Spinal Cord Injury Cervical
Conditions
Keywords
Lower respiratory airways clearance, Deep lung clearance, Secretions overproduction, Positive Expiratory Pressure, Intrapulmonary Percussive Ventilation, Tetraplegia, Tracheotomy, Critical Care Unit, Mechanical ventilation, Respiratory physiotherapy
Brief summary
In tetraplegic patients with complete cervical spinal cord injury, respiratory complications are very frequent, especially in the sub-acute phase: the lungs often become obstructed due to the accumulation of secretions and the contemporary inefficiency of the cough mechanism. The present pilot study aims, in the context of a rehabilitative Critical Care Unit, at evaluating a not yet published method, called T-PEP and based on the principle of Positive Expiratory Pressure, applicable to tracheotomised and mechanically ventilated patients. This method, conceptually simple and low cost, is compared with a known method based on the principle of Percussive Intrapulmonary Ventilation (IPV). Safety and efficacy issues are covered.
Detailed description
Respiratory complications are very frequent, especially in the sub-acute phase following a spinal cord injury and must be treated to avoid even very serious outcomes. In the patient with a complete cervical spinal cord injury (and therefore tetraplegic, from a motor perspective), the lungs often become obstructed due to the accumulation of secretions and the contemporary inefficiency of the physiological mechanism of the cough. Various methods for bronchial clearance are known, but when the patient is tracheotomized and the secretions accumulate in the deepest part of the lung, nowadays the only described method available to mobilize such secretions and allow more efficient respiratory exchanges is based on the principle of Percussive Intrapulmonary Ventilation (IPV). It requires a special device, equipped with a pneumatic air generator, connected to the tracheal cannula. Such treatment needs the assistance of highly trained and expert operators, moreover IPV is a quite complex and expensive technique which has to be applied in a prudential manner in such tetraplegic patients, especially because they show significant hemodynamic instability in the acute/sub-acute phase after the spinal cord lesion. The principle of Positive Expiratory Pressure (PEP) is already known for its efficacy in the secretions' clearance of the lower respiratory airways in other pathological conditions. However, in its classic modalities, it requires the preservation of the functionality of the respiratory muscles. To circumvent this limit in tetraplegic and tracheotomized patients, a respiratory physiotherapeutic procedure called T-PEP has been developed at the Montecatone Rehabilitation Institute. Such method is conceptually simple and low cost, it requires the manual assistance of a trained physiotherapist and the use of some components of common use in the clinical practice of Critical Care Units. The present pilot randomized controlled trial aims at comparing the T-PEP and IPV methods, assigned to 2 parallel arms (1:1 allocation ratio), in the context of the Critical Care Unit of the Montecatone Rehabilitation Institute hospital, in sub-acute, tetraplegic, tracheotomized, mechanically ventilated, spinal cord injured patients. The trial covers safety and efficacy issues; cognitive performances are also addressed.
Interventions
PROCEDURET-PEP
First of all, a corrugated tube for ventilation is assembled: in one end with an antibacterial filter for ventilation and then an inflation system (like Auxiliary Manual Breathing Unit - AMBU); in the other end with a connector and then a one-way PEP Valve. The latter holds a junction for the tracheal cannula and a pressure gauge. A Venturi Resistor is placed in the expiratory part of the PEP Valve. After connection to the tracheal cannula, the disostructive maneuver is manually executed by a respiratory physiotherapist.
PROCEDUREIPV
IPV is delivered via a commercial device that can be set by frequency, duration of inspiratory time, inspiratory-expiratory ratio and positive end-expiratory pressure, based on patients characteristics and clinical needs. It is connected to the patient's tracheal cannula via a Mount catheter. The air supplied is sterile, due to the presence of an antibacterial filter present in the device.
Sponsors
Montecatone Rehabilitation Institute S.p.A.
Study design
Allocation
RANDOMIZED
Intervention model
PARALLEL
Primary purpose
TREATMENT
Masking
SINGLE (Outcomes Assessor)
Eligibility
Sex/Gender
ALL
Age
18 Years to No maximum
Healthy volunteers
No
Inclusion criteria
* spinal cord injury due to traumatic or non-traumatic etiology; * neurological level from C4 to C7 (included) * complete spinal cord injury, classifiable as A grade according to the Asia Impairment Scale (AIS); * distance from the spinal cord injury event from 1 to 5 weeks; * first admission to Montecatone R.I. (in particular to the Critical Care Unit); * patients with middle-basal hypoventilation; * patients in partial or continuous mechanical ventilation; * patients with tracheotomy; * patients capable of giving meaningful consent; * collaborating patients.
