PURPOSE: The purpose of this study is to describe Magnetic Resonance(MR) findings of two epidural cavernous malformations of the spine. MATERIALS AND METHODS: MR imaging was performed in 2 patients(29-year-old man and 54-year-old woman). Sagittal T1 -, T2-weighted images and Gadolinium (Gd)-enhanced axial and sagittal images were acquired. Two patients had surgery and MR findings were compared with surgical and histopathological findings. RESULTS: MR imaging showed high- and low-signal intensity components of these lesions that were characteristic of an epidural cavernous malformation in one case. The other case showed a high signal intensity on T2- and strong enhancement on Gd-enhanced T1 -weighted images. We think that the former may be due to mixed subacute and chronic hemorrhage and the latter may be due to blood within the endotheliumlined sinusolds without hemorrhage. CONCLUSION: These findings were well correlated with the surgical and histo-pathological findings of cavernous malformation.
Gadolinium ; Hemorrhage ; Humans ; Magnetic Resonance Imaging* ; Middle Aged ; Spine*

Intraspinal neurenteric cysts are rare congenital lesions that results from abnormal separation of germ layers in the third week of embryonic development, which may cause spinal compression. Although, the diagnosis of neurenteric cyst was very difficult prior to operation, MRI has proven to be a useful imaging modality in detection, localization and characterization of intraspinal neurenteric cysts. We recently experienced intraspinal neurenteric cyst in two patients who presented with progerssive quadriparesis. Myelography, CT myelography and MRI were taken and complete excision was performed. The MRI findings are presented and the literature is reviewed.
Diagnosis ; Embryonic Development ; Female ; Germ Layers ; Humans ; Magnetic Resonance Imaging* ; Myelography ; Neural Tube Defects* ; Pregnancy ; Quadriplegia

Adenosis tumor is a ra re tumor of the breast and primarily consists of adenosis. Authors report a case of surgically proved adenosis tumor in a 31-year-old woman. Mammogram showed a Iobulated, well-circumscribed mass with several surrounding radiolucent halos. In the center of the mass several linear radiolucent densities were seen with the appearance of a conglomerated well-circumscribed mass such as fibroadenoma. These linear radiolucent densities were consistent with the fat between the fibrous sclerosis in pathologic specimen. Ultrasonogram showed a well-circumscribed mass with homogeneous low echogenicity, partial posterior enhancement, and bilateral acoustic shadowings.
Acoustics ; Adult ; Breast* ; Female ; Fibroadenoma ; Humans ; Sclerosis ; Shadowing (Histology) ; Ultrasonography

PURPOSE: To evaluate the usefulness, patterns and appearances of false positive lesions, and technical problems of CTAP(CT Arterioportography). MATERIALS AND METHODS: CTAP was done in 45 patients in whom hepatic lesions were suggested on other radiologic studies. CTAP findings were compared with the informations obtained by operations, biopsies, and follow-up imagings. Additional findings, which were not detected in other radiologic studies, false positive manifestations, and technical errors were analyzed. RESULTS: CTAP detected 51 additional hepatic lesions which are not detected in other imaging studies. Of the 51 lesions, ten were true positive hepatic tumors, 2 were inflammatory lesions and 39 were false positive .lesions. False positive lesions included perfusion defects of periportal and perifissural areas, subcapsular perfusion defects and nonlobar, nonsegmental geographic perfusion defects. In 2 cases, CTAP aided in deciding the surgical strategy. On the other hand, there were 4 cases causing interpretational confusion and 6 cases of improper imaging due to technical errors. CONCLUSION: CTAP was valuable in detection of additional hepatic cancer lesion as well as in making the treatment plan. However, since many false positive lesions and improper imaging due to technical error occur during the examination, the understanding of such problems is essential for correct interpretation of CTAP.
Biopsy ; Follow-Up Studies ; Hand ; Humans ; Liver Neoplasms ; Perfusion

