Pulmonary Hypertension Clinical Trial
Official title:
Study of the Safety of Flexible Bronchoscopy in Patients With Pulmonary Hypertension
Background
Flexible bronchoscopy (FB) is one of the most common invasive procedures performed by
pulmonologists (1) . Typically performed under topical anesthesia and conscious sedation,
the procedure is considered to be safe, effective and well tolerated in patients with a wide
variety of pulmonary diseases (2). Complications associated with the procedure are rare and
studies have estimated an incidence of 0.5-4% (3) The most commonly recognized complications
include hypoxia, bleeding, bronchospasm, cardiac dysrhythmias, pneumothorax, and vagal
reactions (4). Several conditions increase the risk of complications including pre-existent
hypoxemia, use of mechanical ventilation, uremia, profound thrombocytopenia, coagulopathy
and pulmonary hypertension (PH) (5). Although previous reports suggest that transbronchial
biopsies increase the risk for hemorrhage in this population, data are is limited to survey
analyses and isolated reports. Recently Guzman et al. reported a retrospective analysis
about the safety of FB in PH. (6) They found that FB can be performed safely in patients
with mild and moderate PH. However, the study was small and retrospective analysis.
Furthermore, there is no consensus regarding levels of pulmonary artery pressure (PAP)
considered to be safe for invasive diagnostic interventions such as TBLB or transbronchial
needle aspiration.
Objective
To assess the safety of FB in patients with PH and to study the occurrence of complications
associated with different diagnostic bronchoscopic procedures.
The Safety of Flexible Bronchoscopy in Patients with Pulmonary Hypertension
1Pulmonary department and 2Devision of Cardiology Affiliated with Sackler Faculty of
Medicine, Tel Aviv University, Tel Aviv, Israel; Meir Medical Center, Kfar Saba, Israel
Background
Flexible bronchoscopy (FB) is one of the most common invasive procedures performed by
pulmonologists (1) . Typically performed under topical anesthesia and conscious sedation,
the procedure is considered to be safe, effective and well tolerated in patients with a wide
variety of pulmonary diseases (2). Complications associated with the procedure are rare and
studies have estimated an incidence of 0.5-4% (3) The most commonly recognized complications
include hypoxia, bleeding, bronchospasm, cardiac dysrhythmias, pneumothorax, and vagal
reactions (4). Several conditions increase the risk of complications including pre-existent
hypoxemia, use of mechanical ventilation, uremia, profound thrombocytopenia, coagulopathy
and pulmonary hypertension (PH) (5). Although previous reports suggest that transbronchial
biopsies increase the risk for hemorrhage in this population, data are is limited to survey
analyses and isolated reports. Recently Guzman et al. reported a retrospective analysis
about the safety of FB in PH. (6) They found that FB can be performed safely in patients
with mild and moderate PH. However, the study was small and retrospective analysis.
Furthermore, there is no consensus regarding levels of pulmonary artery pressure (PAP)
considered to be safe for invasive diagnostic interventions such as TBLB or transbronchial
needle aspiration.
Objective To assess the safety of FB in patients with PH and to study the occurrence of
complications associated with different diagnostic bronchoscopic procedures.
Materials and Methods Study Population 100 patients that will undergo a bronchoscopy
according to the regular indications during the study period (12 months) will be eligible
for the study.
Criteria for exclusion Exclusion criteria will be age under 18 years and patients who are
unable to obtain informed consent. Patients with known severe pulmonary hypertension (PAP
above 70 mmHg) will be exclude from the study.
Procedural Conduct All procedures will be performing in the bronchoscopy suite of the
Pulmonary Department in Meir Medical center. Fluoroscopy will be available for all
procedures. FB will be performed by a training pulmonary physician that will be blinded to
the echocardiograpgic findings. Oxygen will be administered to all patients to ensure SpO2
>90% prior to the introduction of the bronchoscope. Continuous pulse oximetry,
electrocardiogram and noninvasive blood pressure monitoring will be obtained throughout the
procedure. Sedation will be achieved using midazolam. Topical anesthesia (was) will be
obtained using 2% lidocaine.
Study Subjects All the patients will undergo a Doppler echocardiogram in the day of the
bronchoscopy after the bronchoscopy. The diagnosis of PH will define as (1) mean PAP (mPAP)
>25 mm Hg measured by right heart catheterization (RHC), or (2) right ventricular systolic
pressure (RVSP) >40 mm Hg estimated by Doppler echocardiography.
PAP will be calculated as the sum of tricuspid regurgitation gradient and estimated right
atrial pressure, provided there is no increase in pulmonic valve flow velocity .Maximal
tricuspid regurgitation velocity (taken from all available views) will be measured by
continuous wave Doppler echocardiography to evaluate the pressure gradient from the right
ventricle to the right atrium. Right atrial pressure will be estimated on the basis of
inferior vena cava (IVC) size and inspiratory collapse (7,8).
Data Collection Data will be collected from all patients including baseline characteristics
of age, sex, medications and electrocardiogram. Blood tests including blood count,
indication for bronchoscopy, duration and bronchoscopic procedures. All echocardiogram
findings will be collected by physicians that will be blinded to the bronchoscpoic details.
Outcome Measures The primary outcome will be the incidence of complications after FB.
Complications will define as hypoxemia (SpO2 <90% and need of supplemental oxygen within 30
min of a completed procedure), hypotension (mean arterial pressure <60 mm Hg or systolic
blood pressure <90 mm Hg for more than 5 min and/or need for administration of intravenous
solution or vasopressors), cardiac dysrhythmias (new onset of arrhythmia or worsening of
underlying arrhythmia that caused hemodynamic instability and/or required urgent
intervention), bleeding, and death.
The amount of bleeding will be estimated as: no bleeding - minimal bleeding that does not
require suctioning; mild bleeding - the need to continually suction the airways; moderate
bleeding - the need to wedge FB in the segment involved; severe bleeding - the need for
additional interventions or transfusion.
Statistical Analysis Results will express as the mean ± SD for continuous variables.
Qualitative data will express as the percentage of patients with a 95% confidence interval.
Nominal variables will be compared with Pearson's 2 or Fisher's exact test. Continuous
outcome variables will be compared using Student's t test or rank-sum tests as appropriate.
Statistical significance will be defined as p < 0.05.
Statistical analysis will be performed using a statistical software package (SPSS, version
13.0; SPSS Inc., Chicago, Ill., USA).
;
Observational Model: Case-Only, Time Perspective: Prospective
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