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The cost-effectiveness of cardiac monitoring in breast cancer patients who have received cardiotoxic therapiesMann, Teresa A. 17 July 2012 (has links)
It has been known that anthracycline-based chemotherapy has the potential to cause cardiac dysfunction in breast cancer patients; however, recently evidence has shown that the addition of trastuzumab increases this risk. The study objective was to compare the cost-effectiveness of monitoring for cardiotoxicity with B-type natriuretic peptide (BNP), multi-gated acquisition scanning (MUGA), echocardiography (ECHO) or no monitoring from a payer’s prospective. Cost-effectiveness was compared between alternatives using an incremental cost-effectiveness ratio with outcomes of 1) quality-adjusted life-years and 2) percentage of patients diagnosed with each monitoring strategy. Costs estimates (in 2010 U.S. Dollars) of each strategy (obtained from the Center for Medicare and Medicaid Services website [www.cms.gov]) included the cost of the test, cost of treating heart failure once discovered (which includes medications, routine office visits, medication management) and the cost of potential acute care (which includes emergency department visits and hospitalizations). Estimates for the probabilities of heart failure development, disease progression, need for acute care, and mortality, as well as utility estimates for all disease stages were obtained from published literature. A 15-year time-frame was used with a 3% discount rate for both costs and QALYs.
In the base-case analysis, the average costs and QALYs for monitoring patients were $10,062/ 6.92 QALY, $13,627/4.22 QALY, $14,739/ 6.61 QALY and $15,656/ 6.49 QALY for BNP, No Monitoring, ECHO and MUGA respectively. When comparing all alternatives to BNP, the ICER values were negative, indicating that BNP was the dominant monitoring strategy. Percent detection was similar between the three monitoring methods [21-22 % for HER-2(-) and 30-31% for HER-2(+) patients]. Again BNP was dominant over the other monitoring strategies. Sensitivity analyses were robust to changes in discount rate, probability of patients testing HER-2 (+), probability of patients being diagnosed in an asymptomatic stage, incidence of cardiac dysfunction in patients receiving anthracycline therapy ± trastuzumab and estimate of disutility associated with additional testing. A probabilistic sensitivity analysis conducted via Monte Carlo simulation led to the same conclusion as the base-case analysis; BNP was the dominant strategy over all monitoring alternatives. / text
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Heart failure : biomarker effect and influence on quality of lifeKarlström, Patric January 2016 (has links)
Background and aims: Heart failure (HF) is a life threatening condition and optimal handling is necessary to reduce risk of therapy failure. The aims of this thesis were: (Paper I) to examine whether BNP (B-type natriuretic peptide)-guided HF treatment improves morbidity and mortality when compared with HF therapy implemented by a treating physician at sites experienced in managing patients with HF according to guidelines; (Paper II) to investigate how to define a responder regarding optimal cut-off level of BNP to predict death, need for hospitalisation, and worsening HF and to determine the optimal time to apply the chosen cut-off value; (Paper III) to evaluate how Health-Related Quality of Life (HR-QoL) is influenced by natriuretic peptide guiding and to study how HR-QoL is affected in responders compared to non-responders; (Paper IV) to evaluate the impact of patient age on clinical outcomes, and to evaluate the impact of duration of the HF disease on outcomes and the impact of age and HF duration on BNP concentration. Methods: A randomized, parallel group, multi-centre study was undertaken on 279 patients with HF and who had experienced an episode of worsening HF with increased BNP concentration. The control group (n=132) was treated according to HF guidelines and in the BNP-guided group (n=147) the HF treatment algorithm goal was to reduce BNP concentration to < 150 ng/L in patients < 75 years and <300 ng/L in patients > 75 years (Paper I), and to define the optimal percentage decrease in BNP and at what point during the follow-up to apply the definition (Paper II). To compare the BNP-guided group with the conventional HF treated group (Paper I), and responders and non-responders (Paper II) regarding HR-QoL measured with Short Form 36 (SF-36) at study start and at study end (Paper III) and to evaluate if age or HF duration influenced the HF outcomes and the influence of BNP on age and HF duration (Paper IV). Results: The primary outcome (mortality, hospitalisation and worsening HF) was not improved by BNP-guided HF treatment compared to conventional HF treatment or in any of the secondary outcome variables (Paper I). Applying a BNP decrease of at least 40 percent in week 16 (compared to study start) and/or a BNP<300 ng/L demonstrated the best risk reduction for cardiovascular mortality, by 78 percent and 89 percent respectively for HF mortality (Paper II). The HR-QoL improved in four domains in the BNP-guided group and in the control group in six of eight domains; however there were no significant differences between the groups (Paper III). For responders the within group analysis showed improvement in four domains compared to the non-responders that improved in one domain; however there were no significant differences between the two groups. There were improvements in HR-QoL in all four groups (Paper III). Age did not influence outcome but HF duration did. HF duration was divided into three groups: HF duration less than 1 year (group 1), 1-5 years (group 2) and >5 years (group 3). A 1.65-fold increased risk could be demonstrated in those with HF duration of more than five years compared to patients with short HF duration. The BNP concentration was increased with increased age, and there was a better response regarding BNP decrease in NP-guiding in patients with short HF duration, independent of age (Paper IV). Conclusions: There were no significant differences between BNP-guided HF treatment group and the group with conventional HF treatment as regards mortality, hospitalisation or HR-QoL. The responders to HF treatment showed a significantly better outcome in mortality and hospitalisation compared to non-responders but no significant differences in HR-QoL. The duration of HF might be an important factor to consider in HF treatment by BNP-guiding in the future.
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Using B-type natriuretic peptide and whole body contrast enhanced magnetic resonance imaging to detect asymptomatic cardiovascular disease and improve prediction of risk of cardiovascular disease : the TASCFORCE StudyLambert, Matthew Alexander January 2016 (has links)
Cardiovascular disease remains a leading a cause of mortality and morbidity. Primary prevention is known to reduce the incidence of cardiovascular disease. The use of medication is currently targeted at those at increased predicted risk of cardiovascular disease using risk prediction tools developed from large epidemiological studies. However these have poor external validity particularly for those at low or intermediate risk: a significant number of cardiovascular events still occurs in these groups. We hypothesised that screening for asymptomatic pre-clinical cardiovascular disease using B-type natriuretic peptide (BNP) and whole body contrast enhanced magnetic resonance imaging (MRI) could identify those at low/intermediate risk or disease whowill develop clinical disease and thus facilitate improved targeting of primary prevention at those most likely to benefit. The Tayside Screening for Cardiac Events (TASCFORCE) study is a prospective normal volunteer cohort study. Men and women aged 40 years or older free from cardiovascular disease and with a predicted 10-year coronary heart disease risk less than 20% were recruited. All had comprehensive baseline cardiovascular risk information and a BNP level measured. If the BNP level was greater than the median for their gender participants were invited to attend for a whole body contrast enhancedMRI scan comprising cardiac imaging and whole body angiography. The images were analysed to measure left ventricular mass (LVM), left ventricular volumes and left ventricular function. These were indexed for body size using height, height1.7, height2.7 and body surface area. Angiogram images were analysed for the presence and degree of intraluminal stenosis. All participants are being followed up using anonymised electronic data linkage for incident cardiovascular disease and death. 4423 participants (39.3% male) were recruited between November 2007 and February 2013. Median age was 51.2 years. The median 10-year coronary heart disease (CHD) 23 risk was 2% and 13.6% had a CHD risk of 10-19.9% (intermediate risk). The medianBNP results for men and women were 7.5 and 15.3 pg/ml respectively. Age, female sex and high density lipoprotein were independently associated with BNP level. Heart rate, total cholesterol and ex-smoking status were independently inversely associated with BNP level. 1528 (74.8% of those invited) underwent an MRI scan. Mean left ventricular mass was 129.2g and 87.0g for men and women respectively. LVM and left ventricular mass index (LVMI) were significantly higher in men than women. The vast majority (94.6%) of arterial segments analysed were normal and 50.6% of individuals had no evidence of luminal stenosis. From follow up data obtained 2 years after the end of recruitment 18,364 person years at risk were analysed. 17 cardiovascularevents and no deaths occurred in those not invited for an MRI scan based on their BNP result and 16 events and 1 death occurred in those invited for an MRI scan. There was no significant difference in event rates between those with above and below median BNP levels, between those with higher or lower LVM or LVMI or between those with and without the presence of stenosis on angiography. As expected we have not demonstrated the ability of LVM, LVMI or stenosis burden determined using magnetic resonance imaging to predict cardiovascular disease in a population at low or intermediate risk of CHD. We have also not demonstrated the ability of BNP to identify those at low orintermediate risk of CHD who will develop clinical CV disease. However it is the pre-planned longer-term follow up where difference might be expected. The low number of events at this early stage in follow up mean that it is difficult to draw firm conclusions. As follow up continues and further events accumulate we hope to determine if these measures will be shown to predict cardiovascular events in future analyses. We have characterised the normal values and distribution of a range of left ventricular structural and functional parameters derived using a steady state free precision sequence MRI in a population at low or intermediate risk of CHD which will provide a useful reference for normal values that are different to other imaging modalities including chocardiography and other protocols of MRI scanning.
