|Year : 2011 | Volume
| Issue : 5 | Page : 451-455
Teaching and training in fibreoptic bronchoscope-guided endotracheal intubation
Department of Anaesthesiology, KS Hegde Medical Academy, Mangalore, Karnataka, India
|Date of Web Publication||14-Nov-2011|
U S Raveendra
Department of Anaesthesiology, KS Hegde Medical Academy, Deralakatte, Mangalore-575018, Karnataka
Source of Support: None, Conflict of Interest: None
Fibreoptic-guided endotracheal intubation skill is a strongly desirable attribute of an anaesthesiologist, essential to deal with difficult airway situations. Facilities for formal training in this crucial area are limited. Various aspects of the available and desirable training in fibreoptic endoscopic skills are discussed.
Keywords: Difficult airway, fibreoptic airway management, fibreoptic-guided endotracheal intubation
|How to cite this article:|
Raveendra U S. Teaching and training in fibreoptic bronchoscope-guided endotracheal intubation. Indian J Anaesth 2011;55:451-5
|How to cite this URL:|
Raveendra U S. Teaching and training in fibreoptic bronchoscope-guided endotracheal intubation. Indian J Anaesth [serial online] 2011 [cited 2019 Aug 25];55:451-5. Available from: http://www.ijaweb.org/text.asp?2011/55/5/451/89866
| Introduction|| |
It is widely accepted that fibreoptic-guided intubation (FOI) is considered as "gold standard" of difficult airway (DA) management. In a patient with DA, fibreoptic bronchoscope, or more appropriately called intubating fibrescope, is used to perform endotracheal intubation both by direct and indirect techniques. Fibreoptic airway management (FAM) has a definite place in the DA algorithms of various professional bodies. , Success largely depends on the skill and experience of the anaesthesiologist. Different aspects of the teaching and training of FAM, especially in the Indian context, are discussed in this article.
| Background|| |
Although the fibreoptic bronchoscope (FOB) was designed and developed in 1966, the first fibreoptic nasotracheal intubation was performed with a fibreoptic choledoscope in a patient with Still's disease. ,
FOB was first used 5 years later for intubation of patients with rheumatoid arthritis. Stiles and colleagues reported use of FOI in 100 patients in 1972.  Subsequently, use of FOB was expanded to various aspects of airway management such as confirmation of proper placement of single- and double-lumen tubes, evaluation of airway pathology pre-operatively as well as in the intensive care unit, DA management in both adults and children, etc. FOB has also been used for indirect techniques of endotracheal intubation, such as intubation through laryngeal mask airway, use of introducers, retrograde techniques and so on.
Along with the development of the FOB and wide range of accessories, importance of training the anaesthesiologists in the skill was realized and various methods of training were evaluated. They include didactic lectures, workshops with hands-on training on the patients under supervision, use of airway training mannequins, simulators, virtual reality trainers and cadavers.
Need for training
In spite of its important role in airway management, FAM skills are not routinely taught during the training program due to various reasons such as non-availability of the fibrescope, trainers and, lastly, suitable patients. In many institutions, the instrument is in the custody of chest physicians, ENT surgeons or cardiothoracic surgeons on whom the anaesthesiologist has to depend for intubating a patient with anticipated DA.
India has a large population and has made rapid strides in the medical field, so much so that medical tourism is on the rise. This results in an ever-increasing number and variety of DA in patients coming for increasingly complex surgical procedures, including cosmetic procedures. It becomes imperative that the anaesthsiologist keeps abreast with standards of care and core techniques in DA management as much as in other aspects of anaesthetic management. Development of FAM skills enhances the ability of the anaesthsiologist to manage many of the anticipated and even unanticipated DA situations with confidence and without endangering the safety of the patient. It reduces the number of attempts, time required for intubation, incidence of airway injuries and risk of aspirations and helps to avoid need for surgical airway. In addition, FOB is useful for airway management in the intensive care unit as well. Here, an anaesthesiologist experienced with FAM can perform diagnostic bronchoscopy and clear the secretions as well.
What should be taught?
An affective training program should help in acquiring technical skills along with the requisite clinical and theoretical knowledge of the patient and the instrument. The following topics should be included in any FAM training program:
- Knowledge of the equipment: FOB (sizes, appropriate tube sizes, basic physics, parts, movement, attachments, preparation, care and sterilization), accessories including camera and monitors. Portable battery and disposable version of FOB are the recent developments.
- Indications, contraindications, advantages and disadvantages of FAM.
- Preparation of the patient, including local anaesthesia of the airway.
- Direct fibreoptic nasotracheal and oral intubation.
- Alternate or indirect techniques of FOI. The most important is fibreoptic-assisted intubation through different types of laryngeal mask airway (LMA).
