Respiratory Insufficiency Clinical Trial
Official title:
Effect of Non-invasive Ventilation (NIV) on Cerebral Oxygenation
SUMMARY AND AIM
Background:
The proper management of brain oxygenation is an essential component of all anaesthesiologic
procedures. Nevertheless, the brain remains one of the least monitored organs in the
perioperative phase and intensive care therapy.
The INVOS Brain Oxymeter (IBO) is a reliable trend monitor for changes in regional cerebral
oxygenation (rSO2).
It is a current assumption that rSO2 directly correlates with Sa02, which can be influenced
by different ventilation assistance systems, e.g. CPAP therapy.
Objectives:
The project aims at investigating changes of rSO2 in patients undergoing CPAP therapy for
max. 15 minutes, in order to evaluate the effect of CPAP on cerebral oxygenation.
Methods:
NIRS measurement (with IBO) will be performed on the temporoparietal cortex on both sides of
the head. The trial will consist of two parts i.e. with or without ventilatory assistance.
The order of starting the study with or without CPAP therapy will be randomized. During each
part the measurements will be performed until reaching a steady state (no change in rSO2 ±
2% for 3 min) but with a maximum duration of 15min. After each interval a BGA (blood gas
analysis) will be performed.
BACKGROUND
Near infrared spectroscopy (NIRS) is a non-invasive method for the measurement of blood flow
in tissues, first used for cerebral tissue oxygenation in 1977. 1 NIRS is a spectroscopic
technique, which uses electromagnetic waves (700-950nm), an emitter and a detector. In the
last 20 years there was an enormous development in the instrumentation and application of
NIRS. This technique now allows for measuring the oxygenation of the brain tissue. 2-13 The
INVOS Brain Oxymeter (IBO) is a reliable trend monitor for changes in regional cerebral
oxygenation (rSO2) and correlates with the hemoglobin saturation in venous, capillary and
arterial blood, using an algorithm based upon the Beer-Lambert law. 4,14 The IBO system uses
light, with wavelengths between 730-810 nm, that penetrates layers of the human body, among
them the skin, the scull and the brain. It is either scattered within the tissue or absorbed
by present chromophores. In the rather transparent near infrared region, there are many
absorbing light chromophores, but only three are important as far as the oxygenation is
concerned, namely hemoglobin (HbO2), deoxyhemoglobin (Hb) and cytochrome oxidase (CtOx).
Oxygenated and deoxygenated hemoglobin absorb light at different wavelengths, allowing a
differentiation of these two forms of hemoglobin.15 The sensors, ("SomaSensors"), are
applied to the patient's forehead with an integrated medical-grade adhesive.16 The method is
applied by using two source-detector distances in the sensor: a "near" one (shallow), 3 cm
from the source and a "far" one (deep), 4 cm from the source. Both samples penetrate the
tissue beneath the light source equally well, with the difference that the 4cm
source-detector measures signals deeper in the brain.8,17 The subtraction of the near sample
from the far one should leave a signal originating predominantly from the brain cortex. 16
The proper management of brain oxygenation is an essential component of all anaesthesiologic
procedures. Nevertheless, the brain remains one of the least monitored organs during the
perioperative phase and intensive care therapy. Up until now, the anaesthesiological
application of NIRS as a method for measuring the cerebral oxygenation has only been
investigated in patients undergoing cardiac surgery or cerebrovascular surgery, elderly
patients undergoing major abdominal surgery and neonatal infants. 18-21 These studies
indicate that the measured cerebral oxygenation is affected by the relative proportion of
blood in the arterial or venous part of the capillary bed, the hemoglobin concentration and
the systemic saturation in addition to the cardiac output. The precise consequences of
alterations in the systemic saturation (SaO2) on the cerebral oxygenation (rSO2) remain
unknown. It is a current assumption that rSO2 is directly associated with Sa02, so that an
increase of SaO2 also leads to an increase of rSO2. The amount of oxygen in the arterial
blood depends on the inspired oxygen and the pulmonary gas exchange. These two parameters
are primarily affected by the individual's respiratory ventilation. Patients with chronic
respiratory failure, or just a temporary (acute) breathing deficiency (e.g. after general
anesthesia), are routinely treated with continuous positive airway pressure (CPAP) therapy.
