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Adult laryngotracheal stenosis

This document discusses the management of a 19-year-old patient with recurrent laryngotracheal stenosis following emergency intubation for acute organophosphate poisoning 2 months prior. It establishes the diagnosis of laryngotracheal stenosis through history and examination. It then discusses evaluating the severity and progression, as well as investigations including direct laryngoscopy. Finally, it outlines management approaches such as endolaryngeal procedures like dilation and LASER, open procedures like tracheal resection and anastomosis, as well as adjunct treatments and follow up.

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7 th January 2011
Discuss management of a 19 year old patient with history of emergency intubation following acute organophosphate poisoning 2 months ago presenting with recurrent noisy breathing, dyspnoea and reduced effort tolerance.
 Establishing diagnosis  Laryngotracheal stenosis  Noisy breathing  Stridor  Phases: inspiratory, expiratory, biphasic  Wheezing  Recurrent : precepitating factors and aggravating factors  Infection, exercise  History of emergency intubation  Suggest higher possibility of intubation trauma due to repetition, stylet use and higher friction  Duration of mechanical ventilation (2-5/7: 0-2%, 5-10/7: 5-10%, >10/7: 12- 14%)2,3, cuff pressure (laryngeal microcirculation critical P 30mmHg) 1  Tracheostomy (site, type of incision, tube biomechanics)4  Acute organophosphate poisoning: primary reason of intubation contributes to laryngotracheal stenosis  Dysphagia, change in quality of voice 1. Nordin U, Lindholm CE. The trachea and cuff induced tracheal injury. Acta Otolaryngol 96 (Suppl345)1-71, 1977 2. Whited RE. A study of endotracheal tube injury to the subglottis. Laryngoscope 95: 1216-9,1985. 3. Bryce DP. The surgical management of laryngotracheal injury. J Laryngol Otol 86:547-87, 1972. 4. Lulenski JC,Batsakis JG. Tracheal incision as a contributing factor to tracheal stenosis. An experimental study. Ann Otol 84: 781-6, 1975.
 Infective (Tuberculosis of the larynx)  Prolonged history of fever, unintentional weight loss, cough, hemoptysis, change in quality of voice, neck swelling.  Contact with tuberculosis patients  Immune mediated (Sarcoidosis, Rheumatoid arthritis, Pemphigus)  Onset and progression is usually gradual  Related symptoms: joint pain and deformity, skin lesions,  Vocal fold immobility  Change in quality of voice  Aspiration symptoms
 Establishing severity  Dyspnoea and reduced effort tolerance  At rest?  Walking?  Climbing stairs?  Acute emergency visits to the hospital or clinic  Progression  Acute deterioration in airway symptoms  Gradual worsening
 Other related history  Patient’s general medical condition  Optimization for definitive surgical airway management  Oxygen demand  Prior surgical intervention to the larynx or trachea  Patient dermographics  Distance to hospital  Education
 General examination  Concious level  Stridor: inspiratory, expiratory, biphasic  Cyanosis  Tachypnoea  Subcostal, intercostal recession  Pulse Oxymetry  Vital signs  Focused examination  Quality of voice  Single breath counting5  1-10 in a single breath; correlates well with PEFR and FEV1  Neck scar +/- tracheostomy  Examination of the larynx 5. Joel MB. Bruce SU, Jonathan MR, Dylong K. Single breath counting in the Assessment of Pulmonary function. Annals of Emergency Medicine 24: 256-9, 1994.
 Adhesion, granulation tissue  Vocal cord  Mobility7  Only significant risk factor for failure of decannulation following definitive airway reconstruction  Vocal fold immobility: neuromuscular or joint fixation? Laryngeal electromyography  Phonatory gap  Laryngeal sensation  Evidence of reflux6  Prophylactic antireflux medication following laryngeal injury  Recalcitrant stenosis 6. Gaynor EB. Gastroesophageal reflux as an etiologic factor in laryngeal complication of intubation. Laryngoscope 98: 972-9, 1988 7. White DR, Cotton RT, Bean JA et al. Pediatric cricotracheal resection. Arch Otolaryngol Head Neck Surg 131: 896-9, 2005
 Respiratory system  Rhonchi  Exclude secondary lung infection
 Arterial Blood Gases  Usually shows Type 1 respiratory failure  CO2 retention in decompensated cases hence require immediate establishment of airway
 Direct Laryngo bronchoscopy  Cotton Myer grading (1994) Grade 1 0-50% Grade 2 51-70% Grade 3 71-99% Grade 4 >99%  Distance from vocal cord  Measure using endoscope, take average of three readings  Length of stenotic segment  Consistency of stenosis (granulation tis or fibrous)  Shape of stenosis (circumferential or not)  Presence of tracheomalacia  Mobility of vocal cord
