69 research outputs found
Continuous flushing of the bladder in rodents reduces artifacts and improves quantification in molecular imaging
In this study, we evaluated the partial volume effect (PVE) of 2-deoxy-2-[18F]fluoro-d-glucose (18F-FDG) tracer accumulation in the bladder on the positron emission tomographic (PET) image quantification in mice and rats suffering from inflammatory bowel disease. To improve the accuracy, we implemented continuous bladder flushing procedures. Female mice and rats were scanned using microPET/computed tomography (CT) at baseline and after induction of acute colitis by injecting 2,4,6-trinitrobenzene sulfonic acid (TNBS) intrarectally. During the scans, the bladder was continuously flushed in one group, whereas in the other group, no bladder flushing was performed. As a means of in vivo and ex vivo validation of the inflammation, animals also underwent colonoscopy and were sacrificed for gamma counting (subpopulation) and to score the colonic damage both micro- and macroscopically as well as biochemically. At baseline, the microPET signal in the colon of both mice and rats was significantly higher in the nonflushed group compared to the flushed group, caused by the PVE of tracer activity in the bladder. Hence, the colonoscopy and postmortem analyses showed no significant differences at baseline between the flushed and nonflushed animals. TNBS induced significant colonic inflammation, as revealed by colonoscopic and postmortem scores, which was not detected by microPET in the mice without bladder flushing, again because of spillover of bladder activity in the colonic area. MicroPET in bladder-flushed animals did reveal a significant increase in 18F-FDG uptake. Correlations between microPET and colonoscopy, macroscopy, microscopy, and myeloperoxidase yielded higher Spearman rho values in mice with continuously flushed bladders during imaging. Comparable, although somewhat less pronounced, results were shown in the rat. Continuous bladder flushing reduced image artifacts and is mandatory for accurate image quantification in the pelvic region for both mice and rats. We designed and validated experimental protocols to facilitate such.Steven Deleye, Marthe Heylen, Annemie Deiteren, Joris De Man, Sigrid Stroobants, Benedicte De Winter, and Steven Staelen
Real-time risk analysis for hybrid earthquake early warning systems
Earthquake Early Warning Systems (EEWS), based on real-time prediction of ground motion or
structural response measures, may play a role in reducing vulnerability and/or exposition of
buildings and lifelines. In fact, recently seismologists developed efficient methods for rapid
estimation of event features by means of limited information of the P-waves. Then, when an event is
occurring, probabilistic distributions of magnitude and source-to-site distance are available and the
prediction of the ground motion at the site, conditioned to the seismic network measures, may be
performed in analogy with the Probabilistic Seismic Hazard Analysis (PSHA). Consequently the
structural performance may be obtained by the Probabilistic Seismic Demand Analysis (PSDA), and
used for real-time risk management purposes. However, such prediction is performed in very
uncertain conditions which have to be taken into proper account to limit false and missed alarms. In
the present study, real-time risk analysis for early warning purposes is discussed. The magnitude
estimation is performed via the Bayesian approach, while the earthquake localization is based on the
Voronoi cells. To test the procedure it was applied, by simulation, to the EEWS under development
in the Campanian region (southern Italy). The results lead to the conclusion that the PSHA,
conditioned to the EEWS, correctly predicts the hazard at the site and that the false/missed alarm
probabilities may be controlled by set up of an appropriate decisional rule and alarm threshold
In Vitro Recording of Mesenteric Afferent Nerve Activity in Mouse Jejunal and Colonic Segments
Afferent nerves not only convey information concerning normal physiology, but also signal disturbed homeostasis and pathophysiological
processes of the different organ systems from the periphery towards the central nervous system. As such, the increased activity or 'sensitization'
of mesenteric afferent nerves has been allocated an important role in the pathophysiology of visceral hypersensitivity and abdominal pain
syndromes.
Mesenteric afferent nerve activity can be measured in vitro in an isolated intestinal segment that is mounted in a purpose-built organ bath and
from which the splanchnic nerve is isolated, allowing researchers to directly assess nerve activity adjacent to the gastrointestinal segment.
Activity can be recorded at baseline in standardized conditions, during distension of the segment or following the addition of pharmacological
compounds delivered intraluminally or serosally. This technique allows the researcher to easily study the effect of drugs targeting the peripheral
nervous system in control specimens; besides, it provides crucial information on how neuronal activity is altered during disease. It should be
noted however that measuring afferent neuronal firing activity only constitutes one relay station in the complex neuronal signaling cascade, and
researchers should bear in mind not to overlook neuronal activity at other levels (e.g., dorsal root ganglia, spinal cord or central nervous system)
in order to fully elucidate the complex neuronal physiology in health and disease.
