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Imatinib (GleevecTM; GlivecTM; formerly STI571), a specific inhibitor of Abl tyrosine kinase, is efficacious in treating Philadelphiachromosomepositive (Ph+) leukaemias such as chronic myeloid leukaemia (CML) and Ph+ acute lymphoblastic leukaemia (ALL) (Ottmann, Druker et al. 2002). Within a few years of its introduction to the clinic, Imatinib had dramatically altered the firstline therapy for CML, because it was found that most newly diagnosed CML patients in the chronic phase achieve durable responses when treated with Imatinib (Goldman and Melo 2003). However, a small percentage of these patients, as well as most advancedphase CML and Ph+ ALL patients, relapse on Imatinib therapy (Yokota, Kimura et al. 2006). Several mechanisms of refractoriness and relapse have been reported. These include point mutations within the Abl kinase domain, overexpression of BcrAbl mRNA (Hofmann, Jones et al. 2002), decreased intracellular drug levels mediated by Pglycoprotein (Pgp) (Hegedus, Orfi et al. 2002), and nonBcrAbl dependent mechanisms (activation of the SFKs) (Donato, Wu et al. 2003). In this research work, a possible means of overcoming resistance to Imatinib by the use of the specific dual Src/Abl kinase inhibitor AZD0530 has been investigated. The efficacy of AZD0530 in the treatment of Ph+ leukaemias, sensitive to or resistant to Imatinib, has been tested on cell lines, primary patient material and in vivo in transduction/transplantation mouse model of Imatinib sensitive or resistant BcrAbl dependent CML-like disease. Data with AZD0530 has been compared to cells treated with Imatinib. The potential of inhibiting both Src and Abl kinases while inducing growth arrest and apoptosis has been analysed. AZD0530 specifically inhibited the growth of CML and Ph+ ALL cells in a dosedependent manner, but has shown a marginal effect on Ph- ALL cells. Treatment of p185BcrAbl expressing Ba/F3 cells with AZD0530 has led to apoptosis induction and growth inhibition in these cells, while the untransformed Ba/F3 cells have remained unaffected. Resistance to Imatinib due to mutation in the Ba/F3MutY253F cells has been overcomed by this compound. The growth inhibitory effect of AZD0530 correlates with its induction of apoptosis. Combination of AZD0530 and Imatinib at low concentrations has shown an additive effect on the inhibition of proliferation of BV173 cells. The growth inhibition and apoptosis induction by AZD0530 have shown to be uncoupled to major changes in cell cycle. An exception is the CML blast crisis cell line BV173 which has shown a considerable G0/G1 arrest in the presence of AZD0530 and Imatinib as single agents. Immunoblotting of whole cell lysates from Imatinib or AZD0530 treated BV173, Ba/F3 expressing p185(BcrAbl) MutT253F cells and the WTSupB15 cells, for Src and BcrAbl clearly demonstrates that there is an ongoing transphosphorylation taking place between the SFKs and BcrAbl. This transphosphorylation synergizes and influences the aggressive nature of CML blast crisis and Ph+ ALL. Investigations have been carried out on downstream signaling events to determine how Src family members contribute to BcrAbl signaling. Specifically, Stat, Erk and PI3K/ Akt activation status have been characterised in Imatinib sensitive and resistant Ph+ cells. AZD0530 has significantly downregulated the activation of survival signaling pathways as shown by it’s inhibition of Stat5, Akt and Erk kinases in Ph+ cells, resistant or sensitive to Imatinib. The only exception to this has been the Imatinib resistant cell line RTSupB15, in which activated Akt kinase level has remained unaffected. AZD0530 has shown to be efficient in the treatment of cells isolated from three Ph+ leukaemic patients (resistant or sensitive to Imatinib), and has led to an induction of apoptosis. Equally, in the same patients, growth and survival pathways have been inhibited in vitro in the presence of AZD0530. An overall therapeutic effect of AZD0530 in vivo has been studied in mouse model of Imatinib sensitive and Imatinib resistant, BcrAbldependent desease. Mice with a BcrAbllike disease responded to Imatinib treatment but not to AZD0530. Using the CFU assay, an influence on the differentiation status of primary leukaemic blast stem cells have been tested. The in vivo studies as well as the CFU results have shown discrepancies to the effects of AZD0530 tested so far in this research work. These discrepancies have paralleled with the upregulation of BcrAbl in most AZD0530 treated cells. These are to be further analysed. These data elucidate the role of Src kinases in BcrAbl leukaemogenesis. Results gotten from this research work has shown that AZD0530 targets both Src and BcrAbl kinase activity and reduces the transforming potential of BcrAbl. It also shows that there is an ongoing transphosphorylation between SFKs and BcrAbl kinase. AZD0530 has proven effective in CML cell lines, Ph+ ALL cell lines and patient cells resistant to Imatinib. These have demonstrated that AZD0530 is a potential drug target which can be used to overcome Imatinib resistance.