 Role of imaging  To determine extent of stenosis especially in higher grade stenosis where length of stenosis cannot be ascertained endoscopically  For planning of surgery especially when stenosis involve the lower trachea and requires combined approach through a median sternotomy or right thoracotomy or release procedures  CT better ascertain the integrity of cartilaginous framework
 Oxygen  Establish airway  Intubation  Preoperative intubation in patients with thin segment stenosis amendable to endolaryngeal procedures  Or intraoperative mask ventilation followed by quick dilatation to allow safe intubation  Tracheostomy  Preferably trachea incised at the level of stenosis to spare normal trachea from another injury
 Endolaryngeal  Dilatation  LASER: Shapshay  Cold instrumentation  Open  Laryngotracheal reconstruction  Cricotracheal resection and anastomosis  Tracheal resection and anastomosis  Shian Lee  Laryngofissure  Slide tracheoplasty  Adjunct  Stents, Corticosteroids, Mitomycin C, Antibiotics
 24/Indian lady  Accidental organophosphate poisoning July 10  Presented with dysphagia to JBGH  Intubated in the ED and then managed in ICU  Tracheostomy D4  Assisted ventilation 11/7  Successful weaning off ventilation and decannulated after 3/52  Discharged home  4/7 later presented with dyspnoea and reduced effort tolerance  Emergency intubation and mechanical ventilation  Successful weaning off ventilation and discharged home  Another similar presentation 1/12 after, managed similarly
 In September 2010, acute onset noisy breathing, dyspnoea and reduced effort tolerance  Tracheostomy and Dlscopy in KPJ JB  Tracheal stenosis  Subsequently managed in PPUKM  Underwent emergency endolaryngeal dilatation 22nd Sept 2010 and was later decannulated in late November  Presented with acute deterioration of symptoms two weeks later ,Cotton grade 3 tracheal stenosis of 2cm length 6cm from the vocal cord, Shapshay, dilatation was performed  Just 10/7 after presented similarly , Shapshay, dilatation and application of mitomycin C performed  1/52 later presented again with upper airway obstruction hence tracheostomy was performed as patient opted for long term tracheostomy
 No significant medical history  No known allergies  Completed studies in Diploma in Healthcare Management however is unemployed due to recurrent admissions  Single and living with her parents in JB
 Biphasic stridor  Saturation 97% under RA  Tachypnoeic RR=26bpm  Intercostal and subcostal recession  Afebrile, hemodynamically stable  Healed anterior neck scar
 Jet ventilation
 CT thorax  Tracheal stenosis measuring 2.35 cm in length, ends 2 cm above the carina, about 7 cm from the vocal cords
 Endolaryngeal  Dilatation  LASER: Shapshay  Open  Tracheal resection and anastomosis  Slide tracheoplasty  Adjunct  Stents, Corticosteroids, Mitomycin C, Antibiotics 8. Chen Y, Wang WJ, Wang HF. Therapeutic effect of tracheal anastomosis versus interventional bronchoscopy in the treatment of airway stenosis. NaFang Yi Ke Da Xue Xue Bao. 2010 Jun;30(6):1359-62. 9. Baugnee PE, Marquette CH, Ramon P, Darras J, Wurtz A. Endoscopic treatment of postintubation tracheal stenosis. Review of 58 cases. Rev Mal Respir. 1995;12 (6): 585-92.
 Associated with recurrence rate of almost ¾ if used as a primary therapy10,11  Factors that improve success rate12:  Thin segment of stenosis  Soft or immature scars  Used as adjunct to other endolaryngeal technique (ie. LASER Shapshay)  Acquired stenosis resists dilatation due to hyalinization and collagen cross linking, hence incompressible. 10. Clement P, Hans S, de Mones E, et al. Dilatation for assisted ventilation induced laryngotracheal stenosis. Laryngoscope 115: 1595-8, 2005 11. Herrington HC, Weber SM, Anderson PE. /modern management of laryngotracheal stenosis. Laryngoscope 116: 1553-7, 2006 12. Simpson GT, Strong MS, Healy GB, et al. Predictive factors for failure or success in the endoscopic management of laryngeal and tracheal stenosis. Ann Otol Rhinol Laryngol 91: 384-8, 1982
 CO2 laser advantages:  Precision and visual field not obscured by instruments, hence better preservation of normal tissue  Hemostasis  Early reepithelization and slow fibroblast proliferation and collagen formation13  Disadvantages  Risk of fire or combustion  Corneal burns  Cost and availability  The shapshay (radial incision and dilatation) technique popularized in 198714 13. Toohill RJ, Duncavage JA, Grossman TW: Wound healing in the larynx. Otolaryngol Clin North Am 17: 429-36, 1984. 14. Shapshay SM, Hybels RL, Bohigian RK et al. Endoscopic treatment of subglottic and tracheal stenosis by radial laser incision and dilation. Ann Otol Rhinol Laryngol 1987: 661-4.