Commonly used applications include the study of neuronal activity in response to the administration of lipopolysaccharide, and the study of
afferent nerve activity in animal models of irritable bowel syndrome. In a more translational approach, the isolated mouse intestinal segment can
be exposed to colonic supernatants from IBS patients. Furthermore, a modification of this technique has been recently shown to be applicable in
human colonic specimens
P2X(3) receptors mediate visceral hypersensitivity during acute chemically-induced colitis and in the post-inflammatory phase via different mechanisms of sensitization
OBJECTIVES: Experiments using P2X3 knock-out mice or more general P2X receptor antagonists suggest that P2X3 receptors contribute to visceral hypersensitivity. We aimed to investigate the effect of the selective P2X3 antagonist A-317491 on visceral sensitivity under physiological conditions, during acute colitis and in the post-inflammatory phase of colitis. METHODS: Trinitrobenzene sulphonic-acid colitis was monitored by colonoscopy: on day 3 to confirm the presence of colitis and then every 4 days, starting from day 10, to monitor convalescence and determine the exact timepoint of endoscopic healing in each rat. Visceral sensitivity was assessed by quantifying visceromotor responses to colorectal distension in controls, rats with acute colitis and post-colitis rats. A-317491 was administered 30 min prior to visceral sensitivity testing. Expression of P2X3 receptors (RT-PCR and immunohistochemistry) and the intracellular signalling molecules cdk5, csk and CASK (RT-PCR) were quantified in colonic tissue and dorsal root ganglia. ATP release in response to colorectal distension was measured by luminiscence. RESULTS: Rats with acute TNBS-colitis displayed significant visceral hypersensitivity that was dose-dependently, but not fully, reversed by A-317491. Hypersenstivity was accompanied by an increased colonic release of ATP. Post-colitis rats also displayed visceral hypersensitivity that was dose-dependently reduced and fully normalized by A-317491 without increased release of ATP. A-317491 did not modify visceral sensitivity in controls. P2X3 mRNA and protein expression in the colon and dorsal root ganglia were similar in control, acute colitis and post-colitis groups, while colonic mRNA expression of cdk5, csk and CASK was increased in the post-colitis group only. CONCLUSIONS: These findings indicate that P2X3 receptors are not involved in sensory signaling under physiological conditions whereas they modulate visceral hypersensitivity during acute TNBS-colitis and even more so in the post-inflammatory phase, albeit via different mechanisms of sensitization, validating P2X3 receptors as potential new targets in the treatment of abdominal pain syndromes.Annemie Deiteren, Laura van der Linden, Anouk de Wit, Hannah Ceuleers, Roeland Buckinx, Jean-Pierre Timmermans, Tom G. Moreels, Paul A. Pelckmans, Joris G. De Man, Benedicte Y. De Winte
A novel haemocytometric COVID-19 prognostic score developed and validated in an observational multicentre European hospital-based study
COVID-19 induces haemocytometric changes. Complete blood count changes, including new cell activation parameters, from 982 confirmed COVID-19 adult patients from 11 European hospitals were retrospectively analysed for distinctive patterns based on age, gender, clinical severity, symptom duration, and hospital days. The observed haemocytometric patterns formed the basis to develop a multi-haemocytometric-parameter prognostic score to predict, during the first three days after presentation, which patients will recover without ventilation or deteriorate within a two-week timeframe, needing intensive care or with fatal outcome. The prognostic score, with ROC curve AUC at baseline of 0.753 (95% CI 0.723-0.781) increasing to 0.875 (95% CI 0.806-0.926) on day 3, was superior to any individual parameter at distinguishing between clinical severity. Findings were confirmed in a validation cohort. Aim is that the score and haemocytometry results are simultaneously provided by analyser software, enabling wide applicability of the score as haemocytometry is commonly requested in COVID-19 patients
Dendritic cell vaccination as postremission treatment to prevent or delay relapse in acute myeloid leukemia
Relapse is a major problem in acute myeloid leukemia (AML) and adversely impacts survival.
In this phase II study, we investigated the effect of vaccination with dendritic cells (DCs)
electroporated with Wilms’ tumor 1 (WT1) mRNA as post-remission treatment in 30 AML
patients at very high risk of relapse. There was a demonstrable anti-leukemic response in 13
patients. Nine patients achieved molecular remission as demonstrated by normalization
of WT1 transcript levels, 5 of which are sustained after a median follow-up of 109.4 months.