PURPOSE: To evaluate the specific findings of infiltrating ductal carcinoma from the ductal carcinoma in situ (DCIS) and to differentiate from the atypical ductal hyperplasia(ADH). MATERIALS AND METHODS: Fifty breast lesions in 48 patients including thirty-six breasts of 36 patients with infiltrating ductal carcinoma, fourteen breasts of 12 patients with DCIS, and nine breasts of 7 patients with ADH were examined with FLASH technique using Gd-DTPA. We evaluated the maximal amount, the speed, and the pattern of enhancement after intravenous injection of Gd-DTPA(0.16mmol/kg body weight). Also we evaluated the diagnostic accuracy in the patients with breast cancer. RESULTS: The maximal amount of enhancement were 1,161.84 +/- 394.44 NU in infiltrating ductal carcinoma, 982.11 +/- 458.35 NU in DCIS, and 1,035.94 +/- 305.20 NU in ADH. The speed of enhancement was 827.33 +/- 384.20 NU within the first 1 minute with a sudden increase in signal intensity after injection and a much slighter in- crease thereafter in infiltrating ductal carcinoma. DCIS showed in creasing signal intensity within the first 2 minutes(749.70 +/- 487.36 NU), and ADH showed significant increased enhancement(765.40 +/- 313.61 NU) at 3 minutes after injection of Gd-DTPA. The patterns of enhancement were focal with irregular margins in infiltrating ductal carcinoma and irregular peripheral enhancement in DCIS and ADH. However, absent or extreme delayed enhancement at the central portion of the tumor was more frequently seen in infiltrating ductal carcinoma rather than DCIS or ADH. CONCLUSION: Gd-DTPA enhanced dynamic MRI was valuable in the diagnosis of breast cancer and in differentiating DCIS from ADH. Furthermore, it was effective in analyzing the extension of breast carcinoma, multiplicity, and bilaterality of breast carcinoma.
Breast Neoplasms* ; Breast* ; Carcinoma, Ductal ; Carcinoma, Intraductal, Noninfiltrating ; Diagnosis ; Gadolinium DTPA* ; Humans ; Injections, Intravenous ; Magnetic Resonance Imaging

PURPOSE: To evaluate the specific findings of infiltrating ductal carcinoma from the ductal carcinoma in situ (DCIS) and to differentiate from the atypical ductal hyperplasia(ADH). MATERIALS AND METHODS: Fifty breast lesions in 48 patients including thirty-six breasts of 36 patients with infiltrating ductal carcinoma, fourteen breasts of 12 patients with DCIS, and nine breasts of 7 patients with ADH were examined with FLASH technique using Gd-DTPA. We evaluated the maximal amount, the speed, and the pattern of enhancement after intravenous injection of Gd-DTPA(0.16mmol/kg body weight). Also we evaluated the diagnostic accuracy in the patients with breast cancer. RESULTS: The maximal amount of enhancement were 1,161.84 +/- 394.44 NU in infiltrating ductal carcinoma, 982.11 +/- 458.35 NU in DCIS, and 1,035.94 +/- 305.20 NU in ADH. The speed of enhancement was 827.33 +/- 384.20 NU within the first 1 minute with a sudden increase in signal intensity after injection and a much slighter in- crease thereafter in infiltrating ductal carcinoma. DCIS showed in creasing signal intensity within the first 2 minutes(749.70 +/- 487.36 NU), and ADH showed significant increased enhancement(765.40 +/- 313.61 NU) at 3 minutes after injection of Gd-DTPA. The patterns of enhancement were focal with irregular margins in infiltrating ductal carcinoma and irregular peripheral enhancement in DCIS and ADH. However, absent or extreme delayed enhancement at the central portion of the tumor was more frequently seen in infiltrating ductal carcinoma rather than DCIS or ADH. CONCLUSION: Gd-DTPA enhanced dynamic MRI was valuable in the diagnosis of breast cancer and in differentiating DCIS from ADH. Furthermore, it was effective in analyzing the extension of breast carcinoma, multiplicity, and bilaterality of breast carcinoma.
Breast Neoplasms* ; Breast* ; Carcinoma, Ductal ; Carcinoma, Intraductal, Noninfiltrating ; Diagnosis ; Gadolinium DTPA* ; Humans ; Injections, Intravenous ; Magnetic Resonance Imaging

Purpose: Additional surgery is recommended for patients after a non-curative endoscopic submucosal dissection (ESD) to prevent residual cancer (RC) or lymph node metastasis (LNM). We aimed to evaluate the clinicopathologic characteristics of patients who underwent an additional gastrectomy after a non-curative ESD procedure and identify the risk factors of RC and LNM. Methods: We retrospectively assessed the clinicopathological factors of 73 patients who underwent additional gastrectomy following a non-curative ESD between January 2009 and December 2019 at our center. Results: RC and LNM rates after additional gastrectomy were 9.6% and 8.2%, respectively. Invasion deeper than 500 μm (P = 0.045), positive horizontal resection margin (P < 0.001), and positive ESD margin (P = 0.001) were identified as statistically significant factors in univariate analysis for RC, but not in multivariate analysis. Lymphatic invasion was the only risk factor found to be significant in both univariate and multivariate analyses (P = 0.005 and P = 0.012). Conclusion Additional gastrectomy is necessary to prevent RC or LNM after non-curative ESD. Lymphatic invasion was also associated with LNM in patients who underwent an additional gastrectomy after a non-curative ESD, and in such cases, active treatment is required.

