Indications
Indications include but are not limited to:
- The presence of lesions of unknown etiology on the chest radiograph film or the need to evaluate recurrent pneumonia, persistent atelectasis or pulmonary infiltrates (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Prakash, Offord & Stubbs, 1991; Landa, 1978; Green, 1991; Zawadzka-Glos et al., 2003; Jain et al., 2004)
- The need to assess patency or mechanical properties of the upper airway (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Landa, 1978; Zawadzka-Glos al., 2003)
- The need to investigate hemoptysis, persistent unexplained cough, dyspnea, localized wheeze, or stridor (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Prakash, Offord & Stubbs, 1991; Landa, 1978; Green, 1991; Zawadzka-Glos al., 2003; Selecky, 1978)
- Suspicious or positive sputum cytology results (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Prakash, Offord & Stubbs, 1991; Landa, 1978)
- The need to obtain lower respiratory tract secretions, cell washings, and biopsies for cytologic, histologic, and microbiologic evaluation (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Green, 1991; Jain et al., 2004; Holgate, Wilson & Howarth, 1992; "Summary and recommendations," 1985)
- The need to determine the location and extent of injury from toxic inhalation or aspiration; (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Landa, 1978)
- The need to evaluate problems associated with endotracheal or tracheostomy tubes (tracheal damage, airway obstruction, or tube placement) (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Prakash, Offord & Stubbs, 1991; Landa, 1978; Green, 1991)
- The need for aid in performing difficult intubations or percutaneous tracheostomies (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Landa, 1978; Green, 1991)
- The suspicion that secretions or mucus plugs are responsible for lobar or segmental atelectasis (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992; Landa, 1978)
- The need to remove abnormal endobronchial tissue or foreign material by forceps, basket, or laser (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003)
- The need to retrieve a foreign body (although under most circumstances, rigid bronchoscopy is preferred) (Landa, 1978; Green, 1991; Cunanan, 1978)
- Therapeutic management of endobronchial toilet in ventilator associated pneumonia (Bush, 2003)
- Achieving selective intubation of a main stem bronchus (Bush, 2003)
- The need to place and/or assess airway stent function (Bush, 2003)
- The need for airway balloon dilatation in treatment of tracheobronchial stenosis (Hautmann et al., 2001; Mayse et al., 2004)
Contraindications
Flexible bronchoscopy should be performed only when the relative benefits outweigh the risks.
- Absolute contraindications include:
- Absence of consent from the patient or his/her representative unless a medical emergency exists and patient is not competent to give permission (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003)
- Absence of an experienced bronchoscopist to perform or closely and directly supervise the procedure (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Lack of adequate facilities and personnel to care for such emergencies as cardiopulmonary arrest, pneumothorax, or bleeding (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Inability to adequately oxygenate the patient during the procedure (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003)
- The danger of a serious complication from bronchoscopy is especially high in patients with the disorders listed, and these conditions are usually considered absolute contraindications unless the risk-benefit assessment warrants the procedure (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Coagulopathy or bleeding diathesis that cannot be corrected (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Severe refractory hypoxemia (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Unstable hemodynamic status including dysrhythmias (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Relative contraindications (or conditions involving increased risk), according to the American Thoracic Society Guidelines for Fiberoptic Bronchoscopy in adults (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003) include:
- Lack of patient cooperation
- Recent (within 6 weeks) myocardial infarction or unstable angina (British Thoracic Society Bronchoscopy Guidelines Committee, 2001)
- Partial tracheal obstruction
- Moderate-to-severe hypoxemia or any degree of hypercarbia
- Uremia and pulmonary hypertension (possible serious hemorrhage after biopsy)
- Lung abscess (danger of flooding the airway with purulent material)
- Obstruction of the superior vena cava (possibility of bleeding and laryngeal edema)
- Debility and malnutrition
- Disorders requiring laser therapy, biopsy of lesions obstructing large airways, or multiple transbronchial lung biopsies
- Known or suspected pregnancy (safety concern of possible radiation exposure
- The safety of bronchoscopic procedures in asthmatic patients is a concern, but the presence of asthma does not preclude the use of these procedures (Holgate, Wilson & Howarth, 1992; Smith & Deshazo, 1993)
- Recent head injury patients susceptible to increased intracranial pressures (Kerwin et al., 2000)
- Inability to sedate (including time constraints of oral ingestion of solids or liquids) (British Thoracic Society Bronchoscopy Guidelines Committee, 2001)
Hazards/Complications
Refer to the Potential Harms field for information on hazards and complications of bronchoscopy.