Methods of training
Practice of FAM involves development and execution of a set of complex cognitive, psychomotor and judgmental skills along with sound clinical knowledge. It can be developed by different training methods. ,,
Workshop provides focused learning opportunity for a predefined group of delegates. It consists of lectures, panel discussions and hands-on training. Video of the FOI also can be used to reinforce learning. Using a pre-test and evaluation at the end provides objective assessment of the outcome to some extent. It also helps to find out the deficiency of the program, which can be corrected in the subsequent ones. The main disadvantage is that there is no way of evaluating the outcome.
Training in the department
Training in the department by experienced staff is the most effective method. This provides a better learning environment because of the familiarity, better trainer to trainee ratio and absence of time limit. But, the ethical correctness of subjecting a patient to a procedure by a novice has been questioned.  Also, the pressure by surgical colleagues and management for quick "turnover" of patients will have a negative impact on the learning. Varying periods of practice in the manikins or different types of specialized airway trainers (see below) have been found to enhance the effectiveness of learning and to improve the outcome. ,,
Structured fibreoptic training course
Structured fibreoptic training course is an effective way where the candidates are taught "step-by-step" FAM skills, beginning with an explanation about the instrument, movements required, etc., proceeding to practice on manikins or trainers and, finally, performing FOI on patients under supervision. Details of such a course started at the author's institution are presented in Appendix 1.
Oxford fibreoptic training program
Oxford fibreoptic training program consists of a pre-clinical module or clinical module. The former includes introduction and demonstration of equipment, discussions on techniques, video demonstrations and practice sessions on the "Oxford Fiberoptic Teaching Box" [Figure 1] and manikins. The clinical module consists of practice of oral and nasal fibreoptic endoscopy in anaesthetized patients with normal airway, demonstration of airway anaesthesia and sedation and, finally, supervised practice on patients with DA.
Use of airway training equipment and cadavers for learning
Airway trainers have been found to be effective in learning the FAM skills. Most commonly available and least expensive are simple airway training mannequins. It is rugged and allows practicing both nasal and oral intubation. Unlike the advanced trainers, it does not simulate the characteristics of a normal airway.
Choose-the-hole model is a simple model that can be developed locally [Figure 2]. It was designed by Dr Arthur Frederic David Cole of the University of Toronto, Canada. , Three wooden panels with holes are mounted on a wooden base. Syringe barrels are inserted into the holes in different combinations. This is simple and inexpensive non-anatomical model for improving manipulation skills. It can be designed locally in any instituition. Naik et al. studied that the fibreoptic manipulations learnt on this model can be transferred to clinical settings. First-year anaesthesia and first- and second-year anaesthesia residents were recruited and were devided to receive didactic lectures or training on the above model before they were evaluated on their fibreoptic intubation skills on anaetshetized paralyzed apnoeic patients. They concluded that the skill developed on the model was transferred to clinical scenarios, although this type of training alone is not sufficient.
They are expensive but can create a more realistic environment. Multiple types of clinical situations can be simulated and can be repated. In addition, a wide range of data and pictures can be automatically recorded and stored. This enables review and assessment by blinded observers leading to a more objective evaluation. One example is "The AccuTouch Bronchoscopy Simulator" (Immerson Medical, Giathersberg, MD, USA), which has an-inbuilt comprensive software capable of creating multiple clinical scenarios. In an observational study, Goldmann and Steinfeldt  showed that this system can be used to effectively train and evaluate the trainees, and advocated further studies. In this study, there was no copmarison to performing FOI in actual patients.
Dexter TM [Figure 3] is an endoscopic dexterity system is another non-anatomical model for developing fibreoptic skills. Studies have shown , a correlation between endoscopic performance on this model and subsequent clinical performance. A study by Chandra et al. found no added benefit of training in a high-fidelity model with respect to transfer of FOI skills to clinical situations.
|Figure 3: DexterTM endoscopy dexterity training system (www. dexterendoscopy.com)|
Click here to view
Cadevers have been used for learning various clinical skills in anaesthesia, including assessment of FOB.  The advantages include similarity to human airway, lack of time restriction and ability to be used by a more number of trainees.
Volunteers and surgical patients
Studies of training and assessment of FAM have been performed on human volunteers, including a group of delegates who were themselves trainees! ,,,, Anaesthetized patients should be used for FOB only after adequate practice on non-human training modules. Fibreoptic intubation was found to be safe in both anaesthetized spontaneously breathing and paralyzed apnoeic patients when performed by trainees. FOI can also be performed in awake patients with local anaesthesia with or without sedation. Local ethical committee clearance will be required for use of patients or volunteers. Whether there is a need for separate consent for FOI is controversial.
Both objective and subjective evaluations are required when FAM skills are assessed. Most commonly used is the Global Rating Score, which has been recently modified  to make it more objective. A GRS score (Appendix 2) of 3 is required to consider a trainee as proficient. Also, checklists are available for assessing the performance (Appendix 3).
| Summary|| |
There are no definite established standards for training in fibreoptic training programs. A felt need is to establish a well-structured training program with specific goals and objectives. Developing centres for FOI training helps in achieving excellence over a period of time. The secondary goal of the recognised centre should be to develop trainers as well.