 Largest series in Italy; 209 patients with acquired tracheal stenosis over 10 yrs with 2 yrs follow up  Endoscopic laser and mechanical dilatation gives success rate of 96% in simple stenosis (mean of 2.3 procedures per patient)15  Other smaller series show promising results with endoscopic treatment for length <3cm (success rate of 60-80%) 16,17 15. Galluccio G, Lucantoni G, Battistoni P et al. Interventional endoscopy in the management of benign tracheal stenoses: definitive treatment at long-term follow-up. Eur J Cardiothorac Surg. 2009 Mar;35(3):429-33 16. Cavaliere S, Bezzi M, Toninelli C, Foccoli P. Management of post-intubation tracheal stenoses using the endoscopic approach. Monaldi archives for chest disease 2007 67 (2) 71-2. 17. Reza SA, Khalid G, Anil P et al. Outcome of Endoscopic Treatment of Adult Postintubation Tracheal Stenosis. Laryngoscope 117 (6): 1073-9
 In experienced hands, remains mainstay of treatment in symptomatic lower tracheal stenosis  However, instances where it is not advisable  Presence of severe inflammation  Length of stenosis too long for resection and anastomosis  Preceded with rigid bronchoscopy and serial dilatation through the stenosis to alleviate hypercarbia  Remeasurement of length and site of stenosis, presence of inflammation
 Supine, neck extended with expandable sandbag  Collar incision +/- median upper sternotomy or right thoracotomy  Subplatysmal flap sup (cricoid) and inf (sternum)  Trachea dissected close to its wall to expose area of stenosis and not more than 1 cm normal trachea superiorly and inferiorly  Not to injure vascular supply from inferior thyroid,bronchial, subclavian, right internal thoracic, and innominate arteries. Note that vascular supply comes from lateral then transverse intercartilaginous arterioles
 Flexible scope thru ETT, tube pulled back till above the stenosis if area of stenosis can’t be ascertained externally  Circumferential resection of stenotic airway with preservation of normal trachea as much as possible  Use sterile anode tube cannulated to distal end  Place traction sutures at lateral aspect 1cm from edge  Place posterolateral sutures
 Advance the proximal airway and place anterior sutures  Oppose anastomosis and tighten traction sutures then anterior followed by posterior sutures with neck flexed  Skin closure  Chin stay sutures (submental to presternal) to keep neck in flexed position  Extubate patient in the OT  Bronchoscopy before discharge and 4/52 after
 Indicated in tracheal resections of more than 3 cm. Allow resection of up to 6.4 cm without affecting anastomotic tension  Involves:  right hilar dissection and division of the right pulmonary ligament  division of the left main bronchus  freeing pulmonary vessels from the pericardium
 901 patients over 28 yr period (2004)  165 pts with lower tracheal stenosis req partial median sternotomy , only 15 patients (18%) develop anastomotic complications  Anastomotic complications lower in pts requiring release procedure via right thoracotomy (2.5%)  Tracheal length resected 1-6.5cm  11 deaths, 6 from anastomotic dehiscence  Anastomotic complications are uncommon, and important risk factors are reoperation, diabetes, lengthy resections (>4cm), young age (pediatric patients), and the need for tracheostomy before operation. 18. Wright CD, Grillo HC, Wain JC, et al. Anastomotic complication after tracheal resection: prognostic factors and management. Jthorac.Cardiovasc.Surg 2004 128:731
 Collar incision Site of stenosis exposed in the same manner Horizontal Slide the edges incision midway Vertical incision of trachea to Anastomosed of stenotic anteriorly and double its side by side segment posteriorly circumference  Theoretical value in acquired stenosis, mostly used in congenital stenosis in the pediatric age group 19. Peter BM, Michael JR, Asher L, Resmi G, Bradley SM. One slide fits all: The versatility of slide tracheoplasty with cardiopulmonary bypass support for airway reconstruction in children J. Thorac. Cardiovasc. Surg., January 2011; 141: 155 - 161.
20. Braidy J, Breton G, Clement L. Effects of corticosteroids on post intubation tracheal stenosis. Thorax. 1989 44 (9) 753-55. 21. Shapshay SM, Reza R, Healy GB. Mitomycin: Effects on Laryngeal and Tracheal Stenosis, benefits and complications. Ann Otol Rhinol Laryngol 2001
Evolved since Gianturco Ultraflex covered 1965 stainless steel expandable Montgomery: stent metallic stent Dumon silicone tracheal stent 22. Brendan P.M, Steven AS,Piers Mitchell M. Covered expandable tracheal stents in the management of benign tracheal granulation tissue formation.Ann Thorac Surg 2000;70:1191-1193 323. Therapeutic bronchoscopy with immediate effect: laser, electrocautery, argon plasma coagulation and stents.ERJ 2006 6 1258-1271
 Stent complications  Failure of deployment  Stent dislodged/ malposition  Stent fracture  Sputum retention  Granulation tissue formation  Recurrent respiratory infection  Erosion
Adult laryngotracheal stenosis
Adult laryngotracheal stenosis

