Critical Illness Clinical Trial
Official title:
Wearable Brain Computer Interface (BCI) to Assist Communication in Mechanically Ventilated Patients the Intensive Care Unit (ICU)
Objectives:
Specific Aim 1: To demonstrate the feasibility of using a Steady State Visual Evoked
Potential (SSVEP) based Brain Computer Interface (BCI) device to facilitate communication of
common patient needs in alert mechanically ventilated patients in the Intensive Care Unit
(ICU).
Specific Aim 2: To determine patient, family and bedside nurse satisfaction with
communication using the BCI device and elicit open-ended feedback to guide future device
improvements
Design:
Translational pilot study of a Steady State Visual Evoked Potential (SSVEP) based BCI system
to facilitate communication in intubated patients, with sequential use of the BCI device and
a picture board.
Selection of the primary self-identified primary patient need on the BCI device will be
compared to the icon selected on the picture board (reference standard). A patient
satisfaction survey will then be provided to the patient or a family member following use for
2 hours a day for 3 consecutive days.
Primary outcome: Accurate selection of the illustrative icon on the brain computer interface
representing the physical or emotional need self-identified by the patient as being the most
common trigger for communication with the bedside nurse during their admission.
Secondary outcome: Selection by patients or family of "agree" or "strongly agree" with the
statement "The Brain computer interface device allowed me to communicate my needs to the
bedside nurse adequately".
Intervention: Use of the brain computer device in the ICU for communication for 2 hours a day
for 3 consecutive days
Control/ Comparator: Sequential use of a communication picture board for 2 hours a day for 3
consecutive days, on the same days that the BCI device is used Sample Size: 30 mechanically
ventilated but alert patients in the Intensive Care Unit
BACKGROUND
An inability to consistently and effectively communicate their most fundamental physical
needs is a major problem for mechanically ventilated ICU patients. Patients rate about 40% of
communication sessions as difficult and more than a third of communications about pain as
unsuccessful. Nurses initiate about 86% of all communication exchanges as it is typically
very difficult for a voiceless ICU patient to initiate communication. Patients in the ICU
therefore commonly suffer unrecognized pain and discomfort, feelings of loss of control and
insecurity, depersonalization, anxiety, sleep disturbances, fear and frustration. Caregivers
also frequently report feeling anxious and frustrated in not being able to adequately assess
the needs of their patients. This inability to communicate effectively can lead to the
inappropriate use of sedatives and prolongation of time spent on the ventilator, which may
then lead to increased ICU length of stay and costs. Furthermore, the inability to
communicate with caregivers hampers the ability of critically ill patients to be active
participants in their treatment and in decision-making, including decisions to withdraw or
withhold life-sustaining treatment.
The use of picture boards with icons representing common patient needs and complaints (pain,
fear, hot/ cold, thirst, bedpan etc) has been shown to improve nurse-patient communication
for patients in the postoperative period on the ventilator. These picture boards are widely
available in most ICUs and are the closest thing to a current standard for communication with
voiceless mechanically ventilated patient, for the purposes of addressing fundamental
physical and emotional needs. Recent pilot studies have described the use of
computer-assisted communication using touch sensitive screens, eye blink detectors and gaze
trackers to enable communication in the ICU patient. The majority of patients and hospital
staff surveyed in these studies indicated that the use of a computer-assisted communication
device improved the ability to respond to patient needs and address patient comfort. Gaze and
eye blink tracker systems are expensive, however, while touch sensitive screens may not be
suitable for the many ICU patients with weakness and restriction in motor ability. Patients
in the ICU, particularly those with neurological illness, frequently suffer from significant
weakness and loss of co-ordination, however, limiting their ability to use their arms and
hands to indicate the appropriate item on the board. While patients in the neuroICU are
frequently weak because of focal brain injury, about a quarter of patients requiring
mechanical ventilation in other ICUs may have significant weakness from critical illness
neuropathy and myopathy, limiting their ability to use their hands to select the appropriate
icon on a picture board. There are several patient populations, however, for whom the use of
a picture board or touch screen is impossible, including patients with high spinal cord
injury, advanced ALS and brainstem stroke, who are voiceless, but also typically have no
useful motor function of their limbs. These patients are "locked-in", to varying degrees,
awake and alert but with no control of bodily function or ability to articulate and
communicate using standard forms of communication.
The use of Brain Computer Interface (BCI) devices to facilitate communication in "voiceless"
patients has recently generated interest. A BCI translates deliberate, voluntary modulation
of cerebral electrical activity, typically recorded by electroencephalography (EEG) into
computer commands. A variety of BCI devices have been used to permit patients with advanced
Amyotrophic Lateral Sclerosis (ALS), high spinal cord injury and brainstem stroke with the
locked-in-syndrome, who have no voluntary use of their limbs, to communicate to varying
degrees. These devices have typically been evaluated in the rehabilitation setting, following
the period of acute medical illness, or at home. No study has evaluated the use of a BCI
device to assist with communication of the typical physical and emotional needs/ complaints
of the critically ill. This is significant, not only for patients with spinal cord injury and
stroke, most of who are initially admitted to an ICU, but to the potentially large number of
ICU patients who cannot use a picture board or other finger contact system because of
critical illness neuropathy/ myopathy or acute brain injury causing weakness. Our focus is on
creating a steady state visual evoked potential (SSVEP) based, wireless BCI system to
facilitate communication with intubated ICU patients., The wearable BCI device of interest in
this study functions through visual attention to illustrative icons displayed on an
electronic screen. The icon, which may depict a common ICU patient need, such the need for
repositioning or common patient complaint, such as pain, can be displayed as a symbol. The
patient can, thereby, communicate by looking at a specific item depicting their need or
complaint. This wearable device is entirely noninvasive and without significant risk to
patients, functioning only to record and translate EEG signals. The device will communicate
wirelessly with the user interface (UI) that can be either a tablet or the flat screen TV
monitor that is present in every ICU patient room. The proposed prototype provides a user
interface that includes basic functions that are typically used in communication between
nurses and patients in the ICU.
