Litigation in pediatric otorhinolaryngology: Lessons in improving patient care.

OBJECTIVE(S): Medico-legal claims involving children place a substantial financial burden on health services and have a profound emotional and psychological impact on clinicians. Our objective was to analyze both the common causes and cost of litigation in pediatric otorhinolaryngology. METHODS: A retrospective review of all clinical negligence claims within pediatric otolaryngology (0-17 years inclusive) in NHS (National Health Service) England held by the clinical negligence service 'NHS Resolution between' 4/2013 and 4/2020. RESULTS: There were 100 claims in pediatric otorhinolaryngology accounting for an estimated potential total cost of just under £49 million with an average of 14 claims per year. Over half (52%) of claims were related to an operation with cause codes "Operator Error/Intra-Op Problem", "Diathermy Injury" and "Failure to Warn - Consent" most cited. The most common operation cited in a claim was tonsillectomy with an average cost per claim of £47,084. There were 21 claims coded as either "failure to diagnose" or "failure to treat" in relation to cholesteatoma, with an average cost per claim of £61,086. CONCLUSION: This is the largest study to date analyzing the reasons and potential cost of clinical negligence claims within pediatric otolaryngology. Many learning opportunities exist to reduce patient morbidity, mortality and improve the patient experience through litigation data analysis.

Quantitative Measurements in Otological Surgery: Use of an Endoscopic Integrated Multipoint Laser System.

OBJECTIVES: Assess the clinical utility of an Endoscopic Integrated Multipoint Laser System (EMLS) to otology. This is an emerging technology from automotive engineering that may offer the ability to accurately measure anatomy and pathology using an endoscope while undertaking ear surgery. PATIENTS: Simulated otology patients were used incorporating the Phacon Temporal Bone synthetic models and Kyoto Kagaku Ear Examination Simulator models to allow assessment of the EMLS technology in evaluating external ear and middle ear pathology, e.g., perforation or prosthesis sizing. INTERVENTION: Eight otolaryngology resident and fellows at a tertiary university teaching hospital were given training in EMLS and reviewed simulated anatomy and pathology within the models including tympanic membrane perforation, ossicular discontinuity, and a cochleostomy. MAIN OUTCOME MEASURE: Variance in measurement was assessed in relation to those made manually by an independent surgeon using surgical calipers (0.1 mm). RESULTS: The 8 participants produced 47 mean measurements. The mean difference from independently made manual measurement was 0.294 mm (standard error of the mean 0.033). Maximum variance was 0.98 mm and minimum 0.01 mm. CONCLUSION: Use of an integrated endoscopic laser measurement tool allows reliable, easy-to-obtain measurements to be obtained within a simulated otological surgical environment. Translation of the technology to a thinner delivery system through a rigid endoscope offers further promise for routine use in a clinical setting.

Endoscopic Multipoint Laser System for Objective Pediatric Airway Assessment.

Recent technological advances within aeronautical engineering have demonstrated the delivery of objective quantitative endoscopic measurements to within one-hundredth of a millimeter. We sought to validate this emerging laser technology in a simulation-based assessment of pediatric airway stenosis. A 4.4-mm flexible endoscope, incorporating a laser measurement system projecting 49 laser points into the endoscopic view, was used to assess a simulated model of subglottic stenosis. Multiple anteroposterior and lateral measurements were obtained for each stenosis and compared with standard airway assessment techniques. Intra- and interobserver reliability was assessed. A total of 240 multipoint laser measurements were obtained of simulated airway stenosis. The mean difference from manual measurement was 0.1886 mm. The Bland-Altman plot showed low bias (0.011) and narrow 95% limits of agreement (-0.46 to 0.48). This advanced endoscopic measurement technique shows great promise for clinical development to benefit ongoing assessment and treatment of evolving pediatric airway stenosis.