All critically ill patients receiving mechanical ventilation experience a period of inability to speak due to the need for cuffed endotracheal or tracheostomy tubes. Consequences of the inability to speak include: significant emotional distress; unrecognized pain; sleeplessness; increased use of restraints, self-extubation and line removal, as well as injury to self and healthcare professionals. Communication methods such as word mouthing, gesticulating, and writing may be ineffective and result in frustration. Recent technological innovations include communication boards and electronic speech generating devices however these require fine motor skills and coordination which may not be intact in the chronically critically ill. The Electrolarynx was recently shown to be effective in establishing communication in a case study of an intubated patient. Despite the well-recognized deleterious consequences of speech incapacity, few studies have evaluated communication strategies in the critically ill and no published study has evaluated the Electrolarynx in this patient population. In this study, the investigators aim to assess the feasibility and patient acceptability of establishing speech with an Electrolarynx for intubated or tracheostomized patients experiencing difficult weaning and unable to tolerate cuff deflation. Feasibility will be determined by the proportion of participants able to produce intelligible and comprehensible speech. The investigators will also collect data on consent rates, reasons for refusal, the proportion of eligible patients and the time required for research procedures to inform future studies. The investigators will provide participants with a maximum of five Electrolarynx training sessions. On completion the investigators will measure speech intelligibility, comprehensibility, and patient acceptability using the Assessment of Intelligibility of Dysarthric Speech and the Ease of Communication scale. Satisfaction with communication and anxiety will be measured before and after Electrolarynx training. To the investigators' knowledge, this study will be the first to rigorously evaluate, using previously validated measures, the feasibility of the Electrolarynx for establishing communication for mechanically ventilated patients.
Despite the well-recognized deleterious consequences of speech incapacity, few studies have evaluated communication strategies for patients unable to tolerate cuff deflation. Despite the aforementioned case reports, no studies report the feasibility of the Electrolarynx in restoring communication. Communication impairment during hospitalization has implications for the quality and safety of care as it is a modifiable risk factor for adverse events. This has led to accreditation organizations mandating reasonable efforts to establish alternative communication strategies for patients unable to speak. For chronically critically ill (CCI) patients, inability to speak increases anxiety, decreases a sense of control, and impairs meaningful patient involvement in decision making. Anxiety can exacerbate pain, which is known to impede ventilator weaning. Therefore it is likely that the inability to speak can impact negatively on weaning outcomes. To the investigators' knowledge, this study will be the first to rigorously evaluate, using previously validated measures, the feasibility of the Electrolarynx for establishing communication for mechanically ventilated patients. Overall Program of Research Hypothesis The investigators hypothesize that restoration of communication using the Electrolarynx can reduce patient anxiety resulting in improvement in weaning outcomes (weaning success and duration) and reduced adverse events associated with inability to communicate such as agitation, delirium, restraint use, and tube/line/device removal. Before being able to test this hypothesis, the feasibility of use of the Electrolarynx needs to be confirmed. Study Aim The aim of this study is to assess the feasibility of establishing speech with an Electrolarynx for patients receiving ventilation via an endotracheal tube or tracheostomy experiencing difficult weaning and unable to tolerate cuff deflation. Feasibility will be determined in terms of the proportion of participants able to produce intelligible and comprehensible speech as well as ease of, and satisfaction with communication.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
24
The device transmits electronic sound source vibrations through soft tissue, either the neck at the level of the glottis, or less commonly the check. Speech is created through movements of articulators including the lips, tongue and jaw.
Toronto East General Hospital
Toronto, Ontario, Canada
Saint Michael's Hospital
Toronto, Ontario, Canada
Sunnybrook Health Care Centre
Toronto, Ontario, Canada
Feasibility of the Electrolarynx for establishing successful communication defined as the ability to generate speech that is intelligible and comprehensible
We determined speech intelligibility and comprehensibility using the Assessment of Intelligibility of Dysarthric Speech (AIDS), a validated objective tool for quantifying single-word and sentence intelligibility. Intelligible speech was arbitrarily defined as ≥70% of words identified correctly by raters. Ability to establish comprehensible speech was defined as a difficulty score of ≤ 5 averaged over the five sentences.
Time frame: Within 5 days of training
Perceived ease and satisfaction with use
The investigators will use a simplified form of the Ease of Communication scale developed by Menzel that has been adapted and used in studies assessing communication in non-vocal ICU patients. We will use a 5-point Likert type scale to measure satisfaction with 1 indicating very satisfied and 5 indicating not at all satisfied.
Time frame: Within 5 days of training
Training time
The investigators will record the total time spent to train each participant to use the Electrolarynx
Time frame: Commencement and completion of training - training is a maximum of five days
Anxiety
The investigators will measure anxiety using the Faces Anxiety Scale
Time frame: Within 5 days of training
Consent rate
The investigators will document the number of participants that consent and decline
Time frame: One month after completion of study recruitment
Time to complete research measures
The investigators will record the time to complete all research procedures
Time frame: One month after completion of study recruitment
Effectiveness of the Electrolarynx
The investigators will measure the effectiveness of the Electrolarynx for communication using the Electrolarynx Effectiveness Score
Time frame: Within 5 days of training
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