Positive Expiratory Pressure With Blow-bottle Device Versus EPAP After Postoperative Cardiac Surgery

Sponsor

Hospital de Clinicas de Porto Alegre (Other)

Overall Status

Completed

CT.gov ID

NCT03639974

Collaborator

UNIVERSIDADE FEDERAL DO RIO GRANDE DO SUL (UFRGS) (Other)

163

Enrollment

Location

Arms

12.7

Actual Duration (Months)

12.8

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Cardiac surgery is a recommended therapeutic option as a form of secondary prevention for the treatment of cardiovascular diseases, but may present postoperative alterations such as reduction of pulmonary volumes and flows, impairment in gas exchange and increase in the rate of pulmonary complications. The use of positive pressure may reduce these complications. Objective: To evaluate the efficacy of positive expiratory pressure (PEP) in the blow-bottle device compared to expiratory positive airway pressure (EPAP), both associated with conventional physiotherapy, and conventional physiotherapy in the pulmonary function in postoperative cardiac patients through a randomized clinical trial. Methods: The study was approved by the Research Ethics Committee of the Hospital de Clínicas of Porto Alegre (CAEE: 70213617.6.0000.5327). Patients undergoing cardiac surgery were randomized into three groups: positive expiratory pressure with blow-bottle device associated with conventional physiotherapy (G1), positive expiratory pressure in the airways with unidirectional valve associated with conventional physiotherapy (G2), and the third group only the conventional physiotherapy of HCPA cardiac intensive care unit (G3). Initially, an evaluation was performed through spirometry, manovacuometry, radiological changes in the preoperative period, prior to the interventions (immediate postoperative) and on the third postoperative day, immediately prior to cardiac intensive care unit discharge. Pulmonary complications were assessed on the third postoperative day, and length of stay (at the Intensive Care Unit and hospital) were recorded untill discharge.

Condition or Disease	Intervention/Treatment	Phase
Thoracic Surgery	Other: PEP in a blow-bottle device Other: EPAP Other: conventional physiotherapy	N/A

Detailed Description

Cardiac surgery is a recommended therapeutic option as a form of secondary prevention for the treatment of cardiovascular diseases, but may present postoperative alterations such as reduction of pulmonary volumes and flows, impairment in gas exchange and increase in the rate of pulmonary complications. The use of positive pressure may reduce these complications. Objective: To evaluate the efficacy of positive expiratory pressure (PEP) in the blow-bottle device compared to expiratory positive airway pressure (EPAP), both associated with conventional physiotherapy, and conventional physiotherapy in the pulmonary function in postoperative cardiac patients. Methods:This is a randomized clinical trial, with patients in postoperative cardiac surgery. On the first day of postoperative, the patients will be randomized into three groups: 1 group that will receive positive expiratory pressure with blow-bottle device associated with conventional physiotherapy; 2- group that will receive positive expiratory pressure in the airways with valve unidirectional therapy associated with conventional physiotherapy; 3- group that will only receive conventional physiotherapy. The intervention of the positive expiratory pressure with blow-bottle device group will consist of exercise with a blow-bottle device of 10 cm high; the positive expiratory pressure in the airways group, exercise with unidirectional positive expiratory pressure valve (10cmH2O). Both the groups will perform three sets of 10 repetitions per day, by the third day of PO. The third group will receive conventional physiotherapy of intensive care unit. The outcomes evaluated will be: pulmonary function (primary), respiratory muscle strength, pulmonary complications, radiological changes and length of stay (at the Intensive CareUnit - ICU - and hospital). Assessment of pulmonary function, muscle strength and radiological changes will be performed in the preoperative period, prior to the interventions and on the third postoperative day, immediately prior to discharge of cardiac intensive care unit. Pulmonary complications and ICU length of stay will be recorded after discharge from intensive care unit cardiac. The length of hospital stay was recorded after hospital discharge.

Study Design

Study Type:

Interventional

Actual Enrollment :

163 participants

Allocation:

Randomized

Intervention Model:

Parallel Assignment

Intervention Model Description:

This is a randomized clinical trial that will be performed according to the CONSORT Statement (Consolidated Standards of ReportingTrials).This is a randomized clinical trial that will be performed according to the CONSORT Statement (Consolidated Standards of ReportingTrials).