Limitations/Validation of Results
- Bronchoscopy should not be performed in patients who have a contraindication (listed in "Contraindications" section) unless the potential benefit outweighs the risk, as determined by the physician bronchoscopist.
- Poor or inadequate training of the bronchoscopy assistant or bronchoscopist in:
- The techniques of premedication for bronchoscopic examination
- Function and preparation of bronchoscope and related equipment
- Physical and physiologic monitoring during the procedure
- Specimen retrieval (biopsies and washings), preparation of specimens, and site documentation
- Post-procedure care of the patient
Assessment of Need
Need is determined by bronchoscopist assessment of the patient and treatment plan in addition to the presence of clinical indicators and by the absence of contraindications. (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
Assessment of Outcome
Patient outcome is determined by clinical, physiologic, and pathologic assessment. Procedural outcome is determined by the accomplishment of the procedural goals as indicated in the "Indications" section and by quality assessment indicators listed in the "Monitoring" section.
Resources
- Equipment
- Bronchoscopic devices
- The appropriate bronchoscope size is determined by the bronchoscopist, based on the patient age (Green, 1991); this includes selecting appropriate suction and biopsy valves
- Bronchoscopic light source, and any related video or photographic equipment, if applicable
- Cytology brushes, flexible forceps, transbronchial aspiration needles, retrieval baskets (Compatibility of the external diameter of all scope accessories with the internal diameter of the bronchoscope should be verified before the procedure.)
- Specimen-collection devices, fixatives and as determined by institutional policies
- Syringes for medication delivery, normal saline lavage, and needle aspiration
- Bite block
- Laryngoscope
- Endotracheal tubes in various sizes
- Thoracostomy set/tray
- Venous access equipment (I.V. supplies)
- Laryngeal mask airway (Yazbeck-Karam, Aouad, & Baraka, 2003)
- Adaptor with ability to connect mechanical ventilator and bronchoscope simultaneously
- Sterile gauze for intermittently clearing tip of bronchoscope during procedure
- Appropriate procedure documentation paperwork, including laboratory requisitions
- Water-soluble lubricant or lubricating jelly
- Monitoring devices
- Pulse oximeter
- Electrocardiographic monitoring equipment
- Sphygmomanometer
- Whole-body radiation badge for personnel if fluoroscopy is used
- Capnograph
- Procedure room equipment
- Oxygen and related delivery equipment
- Resuscitation equipment
- Medical vacuum systems (wall or portable) and related suction supplies for scope or mouth
- Infection control devices (see "Infection Control" section)
- Fluoroscopy equipment including personal protection devices if warranted
- Laser equipment if applicable
- Adequate ventilation and other measures to prevent transmission of tuberculosis (Dooley et al., 1990)
- Decontamination area equipment
- Protease enzymatic agent (e.g., Protozyme) for cleaning and removal of blood and protein before disinfection or sterilization, or other detergent capable of removing these substances (Culver, Gordon, & Mehta, 2003)
- High-level disinfection or sterilization agent: 2% alkaline glutaraldehyde (e.g., Cidex, Metracide, Sonacide, Glutarex), ethylene oxide, or peracetic acid (Prakash, 1993)
- Sterile water is preferred, if feasible, for rinsing bronchoscopes. Following this rinsing with isopropyl alcohol (Tablan et al., 2004)
- Medications:
Institutional policies and personal preferences of the bronchoscopist vary greatly regarding the type and method of premedication for bronchoscopic examination. Administration of these medications by intravenous or intramuscular routes is limited to nurses, physicians, or other trained personnel. (The training and certification of "other personnel" is institution specific, should be consistent with institutional policies, and may include the respiratory therapist.) Aerosolized or atomized drugs, or drugs instilled through the bronchoscope, may be delivered by the respiratory therapist or other trained assistants.
