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Cancer Imaging : the Official... Oct 2023Accuracy of head and neck MRI (HN-MRI) in predicting tumor invasion of laryngeal site/subsites in patients with laryngeal cancer prior to laryngectomy is poorly...
BACKGROUND
Accuracy of head and neck MRI (HN-MRI) in predicting tumor invasion of laryngeal site/subsites in patients with laryngeal cancer prior to laryngectomy is poorly evaluated in the literature. Therefore, we aim to evaluate the diagnostic value of HN-MRI in accurate pre-operative estimation of tumor invasion to laryngeal subsites in patients with laryngeal cancer.
METHODS
Patients with laryngeal cancer who underwent HN-MRI for cancer staging and underwent total laryngectomy between 2008 and 2021 were included. Sensitivity, specificity, positive predictive value, negative predictive value, and overall accuracy of HN-MRI in predicting tumor invasion of laryngeal subsites were calculated based on concordance between the HN-MRI and histopathological results.
RESULTS
One hundred and thirty-seven patients underwent total laryngectomy [primary: 82/137(60%), salvage 55/137(40%)]. The utilization of HN-MRI resulted in the downstaging of 16/137 (11.6%) patients and the upstaging of 8/137 (5.8%) patients. For the whole cohort, there was a significant discordance between HN-MRI and histopathology for T-category; out of 116 cT4a disease, 102(87.9%) were confirmed to have pT4a disease, and out of 17 cT3 disease, 9(52.9%) were confirmed to have pT3 disease, p < 0.001. The MRI overall diagnostic accuracy of predicting tumor invasion was 91%, 92%, 82%, 87%, 72%, 76%, 65% and 68% for base of tongue, arytenoid, vocal cord, posterior commissure, pre-epiglottic space, cricoid cartilage, inner thyroid cortex, and subglottis, respectively.
CONCLUSIONS
In patients with laryngeal cancer undergoing total laryngectomy, HN-MRI demonstrates promising accuracy in predicting tumor invasion of specific laryngeal subsites (e.g., base of tongue). Our findings showed the potential of HN-MRI as a valuable tool for pre-operative planning and treatment decision-making in this patient population.
Topics: Humans; Laryngeal Neoplasms; Neoplasm Invasiveness; Magnetic Resonance Imaging; Neoplasm Staging; Laryngectomy; Retrospective Studies
PubMed: 37858162
DOI: 10.1186/s40644-023-00618-y -
Computers in Biology and Medicine Nov 2023The efficacy of inhalation therapy depends on the drug deposition in the human respiratory tract. This study investigates the effects of vocal fold adduction on the...
BACKGROUND
The efficacy of inhalation therapy depends on the drug deposition in the human respiratory tract. This study investigates the effects of vocal fold adduction on the particle deposition in the glottis.
METHODS
A realistic mouth-throat (MT) geometry was built based on CT images of a healthy adult (MT-A). Mild (MT-B) and great (MT-C) vocal fold (VF) adduction were incorporated in the original model. Monodisperse particles range in size from 3 to 12 μm were simulated at inspiration flow rates of 15, 30 and 45 L per minute (LPM). The regional deposition of drug aerosols was performed in 3D-printed models and quantified using high-performance liquid chromatography.
RESULTS
Both the numerical analysis and in vitro experiments show that most particles are deposited in the mouth, pharynx and supraglottis, while few are deposited in the glottis and subglottis. For most cases in MT-A, the particle quantity in glottis is lower than 0.02 N/mm at 15 and 30 LPM while they increase dramatically at 45 LPM. It peaked at 0.347 N/mm for 5-μm particles at 45 LPM in MT-B and 2.324 N/mm for 6-μm particles at 30 LPM in MT-C. The lowest drug mass faction in the glottis in vitro were found at 15 LPM for MT-A and MT-C, and at 30 LPM for MT-B, whereas it peaked at 45 LPM for all MT models, 0.71% in MT-A, 1.16% in MT-B, and 2.53% in MT-C, respectively.
CONCLUSION
Based on the results of this study, larger particles are more likely to be deposited in the oral cavity, oropharynx, and supraglottis than in the glottis. However, particle deposition in the glottis generally increases with VF adduction and greater inspiratory flow rates.
