患者女,因左眼睑反复红肿3个月余就诊。眼眶CT检查:左眶前部可见边界清楚的低密度软组织影,病变向眶外上方延伸,通过位于蝶骨大翼与蝶骨嵴交汇处侵蚀性骨孔与颅内病变沟通。颅内可见额叶、颞叶散在分布的团块状高密度病灶。眼眶MRI检查:边界清楚的异常信号病灶从左上睑延伸至眶上方和眶外上方,呈囊性改变。颅内病变呈混杂信号,散在分布于颞叶和额叶。临床诊断为左眼眶、颅沟通性病变。于全身麻醉下行左眼眶病变切除术,术后病理诊断为眼眶棘球蚴囊肿(包虫病)。发生于眶、颅的沟通性包虫病少有报道,本病例提示对于眶、颅沟通性包虫病需要根据病变的性质、位置采取个性化治疗原则,术前影像学检查的判断分析是辅助治疗的重要手段。
A young female patient complained of recurrent redness and swelling of the right eyelid for more than 3 months.Orbital CT examination showed that low density soft tissue density shadow with clear boundary can be seen in the anterior part of the left orbit. The lesion extended to the upper part of the orbit and communicated with the intracranial lesion through the erosive foramen at the intersection of the great wing of the sphenoid bone and the sphenoid ridge. There were massive high-density lesions in the frontal and temporal lobes. MRI examination of orbit showed that the left upper eyelid extended to the upper orbit and the upper extraorbital region. There were cystic signal of the orbit lesion and mixed signals of intracranial scattering in temporal and frontal lobes. The clinical diagnosis was left orbital cranial communicating lesion. The patient underwent orbital tumor resection under general anesthesia and was diagnosed as echinococcosis by postoperative pathology. This case suggests that for orbital cranial communicating echinococcosis, individualized treatment should be adopted according to the nature and location of the lesions, in which imaging examination are important.
患者女,因左眼睑反复红肿3个月余就诊。眼眶CT检查:左眶前部可见边界清楚的低密度软组织影,病变向眶外上方延伸,通过位于蝶骨大翼与蝶骨嵴交汇处侵蚀性骨孔与颅内病变沟通。颅内可见额叶、颞叶散在分布的团块状高密度病灶。眼眶MRI检查:边界清楚的异常信号病灶从左上睑延伸至眶上方和眶外上方,呈囊性改变。颅内病变呈混杂信号,散在分布于颞叶和额叶。临床诊断为左眼眶、颅沟通性病变。于全身麻醉下行左眼眶病变切除术,术后病理诊断为眼眶棘球蚴囊肿(包虫病)。发生于眶、颅的沟通性包虫病少有报道,本病例提示对于眶、颅沟通性包虫病需要根据病变的性质、位置采取个性化治疗原则,术前影像学检查的判断分析是辅助治疗的重要手段。
A young female patient complained of recurrent redness and swelling of the right eyelid for more than 3 months. Orbital CT examination showed that low density soft tissue density shadow with clear boundary can be seen in the anterior part of the left orbit. The lesion extended to the upper part of the orbit and communicated with the intracranial lesion through the erosive foramen at the intersection of the great wing of the sphenoid bone and the sphenoid ridge. There were massive high-density lesions in the frontal and temporal lobes. MRI examination of orbit showed that the left upper eyelid extended to the upper orbit and the upper extraorbital region. There were cystic signal of the orbit lesion and mixed signals of intracranial scattering in temporal and frontal lobes. The clinical diagnosis was left orbital cranial communicating lesion. The patient underwent orbital tumor resection under general anesthesia and was diagnosed as echinococcosis by postoperative pathology. This case suggests that for orbital cranial communicating echinococcosis, individualized treatment should be adopted according to the nature and location of the lesions, in which imaging examination are important.