Advanced search
Publication Cover
Expert Review of Respiratory Medicine Volume 3, 2009 - Issue 4
Submit an article Journal homepage
154
Views
27
CrossRef citations to date
0
Altmetric
Review

Tracheobronchomalacia in children

Ian Brent Masters Pediatric Respiratory and Sleep Physician Director, Respiratory Medicine, Queensland Children’s Respiratory Centre RCH, Herston Road, Herston, Brisbane, Queensland 4029, Australia. [email protected]
&
Anne Bernadette Chang Queensland Children’s Respiratory Centre RCH, Herston Road, Herston, Brisbane, Queensland 4029, Australia and Menzies Institute Darwin, Northern Terrority, Australia. [email protected]
Pages 425-439 | Published online: 09 Jan 2014

References

  • Landing BH, Dixon LG. Congenital malformations and genetic disorders of the respiratory tract (larynx, trachea, bronchi, and lungs). Am. Rev. Respir. Dis.120, 151–185 (1979).
  • Chen JC, Holinger LD. Congenital tracheal anomalies: pathology study using serial macrosections and review of the literature. Pediatr. Pathol.14, 513–537 (1994).
  • Chen JC, Holinger LD. Congenital laryngeal lesions: pathology study using serial macrosections and review of the literature. Pediatr. Pathol.14, 301–325 (1994).
  • Boogaard R, Huijsmans SH, Pijnenburg MW, Tiddens HA, de Jongste JC, Merkus PJ. Tracheomalacia and bronchomalacia in children: incidence and patient characteristics. Chest128, 3391–3397 (2005).
  • Mair EA, Parsons DS. Pediatric tracheobronchomalacia and major airway collapse. Ann. Otol. Rhinol. Laryngol.101, 300–309 (1992).
  • Elluru RG, Whitsett JA. Potential role of Sox9 in patterning tracheal cartilage ring formation in an embryonic mouse model. Arch. Otolaryngol. Head Neck Surg.130, 732–736 (2004).
  • Altman KW, Wetmore RF, Marsh RR. Congenital airway abnormalities in patients requiring hospitalization. Arch. Otolaryngol. Head Neck Surg.125, 525–528 (1999).
  • Burden RJ, Shann F, Butt W, Ditchfield M. Tracheobronchial malacia and stenosis in children in intensive care: bronchograms help to predict oucome. Thorax54, 511–517 (1999).
  • Carden KA, Boiselle PM, Waltz DA, Ernst A. Tracheomalacia and tracheobronchomalacia in children and adults: an in-depth review. Chest127, 984–1005 (2005).
  • Lee SL, Cheung YF, Leung MP, Ng YK, Tsoi NS. Airway obstruction in children with congenital heart disease: assessment by flexible bronchoscopy. Pediatr. Pulmonol.34, 304–311 (2002).
  • Wood RE. Localized tracheomalacia or bronchomalacia in children with intractable cough. J. Pediatr.116, 404–406 (1990).
  • Marchant JM, Masters IB, Taylor SM, Cox NC, Seymour GJ, Chang AB. Evaluation and outcome of young children with chronic cough. Chest129, 1132–1141 (2006).
  • Chang AB, Gaffney JT, Eastburn MM, Faoagali J, Cox NC, Masters IB. Cough quality in children: a comparison of subjective vs. bronchoscopic findings. Respir. Res.6, 3 (2005).
  • Thomson F, Masters IB, Chang AB. Persistent cough in children and the overuse of medications. J. Paediatr. Child Health38, 578–581 (2002).
  • Murgu SD, Colt HG. Tracheobronchomalacia and excessive dynamic airway collapse. Respirology11, 388–406 (2006).
  • Murgu SD, Colt HG. Treatment of adult tracheobronchomalacia and excessive dynamic airway collapse: an update. Treat. Respir. Med.5, 103–115 (2006).
  • Hofhuis W, van der Wiel EC, Tiddens HA et al. Bronchodilation in infants with malacia or recurrent wheeze. Arch. Dis. Child.88, 246–249 (2003).
  • Miller RW, Pollack MM, Murphy TM, Fink RJ. Effectiveness of continuous positive airway pressure in the treatment of bronchomalacia in infants: a bronchoscopic documentation. Crit. Care Med.14, 125–127 (1986).
