(11)C-metomidate PET-CT is a sensitive and specific noninvasive alternative to AVS in the management of PHA.
Background and Purpose-Evidence now exists for a pathogenic role for neutrophils in acute cerebral ischemia. We have studied the patterns and temporal profile of cerebral neutrophil recruitment to areas of acute ischemic stroke (IS) and have attempted to correlate this with neurological status and outcome. Methods-Patients with cortical middle cerebral artery (MCA) IS were recruited within 24 hours of clinical onset.Neutrophil recruitment was studied using indium-111 ( 111 In) troponolate-labeled neutrophils, planar imaging, and single-photon emission computed tomography (SPECT). Volume of brain infarction was calculated from concurrent computed tomography (CT). Hematoxylin and eosin sections were obtained postmortem (nϭ2). Outcome was measured using Barthel, Rankin, and National Institute of Health Stroke (NIHSS) scales. Results-Fifteen patients were studied. Significant 111 In-neutrophil recruitment to ipsilateral hemisphere, as measured by asymmetry index (AI), was demonstrated within 24 hours of onset in 9 patients; this response was heterogenous between patients and on repeated measurement attenuated over time. Histologically, recruitment was confirmed within intravascular, intramural, and intraparenchymal compartments. Interindividual heterogeneity in neutrophil response did not correlate with infarct volume or outcome. In an exploratory analysis, neutrophil accumulation appeared to correlate significantly with infarct expansion (Spearman rhoϭ0.66; Pϭ0.03, nϭ12). Conclusions-Neutrophils recruit to areas of ischemic brain within 24 hours of symptom onset. This recruitment attenuates over time and is confirmed histologically. While neutrophil accumulation may be associated with either the magnitude or the rate of infarct growth, these results require confirmation in future studies.
SummaryRecently we demonstrated that in inflammatory bowel disease (IBD) macrophage-oxidative burst activity is increased and NADPH oxidase mRNA is induced. The herbal phenylethanoid acteoside isolated from Plantago lanceolata L. was shown to exhibit anti-oxidative potential. Using the dextran sulphate sodium (DSS)-induced colitis model, in this study we have assessed whether systemic application of acteoside affects colitis. Colitis was induced by DSS in Balb/c mice. Treatment with acteoside (120, 600 mg/ mouse/day) was performed intraperitoneally. The colon lengths were determined. Colonic tissue was scored histologically (max. score 8) by a blinded investigator. T cells isolated from mesenteric lymph nodes (MLN) were stimulated with anti-CD3 antibody in the presence of interleukin (IL)-2 (final concentration 10 U/ml). After incubation for 24 h, IL-1b, IL-6, IL-12 tumour necrosis factor (TNF)-a and interferon (IFN)-g levels in supernatants were analysed by the beadlyte® cytokine detection system. Histological scoring of colonic tissue revealed that application of acteoside was followed by a significantly improved histological score. In acute colitis the histological score was 3·2 with acteoside versus 5·2 with phosphate-buffered saline (PBS) (P < 0·02). In chronic colitis both 120 mg (3·3 versus 5·2) or 600 mg acteoside (3·0 versus 5·2) significantly ameliorated colitis (both P < 0·02). Stimulated MLN from mice with chronic DSS-induced colitis treated with acteoside showed a significant down-regulation of IFN-g secretion (195 pg/ml with 600 mg acteoside versus 612 pg/ml with PBS, P < 0·02). Inhibition of oxidative burst activity with acteoside reduced mucosal tissue damage in DSS colitis and could be a therapeutic alternative for IBD treatment. Further studies of this agent are warranted.
Eosinophils are the major cellular effectors of allergic inflammation and represent an important therapeutic target. Although the genesis and activation of eosinophils have been extensively explored, little is known about their intravascular kinetics or physiological fate. This study was designed to determine the intravascular life span of eosinophils, their partitioning between circulating and marginated pools, and sites of disposal in healthy persons. Using autologous, minimally manipulated 111-Indium-labeled leukocytes with blood sampling, we measured the eosinophil intravascular residence time as 25.2 hours (compared with 10.3 hours for neutrophils) and demonstrated a substantial marginated eosinophil pool. ␥ camera imaging studies using purified eosinophils demonstrated initial retention in the lungs, with early redistribution to the liver and spleen, and evidence of recirculation from a hepatic pool. This work provides the first in vivo measurements of eosinophil kinetics in healthy volunteers and shows that 111-Indium-labeled eosinophils can be used to monitor the fate of eosinophils noninvasively. (Blood. 2012;120(19):4068-4071) IntroductionEosinophils play a key role in allergic inflammation 1 and represent an important therapeutic target in asthma and other allergic diseases. They have the capacity to release histotoxic substances, including granule proteins, inflammatory cytokines, and reactive oxygen metabolites, which cause bronchoconstriction, epithelial damage, hyper-responsiveness, and airway remodeling. [2][3][4][5][6] Much is known about the cellular mechanisms regulating the development and maturation of eosinophils, their release from the bone marrow, and the processes involved in their recruitment, activation, and clearance during allergic inflammation. 7-11 By contrast, very little is known about the physiology of circulating eosinophils in humans. Because of the relative scarcity of eosinophils in the blood of healthy persons (range, 0.0-0.4 ϫ 10 9 /L), previous attempts to study eosinophil kinetics have been restricted to patients with hypereosinophilia, 12-14 hampered by label reuse after pulse injection of 3 H-thymidine, 15 or relied on autoradiographs developed Ͼ 500 days. 16 We have used 111-Indiumlabeled mixed leukocytes with postinjection isolation of eosinophils to ascertain their intravascular life span, and subsequently purified 111-Indium-labeled autologous eosinophils with ␥ camera imaging to assess organ-specific trafficking in vivo. We have demonstrated an intravascular lifespan for circulating eosinophils exceeding 24 hours and revealed extensive intravascular margination of these cells, together with evidence of recirculation from a hepatic pool. Methods ParticipantsHealthy male and female adults with normal lung function and eosinophil counts (range, 0.02-0.38 ϫ 10 9 /L) gave written informed consent in accordance with the Declaration of Helsinki. The study was approved by Cambridgeshire Research Ethics Committee (09/H0308/119) and the Administration of Radioactive Substan...
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