1.Advances in the treatment of infantile hemangiomas of the larynx.
Xing GAO ; Xiaojun ZHAN ; Qinglong GU
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2023;37(12):972-976
Infantile hemangiomas are relatively common soft tissue tumors in infants and young children, with a prevalence of about 4.5% in full-term newborns. Subglottic Hemangioma (SGH) is a relatively rare type of hemangioma, and its special location often causes respiratory distress and potentially life-threatening conditions in infants. Therefore, it is necessary for clinicians to make an accurate diagnosis and formulate a detailed treatment plan based on the clinical manifestations, the auxiliary examinations, the medical history and the vital signs evaluation of patients.This review describes the pathophysiological mechanism of infantile hemangioma and provides a detailed discussion on commonly used treatment methods in detail.
Child, Preschool
;
Humans
;
Infant
;
Infant, Newborn
;
Hemangioma/diagnosis*
;
Hemangioma, Capillary
;
Laryngeal Neoplasms/surgery*
;
Larynx/pathology*
;
Soft Tissue Neoplasms
5.A Case of Sporadic Suprasellar Hemangioblastoma Mimicking Meningioma
Byung moo KANG ; Sang Min YOUN
Brain Tumor Research and Treatment 2019;7(2):147-150
Hemangioblastoma (HBL) in the suprasellar region is very rare and a few cases have been reported. Suprasellar HBL without von Hippel-Lindau disease is much rarer. A 76-year old male patient presented progressively deteriorating visual disturbance. MRI demonstrated solid suprasellar mass of 20 mm in diameter, broadly based to planum sphenoidale and diaphragm sella and dural tail sign after the administration of gadolinium diethylene triamine penta-acetic acid (Gd-DTPA). Preoperative diagnosis was meningioma. Total resection of the tumor was not accomplished because of massive hemorrhage, and the histopathologic examination revealed the tumor to be HBL. The visual disturbance of the patient was not improved. The authors reviewed the literature and considered a differential diagnosis of suprasellar tumors and treatment of suprasellar HBL.
Diagnosis
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Diagnosis, Differential
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Diaphragm
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Gadolinium
;
Hemangioblastoma
;
Hemorrhage
;
Humans
;
Magnetic Resonance Imaging
;
Male
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Meningioma
;
Tail
;
Temazepam
;
von Hippel-Lindau Disease
6.Experience Profiling of Fluorescence-Guided Surgery II: Non-Glioma Pathologies
So Young JI ; Jin Wook KIM ; Chul Kee PARK
Brain Tumor Research and Treatment 2019;7(2):105-111
BACKGROUND: Only sporadic reports of fluorescence-guided surgery (FGS) have been published for non-glioma conditions. In this study, we focus on epidemiological data of fluorescence patterns and report the diverse experiences of FGS in non-gliomas. METHODS: During 8.5 years between July 2010 and January 2019, 900 FGS for brain tumor performed in Seoul National University Hospital. Among them, a total of 73 histologically proven non-glioma patients were analyzed. Indications for FGS have been the possibility of anaplastic tumor in intra-axial tumors in preoperative MRI and an attempt to reproduce known anecdotal experiences of 5-Aminolevulinic Acid (5-ALA) fluorescence. RESULTS: In cases of brain tumors except for gliomas, the most frequent cases were brain metastasis (23 cases) followed by lymphomas (9 cases) and meningeal tumors (8 cases). And there were embryonal tumors (6 cases), hemangioblastomas (4 cases), and solitary fibrous tumor/hemangiopericytomas (3 cases). Most brain metastases, meningiomas, primary central nervous system lymphomas, and treatment effect cases showed positive fluorescence. Moreover, some non-tumorous conditions also showed positive fluorescence. However, hemangioblastoma and germ cell tumor did not observe any fluorescence at all. CONCLUSION: 5-ALA induced fluorescence is not limited to glioma but is also evident in non-glioma and non-neoplastic conditions. This 5-ALA-induced fluorescence may be used as an intraoperative tool for various brain conditions.
Brain
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Brain Neoplasms
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Central Nervous System
;
Fluorescence
;
Glioma
;
Hemangioblastoma
;
Humans
;
Lymphoma
;
Magnetic Resonance Imaging
;
Meningeal Neoplasms
;
Meningioma
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Neoplasm Metastasis
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Neoplasms, Germ Cell and Embryonal
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Pathology
;
Seoul
7.Clinical Features of Von-Hippel-Lindau Syndrome and Its Ultrasonographic Diagnosis of Abdominal Mass.
Rui Na ZHAO ; Bo ZHANG ; Yu Xin JIANG
Acta Academiae Medicinae Sinicae 2019;41(5):658-662
Objective To analyze the clinical features of Von-Hippel-Lindau(VHL)syndrome and explore the diagnostic value of abdominal ultrasound for this disease.Methods The clinical features including age at first diagnosis,symptoms,signs,affected organs,number of operations,and diagnostic examinations of 35 patients with VHL syndrome admitted to our center from January 1994 to December 2017 were retrospectively analyzed.The diagnostic value of abdominal ultrasound for VHL syndrome was analyzed.Results Pheochromocytoma(=14)and nervous system hemangioblastoma(=13)were the common firstly-identified tumors.Nervous system hemangioblastoma(=21),pheochromocytoma(=19),renal carcinoma(=17),and pancreatic mass(=15)were common tumors.The main surgical reasons were nervous system hemangioblastoma(=22),pheochromocytoma(=23)and renal carcinoma(=13).Abdominal organ involvements were found in 33 patients,which were first detected by abdominal ultrasound in 20 patients and were found accidently during routine health checkups in 6 patients.The ultrasound results were accurate in 27 of 33 adrenal gland scans,13 of 16 pancreas scans,and 8 of 19 kidney scans.Conclusions When multiple tumors are detected in the kidney,adrenal gland,and pancreas by ultrasound,the possibility of VHL syndrome should be considered.When the clinical findings suggest the possibility of VHL syndrome,ultrasound can discover and diagnose the abdominal tumors and can also be used for the long-term follow-up of the tumors.Therefore,ultrasound is an important method in the screening and follow-up of patients with VHL syndrome.
