Objective To analysis the imaging features of the chondroblastoma in the tarsal bone. Methods The locations of 134 cases of pathologically confirmed chondroblastoma were retrospectively analyzed. Eleven of them were in tarsal bones and their X-ray and CT findings were analyzed. Results Of the 11 cases of tarsal chondroblastoma, 6 were in talus, 3 were in calcaneus and 2 cases were in navicular bones. They were examined by the X-ray and 5 cases had additional CT scans. The common locations were the posterior portion of the talus and calcaneus. The X-ray findings included expansive destruction (10/11), mild osteosclerosis (11/11), bone ridge (9/11), articular facet destruction (7/11) and spot or patching calcification(6/11). The imaging findings of CT included articular facets destruction (5/5), bone ridge (5/5) and spot or patching calcification (2/5). Conclusion The talus and the calcaneus are the frequently involved location of tarsal chondroblastoma. Its X-ray and CT findings are characteristic but not exclusive.

Objective:To analyze the clinical diagnosis, treatment ，and surgical timing of otogenic intracranial complications. Methods:The clinical data of 11 patients with intracranial complications with ear symptoms as the first manifestation in Department of Otorhinolaryngology Head and Neck Surgery, Qilu Hospital of Shandong University（Qingdao） from December 2014 to June 2022 were collected, including 8 males and 3 females, aged from 4 to 69 years. All patients had complete otoendoscopy, audiology, imaging and etiology examination, and the diagnosis and treatment plan was jointly developed through multidisciplinary consultation according to the critical degree of clinical symptoms and imaging changes. Among the 11 patients, 5 cases were treated with intracranial lesions first in neurosurgery department and middle ear lesions later in otolaryngology, 3 cases of meningitis, were treated with middle ear surgery after intracranial infection control, 1 case was treated with middle ear lesions and intracranial infection simultaneously, and 2 cases were treated with sigmoid sinus and transverse sinus thrombosis conservatively. They were followed up for 1-6 years. Descriptive statistical methods were used for analysis. Results:All the 11 patients had ear varying symptoms, including ear pain, pus discharge and hearing loss, etc, and then fever appeared, headache, disturbance of consciousness, facial paralysis and other intracranial complication. Otoendoscopy showed perforation of the relaxation of the tympanic membrane in 5 cases, major perforation of the tension in 3 cases, neoplasia in the ear canal in 1 case, bulging of the tympanic membrane in 1 case, and turbidity of the tympanic membrane in 1 case. There were 4 cases of conductive hearing loss, 4 cases of mixed hearing loss and 3 cases of total deafness. Imaging examination showed cholesteatoma of the middle ear complicated with temporal lobe brain abscess in 4 cases, cerebellar abscess in 2 cases, cholesteatoma of the middle ear complicated with intracranial infection in 3 cases, and sigmoid sinus thrombophlebitis in 2 cases. In the etiological examination, 2 cases of Streptococcus pneumoniae were cultured in the pus of brain abscess and cerebrospinal fluid, and 1 case was cultured in streptococcus vestibularis, Bacteroides uniformis and Proteus mirabilis respectively. During the follow-up, 1 patient died of cardiovascular disease 3 years after discharge, and the remaining 10 patients survived. There was no recurrence of intracranial and middle ear lesions. Sigmoid sinus and transverse sinus thrombosis were significantly improved. Conclusion:Brain abscess, intracranial infection and thrombophlebitis are the most common otogenic intracranial complications, and cholesteatoma of middle ear is the most common primary disease. Timely diagnosis, multidisciplinary collaboration, accurate grasp of the timing in the treatment of primary focal and complications have improved the cure rate of the disease.
Female ; Humans ; Male ; Brain Abscess/therapy* ; Cholesteatoma ; Deafness/etiology* ; Hearing Loss/etiology* ; Lateral Sinus Thrombosis/therapy* ; Retrospective Studies ; Thrombophlebitis/therapy* ; Child, Preschool ; Child ; Adolescent ; Young Adult ; Adult ; Middle Aged ; Aged ; Cholesteatoma, Middle Ear/therapy* ; Central Nervous System Infections/therapy* ; Sinus Thrombosis, Intracranial/therapy* ; Ear Diseases/therapy*

OBJECTIVE To study the extraction and enrichment technology of chrysosplenides A （CA） and I （CI） in Tibetan medicine Chrysosplenium axillare. METHODS HPLC method was used to determine the contents of CA and CI. The orthogonal experiment was used to optimize the extraction technology of CA and CI in C. axillare using total transfer rate of CA and CI as evaluation indexes， with volume fraction of ethanol， extraction temperature， extraction times and solid-liquid ratio as factors. The validation test was also performed. The enrichment technology of CA and CI in C. axillare was optimized using D101 macroporous adsorption resin as adsorbent， total contents of CA and CI as evaluation indexes， with the volume fraction and dosage of eluent for impurities and target components. The validation test was also performed. RESULTS The optimum extraction conditions of CA and CI from C. axillare were as follows： the medicinal powder of C. axillare was extracted by ultrasound at room temperature for 45 min at one time with 8 times of 50% ethanol. Results of validation tests showed that total transfer rate of CA and CI in C. axillare was 95.43% in average （RSD＝1.02%， n＝3）. The optimal enrichment technology was as follows： the sample solution was added into D101 macroporous adsorption resin column and stood for 1 hour； the impurities were eluted with 20% ethanol 4 BV （column volume）， and CA and CI were eluted with 50% ethanol 4 BV. The results of validation tests showed that total content of CA and CI was 322.7 mg/g in average （RSD＝1.05%， n＝3）， with average enrichment multiple of 11.61 times. CONCLUSIONS The study has successfully optimized the extraction and enrichment technology of CA and CI from C. axillare， and can provide reference for the development and utilization of CA and CI.