Transcranial magnetic stimulation (TMS) is a non-invasive technique which can be used to study different intracortical excitatory and inhibitory neuronal circuits in the intact human being. In the primary motor cortex, there are essentially three different TMS measures of inhibitory neuronal circuits as determined by paired-pulse TMS: short-interval intracortical inhibition (SICI), long-interval intracortical inhibition (LICI) and interhemispheric inhibition (IHI). It was hypothesized that SICI is a GABAA receptor mediated inhibition (Ilic et al., 2002) whereas LICI and IHI are mediated by GABAB receptors (Daskalakis et al., 2002; McDonnell et al., 2006). Additionally, it was shown that these inhibitory circuits interact negatively, possible due to presynaptic GABAB receptor mediated inhibition (Sanger et al., 2001; Daskalakis et al., 2002). Which neuronal populations exactly underlie SICI, LICI and IHI, is not completely clear and by which mechanism these inhibitory circuits interact has never been tested pharmacologically so far. Thus, the effects of a single oral dose of Diazepam (DZP), a specific positive allosteric modulator at the GABAA receptor, and of Baclofen (BAC), a specific GABAB receptor agonist, on SICI, LICI and IHI as well as their interactions were tested here in a randomized, placebo controlled, double-blinded crossover study. SICI significantly increased after intake of DZP whereas BAC did not change SICI. Conversely, LICI significantly increased after intake of BAC but did not change after intake of DZP. IHI showed only a trend towards a decrease after intake of DZP but no change after intake of BAC. The interactions IHI-SICI, LICI-IHI and LICI-SICI were all negative at baseline. SICI and IHI were partially suppressed in the presence of IHI and LICI, respectively, and SICI in the presence of LICI was almost completely blocked. BAC did not change any of these interactions, whereas DZP significantly increased SICI in the presence of LICI. This study is the first to examine by means of pharmacological testing the complex interactions between different inhibitory circuits in the human motor cortex. The effects of DZP and BAC on SICI and LICI confirmed the notion that SICI is a GABAA receptor mediated intracortical inhibition whereas LICI depends on GABAB receptor mediated neurotransmission. The pharmacology of IHI at short interstimulus intervals of < 20 ms (12 ms in this study) remains still inconclusive and warrants further investigation. Findings further suggest that SICI, LICI and IHI represent three different inhibitory neuronal circuits which can be tested non-invasively by means of paired-pulse TMS. Furthermore, the data support the idea that the negative interactions IHI-SICI, LICI-IHI and LICI-SICI are most likely due to presynaptic GABAB receptor mediated autoinhibition.