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In this document
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Date of presentation (7 Jan 2011) and management of a 19-year-old with history of organophosphate poisoning.

Identifying laryngotracheal stenosis, symptoms like stridor, wheezing, and history of intubation.

Evaluating dyspnoea, effort tolerance, and general medical condition for surgery optimization.

General examination signs, focused assessments including voice quality, and other airway concerns.

Evaluating the respiratory system, arterial blood gases, laryngo-bronchoscopy, and imaging roles.

Establishing airway, intubation procedures, and surgical options including endolaryngeal and open techniques.

Case histories of patients post-acute organophosphate poisoning, detailing their presentations and management procedures.

General background information on a specific case, including medical history and examination findings.

Introduction to jet ventilation and CT findings depicting stenosis details in patients.

Details on methods like endolaryngeal dilatation and adjunctive therapies, including their effectiveness.

Advantages and disadvantages of CO2 laser use, and success rates in various procedures.

Considerations for managing longer stenosis and surgical approaches, including complication statistics.

Details of surgical incision techniques for stenosis, and complications associated with stents.

Adult laryngotracheal stenosis

  • 1.
  • 2.
    Discuss management ofa 19 year old patient with history of emergency intubation following acute organophosphate poisoning 2 months ago presenting with recurrent noisy breathing, dyspnoea and reduced effort tolerance.
  • 3.
     Establishing diagnosis  Laryngotracheal stenosis  Noisy breathing  Stridor  Phases: inspiratory, expiratory, biphasic  Wheezing  Recurrent : precepitating factors and aggravating factors  Infection, exercise  History of emergency intubation  Suggest higher possibility of intubation trauma due to repetition, stylet use and higher friction  Duration of mechanical ventilation (2-5/7: 0-2%, 5-10/7: 5-10%, >10/7: 12- 14%)2,3, cuff pressure (laryngeal microcirculation critical P 30mmHg) 1  Tracheostomy (site, type of incision, tube biomechanics)4  Acute organophosphate poisoning: primary reason of intubation contributes to laryngotracheal stenosis  Dysphagia, change in quality of voice 1. Nordin U, Lindholm CE. The trachea and cuff induced tracheal injury. Acta Otolaryngol 96 (Suppl345)1-71, 1977 2. Whited RE. A study of endotracheal tube injury to the subglottis. Laryngoscope 95: 1216-9,1985. 3. Bryce DP. The surgical management of laryngotracheal injury. J Laryngol Otol 86:547-87, 1972. 4. Lulenski JC,Batsakis JG. Tracheal incision as a contributing factor to tracheal stenosis. An experimental study. Ann Otol 84: 781-6, 1975.
  • 4.
     Infective (Tuberculosisof the larynx)  Prolonged history of fever, unintentional weight loss, cough, hemoptysis, change in quality of voice, neck swelling.  Contact with tuberculosis patients  Immune mediated (Sarcoidosis, Rheumatoid arthritis, Pemphigus)  Onset and progression is usually gradual  Related symptoms: joint pain and deformity, skin lesions,  Vocal fold immobility  Change in quality of voice  Aspiration symptoms
  • 5.
     Establishing severity  Dyspnoea and reduced effort tolerance  At rest?  Walking?  Climbing stairs?  Acute emergency visits to the hospital or clinic  Progression  Acute deterioration in airway symptoms  Gradual worsening
  • 6.
     Other relatedhistory  Patient’s general medical condition  Optimization for definitive surgical airway management  Oxygen demand  Prior surgical intervention to the larynx or trachea  Patient dermographics  Distance to hospital  Education
  • 7.