PURPOSE: The purpose of the study is to determine the mammographic and ultrasonographic features of the breasts with partial mastectomy and irradiation. MATERIALS AND METHODS: The authors reviewed the serial studies of 23 patients who had partial mastectomy and irradiation. Mammogram and ultrasonogram were perfomed every 6 months after surgery in all patients. Sixteen of 23 patients took mammogram and ultrasonogram 1 month after surgery additionally. We evaluated skin thickening, edema, new calclfication, and postoperative scar. RESULTS: Skin thickening was observed in all patients at initial study after surgery and were most pronounced 6 months after surgery. In the most of patients, increased breast density suggesting edema was seen at the initial study after surgery. Skin thickening and edema were most pronounced 6 months who had retumed to normal state 18 months after surgery in 3 of 5 patients who had serial studies until 18 months after surgery. Scars were noted in 20 of 23 patients and 9 of 20 patients had scars 6 months after surgery. The postoperative changes including skin thickening, edema, and scar were most pronounced at 6 months after surgery and had retumed to normal at 18 months after surgery. CONCLUSION: We conclude that postoperative imaging should be obtained 6 months after surgery, followed by every 6 month intervals, which can be effective in differentiating postoperative scar from recurrent carcinoma and can avoid invasive studies.
Breast Neoplasms* ; Breast* ; Cicatrix ; Edema ; Humans ; Mastectomy, Segmental* ; Skin ; Ultrasonography

The ischemic penumbra is defined as functionally impaired but salvageable ischemic brain tissue surrounding an irreversibly damaged core. Therefore, rapid and precise identification of the penumbra is of considerable interest for decision-making in acute stroke treatment. The region with perfusion abnormality but no diffusion lesion (the so-called diffusion-perfusion mismatch) identifies tissue that is hypoperfused but that not yet experienced advanced bioenergetic failure and represents the penumbra. Thus, diffusion-perfusion mismatch are predicted to have the most lesion growth and may benefit most from any perfusion-altering therapies. The time window available for salvage of the penumbra in selected patients may be much longer than the traditional, presumed 3- to 6-hour window and that diffusion-perfusion MRI has the ability to identify these patients. Multimodal MRI allows therapeutic decisions to be based on individual patient pathophysiological information, allowing the time window to be extended in appropriate patients.
Brain ; Diffusion ; Energy Metabolism ; Humans ; Magnetic Resonance Imaging* ; Perfusion ; Stroke*

PURPOSE: To assess regional cerebral blood volume and perfusion rate by MR imaging. MATERIALS AND METHODS:Eight normal volunteers and one patient underwent MR imaging after bolus injection of a double dose ofgadoinium(0.2mMol/kg). Gradient-echo EPI pulse sequencing was used, with TR/TE 1500/40msec, flip angle 90o, matrixsize 256X128. One hundred sequential images at the same level were obtained. The time-signal intensity curve wasplotted and converted to a time-concentration ( R2) curve. Relative cerebral blood volume was determined, withintegration of time-concentration curve pixel by pixel. Perfusion rate was determined by calculating maximal slopeof the R2 curve and the time taken to attain this. RESULTS: On volume maps, clear differentiation of gray matter,white matter and major vessels was established. The mean gray and white matter ratio of blood volume was2.78+/-0.43. Slope and volume maps were similar, but in one patient perfusion was apparently greater on the ratemap than on the volume map. CONCLUSION: Cerebral blood volvme and slope map images reflect changes in cerebralhemodynamics. It is thought that these findings can be clinically applied to the determination of vascularity inbrain tumors and acute cerebral ischemia
Blood Volume* ; Brain Ischemia ; Healthy Volunteers ; Humans ; Magnetic Resonance Imaging ; Perfusion*