Prostaglandin D2 (PGD2) is involved in a variety of physiological and pathophysiological processes, but its role in fever is poorly understood and the data obtained so far are rather controversial. Here we investigated the effects of central PGD2 delivery and of systemic prostaglandin D synthase (PGDS) or cyclooxygenase (COX) inhibition on core body temperature (TC) and on prostaglandin levels in the cerebrospinal fluid (CSF) of rats. Both PGE2 and PGD2 were detectable in CSF samples from control rats (6.2 ± 1.1 and 17.3 ± 3.1 pg/ml, respectively). Lipopolysaccharide (LPS) injection (50 μg i.p.) induced fever during the 5-hour observation period. Five hours after LPS injection, the levels of PGE2 and PGD2 were increased in the CSF about 90-fold (541.0 ± 47.5 pg/ml) and 5-fold (95.4 ± 23.1 pg/ml), respectively. Administration of PGD2 (50 - 500 ng) into the cisterna magna (i.c.m) evoked a delayed fever response in a dose-dependent manner that was accompanied by increased levels of PGE2 in the CSF. RT-PCR analyses revealed that the increased levels of PGE2 after PGD2 administration were not caused by up-regulation of COX-2 or microsomal prostaglandin E synthase 1 (mPGES-1) in the hypothalamus. Interestingly, i.c.m. pretreatment of animals with PGD2 considerably sustained the pyrogenic effects of i.c.m. administered PGE2. Pretreatment with a novel PGDS inhibitor, EDJ300520 (10 – 40 mg/kg p.o.), 1 h prior to the LPS injection impaired the LPS-induced increase of both PGD2 and PGE2 in the CSF and inhibited the fever response. In contrast, administration of EDJ300520 3 h after LPS injection did not ameliorate the LPS-induced fever. Accordingly, the concentration of PGE2 in the CSF was not decreased after EDJ300520 treatment. However, the CSF levels of PGD2 were reduced after administration of a high dose of EDJ300520 (40 mg/kg). We also investigated the effects of antipyretic drugs on the CSF levels of PGE2 and PGD2 during LPS-induced fever. Four antipyretic drugs with different mechanisms of action were used, including ibuprofen (5 - 20 mg/kg), celecoxib (10 - 50 mg/kg), SC560 5 - 20 mg/kg), and paracetamol (50 - 150 mg/kg). Each drug was used in three different doses and was orally administered 3 h after the LPS injection. All drugs were capable to attenuate the LPS-induced fever. The decrease of TC paralleled the reduction of PGE2 levels in the CSF. Of note, there was a tendency to reduced PGD2 levels in the CSF after treatment with the antipyretic drugs. However, only SC560 and the high dose of celecoxib (50 mg/kg) reduced the PGD2 levels significantly. In summary, our experiments underscore the pivotal role of PGE2 as the principal downstream mediator of fever. Moreover, we demonstrate that PGD2 is also involved in the mechanisms underlying fever. Our data suggest that PGD2 exerts an indirect pyrogenic effect by modulating the availability of PGE2 in the CSF. Additional studies are needed to explore the exact mechanism by
Spontaneous carotid artery dissection-associated medial changes in a selected autopsy population
(2006)
Spontaneous carotid artery dissection (SCAD) is a major cause of stroke in young adults, yet its pathogenesis remains unclear. Hereditary connective tissue diseases, hormonal influences, sympathomimetic drugs or upper respiratory tract infections may predispose to dissection. Mechanical stress or minimal trauma may also act as a trigger. Various lesions of the arterial wall have been described in association with SCAD, but no prospective autopsy study to evaluate the presence of these lesions in normal controls was found. We performed a histologic evaluation of the carotid bifurcation and the aortic arch in an autopsy series to establish a baseline anatomy of the bifurcation and to determine whether similar lesions could be observed. In seven of 54 (12.96%) selected cases we observed isolated changes closely resembling those described for medionecrosis, fibromuscular dysplasia, mucoid degeneration and elastinolysis; and in one case, prior carotid artery dissection and coiling with a patent false lumen. Generally, vascular microanatomy in the carotid bifurcation can be highly variable. Lesions similar to those associated with spontaneous dissection are present in controls and appear non-specific for spontaneous dissection. They can be explained as reactive changes of smooth muscle cells (SMC) and the vascular wall in response to various stressors. Recent advances in vascular physiology are discussed to illustrate the concept of SMC phenotypic modulation. Forensic pathology can provide a large control population for extensive vascular analyses and further the understanding of normal and pathological vascular wall changes to help elucidate spontaneous arterial dissection.
