Displaying all 8 publications

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  1. Raman R, Jalaluddin MA
    Thorac Cardiovasc Surg, 1998 Feb;46(1):43-4.
    PMID: 9554049
    Matched MeSH terms: Tracheal Stenosis/surgery*
  2. Chiu CL, Teh BT, Wang CY
    Br J Anaesth, 2003 Nov;91(5):742-4.
    PMID: 14570801
    A 27-yr-old lady with a past history of prolonged ventilation presented with worsening respiratory distress caused by tracheal stenosis. She required urgent tracheal resection and reconstruction. Because of the risk of an acute respiratory obstruction, spinal anaesthesia was used to establish cardiopulmonary bypass by cannulating the femoral artery and femoral vein. Adequate gas exchange was possible with full flow rate. Thoracotomy was then carried out to mobilize the left main bronchus. After successfully securing an airway by intubation of the left main bronchus, cardiopulmonary bypass was discontinued and tracheal resection and anastomosis was done under conventional one lung anaesthesia.
    Matched MeSH terms: Tracheal Stenosis/surgery*
  3. Amin Z, Suzina SA
    Med J Malaysia, 2008 Dec;63(5):369-72.
    PMID: 19803292 MyJurnal
    To set the foundation for developing a centre for airway reconstruction, we performed a retrospective database review of patients operated at a tertiary-care university hospital. Over the past 3-year period from 2004 onwards, five paediatric cases of airway reconstruction procedures were performed. All cases had a two stages laryngotracheal reconstruction (TSLTR) for laryngotracheal stenosis (LTS). All patients were children below 15 years and the mean age was 9 years. Only one patient had a Grade IV Myer-Cotton stenosis, the rest all had Grade III stenosis. Three out of four of the Grade III stenosis patients were successfully decannulated within one year, the other one died of causes unrelated to LTS. The grade IV patient was still under followup and surgery was done only recently. This paper highlights the complexity of managing LTS in the paediatric age group and recommends the use of LTR with rib graft as a choice for the management of LTS.
    Matched MeSH terms: Tracheal Stenosis/surgery*
  4. Rotter N, Stölzel K, Endres M, Leinhase I, Ziegelaar BW, Sittinger M
    Med J Malaysia, 2004 May;59 Suppl B:35-6.
    PMID: 15468806
    Matched MeSH terms: Tracheal Stenosis/surgery*
  5. Mazita A, Sani A
    Auris Nasus Larynx, 2005 Dec;32(4):421-5.
    PMID: 16051456 DOI: 10.1016/j.anl.2005.05.002
    Laryngotracheal separation is a rare variant of laryngeal trauma. However it is life threatening and potentially fatal. Patients with this injury usually succumb at the site of the accident itself. Here we present two cases of laryngotracheal separation of different etiology and of different outcomes. The treatment advocated for laryngotracheal separation is initially airway stabilization followed by formal repair of the transected trachea. However both our cases illustrates that the outcomes can be different and that a long term treatment plan should be individualized to each patient.
    Matched MeSH terms: Tracheal Stenosis/surgery
  6. Sani A
    J Laryngol Otol, 1998 May;112(5):467-8.
    PMID: 9747477
    A method of treating tracheostomal stenosis post-laryngectomy is described. The carbon dioxide (CO2) laser is used to fashion and ablate two triangular areas lateral to the stenosed stoma to provide an immediate enlarged stoma for comfortable breathing. This simple procedure is done under local anaesthesia, is almost bloodless, safe and takes just 10 minutes. Over the last five years eight patients underwent this procedure and seven had a satisfactory stoma without the need to use a tracheostomy tube.
    Matched MeSH terms: Tracheal Stenosis/surgery*
  7. Rahimah AN, Shahfi FI, Masaany M, Gazali N, Siti SH
    J Laryngol Otol, 2016 Oct;130(10):967-968.
    PMID: 27774924
    Laryngotracheal stenosis is a complex condition of airway compromise involving either the larynx or trachea, or both.
    Matched MeSH terms: Tracheal Stenosis/surgery*
  8. Mohd Heikal MY, Aminuddin BS, Jeevanan J, Chen HC, Sharifah SH, Ruszymah BH
    Cells Tissues Organs (Print), 2010;192(5):292-302.
    PMID: 20616535 DOI: 10.1159/000318675
    The objective of this study was to regenerate the tracheal epithelium using autologous nasal respiratory epithelial cells in a sheep model. Respiratory epithelium and fibroblast cells were harvested from nasal turbinates and cultured for 1 week. After confluence, respiratory epithelium and fibroblast cells were suspended in autologous fibrin polymerized separately to form a tissue-engineered respiratory epithelial construct (TEREC). A 3 × 2 cm² tracheal mucosal defect was created, and implanted with TEREC and titanium mesh as a temporary scaffold. The control groups were divided into 2 groups: polymerized autologous fibrin devoid of cells (group 1), and no construct implanted (group 2). All sheep were euthanized at 4 weeks of implantation. Gross observation of the trachea showed minimal luminal stenosis formation in the experimental group compared to the control groups. Macroscopic evaluation revealed significant mucosal fibrosis in control group 1 (71.8%) as compared to the experimental group (7%). Hematoxylin and eosin staining revealed the presence of minimal overgrowth of fibrous connective tissue covered by respiratory epithelium. A positive red fluorescence staining of PKH26 on engineered tissue 4 weeks after implantation confirmed the presence of cultured nasal respiratory epithelial cells intercalated with native tracheal epithelial cells. Scanning electron microscopy showed the presence of short microvilli representing immature cilia on the surface of the epithelium. Our study showed that TEREC was a good replacement for a tracheal mucosal defect and was able to promote natural regenesis of the tracheal epithelium with minimal fibrosis. This study highlighted a new technique in the treatment of tracheal stenosis.
    Matched MeSH terms: Tracheal Stenosis/surgery*
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