  • Panitch HB, Allen JL, Alpert BE, Schidlow DV. Effects of CPAP on lung mechanics in infants with acquired tracheobronchomalacia. Am. J. Respir. Crit. Care Med.150, 1341–1346 (1994).
  • Dave S, Currie BG. The role of aortopexy in severe tracheomalacia. J. Pediatr. Surg.41, 533–537 (2006).
  • van der Zee DC, Bax NM. Thoracoscopic tracheoaortopexia for the treatment of life-threatening events in tracheomalacia. Surg. Endosc.21(11), 2024–2025 (2007).
  • Newcombe PA, Sheffield JK, Juniper EF et al. Development of a parent-proxy quality-of-life chronic cough-specific questionnaire: clinical impact vs psychometric evaluations. Chest133, 386–395 (2008).
  • Masters IB. Congenital airway lesions and lung disease. Pediatr. Clin. North. Am.56, 227–242 (2009).
  • Eastwood PR, Szollosi I, Platt PR, Hillman DR. Collapsibility of the upper airway during anesthesia with isoflurane. Anesthesiology97, 786–793 (2002).
  • Masters IB, Eastburn M, Francis PW et al. Quantification of the magnification and distortion effects of a pediatric flexible video-bronchoscope. Respir. Res.6, 16 (2005).
  • Masters IB, Eastburn MM, Wootton R et al. A new method for objective identification and measurement of airway lumen in paediatric flexible videobronchoscopy. Thorax60, 652–658 (2005).
  • Murgu S, Colt H. Tracheobronchomalacia untangling the Gordian knot. J. Bronchol.12, 239–244 (2005).
  • Baxter JD, Dunbar JS. Tracheomalacia. Ann. Otol. Rhinol. Laryngol.72, 1013–1023 (1963).
  • Wailoo M, Emery JL. Structure of the membranous trachea in children. Acta Anat. (Basel)106, 254–261 (1980).
  • Wailoo MP, Emery JL. Normal growth and development of the trachea. Thorax37, 584–587 (1982).
  • Campbell AH, Young IF. Tracheobronchial collapse, a variant of obstructive respiratory disease. Br. J. Dis. Chest57, 174–181 (1963).
  • Campbell AH. Terminology for excessive dynamic compression of the airways, tracheobronchial collapse, and related conditions. Am. Rev. Respir. Dis.97, 460–462 (1968).
  • Campbell AH. Definition and causes of the tracheobronchial collapse syndrome. Br. J. Dis. Chest61, 1–11 (1967).
  • Campbell AH, Faulks LW. Bronchial pressure measurements in patients with tracheobronchial collapse. Respiration26, 63–77 (1969).
  • Campbell AH, Faulks LW. Expiratory air-flow pattern in tracheobronchial collapse. Am. Rev. Respir. Dis.92, 781–791 (1965).
  • Couvreur J, Grimfeld A, Tournier G et al. Tracheal dyskinesia (tracheomalacia) in children. Reflections apropos of 127 cases diagnosed by endoscopy. Ann. Pediatr. (Paris)27, 561–570 (1980).
  • Loundon N, Brugel L, Roger C, Denoyelle F, Coiffier T, Garabedian EN. Current approach of primary tracheal dyskinesia. Pediatr. Pulmonol. Suppl.18, 67–70 (1999).
  • Corre A, Chaudre F, Roger G, Denoyelle F, Garabedian EN. Tracheal dyskinesia associated with midline abnormality: embryological hypotheses and therapeutic implications. Pediatr. Pulmonol. Suppl.23, 10–12 (2001).
  • Wittenborg MH, Gyepes MT, Crocker D. Tracheal dynamics in infants with respiratory distress, stridor, and collapsing trachea. Radiology88, 653–662 (1967).
  • Masters IB, Zimmerman PV, Pandeya N, Petsky HL, Wilson SB, Chang AB. Quantified tracheobronchomalacia disorders and their clinical profiles in children. Chest133, 461–467 (2008).
  • Masters IB, Zimmerman PV, Chang AB. Longitudinal quantification of growth and changes in primary tracheobronchomalacia sites in children. Pediatr. Pulmonol.42, 906–913 (2007).