Background: False aneurysms at the puncture site develop in up to 8 % after catheter procedures. They can be treated surgically or by ultrasound guided manual compression. A new method is to inject thrombin into the aneurysm under ultrasound guidance. We evaluated safety and efficacy of this approach in a multicenter registry. Methods: In 595 consecutive patients (age: 31-94 years, median 70) a pseudoaneurysm (593 femoral arteries, 2 brachial arteries) was diagnosed 0 to 250 days (median 3 days) after a catheter procedure. The diameter of the aneurysm ranged from 0.5 x 0.5 x 0.5 (L x W x D) to 8x11x16 cm (median 2 x 2 x1.6 cm). 20 U to 4000 U of thrombin solution (median 400 U) were injected percutaneously into the aneurysm under ultrasound guidance. Results: The procedure was technically successful in 587/595 (99%) patients. The aneurysms were thrombosed after the first injection in 531 patients (89 %). Thirty-eight (6%) patients needed a second injection and 8 (1%) patients a third injection because residual flow in the aneurysm was visible at follow-up. In 4 additional patients (0.7%) the thrombosis of the aneurysms was delayed and occurred only after 24 hours to 7 days. 6 (1%) patients surgery was performed after successful closure of the aneurysm to remove the resulting haematoma. The overall technical success rate was 99% (587/595) and clinical success was achieved in 572/595 (96%) patients. Eight (1%) other patients underwent surgery due to thrombin injection failure. Complications occurred in 9 patients (1.5%): Intravascular thrombus formation (n=3), deep venous thrombosis (n=3), pulmonary embolism due to deep venous thrombosis (n=1), transient paresthesia in the leg during injection (n=3). Conclusion: Ultrasound guided thrombin injection is a safe, painless, effective and rapid alternative to treat false aneurysms. Complications and recurrent pseudoaneurysms are very rare. It has become the treatment of choice in our institution.
IL-12-related cytokines produced by dendritic cells are considered to be major inducers of adaptive immune system activation upon innate antigen-sensing. IL-23 specifically is currently being discussed to support the differentiation of potentially auto-aggressive Th17 cells. Prostaglandins as bystander cell products are known to modulate the translation of this process. While previous studies focused therefore on IL-12, ignoring the existence of new IL-12-related cytokines IL-23 and IL-27, this study analysed effects of prostaglandin E2, D2 and 15d-PGJ2 on the secretion pattern of these subunits in the murine immature Langerhans cell line XS52 and the murine immature myeloid dendritic cell line JawsII under TLR4 (LPS) and TLR9 (CpG) stimulation as well as effects of prostaglandins on the murine Th1 cell line IF12 in coculture and upon Con A treatment. In serial semi-quantitative RT-PCR of the IL-12 related cytokines of the XS52 cell line and the JawsII cell line, the p40 subunit was upregulated in both DC cell lines upon TLR-stimulation, the IL-23p19 subunit constantly expressed in XS52 and upregulated in JawsII upon TLR-stimulation, while the IL-27p28 subunit was only weekly expressed under additional stimulating aCD40 Ab treatment. IL-12p35 could only be detected in the immature myeloid cell line. The protein expression of the p40 subunit was measured in Western blot assays following SDS-PAGE under reducing conditions in XS52. The Western blot-based antibody specification allowed the establishment of a p40-specific ELISPOT assays, where overadditive upregulation of the number of LPS-stimulated spot forming XS52 cells was observed under stimulation with PGE2 while PGD2 depressed the number of LPS-stimulated cytokine secreting cells. Contrary IL-12p40 could not be detected in supernatants of the JawsII cell line. Both DC cell lines were further tested for differential response towards different TLR stimulation described as a defining feature of DC subsets. While subunit expression on transcription level did not differ, only LPS-treatment led to constant IL-12p40 expression in supernatants of XS52. CpG-treatment of XS52 cells led to constantly high IL-12p40 levels under additional aCD40 Ab treatment. In IFN-g ELISPOT assays, prostaglandin effects were further analysed in IF12 Th1 cells upon Con A treatment or alternatively upon treatment in a coculture model with the syngeneic cell line XS52 and the T lymphocyte-specific protein ovalbumin. While PGE2 depressed the amount of activated Th1, PGD2 showed no effect. In conclusion, a coculture model has been generated that allows the analysis of DC and TC interactions. The importance of prostaglandins as differential regulators in time- and tissue-dependence in inflammatory processes has been demonstrated. These results accord with recent observations of an upregulation of IL-23 secretion upon PGE2 treatment.