Masking:

Single (Outcomes Assessor)

Masking Description:

Double blind: allocation concealment and outcome assessor

Primary Purpose:

Treatment

Official Title:

Expiratory Positive Pressure With Blow-bottle Device Versus Expiratory Positive Airway Pressure (EPAP) in Patients After Postoperative Cardiac Surgery: Randomized Clinical Trial

Actual Study Start Date :

Aug 1, 2018

Actual Primary Completion Date :

May 20, 2019

Actual Study Completion Date :

Aug 23, 2019

Arms and Interventions

Arm	Intervention/Treatment
Active Comparator: PEP in a blow-bottle device Blow-bottle device of 10cmH2O.	Other: PEP in a blow-bottle device A 500-milliliter enteral nutrition vial will be used, which will contain a hole in the side, where two silicone tubes of 20 centimeters long will be inserted together with tape on the bottleneck of the vial. To perform the exercise, the vial will be filled with water leaving a water column of 10 cm high. Deep inspirations will be requested at a volume greater than the tidal volume and less than the total lung capacity that can be performed via nasal or oral, then with the mouth connected to the extensors, the patient will exhale slowly, avoiding to totally empty the lungs. The protocol will be executed twice a day, three sets of ten repetitions. The group will receive the conventional physiotherapy of the cardiac intensive care unit of the HCPA.
Active Comparator: EPAP Positive airway expiratory pressure EPAP with pressure of 10 cmH2O.	Other: EPAP The Vital Signs ® EPAP kit will be used. Exercises will be performed in the bed, and as soon as the patient is released by the medical team to leave the bed, they can be performed in the sitting position or in orthostasis. For performing the exercise, the EPAP mask will be connected to the face of the patient. The expiratory pressure will be adjusted to 10cmH2O. Deep inspirations will be requested at a volume greater than the tidal volume and below the total lung capacity, then the patient will exhale slowly. The protocol will be executed twice a day, three sets of ten repetitions. The group will receive the conventional physiotherapy of the cardiac intensive care unit of the HCPA, as described in the conventional physiotherapy group.
Sham Comparator: conventional physiotherapy Ventilatory exercises, bronchial hygiene techniques, exercises for upper and lower limbs (previous motor condition) stretching, orientation and walking.	Other: conventional physiotherapy Conventional physical therapy consists of ventilatory exercises, bronchial hygiene techniques, passive, active-assisted or active exercises for upper and lower limbs, and resisted lower limb exercises; stretching, cough and walking guidelines. Initially the exercises will be performed in the bed, as soon as this is withdrawn and the patient is released by the medical team to leave the bed, the progression of the exercises to be performed in the sitting position, orthostasis, and ambulation is performed, this usually occurs on the 2nd postoperative day, after the removal of the mediastinal drain . Under supervision of the physiotherapist, the protocol will be performed twice daily, two sets of ten repetitions.

Arm

Intervention/Treatment

Active Comparator: PEP in a blow-bottle device

Blow-bottle device of 10cmH2O.

Other: PEP in a blow-bottle device

A 500-milliliter enteral nutrition vial will be used, which will contain a hole in the side, where two silicone tubes of 20 centimeters long will be inserted together with tape on the bottleneck of the vial. To perform the exercise, the vial will be filled with water leaving a water column of 10 cm high. Deep inspirations will be requested at a volume greater than the tidal volume and less than the total lung capacity that can be performed via nasal or oral, then with the mouth connected to the extensors, the patient will exhale slowly, avoiding to totally empty the lungs. The protocol will be executed twice a day, three sets of ten repetitions. The group will receive the conventional physiotherapy of the cardiac intensive care unit of the HCPA.

Active Comparator: EPAP Positive airway expiratory pressure

EPAP with pressure of 10 cmH2O.

Other: EPAP

The Vital Signs ® EPAP kit will be used. Exercises will be performed in the bed, and as soon as the patient is released by the medical team to leave the bed, they can be performed in the sitting position or in orthostasis. For performing the exercise, the EPAP mask will be connected to the face of the patient. The expiratory pressure will be adjusted to 10cmH2O. Deep inspirations will be requested at a volume greater than the tidal volume and below the total lung capacity, then the patient will exhale slowly. The protocol will be executed twice a day, three sets of ten repetitions. The group will receive the conventional physiotherapy of the cardiac intensive care unit of the HCPA, as described in the conventional physiotherapy group.

Sham Comparator: conventional physiotherapy

Ventilatory exercises, bronchial hygiene techniques, exercises for upper and lower limbs (previous motor condition) stretching, orientation and walking.

Other: conventional physiotherapy

Conventional physical therapy consists of ventilatory exercises, bronchial hygiene techniques, passive, active-assisted or active exercises for upper and lower limbs, and resisted lower limb exercises; stretching, cough and walking guidelines. Initially the exercises will be performed in the bed, as soon as this is withdrawn and the patient is released by the medical team to leave the bed, the progression of the exercises to be performed in the sitting position, orthostasis, and ambulation is performed, this usually occurs on the 2nd postoperative day, after the removal of the mediastinal drain . Under supervision of the physiotherapist, the protocol will be performed twice daily, two sets of ten repetitions.

