Continuous Monitoring of the Lungs Ventilation Dynamics During Mechanical Ventilation
Continuous Monitoring of the Lungs Ventilation Dynamics During Mechanical Ventilation by Small Surface Patches That Include Safe Motion Sensors
Background: Patients that suffer from respiratory failure and need mechanical ventilation are at risk of further deterioration due to complications induced by progression of lung disease or the mechanical ventilation. The complications usually develop in a progressive manner, but are currently detected relatively late, when there is already severe and life threatening deterioration in patient oxygenation and sometimes irreversible damages.
Objective:To measure chest wall dynamics, derived from sensors placed on the chest and abdomen.
Methods: The system comprises of patches attached to the chest wall and upper abdomen that include mechanical sensors that measure the mechanics of lung inflation and deflation.
研究概览
地位
条件
详细说明
Patients that suffer from respiratory failure and need mechanical ventilation are at risk of further life threatening deterioration following the development of mechanical problems related to airway management, development of lung barotrauma or displacement of the endotracheal tube.
Neonates especially need tight and sensitive monitoring of lung ventilation, because of the high prevalence of lung disease and need for ventilatory support in this population.
Methods:
The system comprises of patches attached to the chest wall and to the epigastrium. The patches include sensors that measure the mechanics of the lung inflation and deflation.
Study protocol
Following parental informed consent, three patches will be placed on both sides of the chest and over the epigastric area in infants that require tight respiratory monitoring.
The patches will be placed just beside the ECG patches. The placement of the patches will be performed by a physician. The monitoring can be preformed as long as the baby needs a tight respiratory monitoring. The patches will be replaced according to routine replacement policy of patches in the neonatal intensive care units, and at the regular time defined by the attending staff, and no longer than 24 hours. At the end of the data acquisition, the patches will be removed.
No additional intervention is required. The patient will be inspected by the supervising physician involve in the research.
It will not provide any data that may alter the treatment and will not interfere or influence the other monitoring devices that are used to evaluate the clinical status of the patient.
The other parameters that are regularly monitored, that are displayed on the bedside monitor and respirator will be recorded by the research assistant. The ventilated baby will be identified by a study number. There will be a separate database for the measurements and the demographic and clinical data. There will be no disclosure of the patient's identity along with the data analysis and publication of the results or communication to authorities or other medical practitioners.
Equipment safety:
The system is safe for the use in human subjects. The whole system is approved for safety according to the acquired standard ICE-60601
研究类型
注册 (实际的)
联系人和位置
学习地点
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Haifa、以色列、32985
- Department of Neonatology, Carmel Medical Center
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参与标准
资格标准
适合学习的年龄
接受健康志愿者
有资格学习的性别
取样方法
研究人群
描述
Inclusion Criteria:
- Babies receiving respiratory support
Exclusion Criteria:
- Parental refusal to be included in the study
- Premature babies under 700 grams birth weight
- Prematurity below 26 weeks gestation
- Severe edematous babies (Hydrops fetalis)
- Severe Hypoxic Ischemic Encephalopathy, initial brain injury or severe intracranial bleeding or major congenital anomalies
- Skin reactions to the adhesive patches
学习计划
研究是如何设计的?
设计细节
队列和干预
团体/队列 |
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1
Premature and term newborn infants (male/female)
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研究衡量的是什么?
主要结果指标
结果测量 |
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A data-bank of measured changes in lung dynamics at various clinical settings acquired by the chest sensors.
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次要结果测量
结果测量 |
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Detection of changes in lung ventilation by the novel system. Feasibility study. Comparison of the detection made by the novel system to the conventional monitoring methods in use.
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合作者和调查者
调查人员
- 首席研究员:Dan Waisman, MD、Department of Neonatology Carmel Medical Center
研究记录日期
研究主要日期
学习开始
初级完成 (实际的)
研究完成 (实际的)
研究注册日期
首次提交
首先提交符合 QC 标准的
首次发布 (估计)
研究记录更新
最后更新发布 (实际的)
上次提交的符合 QC 标准的更新
最后验证
更多信息
与本研究相关的术语
关键字
其他研究编号
- Neo- 01/2006
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