  • Masters IB, Chang AB, Patterson L et al. Series of laryngomalacia, tracheomalacia, and bronchomalacia disorders and their associations with other conditions in children. Pediatr. Pulmonol.34, 189–195 (2002).
  • Butz RO Jr. Length and cross-section growth patterns in the human trachea. Pediatrics42, 336–341 (1968).
  • Weber TR, Keller MS, Fiore A. Aortic suspension (aortopexy) for severe tracheomalacia in infants and children. Am. J. Surg.184, 573–577 (2002).
  • Fletcher BD, Cohn RC. Tracheal compression and the innominate artery: MR evaluation in infants. Radiology170, 103–107 (1989).
  • Mahboubi S, Harty MP, Hubbard AM, Meyer JS. Innominate artery compression of the trachea in infants. Int. J. Pediatr. Otorhinolaryngol.35, 197–205 (1996).
  • Gormley PK, Colreavy MP, Patil N, Woods AE. Congenital vascular anomalies and persistent respiratory symptoms in children. Int. J. Pediatr. Otorhinolaryngol.51, 23–31 (1999).
  • Dodge-Khatami A, Deanovic D, Sacher P, Weiss M, Gerber AC. Clinically relevant tracheomalacia after repair of esophageal atresia: the role of minimal intra-operative dissection and timing for aortopexy. Thorac. Cardiovasc. Surg.54, 178–181 (2006).
  • Faust RA, Rimell FL, Remley KB. Cine magnetic resonance imaging for evaluation of focal tracheomalacia: innominate artery compression syndrome. Int. J. Pediatr. Otorhinolaryngol.65, 27–33 (2002).
  • Benjamin B. Tracheomalacia in infants and children. Ann. Otol. Rhinol. Laryngol.93, 438–442 (1984).
  • Benjamin B, Cohen D, Glasson M. Tracheomalacia in association with congenital tracheoesophageal fistula. Surgery79, 504–508 (1976).
  • Beasley SW, Qi BQ. Understanding tracheomalacia. J. Paediatr. Child Health34, 209–210 (1998).
  • Chen SJ, Lee WJ, Wang JK et al. Usefulness of three-dimensional electron beam computed tomography for evaluating tracheobronchial anomalies in children with congenital heart disease. Am. J. Cardiol.92, 483–486 (2003).
  • Roberts CS, Othersen HB Jr, Sade RM, Smith CD 3rd, Tagge EP, Crawford FA Jr. Tracheoesophageal compression from aortic arch anomalies: analysis of 30 operatively treated children. J. Pediatr. Surg.29, 334–337 (1994).
  • Fleenor JT, Weinberg PM, Kramer SS, Fogel M. Vascular rings and their effect on tracheal geometry. Pediatr. Cardiol.24, 430–435 (2003).
  • Kazim R, Berdon WE, Montoya CH, Quaegebeur JM, Sun LS. Tracheobronchial anomalies in children with congenital cardiac disease. J. Cardiothorac. Vasc. Anesth.12, 553–555 (1998).
  • Worthington S, Bower C, Harrop K, Loh J, Walpole I. 22q11 deletions in patients with conotruncal heart defects. J. Paediatr. Child Health34, 438–443 (1998).
  • Hicks J, De Jong A, Barrish J, Zhu SH, Popek E. Tracheomalacia in a neonate with kniest dysplasia: histopathologic and ultrastructural features. Ultrastruct. Pathol.25, 79–83 (2001).
  • Shaffer TH, Wolfson MR, Panitch HB. Airway structure, function and development in health and disease. Paediatr. Anaesth.14, 3–14 (2004).
  • Masters IB, Ware RS, Zimmerman PV et al. Airway sizes and proportions in children quantified by a video-bronchoscopic technique. BMC Pulm. Med.6, 5 (2006).
  • Midulla F, de Blic J, Barbato A et al. Flexible endoscopy of paediatric airways. Eur. Respir. J.22, 698–708 (2003).
  • Baker J, Magill A, Tayman W, Pestrecov K, Washer F. Elements of photogrametric optics. In: Manual of Photogrammetry (Fourth Edition). Slama CC, Theurer CAE, Henriksen SAE (Eds). American Society of Photogrammetry (Vol. 1): 22046, Falls Church, VG, USA, 103–186 (1980).