     General examination  Concious level  Stridor: inspiratory, expiratory, biphasic  Cyanosis  Tachypnoea  Subcostal, intercostal recession  Pulse Oxymetry  Vital signs  Focused examination  Quality of voice  Single breath counting5  1-10 in a single breath; correlates well with PEFR and FEV1  Neck scar +/- tracheostomy  Examination of the larynx 5. Joel MB. Bruce SU, Jonathan MR, Dylong K. Single breath counting in the Assessment of Pulmonary function. Annals of Emergency Medicine 24: 256-9, 1994.
  • 8.
     Adhesion, granulationtissue  Vocal cord  Mobility7  Only significant risk factor for failure of decannulation following definitive airway reconstruction  Vocal fold immobility: neuromuscular or joint fixation? Laryngeal electromyography  Phonatory gap  Laryngeal sensation  Evidence of reflux6  Prophylactic antireflux medication following laryngeal injury  Recalcitrant stenosis 6. Gaynor EB. Gastroesophageal reflux as an etiologic factor in laryngeal complication of intubation. Laryngoscope 98: 972-9, 1988 7. White DR, Cotton RT, Bean JA et al. Pediatric cricotracheal resection. Arch Otolaryngol Head Neck Surg 131: 896-9, 2005
  • 9.
     Respiratory system  Rhonchi  Exclude secondary lung infection
  • 10.
     Arterial BloodGases  Usually shows Type 1 respiratory failure  CO2 retention in decompensated cases hence require immediate establishment of airway
  • 11.
     Direct Laryngobronchoscopy  Cotton Myer grading (1994) Grade 1 0-50% Grade 2 51-70% Grade 3 71-99% Grade 4 >99%  Distance from vocal cord  Measure using endoscope, take average of three readings  Length of stenotic segment  Consistency of stenosis (granulation tis or fibrous)  Shape of stenosis (circumferential or not)  Presence of tracheomalacia  Mobility of vocal cord
  • 12.
     Role ofimaging  To determine extent of stenosis especially in higher grade stenosis where length of stenosis cannot be ascertained endoscopically  For planning of surgery especially when stenosis involve the lower trachea and requires combined approach through a median sternotomy or right thoracotomy or release procedures  CT better ascertain the integrity of cartilaginous framework
  • 13.
     Oxygen  Establishairway  Intubation  Preoperative intubation in patients with thin segment stenosis amendable to endolaryngeal procedures  Or intraoperative mask ventilation followed by quick dilatation to allow safe intubation  Tracheostomy  Preferably trachea incised at the level of stenosis to spare normal trachea from another injury
  • 14.
     Endolaryngeal  Dilatation  LASER: Shapshay  Cold instrumentation  Open  Laryngotracheal reconstruction  Cricotracheal resection and anastomosis  Tracheal resection and anastomosis  Shian Lee  Laryngofissure  Slide tracheoplasty  Adjunct  Stents, Corticosteroids, Mitomycin C, Antibiotics
  • 15.
     24/Indian lady Accidental organophosphate poisoning July 10  Presented with dysphagia to JBGH  Intubated in the ED and then managed in ICU  Tracheostomy D4  Assisted ventilation 11/7  Successful weaning off ventilation and decannulated after 3/52  Discharged home  4/7 later presented with dyspnoea and reduced effort tolerance  Emergency intubation and mechanical ventilation  Successful weaning off ventilation and discharged home  Another similar presentation 1/12 after, managed similarly
  • 16.
     In September2010, acute onset noisy breathing, dyspnoea and reduced effort tolerance  Tracheostomy and Dlscopy in KPJ JB  Tracheal stenosis  Subsequently managed in PPUKM  Underwent emergency endolaryngeal dilatation 22nd Sept 2010 and was later decannulated in late November  Presented with acute deterioration of symptoms two weeks later ,Cotton grade 3 tracheal stenosis of 2cm length 6cm from the vocal cord, Shapshay, dilatation was performed  Just 10/7 after presented similarly , Shapshay, dilatation and application of mitomycin C performed  1/52 later presented again with upper airway obstruction hence tracheostomy was performed as patient opted for long term tracheostomy
