Pneumonia Clinical Trial
Official title:
The Instantaneous Effects of High-Frequency Chest Wall Oscillation on Patients With Acute Pneumonic Respiratory Failure Receiving Mechanical Ventilation
BACKGROUND: Endotracheal intubation and prolonged immobilization of patients receiving mechanical ventilation may reduce expectoration function. High frequency chest wall oscillation (HFCWO) may ameliorate airway secretion movement; however, the vigorous oscillation may influence ventilator settings and change instantaneous cardiopulmonary responses. The aim of this study was to investigate these issues. METHODS: Seventy-three patients aged >20 years who were intubated with mechanical ventilation for pneumonic respiratory failure were recruited and randomly classified into two groups (HFCWO group, n=36; and control group who received conventional chest physical therapy (CCPT), n=37). HFCWO was applied with a fixed protocol, while CCPT was conducted using standard protocols. Both groups received sputum suction after the procedure. Changes in ventilator settings and the subjects' responses were measured at pre-set intervals and compared within groups and between groups.
Pneumonia may increase bronchial secretion and decrease mucociliary function, thereby
causing lung atelectasis. Patients with acute pneumonic respiratory failure receiving
mechanical ventilation may therefore have a large amount of pulmonary secretions, thereby
worsening bronchial hygiene, oxyhemoglobin saturation and ventilation-perfusion match. Cough
function is paramount for expectoration; however, coughing is not practical for patients
with endotracheal intubation and sedation. High frequency chest wall oscillation (HFCWO) may
dislodge airway secretions as efficiently as conventional chest physical therapy (CCPT).
However, pneumonia is not currently an indication for chest physical therapy.
HFCWO compresses and relaxes the chest wall to generate an oscillated volume from the lungs,
mimicking a "mini-cough" and producing shear stress at the air-mucus interface which changes
the sputum rheology, thereby improving ventilation distribution, gas mixing, and forced
expired volume in one second. Most studies that have reported no significant effects have
focused on mortality, hospital stay, lung function or BODE (a multidimensional 10-point
scale of body mass index, severity of airflow obstruction, dyspnea rated with the modified
Medical Research Council, and exercise capacity evaluated with the Six-Minute Walk Distance)
score. However, these outcome measurements are not associated with the immediate effects of
chest physical therapy and may be affected by other factors such as disease severity.
Using the amount of sputum as the outcome measurement of HFCWO is not strongly recommended.
However, immediate cardiopulmonary changes in HFCWO have not been studied in patients
receiving mechanical ventilation, although this measurement is more explicit than lung
function and BODE score, as they are impractical in these patients. Changes in ventilator
settings caused by HFCWO are a concern when the patients receive both treatments
simultaneously. The aim of this study was to investigate the effect of HFCWO on pneumonic
subjects with acute respiratory failure receiving mechanical ventilation by evaluating
immediate cardiopulmonary changes and changes in the initial ventilator settings.
Methods
The investigators conducted this comparative prospective randomized controlled
single-blinded study at a university hospital. Adult subjects with pneumonia complicated
with acute respiratory failure requiring endotracheal intubation and mechanical ventilation
were consecutively recruited from a medical intensive care unit (ICU) (20-bed capacity).
Pneumonia was defined as the presence of new or progressive pulmonary infiltrates and two of
the following: body temperature > 38.3C or < 36C; white blood cell count > 12,000/mL or <
4,000/mL; purulent tracheal secretions without other signs of infection requiring
antimicrobial treatment. Acute respiratory failure was defined as a sudden decrease in PaO2
< 60 mm Hg (or arterial oxyhemoglobin saturation < 90%) with or without PaCO2 > 45 mm
Hg.17-19 All of the patients had sufficient sputum production to require the physician to
order airway secretion clearance. Disease severity was assessed by Acute Physiology and
Chronic Health Evaluation (APACHE) II score. Adverse events were evaluated by the
investigators and reported to the institutional review board. The exclusion criteria were
pregnancy, pneumothorax, manifest hemoptysis, unstable hemodynamics, increased intracranial
pressure, and those undergoing major cardiac, thoracic or abdominal surgery.
All of the eligible patients had acute pneumonic respiratory failure and received
endotracheal intubation and mechanical ventilation, and all signed informed consent forms.
The patients were randomly allocated to the study group (HFCWO) or the control group (CCPT),
as the efficacy of bronchial hygiene for both HFCWO and CCPT is comparable4. The primary
investigators were blinded to which procedure the patients received. The local institutional
review board of Chung Shan Medical University Hospital approved this study (No. CS13004).
The experimental research was conducted in compliance with the Helsinki Declaration.
To prevent vomiting during or after chest care, all of the subjects underwent the procedure
one hour before or two hours after feeding via a nasogastric tube. Inhalation therapy was
performed with an aerosolized solution of 6 mL of half saline via the ventilator before
HFCWO or CCPT.
HFCWO was performed using a VestTM Airway Clearance System Model 105 (Hill-Rom, St. Paul,
Minnesota) connected to a vest via two flexible tubes by trained nurses who were blinded to
the purpose of the study. All of the nurses had been well trained in how to perform both
HFCWO and CCPT before the study, as these procedures are routinely performed by nurses at
the investigators institution. HFCWO was applied to each subject at a frequency of 10-12 Hz
and a pulse pressure setting of 1-2 selected from a scale ranging from 1 to 10 (arbitrary
units) for 15 minutes. The patients receiving HFCWO were placed in a semi-upright sitting
position, and the patients undergoing CCPT received cup-hand percussion with the hands
positioned 3 inches from the chest, striking the chest with a waving movement while they
were placed in right and left decubitus positions for 5-10 minutes each1. Following HFCWO or
CCPT, suction was performed immediately via an endotracheal tube.
Changes to the initial ventilator settings during HFCWO were recorded by the trained nurses
by checking the ventilator panel before and at 5, 10 and 15 minutes during HFCWO. The
variables included peak airway pressure (Ppeak), positive-end expiratory pressure (PEEP),
respiratory rate (RR), fraction of inspired oxygen (FIO2), inspiratory time, and sensitivity
settings.
Changes in the patients' cardiopulmonary responses were measured before and at 5, 10 and 15
minutes during oscillation, and at 15 minutes after sputum suction. The measurement protocol
for the CCPT group was the same as for the HFCWO group, except no measurements were taken at
5 or 10 minutes during percussion because it was not possible for a single nurse to perform
percussion and record measurements at the same time.
Rapid shallow breathing index (RSBI) was calculated as follows:
RSBI = breathing frequency (breaths/minute)/tidal volume (liters) (1) Oxyhemoglobin
saturation was measured using a pulse oximeter (SPO2). Data were presented as mean ±
standard deviation (SD) or median (interquartile range). For each outcome variable,
comparisons were planned a priori. A paired t or unpaired t test was used for within-group
or between-group comparisons. For non-normal data, the Mann-Whitney test was used. The
chi-square test or Fisher's exact test was used to compare proportions of categorical
variables between the two groups. A p value less than 0.05 was considered to be
statistically significant. All statistical analyses were performed using SAS software
version 9.3 (SAS Institute Inc., Cary, NC) and Microcal Origin version 4.0 (Northampton, MA,
USA).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Supportive Care
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