Background: The evaluation of local mental health care remains difficult. For this reason systematic development of appropriate services is barely possible.
Methods: We examined involuntary hospitalization in the city of Frankfurt/Main with regard to diagnoses, socio-demographic data, complementary psychosocial outpatient care, and circumstances of hospitalization. There are four psychiatric clinics, each serving a catchment area of more than 165.000 inhabitants. These clinics are responsible for all psychiatric in-patient treatments regardless of the admission modus. During a one year period, 677 patients were involuntarily hospitalized. Statistical analyses were performed subsequent to pooling the data.
Results: During a period of one year, 103 out of 100.000 inhabitants of Frankfurt/Main were admitted involuntarily. The rate of involuntary admissions related to all admissions was 10.98 percent. Any complementary psychosocial care was missing in more than 70 percent of patients admitted involuntarily. Only about 10 percent of patients were examined by a physician before reaching the hospital and in disappointing 1.3 percent the municipal mental health service had been consulted prior to involuntarily admission.
Conclusion: Our results show that a systematic improvement of precautionary complementary psychosocial care for risk patients is needed as well as the obligation of psychiatric emergency consultation before involuntary hospitalization.
Molecular mechanism of intracellular signal transduction by the angiotensin-converting enzyme
(2007)
The angiotensin converting enzyme (ACE) is an important component of the renin-angiotensin system (RAS) and is crucially involved in the homeostasis of fluid and electrolyte balance and thus in the regulation of blood pressure. The zinc metallopeptidase is involved in the generation of angiotensin II, a potent vasoconstrictor and in the degradation of bradykinin, a potent vasodilator. It is worth noting that ACE more readily hydrolyzes bradykinin than it does angiotensin I thus culminating in the net physiological effect of the production of a vasoconstrictor and the decrease in the availability of a vasodilator. ACE inhibitors have become one of the most successful therapeutic approaches as a first line of therapy in hypertension, and are also widely used in treating heart failure, myocardial infarction, stroke, coronary artery disease and impaired left ventricular function. However, one unexpected clinically relevant finding related to ACE inhibitors is their ability to delay the onset of type II diabetes that was revealed by various large clinical trials. However, the mechanisms underlying these beneficial effects of ACE inhibitor therapy are currently unclear and cannot be explained by the prevention of angiotensin II formation or the attenuated degradation of bradykinin. Thus the potential beneficial effects attributed to ACE inhibitors may occur independent of reductions in blood pressure paving way for new and/or unknown mechanism. Our group has recently redefined ACE as a signal transduction molecule which upon binding to ACE inhibitor turns on a signalling cascade leading to phosphorylation of Ser1270 by CK2, activation of JNK and changes in gene expression in endothelial cells. However the mechanism by which ACE inhibitor initiates the signalling cascade was not clear. It was hypothesized that ACE, which is anchored to the membrane with a single transmembrane domain should dimerize prior to initiating further downstream signalling events in endothelial cells. Therefore, we sought to explore whether or not ACE forms dimers in endothelial cells and whether ACE dimerization is essential for the initiation of ACE signalling in endothelial cells. Using native gel electrophoresis, we found that ACE forms dimers in endothelial cells and that there is an increase in the dimer formation upon treatment of endothelial cells with ACE inhibitors. ACE homodimerization was also demonstrated using the split-ubiquitin system and chemical cross-linking experiments. ACE dimers are also formed in endothelial cells overexpressing the non-phosphorylatable ACE, wherein ACE signalling was abolished indicating that dimerization process is not influenced by the phosphorylation of the serine residue residing in the cytoplasmic tail. Monosaccharides like glucose, galactose and mannitol did not have any influence on ACE-inhibitor induced dimerization. Making use of different monoclonal antibodies directed to the epitopes of N-domain which harbours carbohydrate recognizing domain, also did not affect dimerization. However, inactivation of the C-domain active site by introducing mutation of the key histidine residues in HEMGH consensus sequences, which complexes the zinc ions, abolished