Humans ; Tracheostomy ; methods

Infection that progresses to deep areas of the neck requires appropriate assessment of the airway, and securing of the airway is critical in patients with deep neck infection. In the patient in our case report, bilateral pneumothorax occurred while performing tracheostomy to the airways of a patient with deep neck infection, and therefore, this paper details the method used to secure the airway of patients with deep neck infection.
Humans ; Methods ; Neck* ; Pneumothorax* ; Tracheostomy*

Infection that progresses to deep areas of the neck requires appropriate assessment of the airway, and securing of the airway is critical in patients with deep neck infection. In the patient in our case report, bilateral pneumothorax occurred while performing tracheostomy to the airways of a patient with deep neck infection, and therefore, this paper details the method used to secure the airway of patients with deep neck infection.
Humans ; Methods ; Neck* ; Pneumothorax* ; Tracheostomy*

Tracheostomy is to establish an artificial airway by making an opening at anterior tracheal wall. Due to the blossom of mechanical ventilation and intensive care unit after 1950s, tracheostomy is the most favorable surgical method to access airway at present. In addition to traditional surgical tracheostomy, percutaneous dilational tracheostomy have gained increasing popularity and become an alternative procedure because of its merits such as easier manipulation, shorter operative duration and less complications. This review summarized tracheostomy from definition, history and current status, anatomy and physiology, indications, contraindications, timing, complications and management. We also elaborate our understanding of current contraercy and give some suggestions based on our clinical experience.
Humans ; Intensive Care Units ; Respiration, Artificial ; Trachea ; surgery ; Tracheostomy ; methods

OBJECTIVETo present the authors' experience with percutaneous dilatational tracheostomy (PDT), with special attention to early and late complications, outcomes, and primary disease influence.

METHODSBetween November 2000 and May 2001, 22 PDTs were performed with the aid of dilatating forceps in 21 neurosurgical coma patients. A Seldinger wire was introduced through a cannula into the trachea serving as a guide. The guidewire was threaded through the clamped guidewire dilating forceps and the forceps was advanced through the tracheal wall. The trachea was dilated by opening forceps. The guidewire was then threaded through the obturator of the tracheostomy tube and both were advanced into the trachea. Demographic data, patient disease variables and patient anatomical features, as well as perioperative and late complications were recorded prospectively.

RESULTSCompletion of the procedure consumed 4 - 16 minutes (mean, 12 minutes). The procedure caused complications in 3 operations: 2 cases of stomal bleeding, 1 of intratracheal bleeding, but there was no severe tracheal injury or mediastinal emphysema. Furthermore, none of the cases required intervention due to complications. All patients were followed up for 1 to 6 months. Tracheostomy tubes were removed in 16 patients. All cervical incisions were closed with cosmetic demand. Two patients with tracheostomy tubes were retained for primary diseases. Causes of death in 3 others were unrelated to the PDT. No patient developed tracheomalacia or tracheal stenosis as a late complication.

CONCLUSIONSPercutaneous dilatational tracheostomy is a fast, safe and simple procedure for neurosurgical coma patients and can be safely performed by neurosurgeons.

Adult ; Aged ; Coma ; surgery ; Female ; Humans ; Male ; Middle Aged ; Neurosurgical Procedures ; Tracheostomy ; adverse effects ; methods

OBJECTIVETo investigate the efficacy of suspension laryngoscopic surgery for benign laryngotracheal stenosis (LTS).

METHODSThirty-two patients (aged from 5 to 70 years with a median of 36 years) with benign LTS were studied retrospectively who were treated by suspension laryngoscopic surgery with or without assistance of CO₂ Laser for LTS. Stents were placed in 17 cases. Among 32 patients, 13 cases were with LST in Cotton I, 8 cases in Cotton II, and 11 cases in Cotton III; 23 were with single level narrow, and 9 cases with multi-level narrow; the average narrow length was 1.3 cm and the average diameter at maximum stenosis was 0.5 cm; and 19 cases underwent tracheostomy before surgery.

RESULTSFollow-up period ranged from 1 to 18 years with median time of 10 years. Twenty-six patients (81.2%) were successfully decannulated with good airway patency and effective phonation. Six cases failed and 1 case of them was changed to open surgery. Among 17 cases with stent placement, 4 cases were applied additionally with T tube (effective rate of 50.0%), 1 case with laryngeal keel, 12 cases with stents alone (effective rate of 66.7%). Stent-related complications occurred in 2 cases. Patients with cotton I-II had a successful rate of 100% (21/21), while patients with Cotton III showed poor effectiveness (5/11), with a statistical significant difference between two groups (χ² = 14.098, P = 0.001). The patients with single level LTS were successfully treated by suspension laryngoscopic surgery with 100% successful rate (23/23), while the patients with multi-level LTS showed poor effectiveness (3/9), with a statistical significant difference between two groups (χ² = 18.872, P = 0.000) .

CONCLUSIONSSuspension laryngoscopic microsurgery can treat single level LTS with good results and also can be used as a pre-surgery in treatment of multi-level LTS with the virtue of minimal trauma and short recovery time. Application of stents can be helpful for suspension laryngoscope surgery for LST.