STUDY DESIGN
This is a translational pilot study of a Steady State Visual Evoked Potential (SSVEP) based
BCI system to facilitate communication in intubated patients. After obtaining informed
consent from the patient or their legally authorized representative, 30 patients will be
recruited from the medical, surgical, cardiac, cardiothoracic and neurological intensive care
units at the University of Michigan, Ann Arbor over a period of 12 months. Approval has been
obtained from the Institutional Review Board of the University of Michigan (HUM00095052).
Screening for delirium and ability to participate in the study:
Potential subjects will be identified by members of the primary ICU team, who will then
contact a study investigator. Subjects will need to be off all sedating medicines with return
to full wakefulness prior to further evaluation. Patients meeting the above eligibility
criteria who consent to participate in the study will then undergo further testing by an
investigator to confirm that the patient is sufficiently alert and attentive to communicate
AND is capable of consistently selecting items through volitional finger contact. The patient
will then undergo a screening evaluation with the BCI device to confirm that their individual
EEG signal can be detected and interpreted by the device.
Patient complaints/ needs: The investigators will evaluate the ability of subjects to
accurately select a specific need or complaint from 10 common needs/ complaints.
1. "I am in pain"
2. "I have difficulty breathing"
3. "I need to be suctioned"
4. "I need to have a bowel movement"
5. "I need to pee/ pass urine"
6. "I am thirsty"
7. "I am hungry"
8. "I need to have my position in bed changed"
9. "Raise the head of my bed"
10. "I need my family at my bedside"
Picture board: Feasibility of communication using the BCI device will be evaluated using a
picture board with illustrative icons representing the 10 needs/ complaints above as the
standard for comparison and to determine the accuracy of selection of the appropriate icon.
The icons and phrases on the picture board will be identical to the icons and phrases on the
BCI device
SPECIFIC AIM 1:
To demonstrate the feasibility of using a Steady State Visual Evoked Potential (SSVEP) based
Brain Computer Interface (BCI) device to facilitate communication of common patient needs in
alert mechanically ventilated patients in the Intensive Care Unit (ICU).
Hypothesis 1: At least 80% of alert mechanically ventilated patients will be able to
accurately select the illustrative icon on the brain computer interface representing the
physical or emotional need self-identified by the patient as being the most common trigger
for communication with the bedside nurse during their admission.
Orientation to BCI and picture board: The patient will initially be familiarized with both
the picture board and the BCI device. Instruction on use of the BCI device will include
demonstration of the UI, explanation of the icons on the UI and the mechanism of selection of
an icon, through focused visual attention.
Selection of need/ complaint: Immediately following orientation, testing for accuracy of the
BCI device will be performed. Testing for accuracy will be performed a single time for each
patient, using the most important need/ complaint for that patient. The patient will be asked
to identify on the BCI UI the specific need or complaint as being the most common reason to
request the assistance of the bedside nurse during their admission, among the 10 patient
need/ complaint options provided. Selection of "None of the above/ Other" will be permitted,
however, the patient will be specifically instructed in advance to select the need/ complaint
most applicable to their situation among the 10 choices provided. The patient will then be
asked to select the SAME need/ complaint on the picture board using finger contact.
SPECIFIC AIM 2:
Specific Aim 2: To determine patient, family and bedside nurse satisfaction with
communication using the BCI device and elicit open-ended feedback to guide future device
improvements.
Hypothesis 2: At least 70% of patients will "agree" or "strongly agree" with the statement
"The Brain computer interface device allowed me to communicate my needs to the bedside nurse
adequately".
Immediately following evaluation of accuracy described under Specific Aim 1, the
investigators will evaluate patient, family and bedside nurse satisfaction following bedside
use of the device as the primary communication tool for 2 hours a day for 3 consecutive days.
A delirium screen using CAM-ICU and a brief neurological examination to confirm the patient's
ability to effectively use the BCI device and picture board will be performed prior to use of
the device or picture board on subsequent days (days 2 and 3).
At the end of the 3 days, the patient, any family members present and each nurse who
participated in testing will be provided the short questionnaires. The patient questionnaire
with options will be read out to the patient.
Statistical Analysis:
The proportion of patients who pass Step 2 of screening who then also pass Step 3 will be
calculated with exact binomial 95% confidence intervals. A proportion of at least 70% passing
Step 3 of screening will be the initial threshold for feasibility, based on clinical
estimates of value. The median time, with interquartile range, required for orientation to
the BCI device and to the picture board will be calculated, and comparison performed using
the Mann Whitney U-test. The proportion of patients who select the same icon on the BCI UI
and the picture board will be calculated, with exact binomial 95% confidence intervals. In
determining the accuracy of using the BCI device, a binomial analysis including multiple
studies of BCI estimated the chance level at 63% (α = 0.05, 60 trials). Based also on a
clinical estimate of what would be a minimum useful level of accuracy for a communication
device, the threshold for accuracy in our study will be at least 80% of patients
demonstrating concordance between selection of their most important need/ complaint on the
BCI device and the picture board. Descriptive statistics will be used to for proportions of
patients selecting responses to each of the satisfaction questions.
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