  • McAndrew A. In: Introduction to Digital Image Processing with Matlab (1st Edition). Thomson Course Technology, Boston, MA, USA (2004).
  • Rozycki HJ, Van Houten ML, Elliott GR. Quantitative assessment of intrathoracic airway collapse in infants and children with tracheobronchomalacia. Pediatr. Pulmonol.21, 241–245 (1996).
  • Boiselle PM, Ernst A. Tracheal morphology in patients with tracheomalacia: prevalence of inspiratory lunate and expiratory ‘frown’ shapes. J. Thorac. Imaging21, 190–196 (2006).
  • Boiselle PM, Lee KS, Lin S, Raptopoulos V. Cine CT during coughing for assessment of tracheomalacia: preliminary experience with 64-MDCT. Am. J. Roentgenol.187, W175–W177 (2006).
  • Aquino SL, Shepard JA, Ginns LC et al. Acquired tracheomalacia: detection by expiratory CT scan. J. Comput. Assist. Tomogr.25, 394–399 (2001).
  • Boiselle PM, Lee KS, Ernst A. Multidetector CT of the central airways. J. Thorac. Imaging20, 186–195 (2005).
  • Faust RA, Remley KB, Rimell FL. Real-time, cine magnetic resonance imaging for evaluation of the pediatric airway. Laryngoscope111, 2187–2190 (2001).
  • Briganti V, Oriolo L, Mangia G, Buffa V, Calisti A. Tracheomalacia in esophageal atresia. Usefulness of preoperative imaging evaluation for tailored surgical correction. J. Pediatr. Surg.41, 1624–1628 (2006).
  • Lee EY, Zurakowski D, Waltz DA et al. MDCT evaluation of the prevalence of tracheomalacia in children with mediastinal aortic vascular anomalies. J. Thorac. Imaging23, 258–265 (2008).
  • Naidich DP, Harkin TJ. Airways and lung: correlation of CT with fiberoptic bronchoscopy. Radiology197, 1–12 (1995).
  • Sun M, Ernst A, Boiselle PM. MDCT of the central airways: comparison with bronchoscopy in the evaluation of complications of endotracheal and tracheostomy tubes. J. Thorac. Imaging22, 136–142 (2007).
  • Boiselle PM, Feller-Kopman D, Ashiku S, Weeks D, Ernst A. Tracheobronchomalacia: evolving role of dynamic multislice helical CT. Radiol. Clin. North Am.41, 627–636 (2003).
  • Altman KW, Wetmore RF, Mahboubi S. Comparison of endoscopy and radiographic fluoroscopy in the evaluation of pediatric congenital airway abnormalities. Int. J. Pediatr. Otorhinolaryngol.44, 43–46 (1998).
  • Mok Q, Negus S, McLaren CA et al. Computed tomography versus bronchography in the diagnosis and management of tracheobronchomalacia in ventilator dependent infants. Arch. Dis. Child. Fetal Neonatal Ed.90, F290–F293 (2005).
  • Brenner DJ. Estimating cancer risks from pediatric CT: going from the qualitative to the quantitative. Pediatr. Radiol.32, 228–233 (2002).
  • Kussman BD, Geva T, McGowan FX. Cardiovascular causes of airway compression. Paediatr. Anaesth.14, 60–74 (2004).
  • Williamson JP, McLaughlin RA, Phillips MJ et al. Using optical coherence tomography to improve diagnostic and therapeutic bronchoscopy. Chest doi: 10.1378/chest.08-2800 (2009) (Epub ahead of print).
  • Mahmood U, Hanna NM, Han S et al. Evaluation of rabbit tracheal inflammation using optical coherence tomography. Chest130, 863–868 (2006).
  • Lee P, Low SY, Liew HL, Tan D, Eng P. Endobronchial ultrasound for detection of tracheomalacia from chronic compression by vascular ring. Respirology12, 299–301 (2007).
  • Murgu S, Kurimoto N, Colt H. Endobronchial ultrasound morphology of expiratory central airway collapse. Respirology13, 315–319 (2008).
  • Finder JD. Primary bronchomalacia in infants and children. J. Pediatr.130, 59–66 (1997).