enzyme dimerization both in the basal state and in response to ramiprilat. Mutation of the C-domain also resulted in the loss of ACE inhibitor-induced ACE signalling, that is we failed to observe ramiprilat-induced increase in the phosphorylation of the Ser1270 and the subsequent JNK activation. ACE-inhibitor induced dimerization precedes the phosphorylation of Ser1270 and activation of JNK. Thus the ACE-inhibitor induced dimerization via the C-domain of ACE represents the initial step in the ACE signalling pathway which involves the activation of JNK/c-Jun pathway and leading to the changes in the gene expression in endothelial cells. Our group previously identified ACE itself as well as cyclooxygenase-2 (COX-2) as two “ACE signalling-regulated” genes. To screen for additional genes regulated in a similar manner we used DNA microarray technology, to assess ramiprilat-induced changes in the endothelial cell gene expression. 21 genes were identified to be differentially regulated of which, 7 were upregulated and 14 were downregulated by ramiprilat. However, when screened at the protein level, we found no significant differences between the untreated control cells and those treated with ramiprilat. As several other cells and tissues possess a fully functional RAS we screened plasma samples from healthy volunteers as well as from patients with coronary artery disease for the proteins identified in the microarray. We observed that the cellular retinal binding protein-1 (CRBP-1) was detectable at low levels in plasma from patients and that ramipril markedly increased serum levels of this protein. Endothelial cells overexpressing CRBP-1 demonstrated increased RXRE and PPRE activity when stimulated with 9-cis retinoic acid and rosiglitazone respectively suggesting that CRBP-1 might affect gene expression via heterodimerization of PPAR elements with RXR elements by virtue of its function as a transport protein of retinoic acid. Studies aimed at determining the consequences of elevated CRBP-1 expression on endothelial cell homeostasis are ongoing. Although the RAS has been described in many other tissues apart from endothelial cells, ACE signalling has not yet been addressed in tissues such as monocytes/macrophages, which have an increased ACE expression in an atherosclerotic setting. We observed that upon stimulation of cultured ACE expressing monocytes with ramiprilat, JNK is activated suggesting the occurrence of ACE signalling in human monocytes. It is worth noting that ACE inhibitors delay the onset of type II diabetes in spite of moderate decrease in blood pressure. To further elucidate the mechanism underlying this effect, we found that ACE inhibitors increase the PPARgamma levels in the nuclear extracts of ACE expressing monocytes which were also reproduced in human endothelial cells overexpressing human somatic ACE. However, ramiprilat did not have any direct effect on the activity of a luciferase-coupled promoter containing several copies of the PPRE in human endothelial cells. These results contrasted with the actions of the PPARgamma agonist suggesting that ramiprilat enhances PPARgamma levels through an indirect mechanism. We next hypothesized that ramiprilat might increase the levels of 15-deoxy-D12,14-prostaglandin J2 (15dPGJ2) which is a natural ligand for PPARgamma via COX enzymes in monocytes. We observed that ramiprilat was able to decrease the diminution of COX-2 levels upto 48 hours of treatment but the levels of 15dPGJ2 were too low to be detected by ELISA. However ramiprilat enhanced the plasma levels of adiponectin, a downstream target of PPARgamma, which is a anti-atherogenic and anti-inflammatory adipokine, in patients with coronary artery disease. Though adiponectin is a PPARgamma-regulated gene, the observed increase in adiponectin might be attributed to the increase in RXR rather than via PPARgamma. Taken together, the results of this investigation have revealed that ACE inhibitors initiate ACE signalling by eliciting the dimerization of the enzyme, more specifically via its C-domain active centers. The ACE signalling cascade when activated leads to the enhanced expression of ACE, COX-2 and CRBP-1 which in turn favours the heterodimerization of PPARgamma with RXR and thus results in the increased expression of “PPARgamma regulated” genes such as adiponectin. The latter results provide a molecular basis for the observation that ACE inhibitors can delay the onset of type 2 diabetes in as much as it was possible to link ramipril with CRBP-1, RXR activity and the expression of adiponectin, an adipokine associated with improved insulin sensitivity. Further work is however required to elucidate the consequences of ACE inhibitors in monocytes and adipocytes as well as in intact animals.
