a) whether wearing a gas mask increases the WOB and (b) whether the application of CPAP to a gas mask will mitigate (reduce) said increase to the WOB. Ten healthy males completed two test protocols with three stages each, and in three mask conditions. Physiological and dyspnea parameters were measured. Wearing a gas mask increased the metabolic cost and work of breathing. When the portable CPAP device was applied, there was no change in the calculated work of breathing, but metabolic cost of breathing was significantly reduced. CPAP also significantly reduced the sensation of dyspnea.

Work of Breathing

CPAP

Exercise

0719

The Effects of Continuous Positive Airway Pressure on the Work of Breathing at Rest and during Exercise

Machina, Matthew

19 March 2013

Ventilation may limit exercise. Wearing a gas mask may further compromise ventilation. Continuous positive airway pressure (CPAP) improves ventilation by reducing airway resistance and thus the work of breathing. We investigated the effects of wearing a gas mask with and without CPAP on the work of breathing (WOB) during resting and exercise conditions to determine (a) whether wearing a gas mask increases the WOB and (b) whether the application of CPAP to a gas mask will mitigate (reduce) said increase to the WOB. Ten healthy males completed two test protocols with three stages each, and in three mask conditions. Physiological and dyspnea parameters were measured. Wearing a gas mask increased the metabolic cost and work of breathing. When the portable CPAP device was applied, there was no change in the calculated work of breathing, but metabolic cost of breathing was significantly reduced. CPAP also significantly reduced the sensation of dyspnea.

Work of Breathing

CPAP

Exercise

0719

Sleep disordered breathing in children : neurocognitive and behavioural consequences and the association with increasing body mass

Kohler, Mark

January 2008

Over the last decade a substantial body of research has focused on the consequences of sleep disordered breathing (SDB) in children. This dissertation presents the results of two large laboratory-based studies.

Sleep disorders in children

Sleep

Breathing

The effect of three lung hyperinflations on arterial blood pressure

Henman, Mary Patricia.

January 1982

Thesis (M.S.)--University of Wisconsin--Madison, 1982. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 44-47).