Abdomen
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diagnostic imaging
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Adrenal Gland Neoplasms
;
diagnostic imaging
;
Hemangioblastoma
;
diagnostic imaging
;
Humans
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Pheochromocytoma
;
diagnostic imaging
;
Retrospective Studies
;
Ultrasonography
;
von Hippel-Lindau Disease
;
complications
;
diagnostic imaging
8.Value of Diffusion-weighted Imaging and Apparent Diffusion Coefficient in the Differential Diagnosis of Posterior Fossa Solid Hemangioblastoma.
Mei Zheng HAO ; Long Meng ZHENG ; Xing Xin MA ; Hong Chun HU ; Ming Jian XING ; Fei Hong ZHU
Acta Academiae Medicinae Sinicae 2019;41(6):756-760
To investigate the value of diffusion-weighted imaging(DWI)and apparent diffusion coefficient(ADC)in the diagnosis and differential diagnosis of posterior fossa solid hemangioblastoma(PFSH). We retrospectively analyzed the clinical data of 15 PFSH patients and 58 patients with other hypervascular tumors in the posterior fossa(the latter included 23 cases of meningioma,5 cases of medulloblastoma,8 cases of acoustic neuroma,4 cases of hemangiopericytoma,5 cases of lymphoma,9 cases of metastatic tumor,3 cases of astrocytoma,and 1 case of choroid plexus papilloma)confirmed by operation and pathology.All patients underwent axial DWI scans,and the mean ADC value of solid part of the tumors and the adjacent normal cerebellar white matter were measured,and then the normalized ADC was calculated.In addition, test was used to compare the differences in mean ADC and normalized ADC between these two groups,and receiver operating characteristic(ROC)curve was applied to analyze the diagnostic performance of normalized ADC. Of all the 15 PFSH patients,DWI appeared hypointense in 12 patients and isointense in 3 patients;the signals on ADC maps were isointense or hyperintense;the mean ADC value of PFSHs was(1.881±0.445)×10 mm /s and the normalized ADC was 2.70±0.62.In contrast,in 58 patients with other tumors in the posterior fossa,DWI appeared hyperintense in 51 cases,isointense in 3 cases,and hypointense in 4 cases;the mean ADC value was(0.771±0.202)×10 mm /s,and the normalized ADC was 1.17±0.33.Thus,the ADC value and normalized ADC value were significantly higher in PFSH than in other tumors in the posterior fossa(=9.419,<0.001;=9.184,<0.001).The cut-off value of the normalized ADC for the diagnosis of solid hemangioblastoma was 1.89,with the sensitivity and specificity being 100%and 96.6%respectively,and the area under the ROC curve was 0.989. ADC and normalized ADC are valuable in the differential diagnosis of PFSH from other tumors with abundant blood supply.
Diagnosis, Differential
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Diffusion Magnetic Resonance Imaging
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Hemangioblastoma
;
diagnosis
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Humans
;
ROC Curve
;
Retrospective Studies
9.Cystic Meningiomas: Correlation between Radiologic and Histopathologic Features.
Kyeong o GO ; Kwangho LEE ; Won HEO ; Young Seok LEE ; Young Seop PARK ; Sung Kwon KIM ; Jeong hee LEE ; Jin Myung JUNG
Brain Tumor Research and Treatment 2018;6(1):13-21
BACKGROUND: Tumors with cysts often correlate with gliomas, metastatic tumors, or hemangioblastomas, which require differentiation. METHODS: Thirty-eight cases of cyst associated-meningioma based on preoperative radiologic studies and histologic confirmations were reviewed from November 1998 to July 2017. RESULTS: A total of 395 cases of meningioma were observed in the 20 years, and surgical treatment of intracranial meningioma was performed in 120 cases. Thirty-eight (9.6%) cases of cyst associated meningiomas were analyzed. Nauta type I was the most common type of cyst (39.5%) and the most frequent histopathological subtype was meningothelial type (36.8%). CONCLUSION: Statistically there were no significant associations between meningioma histopathological type and associated cysts; however, the rate of World Health Organization grade II was higher in cyst associated meningiomas than in unrelated meningiomas. This correlation was weak, in accordance with the meningioma grade.
Glioma
;
Hemangioblastoma
;
Meningioma*
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Neuropathology
;
World Health Organization
10.A Case of Superficial Spreading Capillary Hemangioma.
Suk young LEE ; Jong Baik KIM ; Hoo Min CHOI ; Sung Min KIM ; Eun Jung KO ; Byung In RO ; Han Kyoung CHO
Korean Journal of Dermatology 2018;56(6):396-397
No abstract available.
Capillaries*
;
Hemangioma, Capillary*

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