Patients with severe ischemic and hemorrhagic strokes, who require mechanical ventilation, have a particularly bad prognosis. If they require long-term ventilation, their orotracheal tube needs to be, like in any other intensive care patient, replaced by a shorter tracheal tube below the larynx. This so called tracheostomy might be associated with advantages such as less demand of narcotics and pain killers, less lesions in mouth and larynx, better mouth hygiene, safer airway, more patient comfort and earlier mobilisation. The best timepoint for tracheostomy in stroke, however, is not known. This study investigates the potential benefits of early tracheostomy in ventilated critically ill patients with ischemic or hemorrhagic stroke.
Background: Tracheostomy is a common procedure in critical care patients. Advantages of a short tracheal tube compared to a long orotracheal one are the avoidance of laryngeal lesions and sinusitis, facilitation of nursing care and physiotherapy and the reduction of analgosedatives. The optimal point in time for tracheostomy is still unknown, but it is commonly done not later than 2-3 weeks and after one or several failed extubation trials. Studies in different sets of critical care patients have suggested additional advantages of early tracheostomy: less pneumonias and other complications, more patient comfort, less analgosedation, shorter duration of ventilation and of ICU stay. These questions have not been looked at in non-traumatic neurocritical care patients, although these might have a special weaning benefit by early tracheostomy, being mainly compromised in securing their airway, but not in breathing. Method: Non-traumatic Neurocritical care patients with ischemic strokes, intracerebral hemorrhage or subarachnoid hemorrhage so severly affected that 2 weeks of ventilation need are estimated, are principally eligible for the study. After randomization, one group receives tracheostomy within the first 3 days after intubation. The other group stays orotracheally intubated and is either weaned and extubated or receives tracheostomy within 7 to 14 days after intubation. Tracheostomy is done as percutaneous dilatation by neurologists.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
60
Tracheostomy is performed as percutaneous dilatative tracheostomy by neurointensivists whenever possible. If anatomically or otherwise indicated, surgical tracheostomy is applied.
Tracheostomy is performed as percutaneous dilatative tracheostomy by neurointensivists whenever possible. If anatomically or otherwise indicated, surgical tracheostomy is applied.
NeuroIntensive Care Unit, Department of Neurology, University Hospital Heidelberg
Heidelberg, Germany
Intensive Care Unit Length of Stay (ICU-LOS)
The primary endpoint is assessed as days from admission to until discharge from the intensive care unit.
Time frame: open
Time of ICU-dependence
This secondary endpoint is assessed as days from admission to a pre-defined status that would allow discharge from ICU (absence of active infection, vasopressors, pulmonary and cardial instability etc.)
Time frame: open
Functional Outcome
This secondary endpoint is assessed as the modified Rankin Scale (mRS) at the above named timepoints.
Time frame: admission, discharge, at 6 months
Mortality
This secondary endpoint is assessed as time and type of death during the ICU-stay and 6 months after admission.
Time frame: during stay, after 6 months
Hospital Length of Stay
This secondary endpoint is assessed as days spent at the recruiting hospital from admission to discharge.
Time frame: open
Duration of Ventilation
This secondary endpoint is assessed as half-days on the ventilator until the patient is ventilator-independent for 24 h.
Time frame: open
Duration and Quality of Weaning
This secondary endpoint is assessed as half-days spent under the possible application of a weaning protocol, and spent within specific phases of such a protocol.
Time frame: Within ventilation time
Time of Analgosedation Dependence
This secondary endpoint is assessed as half-days requiring the application of sedatives and analgesics which are also specified.
Time frame: within ICU-LOS
Vasopressor Dependence
This secondary endpoint is assessed as half-days spent under vasopressors.
Time frame: within ICU-LOS
Time of Antibiotic Treatment
This secondary endpoint is assessed as half-days under antibiotic treatment
Time frame: within ICU-LOS
Pneumonias
This secondary endpoint is assessed as episodes (pre-defined by diagnostic criteria) of pneumonia.
Time frame: within ICU-LOS
Occurrence and Duration of Sepsis
This secondary endpoint is assessed as the number of episodes and duration of sepsis as pre-defined by diagnostic criteria.
Time frame: within ICU-LOS
Number and type of complications associated with the procedure
This secondary endpoint is assessed as the number and types of complications arelated to tracheostomy (i.e. bleeding, mispositioning, malfunction, replacement demand,etc.).
Time frame: 10 days post tracheostomy
Cost of Treatment
This secondary endpoint is assessed as the total ICU-costs etsimated by length of stay and severety-derived DRG-multiplicator of each individual patient.
Time frame: within ICU-LOS
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.