Constriction, Pathologic ; Humans ; Laryngoscopy ; methods ; Lasers, Gas ; Microsurgery ; Retrospective Studies ; Stents ; Tracheal Stenosis ; surgery ; Tracheostomy

OBJECTIVE: To investigate the impact of tracheostomy tube capping on swallowing physiology in stroke patients with dysphagia via videofluoroscopic swallowing study (VFSS). METHODS: This study was conducted as a prospective study that involved 30 stroke patients. Then, 4 mL semisolid swallowing was conducted with capping of the tracheostomy tube or without capping of the tracheostomy tube. The following five parameters were measured: laryngeal elevation, pharyngeal transit time, post-swallow pharyngeal remnant, upper esophageal sphincter width (UES), and penetration-aspiration scale (PAS) score. RESULTS: On assessment of the differences in swallowing parameters during swallowing between ‘with capping’ and ‘without capping’ statuses, statistically significant differences were found in the post-swallow pharyngeal remnant (without capping, 48.19%±28.70%; with capping, 25.09%±19.23%; p<0.001), normalized residue ratio scale for the valleculae (without capping, 0.17±0.12; with capping, 0.09±0.12; p=0.013), normalized residue ratio scale for the piriform sinus (without capping, 0.16±0.12; with capping, 0.10±0.07; p=0.015), and UES width (without capping, 3.32±1.61 mm; with capping, 4.61±1.95 mm; p=0.003). However, there were no statistically significant differences in laryngeal elevation (x-axis without capping, 2.48±1.45 mm; with capping, 3.26±2.37 mm; y-axis without capping, 11.11±5.24 mm; with capping, 12.64±6.16 mm), pharyngeal transit time (without capping, 9.19± 10.14 s; with capping, 9.09±10.21 s), and PAS score (without capping, 4.94±2.83; with capping, 4.18±2.24). CONCLUSION: Tracheostomy tube capping is a useful way to reduce post-swallow remnants and it can be considered an alternative method for alleviating dysphagia in stroke patients who can tolerate tracheostomy tube capping when post-swallow remnants are observed.
Deglutition ; Deglutition Disorders* ; Esophageal Sphincter, Upper ; Fluoroscopy ; Humans ; Methods ; Physiology ; Prospective Studies ; Pyriform Sinus ; Stroke* ; Tracheostomy*

BACKGROUNDIt is not clear whether the benefits of tracheostomy remain the same in the population. This study aimed to better examine the effect of tracheostomy on clinical outcome among prolonged ventilator patients.

METHODSData were from the medical claims data in Taiwan. A total of 3880 patients with ventilator use for more than 14 days between 2005 and 2009 were identified. Among them, 645 patients with tracheostomy conducted within 30 days of ventilator use were compared to 2715 patients without tracheostomy on death during hospitalization and study period, and successful weaning and medical utilization during hospitalization. Cox proportional hazards and linear regression models were used to examine the associations between tracheostomy and the main outcomes.

RESULTSThe tracheostomy rate was 30%, and 55% of tracheostomies were performed within 30 days of mechanical ventilation. After adjustments, patients with tracheostomy were at a lower risk of death during hospitalization (hazard ratio [HR] =0.51; 95% confidence interval [CI] =0.43-0.61) and 5-year observation (HR = 0.73; 95% CI = 0.66-0.81), and a lower probability of successful weaning (HR = 0.88; 95% CI = 0.79-0.99). Higher medical use was also observed in patients with tracheostomy.

CONCLUSIONSThe beneficial effect for tracheostomy observed in our data was the reduction of death. However, patients with tracheostomy were less likely to wean and more likely to consume medical resources.

Aged ; Aged, 80 and over ; Female ; Hospitalization ; Humans ; Male ; Respiration, Artificial ; adverse effects ; Tracheostomy ; Ventilator Weaning ; methods

Blood Loss, Surgical ; Humans ; Postoperative Complications ; epidemiology ; Tracheostomy ; adverse effects ; methods

OBJECTIVETo sum up our experience in percutaneous dilatational tracheostomy (PDT) in ICU patient with severe brain injury.

METHODSBetween November 2011 and April 2014, PDTs were performed on 32 severe brain injury patients in ICU by a team of physicians and intensivists. The success rate, efficacy, safety, and complications including stomal infection and bleeding, paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, as well as clinically significant tracheal stenosis were carefully monitored and recorded respectively.

RESULTSThe operations took 4-15 minutes (mean 9.1 minutes ± 4.2 minutes). Totally 4 cases suffered from complications in the operations: 3 cases of stomal bleeding, and 1 case of intratracheal bloody secretion, but none required intervention. Paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, or clinically significant tracheal stenosis were not found in PDT patients. There was no procedure-related death occurring during or after PDT.

CONCLUSIONOur study demonstrats that PDT is a safe, highly effective, and minimally invasive procedure. The appropriate sedation and airway management perioperatively help to reduce complication rates. PDT should be performed or supervised by a team of physicians with extensive experience in this procedure, and also an intensivist with experience in difficult airway management.

Brain Injuries ; therapy ; Critical Care ; Humans ; Operative Time ; Postoperative Complications ; Tracheostomy ; methods ; Treatment Outcome