Background The arterial in line application of the leukocyte inhibition module (LIM) in the cardiopulmonary bypass (CPB) limits overshooting leukocyte activity during cardiac surgery. We now studied in a porcine model whether LIM may have beneficial effects on cardiac function after CPB. Methods German landrace pigs underwent CPB (60 min myocardial ischemia; 30 min reperfusion)without (group I; n=6) or with LIM (group II; n=6). The cardiac indices (CI) and cardiac function were analyzed pre and post CPB with a Swan-Ganz catheter and the cardiac function analyzer. Neutrophil labeling with technetium, scintigraphy, and histological analyses were done to track activated neutrophils within the organs. Results LIM prevented CPB-associated increase of neutrophil counts in peripheral blood. In group I, the CI significantly declined post CPB (post: 3.26 +/- 0.31; pre: 4.05 +/- 0.45 l/min/m2; p<0.01). In group II, the CI was only slightly reduced (post: 3.86 +/- 0.49; pre 4.21 +/- 1.32 l/min/m2; p=0.23). Post CPB, the intergroup difference showed significantly higher CI values in the LIM group (p<0.05) which was in conjunction with higher pre-load independent endsystolic pressure volume relationship (ESPVR) values (group I: 1.57 +/- 0.18; group II: 1.93 +/- 0.16; p<0.001). Moreover, the systemic vascular resistance and pulmonary vascular resistance were lower in the LIM group. LIM appeared to accelerate the sequestration of hyperactivated neutrophils in the spleen and to reduce neutrophil infiltration of heart and lung. Conclusions Our data provide strong evidence that LIM improves perioperative hemodynamics and cardiac function after CPB by limiting neutrophil activity and inducing accelerated sequestration of neutrophils in the spleen.
Background: Chronic congestive heart failure (CHF) is a complex disease with rising prevalence, compromised quality of life (QoL), unplanned hospital admissions, high mortality and therefore high burden of illness. The delivery of care for these patients has been criticized and new strategies addressing crucial domains of care have been shown to be effective on patients' health outcomes, although these trials were conducted in secondary care or in highly organised Health Maintenance Organisations. It remains unclear whether a comprehensive primary care-based case management for the treating general practitioner (GP) can improve patients' QoL. Methods/Design: HICMan is a randomised controlled trial with patients as the unit of randomisation. Aim is to evaluate a structured, standardized and comprehensive complex intervention for patients with CHF in a 12-months follow-up trial. Patients from intervention group receive specific patient leaflets and documentation booklets as well as regular monitoring and screening by a prior trained practice nurse, who gives feedback to the GP upon urgency. Monitoring and screening address aspects of disease-specific selfmanagement, (non)pharmacological adherence and psychosomatic and geriatric comorbidity. GPs are invited to provide a tailored structured counselling 4 times during the trial and receive an additional feedback on pharmacotherapy relevant to prognosis (data of baseline documentation). Patients from control group receive usual care by their GPs, who were introduced to guidelineoriented management and a tailored health counselling concept. Main outcome measurement for patients' QoL is the scale physical functioning of the SF-36 health questionnaire in a 12-month follow-up. Secondary outcomes are the disease specific QoL measured by the Kansas City Cardiomyopathy questionnaire (KCCQ), depression and anxiety disorders (PHQ-9, GAD-7), adherence (EHFScBS and SANA), quality of care measured by an adapted version of the Patient Chronic Illness Assessment of Care questionnaire (PACIC) and NTproBNP. In addition, comprehensive clinical data are collected about health status, comorbidity, medication and health care utilisation. Discussion: As the targeted patient group is mostly cared for and treated by GPs, a comprehensive primary care-based guideline implementation including somatic, psychosomatic and organisational aspects of the delivery of care (HICMAn) is a promising intervention applying proven strategies for optimal care. Trial registration: Current Controlled Trials ISRCTN30822978.