  • Godfrey S. Association between pectus excavatum and segmental bronchomalacia. J. Pediatr.96, 649–652 (1980).
  • Lynch JI. Bronchomalacia in children. Considerations governing medical vs surgical treatment. Clin. Pediatr. (Phila.)9, 279–282 (1970).
  • Chetcuti P, Phelan PD. Gastrointestinal morbidity and growth after repair of oesophageal atresia and tracheo–oesophageal fistula. Arch. Dis. Child.68, 163–166 (1993).
  • Marchant JM, Masters IB, Taylor SM, Chang AB. Utility of signs and symptoms of chronic cough in predicting specific cause in children. Thorax61, 694–698 (2006).
  • Cerda J, Chacon J, Reichhard C et al. Flexible fiberoptic bronchoscopy in children with heart diseases: a twelve years experience. Pediatr. Pulmonol.42, 319–324 (2007).
  • Chetcuti P, Phelan PD. Respiratory morbidity after repair of oesophageal atresia and tracheo–oesophageal fistula. Arch. Dis. Child.68, 167–170 (1993).
  • Chetcuti P, Myers NA, Phelan PD, Beasley SW. Adults who survived repair of congenital oesophageal atresia and tracheo–oesophageal fistula. Br. Med. J.297, 344–346 (1988).
  • Chetcuti P, Phelan PD, Greenwood R. Lung function abnormalities in repaired oesophageal atresia and tracheo–oesophageal fistula. Thorax47, 1030–1034 (1992).
  • Loring SH, O’Donnell CR, Feller-Kopman DJ, Ernst A. Central airway mechanics and flow limitation in acquired tracheobronchomalacia. Chest131, 1118–1124 (2007).
  • Abdel-Rahman U, Ahrens P, Fieguth HG, Kitz R, Heller K, Moritz A. Surgical treatment of tracheomalacia by bronchoscopic monitored aortopexy in infants and children. Ann. Thorac. Surg.74, 315–319 (2002).
  • Kamata S, Usui N, Sawai T et al. Pexis of the great vessels for patients with tracheobronchomalacia in infancy. J. Pediatr. Surg.35, 454–457 (2000).
  • Ahel V, Banac S, Rozmanic V, Vukas D, Drescik I, Ahel VA Jr. Aortopexy and bronchopexy for the management of severe tracheomalacia and bronchomalacia. Pediatr. Int.45, 104–106 (2003).
  • McElhinney DB, Tworetzky W, Hanley FL, Rudolph AM. Congenital obstructive lesions of the right aortic arch. Ann. Thorac. Surg.67, 1194–1202 (1999).
  • McElhinney DB, Reddy VM, Pian MS, Moore P, Hanley FL. Compression of the central airways by a dilated aorta in infants and children with congenital heart disease. Ann. Thorac. Surg.67, 1130–1136 (1999).
  • Chang AB, Boyce NC, Masters IB, Torzillo PJ, Masel JP. Bronchoscopic findings in children with non-cystic fibrosis chronic suppurative lung disease. Thorax57, 935–938 (2002).
  • Williams H, Campbell P. Generalized bronchiectasis associated with deficiency of cartilage in the bronchial tree. Arch. Dis. Child.35, 182–191 (1960).
  • Williams HE, Landau LI, Phelan PD. Generalized bronchiectasis due to extensive deficiency of bronchial cartilage. Arch. Dis. Child.47, 423–428 (1972).
  • Hubbard M, Masters IB, Chang AB. Rapidly progressing case of Mounier–Kuhn Syndrome in early childhood. Pediatr. Pulmonol.36, 353–356 (2003).
  • Austin J, Ali T. Tracheomalacia and bronchomalacia in children: pathophysiology, assessment, treatment and anaesthesia management. Paediatr. Anaesth.13, 3–11 (2003).
  • Thurlbeck WM. Postnatal growth and development of the lung. Am. Rev. Respir. Dis.111, 803–844 (1975).
  • Warburton D, Schwarz M, Tefft D, Flores-Delgado G, Anderson KD, Cardoso WV. The molecular basis of lung morphogenesis. Mech. Dev.92, 55–81 (2000).
