Proposed Guidelines: Anesthetic Management of a SARS - Infected Patient
Background
Prepared May 7, 2003
Severe Acute Respiratory Syndrome (SARS) is an infection in which affected individuals develop a fever, followed by respiratory symptoms such as cough, shortness of breath or difficulty in breathing. In some cases, the respiratory symptoms become increasingly severe, leading to respiratory failure, ventilatory dependency and occasionally, death. The causal pathogen is believed to be a novel coronavirus, thought to be spread by "droplet / contact".
It is possible that a patient with SARS may require therapeutic / diagnostic procedures which require the presence of an anesthesiologist. Evidence from the recent outbreak of SARS in Toronto, suggests that anesthesiologists (and other health care workers) exposed to oral secretions at the time of intubation are at 'high risk' of acquiring the infection.
To this end, the following are recommendations for the anesthetic management of a SARS patient (probable / "person under investigation"). The principles and a protocol for managing these patients (outlined below) have been developed by anesthesiologists at six hospitals affiliated with the University of Toronto. It should be emphasized that these recommendations are based on our current understanding of this illness and its spread. These recommendations are expected to change over time. Although this is presented as a single document, it has been modified in each of the hospitals affiliated with the University of Toronto to meet local needs and available resources. The SARS experience has alerted the anesthesia community to the need to review and revise our current infection control practices for all patients in the operating room. New guidelines for infection control for all patients are anticipated in the near future.
Of the recommendations listed below, the use of Personal Protection Systems may be the most unfamiliar to anaesthesiologists. Hospitals are recommending the use of personal protection hoods and suits for physicians and assistants involved in laryngoscopy or other airway interventions (including extubation). Devices such as the Powered Air Purifying Respirator system consist of a lightweight hood (e.g. PAPR hood device) connected via a breathing tube, to a belt-mounted air purifier. Other hospitals have purchased the Stryker "T4 Personal Protection System" that also filters air. No clear consensus has been reached regarding the best air filtration system. Nevertheless, these systems are considered to be important barriers to protect health care personnel during larygoscopy, intubation, and other invasive airway procedures. Importantly, caregivers need to be trained in the use of these suits in advance of airway intervention. Procedures for safely removing contaminated suits, gloves, boots and outer gowns must also be reviewed. Gloves should be removed and replaced after intubation before touching any equipment. Detailed protocols for the use of this equipment are being developed.
1. General OR management of potential SARS patient
i) Patient transfer
ii) Staff precautions
iii) On entry to the OR
Hospitals are recommending the use of personal protections hoods and suits for physicians and assistants involved in laryngoscopy or other airway interventions (including extubation). Devices such as the Powered Air Purifying Respirator system consists of a lightweight hood (e.g. PAPR hood) connected via a breathing tube, to a belt-mounted air purifier. Other hospitals have purchased the Stryker "T4 Personal Protection System" that also filters air.
At the end of the case
NOTE: Directives from the Ministry of Health require that a 'SARS Unit' be a negatively pressurized room, which is not available in most ORs (typically positively pressurized with filtration to the incoming ventilation system). Some hospital protocols advocate that intubation be performed in negative pressure rooms where available.
2. Anesthesia equipment
Filters
Correct use of the small-volume heat and moisture exchange filter (eg. PAL filter) provides bacterial/ viral removal greater than 99.999%. It has a hydrophobic membrane that block the passage of bodily fluids and aerosolized droplets (carrying pathogens).
Anesthetic Circuits
Circle circuit: Use a disposable circle system, reservoir bag and mask as well as BP cuff and temperature probe (all found on the SARS cart); A PAL filter should be placed on the inspiratory and expiratory limbs of the circuit. The PAL filter should be discarded, with the circuit, reservoir bag and tubing, at the end of the case. Place another filter at the machine end of the fresh gas flow outlet. Continue to use the gas-scavenging device as usual.
Soda lime
The Soda lime does not need to be changed but the end-tidal C02 sample line with trap must be changed after the case.
Drug Cart
Prior to patient arrival, remove from the cart what you consider necessary for the entire case and place it at least 2 meters from the operating table. During the case, avoid contamination of the cart by either double gloving (double glove for patient contact /single glove for cart contact) or requesting a colleague (not touching the patient) to obtain what you need from the cart.
Machine /surfaces
Place the anesthetic machine as far from the patient as practically possible. Consider using a surface away from the anesthetic machine for placement of contaminated equipment (eg laryngoscope). Discard needles and syringes immediately.
3. Anesthetic technique
General aim to minimize patient coughing before, during and after intubation and/or induction of anesthesia.
Choice of Airway
Discard LMA or endotracheal tube after use, along with oral and nasal airways.
Choice of Anesthetic
Tailor to the patients' needs.
Monitoring
Use axillary temperature probes. Avoid nasal or esophageal probes.
4. Cleaning of anesthesia equipment
No additional measures have been implemented for the cleaning of anesthesia equipment. However particular attention should be focused on the exterior surfaces of the anesthesia machine (including dials / vaporizers), ventilator and laryngoscope handles. Disinfection with a hospital-approved agent, (eg. virox) should be used.
5. Laboratory specimens
Policy for emergency tracheal intubation of SARS patients outside the OR
When patients with suspected SARS require tracheal intubation, the Intensive Care or Emergency Department Staff physician may request the assistance of the On-Call Staff Anesthesiologist. As for all patients, a careful assessment of the airway should be performed and the possibility of difficulty during intubation anticipated before an urgent airway intervention is required.
Pagers
The On-Call staff Anesthesiologist can be located via the Hospital Switchboard or OR desk.
Equipment Available in the ICUs and SARS units
The top of the Cardiac Arrest cart will contain 3 additional packages
Procedure
List of drugs stocked in a separate SARS intubation kit
TOP SHELF (Intubation Medications) | QUOTA |
Atropine 1mg/10ml | 1 |
Ephedrine 50mg | 1 |
Glycopyrolate 0.2mg | 1 |
Ketamine 100mg | 1 |
Midazolam 5mg/5ml | 1 |
Narcan 0.4 mg/1 ml | 1 |
N/S 250cc | 1 |
Propofol 200mg | 1 |
Succinylcholine 100mg | 1 |
Rocuronium 50 mg | 1 |
BOTTOM SHELF (Cardiac Medications) | |
Adenosine 6mg/2ml | 1 |
Amiodarone 150mg/3ml | 2 |
Atropine 1mg/10ml | 2 |
Calcium Chloride 1gm/10ml | 1 |
D50W 25gm/50ml | 1 |
Diltiazem 50mg/10ml | 1 |
Epinephrine 1mg/10ml 1:10,000 | 3 |
Lidocaine 100mg/5ml | 2 |
Magnesium Sulphate 5gm/10ml | 1 |
Metoprolol 5mg/5ml | 1 |
Sodium Bicarbonate 50mEq/50ml | 1 |
Verapamil 5mg/2ml | 1 |
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