It is also commonly used in the treatment of sleep apnea and in neonates (especially
premature infants). In these patients CPAP ventilation may prevent the need of tracheal
(re-) intubation, or enable earlier extubation.
CPAP therapy was developed by Dr. George Gregory and colleagues in the neonatal ICU at the
University of California, San Francisco in 1971 22, and then modified by Professor Colin
Sullivan at Royal Prince Alfred Hospital in Sydney, Australia, in 1981. 23 Initially the
CPAP therapy was mainly used for the treatment of obstructive sleep apnea at home. Nowadays
it is commonly applied in ICUs as a form of non-invasive mechanical ventilation. There it is
usually reserved for subgroups of patients where the oxygen treatment via a facemask is
insufficient. Patients on CPAP therapy are closely monitored in the ICU setting. The
treatment supports the patient's spontaneous breathing by building up a positive end
expiratory pressure (PEEP). The pressure required by most patients ranges between 5 and 12
cmH2O. The patient can individually determine his or her own respiratory frequency as well
as the depth of respiration.
Objectives:
The primary study goal is the investigation of the effect of CPAP therapy on rSO2 in
relation to the vital parameters, hemoglobin, SaO2 (analyzed by BGA) and SpO2. These
combined measurements can be used to further describe the effect of CPAP therapy on rSO2. So
far, this kind of study has not been performed on patients in the ICU. Therefore, this
project aims at gaining new insights into the influence of CPAP therapy on the cerebral
saturation. Additionally, differences in SaO2 and vital parameters will be correlated to the
rSO2. Also the occurrence of vomiting and nausea, headache and agitation during the CPAP
therapy will be registered.
The following parameters will be measured, calculated and noted in the CRF (case report
form):
- Blood pressure (BP)
- Heart rate (HR) and rhythm
- rSO2 (left and right hemisphere)
- BGA: arterial partial pressure of oxygen (PaO2)
- BGA: pH, Electrolytes (Na, K, Ca), Glucose, Lactate, SaO2
- BGA: Hb, Hk, MetHb, CoHb, SO2, pCO2, BE, SBC
- Ventilation: CPAP, MV, RR, TV, pressure support, Pmean
- ASA classification: 1-6
- Physical disorders under CPAP with yes or no, if yes specified:
eyes, ears, nose, throat respiratory cardiovascular musculoskeletal genitourinary skin
endocrine neurological psychiatric Hypothesis
Null and alternate hypothesis:
H0: There is NO change of rSO2 during CPAP therapy. H1: There is A change of rSO2 during
CPAP therapy. Type-I and -II errors and power α = 0.05 Power = 0.9 Interim analysis
- Statistical methodology Randomized observational experimental single-center clinical
trial.
- Sample size calculation:
Paired t-test, mean of difference: 5%, SD of difference: 10%; Effect size of 0.5; an error
probability two-sided: 0.05; Power: 0.9; total sample size: 50 patients. (5% drop-out rate
included).
METHODS This randomized clinical study will include 50 subjects from 18 years onwards
undergoing treatment on an ICU of the Medical University of Vienna (13C1, 13C2, 13C3, 13B1,
13I1, 9D, E11 (Neurosurgical ICU), requiring intermittent CPAP therapy. Neither the
applicant, nor the clinical investigator will be involved in the decision about the
indication for CPAP therapy.
The study will be carried out according to the Declaration of Helsinki (1964), and good
clinical practice (GCP) guidelines, and the Equator network website recommendations
including current revisions. The study protocol will be submitted to the Ethics Committee of
Medical University of Vienna for ethical approval. The study will be registered with
clinicaltrials.gov. The participation in the clinical study will occur independently of the
medical indication for the patient's stay on the ICU. Before being admitted to the study,
the subject must have consented to participate, after the nature, scope and possible
consequences of the procedure have been explained in a form understandable to him or her.
The patient must give consent orally and in writing. The individual's consent will be
confirmed with the signature of the investigator. All subject names will be kept secret in
the investigators' files. Subjects will be identified by documentation and evaluation
throughout the number allotted to them during the study. The participants will be informed
that the entire study data will be stored and handled confidentially. A data protocol by
means of a case report form will be used.