  • Hu MC, Rosenblum ND. Genetic regulation of branching morphogenesis: lessons learned from loss-of-function phenotypes. Pediatr. Res.54, 433–438 (2003).
  • Roth-Kleiner M, Post M. Genetic control of lung development. Biol. Neonate84, 83–88 (2003).
  • Cardoso WV. Molecular regulation of lung development. Annu. Rev. Physiol.63, 471–494 (2001).
  • Groenman F, Unger S, Post M. The molecular basis for abnormal human lung development. Biol. Neonate87, 164–177 (2005).
  • Warburton D, Bellusci S, De Langhe S et al. Molecular mechanisms of early lung specification and branching morphogenesis. Pediatr. Res.57, 26R–37R (2005).
  • Perl AK, Whitsett JA. Molecular mechanisms controlling lung morphogenesis. Clin. Genet.56, 14–27 (1999).
  • Miller LA, Wert SE, Clark JC, Xu Y, Perl AK, Whitsett JA. Role of Sonic hedgehog in patterning of tracheal–bronchial cartilage and the peripheral lung. Dev. Dyn.231, 57–71 (2004).
  • Shannon JM, Hyatt BA. Epithelial–mesenchymal interactions in the developing lung. Annu. Rev. Physiol.66, 625–645 (2004).
  • Bartram U, Speer CP. The role of transforming growth factor β in lung development and disease. Chest125, 754–765 (2004).
  • Pongracz JE, Stockley RA. Wnt signalling in lung development and diseases. Respir. Res.7, 15 (2006).
  • Glasser SW, Korfhagen TR, Wert SE, Whitsett JA. Transgenic models for study of pulmonary development and disease. Am. J. Physiol.267, L489–L497 (1994).
  • Torday JS. Parathyroid hormone-related protein is a gravisensor in lung and bone cell biology. Adv. Space Res.32, 1569–1576 (2003).
  • Okamoto T, Yamamoto Y, Gotoh M et al. Cartilage regeneration using slow release of bone morphogenetic protein-2 from a gelatin sponge to treat experimental canine tracheomalacia: a preliminary report. Asaio J.49, 63–69 (2003).
  • Okamoto T, Yamamoto Y, Gotoh M et al. Slow release of bone morphogenetic protein 2 from a gelatin sponge to promote regeneration of tracheal cartilage in a canine model. J. Thorac. Cardiovasc. Surg.127, 329–334 (2004).
  • Massague J. TGF-β signal transduction. Annu. Rev. Biochem.67, 753–791 (1998).
  • Shannon JM, Nielsen LD, Gebb SA, Randell SH. Mesenchyme specifies epithelial differentiation in reciprocal recombinants of embryonic lung and trachea. Dev. Dyn.212, 482–494 (1998).
  • Qi BQ, Merei J, Farmer P et al. Tracheomalacia with esophageal atresia and tracheoesophageal fistula in fetal rats. J. Pediatr. Surg.32, 1575–1579 (1997).
  • Williams AK, Qi BQ, Beasley SW. Demonstration of abnormal notochord development by three-dimensional reconstructive imaging in the rat model of esophageal atresia. Pediatr. Surg. Int.17, 21–24 (2001).
  • Volpe MV, Pham L, Lessin M et al. Expression of Hoxb-5 during human lung development and in congenital lung malformations. Birth Defects Res. A Clin. Mol. Teratol.67, 550–556 (2003).
  • Roberts CR, Rains JK, Pare PD et al. Ultrastructure and tensile properties of human tracheal cartilage. J. Biomech.31, 81–86 (1998).
  • Mankarious LA, Goetinck PF. Growth and development of the human cricoid cartilage: an immunohistochemical analysis of the maturation sequence of the chondrocytes and surrounding cartilage matrix. Otolaryngol. Head Neck Surg.123, 174–178 (2000).
  • Kim JC, Mankarious LA. Novel cell proliferation marker for identification of a growth center in the developing human cricoid. Arch. Otolaryngol. Head Neck Surg.126, 197–202 (2000).
  • Cherukupally SR, Adams AB, Mankarious LA. Age-related mechanisms of cricoid cartilage response to injury in the developing rabbit. Laryngoscope113, 1145–1148 (2003).
