W. Müller‐Schauenburg scite author profile

Sixteen patients with a clinical diagnosis of probable multiple system atrophy (MSA) were examined clinically by MRI and by 523I-iodobenzamide single photon emission computed tomography (IBZM-SPECT). The clinical records of another 16 patients were also analysed retrospectively. On the basis of their clinical presentation, patients were subdivided into those with prominent parkinsonism (MSA-P, n = 11) and those with prominent cerebellar ataxia (MSA-C, n = 21). Autonomic symptoms were present in all patients and preceded the onset of motor symptoms in 63% of patients. Calculated median lifetime and the median time to become wheelchair bound after onset of disease were significantly shorter for MSA-P than for MSA-C (lifetime: 4 0 v 9-1 years; wheelchair: 3-1 v 5'0 years) suggesting a better prognosis for cerebellar patients. A significant loss of striatal dopamine receptors (below 2 SD threshold) was detected by IBZM-SPECT in 63% of the patients (56% below 2 5 SD threshold). There was no difference between patients with MSA-C and those with MSA-P in the proportion with significant receptor loss and the extent of dopamine receptor loss. Planimetric MRI evaluation showed cerebellar and brainstem atrophy in both groups. Atrophy was more pronounced in patients with MSA-C than in those with MSA-P. Pontocerebeliar hyperintensities and putaminal hypointensities on T2 weighted MRI were found in both groups.Pontocerebellar signal abnormalities were more pronounced in MSA-C than in MSA-P, whereas the rating scores for area but not for intensity of putaminal abnormalities were higher in MSA-P. MRI and IBZM-SPECT provide in vivo evidence for combined basal ganglia and pontocerebellar involvement in almost all patients in this series.

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Allogenic bone graft viability after hip revision arthroplasty assessed by dynamic [ 18 F]fluoride ion positron emission tomography

Piert

Winter

Becker

et al. 1999

European Journal of Nuclear Medicine and Molecular Imaging

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The biological fate of allogenic bone grafts in the acetabular cavity and their metabolic activity after acetabular augmentation is uncertain but is most important for the stability of hip implants after hip revision arthroplasty. The aim of this study was to quantify regional bone metabolism after hip replacement operations. Dynamic [18F]fluoride ion positron emission tomography (PET) was used to investigate the metabolic activity of acetabular allogenic bone grafts and genuine bone, either 3-6 weeks (short-term group, n = 9) or 5 months to 9 years (long-term group, n = 10) after hip revision arthroplasty. Applying a three-compartment model, the fluoride influx constant was calculated from individually fitted rate constants (Knlf) and by Patlak graphical analysis (Kpat). The results were compared with genuine cancellous and cortical acetabular bone of contralateral hips without surgical trauma (n = 7). In genuine cortical bone, Knlf was significantly increased in short- (+140.9%) and long-term (+100.0%) groups compared with contralateral hips. Allogenic bone grafts were characterised by a significantly increased Knlf in the short-term group (+190.9%) compared with contralateral hips, but decreased almost to the baseline levels of contralateral hips (+45.5%) in the long-term. Values of Knlf cor-related with the rate constant K1 in genuine (r = 0.89, P<0.001) and allogenic bone regions (r = 0.79, P<0.001), indicating a coupling between bone blood flow and bone metabolism in genuine bone as well as allogenic bone grafts. Kpat values were highly correlated with Knlf measurements in all regions. In conclusion, [18F]fluoride ion PET revealed the presence of an increased host bone formation in allogenic bone grafts early after hip revision arthroplasty. In contrast to genuine cortical bone, allogenic bone graft metabolism decreased over time, possibly due to a reduced ability to respond to the same extent as genuine bone to elevated metabolic demands after surgery.

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Noninvasive Procedures for Diagnosis of Renovascular Hypertension in Renal Transplant Recipients—a Prospective Analysis

Erley

Duda²,

Wakat³

et al. 1992

Transplantation

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Follow-up in Neuroblastoma: Comparison of Metaiodobenzylguanidine and a Chimeric Anti-GD2 Antibody for Detection of Tumor Relapse and Therapy Response

Reuland

Geiger

Thelen

et al. 2001

Journal of Pediatric Hematology/Oncology

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Early and correct diagnosis of local tumor recurrence, occurrence of metastases, and therapy response are essential in patients with neuroblastoma stage IV. The aim of the study was to evaluate the diagnostic value of metaiodobenzylguanidine (mIBG) and a chimeric GD2 antibody in the follow-up of patients with neuroblastoma. In a prospective study, mIBG (N = 31 scans) and immunoscintigraphy were compared with a chimeric antiganglioside antibody, ch14.18 (MAb) (N = 31 scans), labeled with technetium Tc 99m in the follow-up of 18 patients with stage IV neuroblastoma. The findings were compared with histologic findings, other imaging examinations, and clinical changes over the course of 4 to 6 years. For the diagnosis of local tumor recurrences, sensitivity was 80% for MAb and 70% for mIBG. Specificity was 93% for MAb and 72% for mIBG. The MAb was superior for the detection of skeletal metastases, with a sensitivity of 82% compared with 72% for mIBG. Specificity was 100% for both techniques. Also, for soft tissue/lymph node metastases, sensitivity for MAb was higher (50%) than for mIBG (31%). Specificity was 100% for each technique. In sequential studies, metastases were detected earlier with MAb (mean: 2.3 m for skeletal metastases, 3.6 m for soft tissue metastases) than with mIBG. After therapy, tumor uptake was visualized longer with mIBG (mean 6.3 m) than with MAb. The chimeric antibody ch14.18 is likely to be valuable for follow-up examinations and for assessment of therapy response because of earlier detection of new metastases.

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