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Ensuring that ingested fishbones that migrate to the neck are located, diagnosed, and removed early.
European Archives of Oto-rhino-laryngology 2024 April 17
OBJECTIVES: The aim of this retrospective study was to explore the clinical characteristics of and diagnostic and therapeutic strategies for the removal of fish bones that migrate to the neck.
METHODS: We reviewed the clinical data of 30 patients over the past 12 years who underwent neck surgery in our otorhinolaryngology department for the migration of fish bones from the throat. The location of fish bones and the positivity rate of different examination methods (neck CT and B-ultrasound) were evaluated statistically. The diagnosis and treatment strategy for fish bone migration to the neck was also summarized.
RESULTS: A total of 24 patients had a history of foreign body ingestion. The duration from foreign body ingestion to the appearance of symptoms in the neck ranged from 26 to 151 days, with a median of 50 days (interquartile range, 32-86 days). Among the 24 patients with fish bones located in the front or side of the neck, 50% (12/24) and 100% (24/24) of whom had positive neck CT and B-ultrasound results, respectively. Additionally, for 6 patients with fish bones in the retropharyngeal space, the positive rate for neck CT was 100%, whereas neck B-ultrasound showed negative results due to the air and depth in the trachea and esophagus. A strong correlation was observed between the length of fish bones detected by B-ultrasound and CT and the actual length. Indeed, no significant difference was observed between the length of fish bone determined by B-ultrasound and the actual length. In patients with fish bones located in the anterior and lateral neck regions, the foreign bodies were successfully removed by a lateral cervical approach operation (23/24). For the 6 cases with fish bones located in the retropharyngeal space, all (6/6) were removed by incising the posterior pharyngeal wall with assistance from transoral endoscopy.
CONCLUSIONS: The techniques of B-ultrasound and CT have advantages for the diagnosis of migratory foreign bodies in the neck. Although B-ultrasound is more accurate for estimating the length of migratory fish bones in the neck, a combination of both methods can improve the preoperative positive rate of diagnosis. Therefore, a variety of surgical approaches should be employed to manage the different locations of cervical foreign bodies.
METHODS: We reviewed the clinical data of 30 patients over the past 12 years who underwent neck surgery in our otorhinolaryngology department for the migration of fish bones from the throat. The location of fish bones and the positivity rate of different examination methods (neck CT and B-ultrasound) were evaluated statistically. The diagnosis and treatment strategy for fish bone migration to the neck was also summarized.
RESULTS: A total of 24 patients had a history of foreign body ingestion. The duration from foreign body ingestion to the appearance of symptoms in the neck ranged from 26 to 151 days, with a median of 50 days (interquartile range, 32-86 days). Among the 24 patients with fish bones located in the front or side of the neck, 50% (12/24) and 100% (24/24) of whom had positive neck CT and B-ultrasound results, respectively. Additionally, for 6 patients with fish bones in the retropharyngeal space, the positive rate for neck CT was 100%, whereas neck B-ultrasound showed negative results due to the air and depth in the trachea and esophagus. A strong correlation was observed between the length of fish bones detected by B-ultrasound and CT and the actual length. Indeed, no significant difference was observed between the length of fish bone determined by B-ultrasound and the actual length. In patients with fish bones located in the anterior and lateral neck regions, the foreign bodies were successfully removed by a lateral cervical approach operation (23/24). For the 6 cases with fish bones located in the retropharyngeal space, all (6/6) were removed by incising the posterior pharyngeal wall with assistance from transoral endoscopy.
CONCLUSIONS: The techniques of B-ultrasound and CT have advantages for the diagnosis of migratory foreign bodies in the neck. Although B-ultrasound is more accurate for estimating the length of migratory fish bones in the neck, a combination of both methods can improve the preoperative positive rate of diagnosis. Therefore, a variety of surgical approaches should be employed to manage the different locations of cervical foreign bodies.
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