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Left Ventricular Diastolic (Dys)Function in SepsisDavid Sturgess Unknown Date (has links)
BACKGROUND: Sepsis is a clinical syndrome characterised by the systemic response to infection. It is a common problem in modern intensive care units and is associated with significant morbidity and mortality. Though the underlying cause of death is often multifactorial, refractory hypotension and cardiovascular collapse are frequently observed in the terminal phases of the condition. The aetiology of these cardiovascular abnormalities is complex but appears to be mediated by a circulating factor(s). The impact of sepsis upon left ventricular systolic function has been studied extensively. This may be because it is more readily assessed than diastolic function. Despite being increasingly appreciated as a contributor to morbidity and mortality in other clinical settings, there are scant data regarding the evaluation of left ventricular diastolic function in sepsis. Review of the haemodynamic monitoring literature reveals that many conventional measures of left ventricular filling, intravascular volume status and fluid responsiveness are influenced by ventricular diastolic (dys)function, such that interpretation can be challenging in critical care settings. In addition, many available techniques, such as pulmonary artery catheterisation, are invasive and potentially associated with risk to the patient. More robust and less invasive measures of left ventricular diastolic function and filling that can be applied within the intensive care unit (ICU) must be developed. The use of cardiac biomarkers, such as B-type natriuretic peptide (BNP), might represent a novel approach to evaluating left ventricular diastolic function and filling. BNP is released by the myocardium in response to wall stretch/tension. It has demonstrated value in the emergency department diagnosis of heart failure but interpretation of plasma BNP concentrations in critical care remains problematic. At least in part, this appears to relate to the significant number of potential confounders in patients with critical illness. Associations between BNP concentration and diastolic function have not previously been evaluated in severe sepsis and septic shock. The overall aim of this thesis is to investigate the usefulness of plasma BNP concentration in the evaluation of left ventricular diastolic function (including ventricular filling) in severe sepsis and septic shock. DIASTOLIC (DYS)FUNCTION IN SEPSIS: Review of the literature reveals that sepsis is associated with a spectrum of diastolic dysfunction. Characterisation of diastolic function in sepsis is challenging. In this regard, tissue Doppler imaging (TDI), offers promise. TDI is an echocardiographic technique that measures myocardial velocities, which are low frequency, high-amplitude signals filtered from conventional Doppler imaging. TDI has gained acceptance amongst cardiologists in the evaluation of diastolic function, particularly as a measure of ventricular relaxation and ventricular filling pressure; however, there are scant data regarding its use in critical care. We analysed echocardiographs from a large heterogeneous cohort of consecutive ICU patients (n=94) who had TDI as part of their clinically requested echocardiography. As well as supporting the feasibility of TDI in critically ill and mechanically ventilated patients, we demonstrated a wide range of TDI variables and a high prevalence of diastolic dysfunction using this modality. RODENT MODELS OF SEPSIS: We also sought to adapt, refine and evaluate rodent models of sepsis. Such models would allow control for a multitude of potential confounders commonly encountered in clinical sepsis. Two commonly employed rodent models of sepsis include caecal ligation and perforation (CLP) and endotoxin infusion. Comparison between CLP, sham and control groups demonstrated no difference in TDI or BNP. The observed changes in echocardiographic diastolic variables did not reflect those expected in sepsis and may be best explained by increases in heart rate rather than diastolic dysfunction per se. Endotoxaemia was associated with changes consistent with impaired myocardial relaxation (TDI) and reversible myocardial injury (histopathology), as expected in sepsis. BNP did not change significantly from baseline. This might be explained by the potential influence of fluid management upon BNP secretion. CLINICAL RESEARCH: The prediction of fluid responsiveness potentially prevents ineffective, excessive or deleterious intravenous fluid administration. Prospective evaluation of plasma BNP concentration in patients with septic shock found that it was not a predictor of a fluid responsive state. Furthermore, elevated BNP did not rule out a favourable response and therefore does not contraindicate a fluid challenge. Both impaired diastolic dysfunction, especially E/e’, and elevated BNP, have been associated with excess mortality in a range of cardiovascular diseases. These have not previously been compared in septic shock. In a cohort of patients with septic shock, E/e’ was a stronger predictor of mortality than cardiac biomarkers, including BNP. Fluid balance was an independent predictor of BNP in septic shock. OVERALL CONCLUSION: BNP appears not to be clinically useful in the evaluation of ventricular filling or diastolic function in sepsis. The association with fluid balance is a new finding and should be evaluated in a wider range of critically ill patients. In contrast to BNP, TDI appears to be a promising bedside tool in the evaluation of diastolic function and should be further evaluated in critical care.
