Thrombosis secondary to penetration of internal carotid artery due to soft palate impalement injury: A case report of hemiplegic syndrome and literature review.

Intraoral injuries are frequently encountered in emergency departments due to children's desire and curiosity to put objects in their mouths. However, forward falls with objects in children's mouths can cause impalement injuries to soft palate, retropharyngeal-peritonsillar, and retromolar tissues, leading to serious morbidity and even mortality. These transoral (soft palate, pharynx-tonsil, retromolar region) penetration injuries can especially result in damage to major vascular structures like the Internal Carotid Artery (ICA) due to their close proximity. Dissection, thrombosis, and subsequent stroke can occur in the delicate ICA as a result. In the presented case, a 3-year-old male child experienced internal carotid artery dissection following penetrating injury with a pen, as demonstrated by imaging studies. A literature review is provided along with the case of this child, who developed a reduction in middle cerebral artery (MCA) flow due to thrombosis in the ICA. The study encompasses all penetrating oropharyngeal traumas reported in individuals aged 0-18 years from 1936 to 2023. A search in PubMed and Google Scholar using keywords such as 'internal carotid artery injury,' 'penetrating trauma,' and 'children' yielded 78 case reports from a pool of 36,000 studies. The analysis excludes injuries in areas like tongue, cheek, gums, lips, and floor of the mouth, post-tonsillectomy injuries, and those from sudden braking vehicles. This review encompasses the evaluation, diagnosis, and treatment of penetrating injuries to the soft palate, pharyngeal wall, tonsil, and retromolar regions.

The use of non-contrast computed tomography and color Doppler ultrasound in the characterization of urinary stones - preliminary results.

OBJECTIVE: To investigate the role of density value in computed tomography (CT) and twinkling artifact observed in color Doppler analysis for the prediction of the mineral composition of urinary stones. MATERIAL AND METHODS: A total of 42 patients who were operated via percutaneous or endoscopic means and had undergone abdominal non-contrast CT and color Doppler ultrasonography examinations were included in the study. X-ray diffraction method was utilized to analyze a total of 86 stones, and the correlations between calculated density values and twinkling intensities with stone types were investigated for each stone. RESULTS: Analyses of extracted stones revealed the presence of 40 calcium oxalate monohydrate, 12 calcium oxalate dihydrate, 9 uric acid, 11 calcium phosphate, and 14 cystine stones. The density values were calculated as 1499±269 Hounsfield Units (HU) for calcium oxalate monohydrate, 1505±221 HU for calcium oxalate dihydrate, 348±67 HU for uric acid, 1106±219 HU for calcium phosphate, and 563±115 HU for cystine stones. The artifact intensities were determined as grade 0 in 15, grade 1 in 32, grade 2 in 24, and grade 3 in 15 stones. CONCLUSION: In case the density value of the stone is measured below 780 HU and grade 3 artifact intensity is determined, it can be inferred that the mineral composition of the stone tends to be cystine.