Muscle Atrophy or Weakness Clinical Trial
Official title:
Serial Ultrasonographic Evaluation Of Diaphragm Thickness During Mechanical Ventilation In ICU Patients
When a person is put on a breathing machine the investigators think that the breathing
muscles can get weaker. The investigators are not sure how quickly this happens but in some
people this leads to problems when they try to breathe on their own without the breathing
machine. The diaphragm is at the bottom of a person's chest separating their lungs from what
is in their belly and it is a very strong muscle. In fact, it is main muscle that one uses
for breathing.
An ultrasound machine is a painless way to see what is happening beneath the skin. It is
safe and easy to do. Using an ultrasound the investigators are planning to measure how thick
the diaphragm is and how much it changes while a person is on a breathing machine in the
ICU.
Getting a better understanding of this condition could lead to improved treatments that
might help support patients who require a ventilator for breathing.
The investigators hypothesis is that patients for whom the breathing machine is doing all of
the work of breathing, will have their diaphragm thickness gradually decrease and changing
to a breathing modem mode where they have to put in more effort the diaphragm thickness will
start increasing again.
The investigators propose to expand the investigators single-centre longitudinal pilot study
into a complete study in which the investigators will use B-mode ultrasonography to evaluate
daily changes in diaphragm thickness in all critically ill patients on mechanical
ventilation (MV) until successful weaned from MV. The impact of patient age, co-morbidities,
and the use of various modes of ventilation on diaphragm thickness will be assessed.
Diaphragmatic thickness and its change from baseline will be evaluated as predictors of the
need for a prolonged wean (>7days).
The investigators hypothesize that in patients on mandatory mode ventilation, diaphragmatic
thickness will progressively decrease. Switching from mandatory to assisted breathing modes
will correlate with increases in diaphragmatic thickness.
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Observational Model: Cohort, Time Perspective: Prospective
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