Initial training is imparted as a preclinical module followed by a clinical module incorporating all the aspects of training. Low- and high-fidelity models are available for practice. After adequate training in vitro and evaluation, trainees can perform FOI in awake or anaesthetized patients under supervision in patients with normal airway. GRS is the most commonly used scoring system (Appendix 2).
| References|| |
|1.||Practice Guidelines for Management of the Difficult Airway. An updated report by the American Society of Anesthesiologists, Task Force on management of the difficult airway. Anesthesiology 2003;98:1269-77. |
|2.||Henderson JJ, Popat MT, Latto IP, Pearce AC. Difficult Airway Society. Difficult Airway Society Guidelines for management of the unanticipated difficult intubation. Anaesthesia 2004;9:675-94. |
|3.||Murphy P. A fibre-optic endoscope used for nasal intubation. Anaesthesia 1967;22:489-91. |
|4.||Stiles CM, Stiles QR, Denson JS. A flexible fiber optic laryngoscope. JAMA 1972;221:1246-7. |
|5.||Dykes MH, Ovassapian A. Dissemination of fiberoptic airway endoscopy skills by means of a workshop utilizing models. Br J Anesth 1989;63:595-7. |
|6.||Mason RA. Learning fiberoptic intubation: fundamental problems. Anaesthesia 1992;47:729-31. |
|7.||Vaughan RS. Training in fiber optic laryngoscopy. Br J Anesthesia 1991;66:538-40. |
|8.||Bray JK, Yentis SM. Attitudes of patients and anaesthetists to informed consent for specialist airway techniques. Anaesthesia 2002;57:1012-5. |
|9.||Ovasapian A, Dykes MH, Goldman ME. A training program for fiberoptic nasotracheal intubation:use of model and five patients. Anaesthesia 1983:38:795-8. |
|10.||Davoudi M, Osann K, Colt HG. Validation of two instruments to assess technical bronchoscopic skills using virtual reality simulation. Respiration 2008;76:92-101. |
|11.||Marsland CP, Robinson BJ, Chitty CH, Guy BJ. Acquisition and maintenance of endoscopic skills: Developing an endoscopic dexterity training system for anesthesiologists. J Clin Anesth 2003;14:615-9. |
|12.||Bainton CR. Models to facilitate the learning of fiberoptic technique. Int Anesth Clin 1994;32:47-55. |
|13.||Anastakis DJ, Regehr G, Reznick RK, Cusimano M, Murnaghan J, Brown M, et al. Assesment of technical skills transfer from the bench training model to the human model. Am J Surg 1999;177:470-1. |
|14.||Naik VN, Matsumoto ED, Houston PL, Hamstra SJ, Yeung RY, Mallon JS, et al. Fiberoptic Orotracheal Intubation On Anesthetizes Patients. Anesthesiology 2001;95:343-8. |
|15.||Goldmann K, Steinfeldt T. Acquisition of basic fiberoptic intubation skills with a virtual reality airway simulator. J Clin Anesth 2006;18:173-8. |
|16.||Martin KM, Larsen PD, Segal R, Marsland CP. Effective non anatomical endoscopy training procedures clinical airway endoscopy proficiency. Anesth Analg 2004;99:938-44 |
|17.||Marsland C, Larsen P, Segal R, Hunter S, Morris J, Mezzavia P, et al. Proficient manipulation of fiberoptic bronchoscope to carina by novices on first clinical attempt after specialized banch practice. Br J anaesth 2010;104:375-81. |
|18.||Chandra DB, Savoldelli GL, Joo HS, Weiss ID, Naik VN. Fiberoptic oral intubation. The effect of model fidelity on training for transfer topatient care. Anesthesiology 2008;109:1007-13. |
|19.||Cole AF, Mallon JS, Rolbin SH, Ananthanarayan C. Fiberoptic intubation using anesthetized paralysed apneic patients. Anesthesiology 1996;84;1101-6. |
|20.||Schaefer HG, Masrch SC, Keller HL, Strebel S, Anselmi L, Drewe J. Teaching fiberoptic intubation in anesthesised patients. Anaesthesia 1994;49:331-4. |
|21.||Patil V, Barker GL, Harwood RJ, Woodall NM. Training course in local anesthesia of airway and fiberoptic intubation using course delegates as subjects. Br J Anaesth 2002;89:586-93. |
|22.||Woodall NM, Harwood RJ, Barker GL. Complications of awake intubation without sedation in 200 healthy anaesthetists attending a training course. Br J Anaesth 2008;100:850-5. |
|23.||Thomas Erb, Karl F. Hampl, Moritz Schürch, Christian G. Kern,MD, Stephan C. U. Marsch. Teaching the use of fiberoptic intubation in anesthetized, spontaneously breathing patients. Anesth Analg 1999;89:1292-5. |
[Figure 1], [Figure 2], [Figure 3]