Topics: Humans; Glottis; Vocal Cords; Models, Biological; Aerosols; Adult; Male; Models, Anatomic; Tomography, X-Ray Computed
PubMed: 37820560
DOI: 10.1016/j.compbiomed.2023.107537 -
Journal of Cancer Research and... Aug 2023An 8-year-old child was admitted to our ENT department for a year because of a hoarse voice. An endoscopic examination displayed that a cystic, solid lesion can be seen... (Review)
Review
An 8-year-old child was admitted to our ENT department for a year because of a hoarse voice. An endoscopic examination displayed that a cystic, solid lesion can be seen in the right subglottis. The lesion was removed using a CO2 laser under general anesthesia. Postoperative histopathology confirmed granular cell tumor (GCT), S-100(+), vimentin (+), and SOX-10(+). GCT, also known as the Abrikossoff tumor, is a rare benign tumor that rarely occurs in the larynx, particularly in children. This case report emphasizes that considerable attention should be given to the differential diagnosis of the laryngeal granulosa cell tumor. Given the recurrence risk of GCT, long-term postoperative follow-up is necessary.
Topics: Female; Humans; Child; Granular Cell Tumor; Larynx; Anesthesia, General; Diagnosis, Differential; Ovarian Neoplasms
PubMed: 37675739
DOI: 10.4103/jcrt.jcrt_2096_22 -
Experimental and Computational... 2023Laryngotracheal stenosis (LTS) is a type of airway narrowing that is frequently caused by intubation-related trauma. LTS can occur at one or multiple locations in the...
Laryngotracheal stenosis (LTS) is a type of airway narrowing that is frequently caused by intubation-related trauma. LTS can occur at one or multiple locations in the larynx and/or trachea. This study characterizes airflow dynamics and drug delivery in patients with multilevel stenosis. Two subjects with multilevel stenosis (S1 = glottis + trachea, S2 = glottis + subglottis) and one normal subject were retrospectively selected. Computed tomography scans were used to create subject-specific upper airway models. Computational fluid dynamics modeling was used to simulate airflow at inhalation pressures of 10, 25, and 40 Pa, and orally inhaled drug transport with particle velocities of 1, 5, and 10 m/s, and particle size range of 100 nm-40 µm. Subjects had increased airflow velocity and resistance at stenosis with decreased cross-sectional area (CSA): S1 had the smallest CSA at trachea (0.23 cm) and resistance = 0.3 Pa·s/mL; S2 had the smallest CSA at glottis (0.44 cm), and resistance = 0.16 Pa·s/mL. S1 maximal stenotic deposition was 4.15% at trachea; S2 maximal deposition was 2.28% at glottis. Particles of 11-20 µm had the greatest deposition, 13.25% (S1-trachea) and 7.81% (S2-subglottis). Results showed differences in airway resistance and drug delivery between subjects with LTS. Less than 4.2% of orally inhaled particles deposited at stenosis. Particle sizes with most stenotic deposition were 11-20 µm and may not represent typical particle sizes emitted by current-use inhalers.
PubMed: 37305073
DOI: 10.1007/s42757-022-0151-9 -
Indian Journal of Otolaryngology and... Jun 2023The main purpose of this study is to evaluate and understand the clinical profile of patients presenting to an Indian tertiary care referral centre with Laryngotracheal...
The main purpose of this study is to evaluate and understand the clinical profile of patients presenting to an Indian tertiary care referral centre with Laryngotracheal Stenosis (LTS) and also to emphasise on the outcomes after treatment in these patients. This is a prospective observational study conducted at a tertiary care referral centre which included 18 patients diagnosed with LTS. All patients were evaluated clinically and radiologically to evaluate the degree of stenosis, site and length of the stenotic segment involved, intervened surgical procedure, intraoperative and postoperative complications following the procedure were all documented and taken into consideration. The data collected was analysed. The most common etiological cause of LTS was post intubation (77.8%). 61.5% among the 13 intubated patients had a history of intubation for more than 10 days. 83.3% of the cases had stenosis at the level of the subglottis and cervical trachea level. Post intubational airway stenosis is the most common cause of LTS. A precise assessment of the laryngotracheal complex is the cornerstone of LTS management. The choice of treatment depends on the location, severity, and length of stenosis, as well as on the patient's comorbidities, history of previous interventions, and on the expertise of the surgical team. Application of topical Mitomycin c during surgery reduces the incidence of granulations. Close postoperative follow up for a long time and the necessity of more than one intervention improves results and can spare patients the morbidity and mortality associated with acute airway obstruction.
PubMed: 37275098
DOI: 10.1007/s12070-023-03528-4 -
Cureus Apr 2023Subglottic hemangiomas are rare in adulthood. The presence of the lesion in the subglottic region makes it even more unusual. Moreover, these lesions do not have a...