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The role of B-type natriuretic peptide in diagnosing acute decompensated heart failure in chronic kidney disease patientsKadri, Amer N., Kaw, Roop, Al-Khadra, Yasser, Abumasha, Hasan, Ravakhah, Keyvan, Hernandez, Adrian V., Tang, Wai Hong Wilson January 2018 (has links)
Introduction: Chronic kidney disease (CKD) and congestive heart failure (CHF) patients have higher serum B-type natriuretic peptide (BNP), which alters the test interpretation. We aim to define BNP cutoff levels to diagnose acute decompensated heart failure (ADHF) in CKD according to CHF subtype: heart failure with preserved ejection fraction (HFpEF) and heart failure with reduced ejection fraction (HFrEF). Material and methods: We reviewed 1,437 charts of consecutive patients who were admitted for dyspnea. We excluded patients with normal kidney function, without measured BNP, echocardiography, or history of CHF. BNP cutoff values to diagnose ADHF for CKD stages according to CHF subtype were obtained for the highest pair of sensitivity (Sn) and specificity (Sp). We calculated positive and negative likelihood ratios (LR+ and LR–, respectively), and diagnostic odds ratios (DOR), as well as the area under the receiver operating characteristic curves (AUC) for BNP. Results: We evaluated a cohort of 348 consecutive patients: 152 had ADHF, and 196 had stable CHF. In those with HFpEF with CKD stages 3–4, BNP < 155 pg/ml rules out ADHF (Sn90%, LR– = 0.26 and DOR = 5.75), and BNP > 670 pg/ml rules in ADHF (Sp90%, LR+ = 4 and DOR = 6), with an AUC = 0.79 (95% CI: 0.71–0.87). In contrast, in those with HFrEF with CKD stages 3–4, BNP < 412.5 pg/ml rules out ADHF (Sn90%, LR– = 0.19 and DOR = 9.37), and BNP > 1166.5 pg/ml rules in ADHF (Sp87%, LR+ = 3.9 and DOR = 6.97) with an AUC = 0.78 (95% CI: 0.69–0.86). All LRs and DOR were statistically significant. Conclusions: BNP cutoff values for the diagnosis of ADHF in HFrEF were higher than those in HFpEF across CKD stages 3–4, with moderate discriminatory diagnostic ability. / Revisión por pares
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Identification of novel drug targets for the treatment of heart failureMoilanen, A.-M. (Anne-Mari) 25 September 2012 (has links)
Abstract
Heart failure (HF) is a complex pathological state, involving simultaneous alterations in several signalling pathways and changes in gene programming. In HF, activation of the neurohumoral factors and renin-angiotensin-aldosterone (RAA) system occurs as a compensatory mechanism to combat the abnormal ventricular function. Developments in cardiac gene delivery methods have exerted a significant impact to treat HF and to discover the novel molecular mechanisms associated with HF and other cardiac diseases.