- Topical anesthetic (lidocaine 1%, 2%, 4%, benzocaine 14%) (Prakash, Offord, & Stubbs, 1991; Green, 1991; Prakash & Stubbs, 1991; Kirkpatrick, 1989)
- Anticholinergic agent to reduce secretions and minimize vaso-vagal reflexes (atropine, glycopyrrolate) (Prakash, Offord, & Stubbs, 1991; Prakash & Stubbs, 1991)
- Sedative agent 30-45 min prior to the procedure (e.g., codeine, midazolam, morphine, hydroxyzine) (Prakash, Offord, & Stubbs, 1991; Prakash & Stubbs, 1991)
- Intravenous sedative immediately prior to and/or during the procedure (midazolam, propofol, diazepam, fentanyl) (Prakash, Offord, & Stubbs, 1991; Landa, 1978; Prakash & Stubbs, 1991; Pickles et al., 2003; Chhajed & Glanville, 2003)
- Benzodiazepine antagonist (flumazenil) (Green et al., 1992), narcotic antagonist (Narcan) (Pickles et al., 2003)
- Sterile nonbacteriostatic 0.9% NaCl solution for bronchial washings or lavage (Schnapf, 1991)
- Vasoconstrictor for bleeding control (dilute epinephrine, usually 1:10,000) (Zavala, 1976; Hanson et al., 1976)
- Inhaled beta agonist (albuterol, metaproterenol, levalbuterol) (Kirkpatrick, 1989)
- Water-soluble lubricant, or combined lubricant/anesthetic (viscous lidocaine) (Green, 1991; Mehta et al., 1990; Prakash & Stubbs, 1991)
- Nasal decongestants (pseudoephedrine) (Ernst, Silvestri, & Johnstone, 2003)
- Mucolytics or mucokininetics (10% or 20% acetylcysteine, 7,5% sodium bicarbonate, rhDNAse) (Durwand, Forte, & Shemie, 2000)
- Emergency and resuscitation drugs as deemed appropriate by institutional policies
- Personnel:
The precise role of the bronchoscopy assistant varies among institutions (Green, et al., 1992; Prakash, Offord, & Stubbs, 1991; Green, 1991; American Academy of Pediatrics [AAP], 1992); however, the prime responsibilities include preparation and monitoring of the patient, assisting with the procedure, handling specimens, post-procedure care of the patient, maintenance of the bronchoscopy equipment, and recordkeeping.
- Bronchoscopy assisting should occur only under the direction of a physician who has been trained in bronchoscopy according to the Guidelines endorsed by the American Thoracic Society (Bolliger et al., 2002; Ernst, Silvestri, & Johnstone, 2003; Green et al., 1992)
- Bronchoscopy assisting should be limited to personnel who possess the skills necessary to determine adverse reactions and to undertake the appropriate remedial action.
- The bronchoscopy assistant must be trained in the setup, handling, cleaning, and care of bronchoscopy equipment and related supplies; specimen retrieval and preparation for commonly ordered laboratory studies on bronchoscopy specimens; biopsy labeling; delivery of aerosolized drugs; and mechanical ventilation. The assistant must also be trained in monitoring and evaluating the patient's clinical condition as reflected by pulse oximetry, capnography, electrocardiogram, and stability of or changes in mechanical ventilation parameters, and be capable of relating changes in clinical condition to disease state, procedure, or drugs administered for the procedure. Assistants should be versed in the Centers for Disease Control and Prevention (CDC) ventilation requirements for control of tuberculosis transmission. Bronchoscopy assistants should hold one of the following credentials: Certified Respiratory Therapist (CRT), Registered Respiratory Therapist (RRT), Certified Pulmonary Function Technologist (CPFT), Registered Pulmonary Function Technologist (RPFT), Registered Nurse (RN), Licensed Practical Nurse (LPN), physician (MD or DO), or Certified Surgical Technologist (CST).