Outcome Measures

Primary Outcome Measures

Pulmonary function - forced vital capacity [three days]
Pulmonary function through spirometry. Spirometry allows to measure forced vital capacity. It's the air volume expired, quickly, after an inspiration deep maximum.
Pulmonary function - forced expiratory volume in the first second [three days]
Pulmonary function through spirometry, that allows to measure forced expiratory volume in the first second. It's the maximum expired volume at the first second of an maximum expiration .
Pulmonary function - the ratio: forced expiratory volume in the first second / forced vital capacity [three days]
Pulmonary function through spirometry, obtained through forced maneuver (forced vital capacity) and forced expiratory volume in the first second - represents the maximum expired volume at the first second of an maximum expiration.

Secondary Outcome Measures

Respiratory muscle strength - maximum expiratory pressure [three days]
Performed through a manometer in step cmH2O, of the brand Globalmed model MV300. Maximum expiratory pressure.
Respiratory muscle strength - maximal inspiratory pressure [three days]
Performed through a manometer in step cmH2O, of the brand Globalmed model MV300. Maximal inspiratory pressure will be measured.
Pulmonary complications - atelectasis [three days]
According to the definitions of the European Journal of Anaesthesiology
Pulmonary complications - pleural effusion [three days]
According to the definitions of the European Journal of Anaesthesiology
Pulmonary complications - pneumothorax [three days]
According to the definitions of the European Journal of Anaesthesiology
Pulmonary complications - pneumonia [three days]
According to the definitions of the European Journal of Anaesthesiology
Pulmonary complications - respiratory infection [three days]
According to the definitions of the European Journal of Anaesthesiology
Pulmonary complications - respiratory failure [three days]
According to the definitions of the European Journal of Anaesthesiology
Radiological changes - pleural effusion [three days]
rated on chest X-ray, according to the scale proposed by Staton et al.
Radiological changes - atelectasis [three days]
rated on chest X-ray, according to the scale proposed by Staton et al.
Radiological changes - consolidation [three days]
rated on chest X-ray, according to the scale proposed by Staton et al.
Radiological changes - pneumothorax [three days]
rated on chest X-ray, according to the scale proposed by Staton et al.
Radiological changes - pulmonary edema [three days]
rated on chest X-ray, according to the scale proposed by Staton et al.
Length of Intensive Care Unit (ICU) stay [three days]
Length of ICU stay (days) search electronic records
Length of hospital stay [up to 25 days]
Length of hospital stay (days) search electronic records

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years and Older

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Elective cardiovascular surgery of:

coronary artery bypass graft surgery alone

coronary artery bypass graft surgery combined with aortic valve surgery

coronary artery bypass graft surgery combined with bicuspid valve surgery

coronary artery bypass graft surgery combined with tricuspid valve surgery

Aortic valve surgery

Bicuspid valve surgery

Tricuspid valve surgery

All on spontaneous ventilation or with supplemental oxygen support.

Exclusion Criteria:

Patients with hemodynamic instability (heart rate> 120bpm, clinically important hypotension

vasopressor dose ≥ 0.1mcg / kg / min)

Cardiac arrhythmia

Heart transplantation

Angina at rest and/or minor efforts

Mechanical ventilation for more than 24 hours

Re-hospitalized patients with decompensated heart failure

Noninvasive mechanical ventilation

Non-collaborative and with cognitive inability to understand the procedures

Reintubated patients

Re-operated patients

In order to perform the pulmonary function test, patients may not present the following contraindications:

hemoptysis

recent angina

retinal detachment

hypertensive crisis

pulmonary edema

thoracic aortic aneurysm

In order to perform the respiratory muscle strength test, patients may not present the following contraindications:

acute myocardial infarction

recent unstable angina

severe and uncontrolled systemic arterial hypertension

aortic aneurysm

pneumothorax

pleurocutaneous or pulmonary fistulas

surgery or recent trauma to the upper airways, chest or abdomen

abdominal hernia

acute middle ear problems

glaucoma or retinal detachment

hydrocephalus

meningocele

neurological processes that favor the choking of tonsils

general state of physical or mental impairment that impedes the patient's collaboration.

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	HCPA	Porto Alegre	Rio Grande Do Sul	Brazil	90.035-903

Sponsors and Collaborators

Hospital de Clinicas de Porto Alegre
UNIVERSIDADE FEDERAL DO RIO GRANDE DO SUL (UFRGS)

Investigators

Principal Investigator: Graciele Sbruzzi, doctor, HCPA

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Hospital de Clinicas de Porto Alegre

ClinicalTrials.gov Identifier:

NCT03639974

Other Study ID Numbers:

17-0460

First Posted:

Aug 21, 2018

Last Update Posted:

Dec 10, 2019

Last Verified:

Dec 1, 2019

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Study Results

No Results Posted as of Dec 10, 2019