Disease stabilization was achieved in 4 other patients. Five-year overall survival (OS) was
higher in responders than in non-responders (53.8% vs. 25.0%; P=0.01). In patients
receiving DCs in first complete remission (CR1), there was a vaccine-induced relapse
reduction rate of 25% and the 5-year relapse-free survival was higher in responders than in
non-responders (50% vs. 7.7%; P65 years who received DCs
in CR1, 5-year OS was 69.2% and 30.8% respectively, as compared to 51.7% and 18% in
the Swedish Acute Leukemia Registry (SALR). Long-term clinical response was correlated
with increased circulating frequencies of poly-epitope WT1-specific CD8+ T-cells. Long-term
OS was correlated with interferon-γ+ and tumor necrosis factor-α+ WT1-specific responses in delayed type hypersensitivity-infiltrating CD8+ T-lymphocytes. In conclusion, vaccination of
AML patients with WT1 mRNA-electroporated DCs can be an effective strategy to prevent or
delay relapse after standard chemotherapy, translating into improved OS rates, which are
correlated with the induction of WT1-specific CD8+ T-cell response. This trial was registered
at www.clinicaltrials.gov as #NCT00965224
Carboxypeptidase-M is regulated by lipids and CSFs in macrophages and dendritic cells and expressed selectively in tissue granulomas and foam cells
Granulomatous inflammations, characterized by the presence of activated macrophages (MAs) forming epithelioid cell (EPC) clusters, are usually easy to recognize. However, in ambiguous cases the use of a MA marker that expresses selectively in EPCs may be needed. Here, we report that carboxypeptidase-M (CPM), a MA-differentiation marker, is preferentially induced in EPCs of all granuloma types studied, but not in resting MAs. As CPM is not expressed constitutively in MAs, this allows utilization of CPM-immunohistochemistry in diagnostics of minute granuloma detection when dense non-granulomatous MAs are also present. Despite this rule, hardly any detectable CPM was found in advanced/active tubercle caseous disease, albeit in early tuberculosis granuloma, MAs still expressed CPM. Indeed, in vitro both the CPM-protein and -mRNA became downregulated when MAs were infected with live mycobacteria. In vitro, MA-CPM transcript is neither induced remarkably by interferon-γ, known to cause classical MA activation, nor by IL-4, an alternative MA activator. Instead, CPM is selectively expressed in lipid-laden MAs, including the foam cells of atherosclerotic plaques, xanthomatous lesions and lipid pneumonias. By using serum, rich in lipids, and low-density lipoprotein (LDL) or VLDL, CPM upregulation could be reproduced in vitro in monocyte-derived MAs both at transcriptional and protein levels, and the increase is repressed under lipid-depleted conditions. The microarray analyses support the notion that CPM induction correlates with a robust progressive increase in CPM gene expression during monocyte to MA maturation and dendritic cell (DC) differentiation mediated by granulocyte–MA-colony-stimulating factor+IL-4. M-CSF alone also induced CPM. These results collectively indicate that CPM upregulation in MAs is preferentially associated with increased lipid uptake, and exposure to CSF, features of EPCs, also. Therefore, CPM-immunohistochemistry is useful for granuloma and foam MA detections in tissue sections. Furthermore, the present data offer CPM for the first time to be a novel marker and cellular player in lipid uptake and/or metabolism of MAs by promoting foam cell formation
A novel haemocytometric covid-19 prognostic score developed and validated in an observational multicentre european hospital-based study
COVID-19 induces haemocytometric changes. Complete blood count changes, including new cell activation parameters, from 982 confirmed COVID-19 adult patients from 11 European hospitals were retrospectively analysed for distinctive patterns based on age, gender, clinical severity, symptom duration and hospital days. The observed haemocytometric patterns formed the basis to develop a multi-haemocytometric-parameter prognostic score to predict, during the first three days after presentation, which patients will recover without ventilation or deteriorate within a two-week timeframe, needing intensive care or with fatal outcome. The prognostic score, with ROC curve AUC at baseline of 0.753 (95% CI 0.723-0.781) increasing to 0.875 (95% CI 0.806-0.926) on day 3, was superior to any individual parameter at distinguishing between clinical severity. Findings were confirmed in a validation cohort. Aim is that the score and haemocytometry results are simultaneously provided by analyser software, enabling wide applicability of the score as haemocytometry is commonly requested in COVID-19 patients
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