This study demonstrated that adenovirus–mediated gene delivery of B-type natriuretic peptide (BNP) into the anterior wall of the left ventricle decreased myocardial fibrosis and increased capillary density. Post-infarction BNP improved systolic function associated with normalization of cardiac sarcoplasmic reticulum Ca2+-ATPase (SERCA) 2 expression and phospholamban phosphorylation at Thr17. On the other hand, (Pro)renin receptor ([P]RR) gene delivery resulted deleterious effects on cardiac function and (P)RR activation induced distinct angiotensin II (Ang II)-independent extracellular matrix remodelling and worsening of cardiac function. (P)RR gene delivery resulted in Ang II-independent activation of extracellular-signal regulated (ERK1/2) phosphorylation and increased myocardial fibrosis.
In conclusion, the present study indicates that myocardial BNP gene delivery can achieve pleiotropic, context-dependent, favourable effects on cardiac function and that BNP can act locally as a mechanical load–activated regulator of angiogenesis and fibrosis. These results also implicate that (P)RR blockers may display additional cardiac effects in addition to its ability to evoke effective RAA system blockade. Overall, the findings of this study provide a better understanding of the molecular mechanisms involved in the biological actions of BNP and (P)RR, and identify BNP and (P)RR as potential novel drug targets for the treatment of HF. / Tiivistelmä
Neuroendokriinisellä aktivaatiolla, jonka seurauksena aiheutuu muun muassa verisuonten supistumista ja laajenemista sekä nesteen kertymistä elimistöön, on tärkeä merkitys sydämen vajaatoiminnan kehittymisessä. Neuroendokriininen aktivaatio kompensoi sydämen vajaatoiminnan seurauksena tapahtuvaa kammioiden poikkeavaa toimintaa. Yksi keskeisimmistä verisuonia supistavista tekijöistä on reniini-angiotensiini-aldosteroni (RAA) -järjestelmä, ja verisuonia laajentaviin tekijöihin kuuluvat muun muassa natriureettiset peptidit, kuten B-tyypin natriureettinen peptidi (BNP) ja A-tyypin natriureettinen peptidi. Geeninsiirtomenetelmillä on ollut merkittäviä vaikutuksia uusien hoitomenetelmien kehittämisessä, sydämen vajaatoiminnan syiden selvittämisessä ja uusien kohdegeenien tunnistamisessa sydämen vajaatoiminnan hoitoon.
Väitöskirjan tutkimustulokset osoittivat, että suora adenovirusvälitteinen geeninsiirto rotan sydämen vasemman kammion etuseinään on toimiva menetelmä uusien kohdegeenien löytämiseksi sydämen vajaatoiminnan hoitoon. BNP:n geeninsiirto vähensi merkitsevästi fibroosin muodostumista ja lisäsi verisuonten uudismuodostumista sydämessä. Sydäninfarktin jälkeen BNP paransi sydämen systolista toimintaa, johon liittyi aktiivisen kalsiumpumpun, SERCA2:n ja fosfolambaani-proteiinin fosforylaation normalisoituminen. (Pro)reniini reseptorin ([P]RR) geeninsiirto aiheutti angiotensiini II:sta riippumatonta solunulkoisen matriksin uudelleenmuotoutumista ja sydämen toiminnan huonontumista sekä lisääntynyttä sydämen fibroosia.
Väitöskirjatutkimus antaa uutta tietoa solunsisäisistä molekulaarisista mekanismeista sydänsoluissa. BNP geeninsiirto aiheutti sydämen tautitilasta riippuvia suotuisia tapahtumia, ja se toimi paikallisesti muun muassa fibroosia ehkäisevänä tekijänä. (P)RR geeninsiirtotulosten perusteella voidaan olettaa, että (P)RR:n salpaus saattaa olla uusi tehokas hoitokeino sydämen vajaatoiminnan hoitoon.
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Characterization of signalling pathways in cardiac hypertrophic responseKoivisto, E. (Elina) 07 June 2011 (has links)
Abstract
Intracellular signalling cascades regulate cardiomyocyte hypertrophic response. Initially hypertrophy of individual myocytes occurs as an adaptive response to increased demands for cardiac work, e.g. during hypertension or after myocardial infarction, but a prolonged hypertrophic response, accompanied by accelerated fibrosis and apoptosis, predisposes the heart to impaired performance and the syndrome of heart failure. The goal of this work was to elucidate some of the main signalling pathways in experimental models of the cardiac hypertrophic response.