Subglottic hemangiomas are rare in adulthood. The presence of the lesion in the subglottic region makes it even more unusual. Moreover, these lesions do not have a typical course and involution changes as seen in the infantile forms. An elderly female initially came with a brief history of dyspnea and symptoms of upper respiratory tract infection. The patient also complained of a change of voice and noisy breathing, with a recent history of intubation following COVID-19 pneumonia and late-onset bronchial asthma. Flexible nasopharyngolaryngoscopy showed a mass below the vocal folds, which was seen to arise from the posterior subglottic region. The patient eventually underwent endoscopic excision of the lesion under general anesthesia and recovered well. Symptoms of hoarseness and stridor, along with a history of intubation, should raise a high index of suspicion for laryngeal diseases. A delay in the diagnosis of an obstructing lesion in the subglottis occurs in the presence of a confounding lung infection and overlap of clinical features with those of bronchial asthma. Surgical excision is required not only to alleviate obstructive symptoms but also to rule out malignancy.
PubMed: 37255907
DOI: 10.7759/cureus.38293 -
BMC Pulmonary Medicine May 2023Fiberoptic bronchoscopy (FOB) and bronchoscopic biopsy are the established methods for diagnosing and treating sputum crust. However, sputum crust in concealed locations...
BACKGROUND
Fiberoptic bronchoscopy (FOB) and bronchoscopic biopsy are the established methods for diagnosing and treating sputum crust. However, sputum crust in concealed locations can sometimes be missed or undiagnosed, even with bronchoscopy.
CASE PRESENTATION
We present the case of a 44-year-old female patient who experienced initial extubation failure and postoperative pulmonary complications (PPCs) due to the missed diagnosis of sputum crust by FOB and low-resolution bedside chest X-ray. The FOB examination showed no apparent abnormalities prior to the first extubation, and the patient underwent tracheal extubation 2 h after aortic valve replacement (AVR). However, she was reintubated 13 h after the first extubation due to a persistent irritating cough and severe hypoxemia, and a bedside chest radiograph revealed pneumonia and atelectasis. Upon performing a repeat FOB examination prior to the second extubation, we serendipitously discovered the presence of sputum crust at the end of the endotracheal tube. Subsequently, we found that the sputum crust was mainly located on the tracheal wall between the subglottis and the end of the endotracheal tube during the "Tracheobronchial Sputum Crust Removal" procedure, and most of the crust was obscured by the retained endotracheal tube. The patient was discharged on the 20th day following therapeutic FOB.
CONCLUSION
FOB examination may miss specific areas in endotracheal intubation (ETI) patients, particularly the tracheal wall between the subglottis and distal end of the tracheal catheter, where sputum crust can be concealed. When diagnostic examinations with FOB are inconclusive, high-resolution chest CT can be helpful in identifying hidden sputum crust.
Topics: Female; Humans; Adult; Bronchoscopes; Sputum; Airway Extubation; Missed Diagnosis; Bronchoscopy; Intubation, Intratracheal; Fiber Optic Technology
PubMed: 37131123
DOI: 10.1186/s12890-023-02457-w -
Pharmaceutics Mar 2023Subglottic stenosis represents a challenging clinical condition in otolaryngology. Although patients often experience improvement following endoscopic surgery,...
Subglottic stenosis represents a challenging clinical condition in otolaryngology. Although patients often experience improvement following endoscopic surgery, recurrence rates remain high. Pursuing measures to maintain surgical results and prevent recurrence is thus necessary. Steroids therapy is considered effective in preventing restenosis. Currently, however, the ability of trans-oral steroid inhalation to reach and affect the stenotic subglottic area in a tracheotomized patient is largely negligible. In the present study, we describe a novel trans-tracheostomal retrograde inhalation technique to increase corticosteroid deposition in the subglottic area. We detail our preliminary clinical outcomes in four patients treated with trans-tracheostomal corticosteroid inhalation via a metered dose inhaler (MDI) following surgery. Concurrently, we leverage computational fluid-particle dynamics (CFPD) simulations in an extra-thoracic 3D airway model to gain insight on possible advantages of such a technique over traditional trans-oral inhalation in augmenting aerosol deposition in the stenotic subglottic region. Our numerical simulations show that for an arbitrary inhaled dose (aerosols spanning 1-12 µm), the deposition (mass) fraction in the subglottis is over 30 times higher in the retrograde trans-tracheostomal technique compared to the trans-oral inhalation technique (3.63% vs. 0.11%). Importantly, while a major portion of inhaled aerosols (66.43%) in the trans-oral inhalation maneuver are transported distally past the trachea, the vast majority of aerosols (85.10%) exit through the mouth during trans-tracheostomal inhalation, thereby avoiding undesired deposition in the broader lungs. Overall, the proposed trans-tracheostomal retrograde inhalation technique increases aerosol deposition rates in the subglottis with minor lower-airway deposition compared to the trans-oral inhalation technique. This novel technique could play an important role in preventing restenosis of the subglottis.
PubMed: 36986764
DOI: 10.3390/pharmaceutics15030903