Exclusion criteria
* thoracic trauma with non-drained thoracic fractures and / or pneumothorax and / or hemorrhage; * pleural effusion; * significant hemodynamic instability needing amines administration and / or Shock Index \> 1.5; * patients with tracheoesophageal fistulae; * patients with severe acquired brain injury; * patients with ongoing sepsis; * patients with ongoing pregnancy.
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| Incidence of adverse events | Through the whole period of clearance treatment to attain a stabilized effective pulmonary ventilation (whole period length is 2 weeks on average) until the following 4 weeks | Incidence of adverse events in the treatment period and during the subsequent follow-up, directly correlated with the lower airways cleaning treatments under investigation |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| Recurrence of lower airways obstruction | From the attainment of stabilized effective pulmonary ventilation until 3 months later | Incidence of recurrence of lower airways obstructions requiring retreatment with the lower airways treatments under investigation, in the study period following the attainment of stabilized effective pulmonary ventilation |
| Incidence of infections of lower respiratory airways | Through the whole period of clearance treatment to attain a stabilized effective pulmonary ventilation (whole period length is 2 weeks on average) and through the following 3 months | Incidence of acute infections of the lower respiratory airways, throughout the study period. |
| Incidence of sepsis | Through the whole period of clearance treatment to attain a stabilized effective pulmonary ventilation (whole period length is 2 weeks on average) and through the following 3 months | Incidence of sepsis related to acute infections of the lower respiratory airways, throughout the study period |
| Time needed for weaning from mechanical ventilation, from its start | From mechanical ventilation start date until mechanical ventilation end date (up to 1 year) | Number of days needed to wean from mechanical ventilation, starting from the mechanical ventilation starting date (also if previously occurred in a sending hospital) |
| Time needed for weaning from mechanical ventilation, from hospital admission | From admission date to Montecatone R.I. until mechanical ventilation end date (up to 1 year) | Number of days needed to wean from mechanical ventilation, starting from the date of admission to the Montecatone R.I. hospital |
| Evaluation of cognitive performance: attention and memory - 1 | Baseline (initial visit); day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Preliminary Neuropsychological Battery |
| Evaluation of cognitive performance: attention and memory - 2 | Baseline (initial visit); day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Verbal Span |
| Time needed for attainment of a stabilized effective pulmonary ventilation | Through the whole period of clearance treatment to attain a stabilized effective pulmonary ventilation (whole period length is 2 weeks on average) | Number of days needed to attain the stabilization of an effective pulmonary ventilation, as confirmed simultaneously by all the following examinations: chest auscultation, ABG (for respiratory exchanges efficiency), spirometry (in particular: Forced Expiratory Flow 75% \[FEF 75\], for pulmonary patency), chest X-ray and chest ultrasound. |
| Evaluation of cognitive performance: attention and memory - 4 | Baseline (initial visit); day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Digit Symbol Substitution test |
| Evaluation of cognitive performance: logical and executive functions - 1 | Day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the day of attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Verbal Fluency |
| Evaluation of cognitive performance: logical and executive functions - 2 | Day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the day of attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Progressive Matrices |
| Evaluation of cognitive performance: logical and executive functions - 3 | Day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the day of attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Verbal Analogies |
| Evaluation of cognitive performance: social cognition | 3 months after the day of attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Eyes Test |
| Costs of the T-PEP and IPV treatments - 1 | Through the whole period of clearance treatment to attain a stabilized effective pulmonary ventilation (whole period length is 2 weeks on average) | Average costs of equipments used in the overall number of sessions with T-PEP or IPV treatments, needed to attain stabilized effective pulmonary ventilation |
| Costs of the T-PEP and IPV treatments - 2 | Through the whole period of clearance treatment to attain a stabilized effective pulmonary ventilation (whole period length is 2 weeks on average) | Average costs of consumables used in the overall number of sessions with T-PEP or IPV treatments, needed to attain stabilized effective pulmonary ventilation |
| Evaluation of cognitive performance: attention and memory - 3 | Baseline (initial visit); day of attainment of stabilized effective pulmonary ventilation; 4 weeks after the day of attainment of stabilized effective pulmonary ventilation; 3 months after the attainment of stabilized effective pulmonary ventilation | Neuropsychological test: Immediate Visual Memory |
Countries
Italy
Outcome results
None listed