The duration of the trial is 30min. The study starts 15min before CPAP and ends when the
patient's rSO2 reaches a steady state (no change in rSO2 ± 2% for 3 min, maximal 15min)
under CPAP therapy. The participants are not required to participate in any follow up
visits.
This study will be carried out on patients with good access to the forehead. The NIRS
measurement (IBO) will be performed on the frontal cortex on both sides of the head.
Emission and detection probes have to be connected after wiping the patients forehead with a
soft cloth or cotton pad. During the whole investigation the SaO2, the blood pressure
(continuously invasive or non invasive in 3 minute-intervals) and the ECG will be recorded.
These vital signs are a part of the routine ICU monitoring. The trial will consist of two
parts i.e. with or without ventilatory assistance. The order of starting the study with or
without CPAP therapy will be randomized. During each part the measurements will be performed
until reaching a steady state (no change in rSO2 ± 2% for 3 min) but with a maximum duration
of 15min. The examination is safe, non-invasive, pain-free and can be carried out very
flexibly, quickly and cost efficiently by portable equipment. Data is collected from both
the right and left hemisphere.
The device system is to be used only in accordance with the approved investigational plan
and the CE-Certificate, on subjects who receive CPAP therapy and have signed an informed
consent form. The use of the device is limited to the approved study investigators. After
each examination interval a BGA will be performed.
The reason why this study is conducted on ICU patients is the following. Patients who suffer
from respiratory deficiencies and are in need of ventilatory assistance are rarely located
on normal hospital wards due to the fact that the installation of a ventilatory machine with
additional CPAP mode has to be performed by specialized personnel. In addition, these
patients require close monitoring, which can be guaranteed in an ICU setting.
Pregnant women, as well as individuals with severe valvular or neurological diseases will
not be included in the observation study.
After the indication for CPAP-therapy is verified and the in- and exclusion criteria are
checked, the patients will be recruited for the study.
The study will be divided in two data collection parts, both taken in one session.
1. 15min before CPAP:
- starting to collect data of either continuous arterial blood pressure measurement
(ABP)
- or non invasive (NIBP) until end of study
- starting NIRS measurement on both brain hemispheres (INVOS 5100C) until procedure
is completed
- drawing an arterial our venous (according to available access) blood sample for a
blood gas analysis (BGA)
2. 15min with CPAP:
- measurements performed in point 1. (ABP/NIBP, NIRS) will be continued
- taking of another arterial our venous (according to available line) blood sample
for a BGA
The order of point 1. and 2. (without or with CPAP) will be randomized into group 1 and
group 2 in the same patient.
OPERATIONAL OBJECTIVES
1. st year: Drafting of the study proposal. Aims: - Literature search and review
- Drafting of the study proposal
- Detailed planning of the realization of the project
Short description: Current literature on CPAP therapy, NIRS and rSO2 will be reviewed.
The exact planning of the realization of the study will begin after the positive ethics
committee vote has been received. A detailed study protocol will be written after the
literature review and the performance of preliminary measurements.
2. nd year: Initiation of the project
Aims: - Performing preliminary measurements and refining study protocol
- Execution of the study
- Evaluating the results
Short description: Preliminary measurements with NIRS will be performed, after which
the study protocol will be refined. According to the adapted protocol, the study will
be carried out on the ICUs of the MUW.
3. rd year: Finalizing the project, statistical evaluation; Data interpretation and
writing of the thesis.
Aims: - Evaluation of data
- Statistical analysis
- Interpretation of the results
- Drafting a preliminary version of the thesis
- Revision of the thesis to the supervisors's comments
- Writing a research paper to publish the study results
Short Description: Following the completion of the study, all collected data will be
evaluated and subjected to statistical analysis. Future follow up studies based on these
results will be drafted. The applicant will be granted time to work on his research project
as part of the research group "lung".
Cooperation arrangements The project will be performed at the Department of Anesthesia,
General Intensive Care and Pain Management, MUW.
Outlook and further projects
Several projects focusing on effects of rSO2 alterations in other settings are possible:
- intensive care unit therapy
- general anesthesia
REFERENCES 1-23
;
Allocation: Randomized, Intervention Model: Crossover Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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