  • 17.
     No significantmedical history  No known allergies  Completed studies in Diploma in Healthcare Management however is unemployed due to recurrent admissions  Single and living with her parents in JB
  • 18.
     Biphasic stridor Saturation 97% under RA  Tachypnoeic RR=26bpm  Intercostal and subcostal recession  Afebrile, hemodynamically stable  Healed anterior neck scar
  • 19.
  • 20.
     CT thorax  Tracheal stenosis measuring 2.35 cm in length, ends 2 cm above the carina, about 7 cm from the vocal cords
  • 21.
     Endolaryngeal  Dilatation  LASER: Shapshay  Open  Tracheal resection and anastomosis  Slide tracheoplasty  Adjunct  Stents, Corticosteroids, Mitomycin C, Antibiotics 8. Chen Y, Wang WJ, Wang HF. Therapeutic effect of tracheal anastomosis versus interventional bronchoscopy in the treatment of airway stenosis. NaFang Yi Ke Da Xue Xue Bao. 2010 Jun;30(6):1359-62. 9. Baugnee PE, Marquette CH, Ramon P, Darras J, Wurtz A. Endoscopic treatment of postintubation tracheal stenosis. Review of 58 cases. Rev Mal Respir. 1995;12 (6): 585-92.
  • 22.
     Associated withrecurrence rate of almost ¾ if used as a primary therapy10,11  Factors that improve success rate12:  Thin segment of stenosis  Soft or immature scars  Used as adjunct to other endolaryngeal technique (ie. LASER Shapshay)  Acquired stenosis resists dilatation due to hyalinization and collagen cross linking, hence incompressible. 10. Clement P, Hans S, de Mones E, et al. Dilatation for assisted ventilation induced laryngotracheal stenosis. Laryngoscope 115: 1595-8, 2005 11. Herrington HC, Weber SM, Anderson PE. /modern management of laryngotracheal stenosis. Laryngoscope 116: 1553-7, 2006 12. Simpson GT, Strong MS, Healy GB, et al. Predictive factors for failure or success in the endoscopic management of laryngeal and tracheal stenosis. Ann Otol Rhinol Laryngol 91: 384-8, 1982
  • 23.
     CO2 laseradvantages:  Precision and visual field not obscured by instruments, hence better preservation of normal tissue  Hemostasis  Early reepithelization and slow fibroblast proliferation and collagen formation13  Disadvantages  Risk of fire or combustion  Corneal burns  Cost and availability  The shapshay (radial incision and dilatation) technique popularized in 198714 13. Toohill RJ, Duncavage JA, Grossman TW: Wound healing in the larynx. Otolaryngol Clin North Am 17: 429-36, 1984. 14. Shapshay SM, Hybels RL, Bohigian RK et al. Endoscopic treatment of subglottic and tracheal stenosis by radial laser incision and dilation. Ann Otol Rhinol Laryngol 1987: 661-4.
  • 24.
     Largest seriesin Italy; 209 patients with acquired tracheal stenosis over 10 yrs with 2 yrs follow up  Endoscopic laser and mechanical dilatation gives success rate of 96% in simple stenosis (mean of 2.3 procedures per patient)15  Other smaller series show promising results with endoscopic treatment for length <3cm (success rate of 60-80%) 16,17 15. Galluccio G, Lucantoni G, Battistoni P et al. Interventional endoscopy in the management of benign tracheal stenoses: definitive treatment at long-term follow-up. Eur J Cardiothorac Surg. 2009 Mar;35(3):429-33 16. Cavaliere S, Bezzi M, Toninelli C, Foccoli P. Management of post-intubation tracheal stenoses using the endoscopic approach. Monaldi archives for chest disease 2007 67 (2) 71-2. 17. Reza SA, Khalid G, Anil P et al. Outcome of Endoscopic Treatment of Adult Postintubation Tracheal Stenosis. Laryngoscope 117 (6): 1073-9
  • 25.
     In experiencedhands, remains mainstay of treatment in symptomatic lower tracheal stenosis  However, instances where it is not advisable  Presence of severe inflammation  Length of stenosis too long for resection and anastomosis  Preceded with rigid bronchoscopy and serial dilatation through the stenosis to alleviate hypercarbia  Remeasurement of length and site of stenosis, presence of inflammation
  • 26.