Monitoring
Patient monitoring should be done before, at regular intervals during, and after bronchoscopy until the patient meets appropriate discharge criteria. For no or minimal sedation, less monitoring is necessary. For moderate and deep sedation, more monitoring should be done (American Society of Anesthesiologists, 2002). The following should be monitored before, during, and/or after bronchoscopy, continuously, until the patient returns to his pre-sedation level of consciousness.
- Patient
- Level of consciousness (AAP, 1992)
- Medications administered, dosage, route, and time of delivery (AAP, 1992)
- Subjective response to procedure (e.g., pain, discomfort, dyspnea) (AAP, 1992)
- Blood pressure, breath sounds, heart rate, rhythm, and changes in cardiac status
- Pulse oximetry (SpO2, fraction of inspired oxygen (FIO2), and end tidal carbon dioxide (ETCO2) (British Thoracic Society Bronchoscopy Guidelines Committee, 2001; AAP, 1992; American Association for Respiratory Care [AARC], 1991)
- Tidal volume, peak inspiratory pressure, adequacy of inspiratory flow, and other ventilation parameters if subject is being mechanically ventilated
- Lavage volumes (delivered and retrieved)
- Monitor and document site of biopsies and washings. Record which lab tests were requested on each sample
- Periodic post-procedure follow-up monitoring of patient condition is advisable for 24-48 hours for inpatients. Outpatients should be instructed to contact the bronchoscopist regarding fever, chest pain or discomfort, dyspnea, wheezing, hemoptysis, or any new findings presenting after the procedure has been completed. Oral instructions should be reinforced by written instructions that include names and phone numbers of persons to be contacted in emergency.
- Chest radiograph one hour after transbronchial biopsy to exclude pneumothorax (Zavala, 1976)
- Technical Devices
- Bronchoscope integrity (fiberoptic or channel damage, passage of leak test) (Mehta et al., 1990)
- Strict adherence to the manufacturer's and institutional recommended procedures for cleaning, disinfection, and sterilization of the devices, and the integrity of disinfection or sterilization packaging (Culver, Gordon, & Mehta, 2003; Mehta et al., 1990)
- Smooth, unhampered operation of biopsy devices (forceps, needles, brushes)
- Record keeping
- Quality assessment indicators as determined appropriate by the institution's quality assessment committee
- Documentation of monitors indicated in "Patient" and "Technical Devices" sections
- Identification of bronchoscope used for each patient
- Annual assessment of the institutional or departmental bronchoscopy procedure, including an evaluation of quality assurance issues
- Adequacy of bronchoscopic specimens (size or volume for accurate analysis, sample integrity)
- Review of infection control procedures and compliance with the current guidelines for semicritical patient-care objects (Dooley et al., 1990; Culver, Gordon, & Mehta, 2003)
- Synopsis of complications
- Control washings to assure that infection control and disinfection/sterilization procedures are adequate, and that cross-contamination of specimens does not occur
- Annual review of the bronchoscopy service and all of the above listed records with the physician bronchoscopists
Frequency
The frequency with which bronchoscopy is repeated on a given patient should be determined by the physician bronchoscopist based on indications.
Infection Control
- Standard Precautions (Bolyard et al., 1998)
- CDC Guideline for Handwashing and Hospital Environmental Control-Section 2: Cleaning, disinfecting, and sterilizing patient care equipment (Tablan et al., 2004; Boyce & Pittet, 2002; Sehulster & Chinn, 2003)
- CDC Guideline for preventing tuberculosis transmission (Dooley et al., 1990)
- Hepatitis B vaccination for personnel
- Establishment of and conformance to written protocol for infection control