  • Maki JM, Sormunen R, Lippo S, Kaarteenaho-Wiik R, Soininen R, Myllyharju J. Lysyl oxidase is essential for normal development and function of the respiratory system and for the integrity of elastic and collagen fibers in various tissues. Am. J. Pathol.167, 927–936 (2005).
  • Cohen SR, Perelman N, Mahnovski V, Nimni ME, Cheung DT. Whole organ evaluation of collagen in the developing human larynx and adjoining anatomic structures (hyoid and trachea). Ann. Otol. Rhinol. Laryngol.102, 655–659 (1993).
  • Wailoo MP, Emery JL. The trachea in children with tracheo–oesophageal fistula. Histopathology3, 329–338 (1979).
  • Harley HR. The development and anomalies of the aortic arch and its branches with the report of a case of right cervical aortic arch and intrathoracic vascular ring. Br. J. Surg.46, 561–573 (1959).
  • Zamir M, Sinclair P. Continuum analysis of common branching patterns in the human arch of the aorta. Anat. Embryol. (Berl.)181, 31–36 (1990).
  • Feist JH, Johnson TH, Wilson RJ. Acquired tracheomalacia: etiology and differential diagnosis. Chest68, 340–345 (1975).
  • Johnson TH, Mikita JJ, Wilson RJ, Feist JH. Acquired tracheomalacia. Radiology109, 576–580 (1973).
  • Masters IB, Chang AB. Interventions for primary (intrinsic) tracheomalacia in children. Cochrane Database Syst. Rev.CD005304 (2005).
  • Essouri S, Nicot F, Clement A et al. Noninvasive positive pressure ventilation in infants with upper airway obstruction: comparison of continuous and bilevel positive pressure. Intensive Care Med.31, 574–580 (2005).
  • Ferguson GT, Benoist J. Nasal continuous positive airway pressure in the treatment of tracheobronchomalacia. Am. Rev. Respir. Dis.147, 457–461 (1993).
  • Bolot G, Poupart M, Pignat JC et al. Self-expanding metal stents for the management of bronchial stenosis and bronchomalacia after lung transplantation. Laryngoscope108, 1230–1233 (1998).
  • Filler RM, Forte V, Chait P. Tracheobronchial stenting for the treatment of airway obstruction. J. Pediatr. Surg.33, 304–311 (1998).
  • Inwald DP, Roebuck D, Elliott MJ, Mok Q. Current management and outcome of tracheobronchial malacia and stenosis presenting to the paediatric intensive care unit. Intensive Care Med.27, 722–729 (2001).
  • Pillai JB, Smith J, Hasan A, Spencer D. Review of pediatric airway malacia and its management, with emphasis on stenting. Eur. J. Cardiothorac. Surg.27, 35–44 (2005).
  • Sewall GK, Warner T, Connor NP, Hartig GK. Comparison of resorbable poly-L-lactic acid–polyglycolic acid and internal Palmaz stents for the surgical correction of severe tracheomalacia. Ann. Otol. Rhinol. Laryngol.112, 515–521 (2003).
  • Zinman R. Tracheal stenting improves airway mechanics in infants with tracheobronchomalacia. Pediatr. Pulmonol.19, 275–281 (1995).
  • Anton-Pacheco JL, Cabezali D, Tejedor R et al. The role of airway stenting in pediatric tracheobronchial obstruction. Eur. J. Cardiothorac. Surg.33, 1069–1075 (2008).
  • Hagl S, Jakob H, Sebening C et al. External stabilization of long-segment tracheobronchomalacia guided by intraoperative bronchoscopy. Ann. Thorac. Surg.64, 1412–1420 (1997).
  • Masaoka A, Yamakawa Y, Niwa H et al. Pediatric and adult tracheobronchomalacia. Eur. J. Cardiothorac. Surg.10, 87–92 (1996).
  • Schaarschmidt K, Kolberg-Schwerdt A, Pietsch L, Bunke K. Thoracoscopic aortopericardiosternopexy for severe tracheomalacia in toddlers. J. Pediatr. Surg.37, 1476–1478 (2002).
  • Abdel-Rahman U, Simon A, Ahrens P, Heller K, Moritz A, Fieguth HG. Aortopexy in infants and children – long-term follow-up in twenty patients. World J. Surg.31, 2255–2259 (2007).

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.