     Supine, neckextended with expandable sandbag  Collar incision +/- median upper sternotomy or right thoracotomy  Subplatysmal flap sup (cricoid) and inf (sternum)  Trachea dissected close to its wall to expose area of stenosis and not more than 1 cm normal trachea superiorly and inferiorly  Not to injure vascular supply from inferior thyroid,bronchial, subclavian, right internal thoracic, and innominate arteries. Note that vascular supply comes from lateral then transverse intercartilaginous arterioles
  • 27.
     Flexible scopethru ETT, tube pulled back till above the stenosis if area of stenosis can’t be ascertained externally  Circumferential resection of stenotic airway with preservation of normal trachea as much as possible  Use sterile anode tube cannulated to distal end  Place traction sutures at lateral aspect 1cm from edge  Place posterolateral sutures
  • 28.
     Advance theproximal airway and place anterior sutures  Oppose anastomosis and tighten traction sutures then anterior followed by posterior sutures with neck flexed  Skin closure  Chin stay sutures (submental to presternal) to keep neck in flexed position  Extubate patient in the OT  Bronchoscopy before discharge and 4/52 after
  • 29.
     Indicated intracheal resections of more than 3 cm. Allow resection of up to 6.4 cm without affecting anastomotic tension  Involves:  right hilar dissection and division of the right pulmonary ligament  division of the left main bronchus  freeing pulmonary vessels from the pericardium
  • 31.
     901 patientsover 28 yr period (2004)  165 pts with lower tracheal stenosis req partial median sternotomy , only 15 patients (18%) develop anastomotic complications  Anastomotic complications lower in pts requiring release procedure via right thoracotomy (2.5%)  Tracheal length resected 1-6.5cm  11 deaths, 6 from anastomotic dehiscence  Anastomotic complications are uncommon, and important risk factors are reoperation, diabetes, lengthy resections (>4cm), young age (pediatric patients), and the need for tracheostomy before operation. 18. Wright CD, Grillo HC, Wain JC, et al. Anastomotic complication after tracheal resection: prognostic factors and management. Jthorac.Cardiovasc.Surg 2004 128:731
  • 32.
     Collar incision Site of stenosis exposed in the same manner Horizontal Slide the edges incision midway Vertical incision of trachea to Anastomosed of stenotic anteriorly and double its side by side segment posteriorly circumference  Theoretical value in acquired stenosis, mostly used in congenital stenosis in the pediatric age group 19. Peter BM, Michael JR, Asher L, Resmi G, Bradley SM. One slide fits all: The versatility of slide tracheoplasty with cardiopulmonary bypass support for airway reconstruction in children J. Thorac. Cardiovasc. Surg., January 2011; 141: 155 - 161.
  • 33.
    20. Braidy J,Breton G, Clement L. Effects of corticosteroids on post intubation tracheal stenosis. Thorax. 1989 44 (9) 753-55. 21. Shapshay SM, Reza R, Healy GB. Mitomycin: Effects on Laryngeal and Tracheal Stenosis, benefits and complications. Ann Otol Rhinol Laryngol 2001
  • 34.
    Evolved since Gianturco Ultraflex covered 1965 stainless steel expandable Montgomery: stent metallic stent Dumon silicone tracheal stent 22. Brendan P.M, Steven AS,Piers Mitchell M. Covered expandable tracheal stents in the management of benign tracheal granulation tissue formation.Ann Thorac Surg 2000;70:1191-1193 323. Therapeutic bronchoscopy with immediate effect: laser, electrocautery, argon plasma coagulation and stents.ERJ 2006 6 1258-1271
  • 35.
     Stent complications  Failure of deployment  Stent dislodged/ malposition  Stent fracture  Sputum retention  Granulation tissue formation  Recurrent respiratory infection  Erosion

Editor's Notes

  • #35 Metallic (nitinol) stents epithialize 4-6 weeks following insertion or placement, hence almost impossible to remove after that