Mechanical stretching of cultured neonatal rat cardiomyocytes in vitro activates the B-type natriuretic peptide (BNP) gene, a well-established marker of the hypertrophic response, through intracellular signalling cascades mitogen-activated protein kinases (MAPKs) and protein kinase A (PKA) -pathway. Further, transcription factors transcriptional enhancer factor-1 (TEF-1) and activating transcription factor 3 (ATF3) were induced during stretch, and TEF-1 activation was shown to be regulated by extracellular signal-regulated kinase (ERK), while ATF3 activation was modulated by PKA. The BNP gene was also activated by the adenoviral overexpression of the p38 MAPK isoforms p38α and p38β in vitro. Importantly, p38α–induced activation was mediated through activator protein-1 (AP-1) while p38β mediated BNP transcription through GATA-4, which suggests distinct physiological roles for different p38 isoforms. This was further confirmed by quantitative PCR, which demonstrated pro-fibrotic role for the p38α isoform and a pro-hypertrophic role for the p38β isoform. Finally, adenoviral overexpression of ATF3 in vitro and in vivo resulted in activation of cardiac survival factors nuclear factor-κВ and Nkx-2.5, and attenuation of central pro-inflammatory and pro-fibrotic mediators. Together these data suggest a protective role for ATF3 in the heart.
Overall this study provides new insights into the role of several signalling molecules involved in cardiac hypertrophic process and suggests potential therapeutic strategies for the diagnosis and treatment of heart failure. / Tiivistelmä
Sydämen kammioiden seinämät paksuuntuvat kuormituksen lisääntyessä mm. verenpainetaudissa tai sydäninfarktin jälkeen. Lisääntynyt kuormitus aiheuttaa sydänlihassolujen koon kasvun (hypertrofioitumisen) ohella sidekudoksen kertymistä (fibroosia) ja solukuolemaa. Nämä solutason muutokset lopulta vioittavat sydämen rakennetta niin, että sen toiminta pettää, ja sydän ajautuu vajaatoimintaan. Tätä taudin etenemistä säätelevät molekyylitasolla lukuisat solunsisäiset signaalinvälitysjärjestelmät, joita tässä väitöskirjatyössä tutkittiin eri koemalleissa.
Sydämen täyttöpaineen nousun aiheuttama sydänlihassolujen mekaaninen venytys aktivoi natriureettisten peptidien (eteispeptidi, ANP ja B-tyypin natriureettinen peptidi, BNP) synteesiä ja vapautumista verenkiertoon. BNP geenin säätelyä mekaanisen venytyksen aikana tutkittiin rotan sydänlihassoluviljelmissä. Mitogeeni-aktivoituvat proteiinikinaasit (MAPK) sekä proteiinikinaasi A (PKA) säätelivät mekaanisen ärsykkeen aiheuttamaa BNP geenin ekspressiota. Venytys aktivoi myös transkriptiotekijöitä TEF-1 (transcriptional enhancer factor-1) ja ATF3 (activating transcription factor 3). TEF-1 sääteli venytyksen aiheuttamaa BNP:n aktivaatiota ERK:n (extracellular signal-regulated kinase) välityksellä BNP geenin säätelyalueella olevan sitoutumispaikkansa (M-CAT elementti) kautta. ATF3:n säätelyssä PKA:lla oli keskeinen merkitys. Tutkimus osoitti myös, että p38 MAPK:n alatyypeistä p38α lisäsi fibroosiin liittyvien geenien aktiivisuutta, kun taas p38β aiheutti solujen hypertrofioitumista lisäävien geenien ekspressiota. Molemmat alatyypit aktivoivat BNP geenin ekspressiota, mutta aktivaatio tapahtui eri transkriptiotekijöiden kautta. Tutkimuksessa havaittiin myös, että ATF3:n yliekspressio adenovirusvälitteisellä geeninsiirrolla lisäsi kahden sydäntä suojaavan transkriptiotekijän (nuclear factor-κВ ja Nkx-2.5) aktiivisuutta, sekä vähensi sydämen tulehdusvastetta ja fibroosia lisäävien tekijöiden (interleukiini-6 ja plasminogeeniaktivaattorin inhibiittori-1) ekspressiota.
Väitöskirjatutkimus antaa uutta tietoa solunsisäisistä signaalinvälitys-järjestelmistä, jotka säätelevät sydänlihaksen kuormitusvastetta sydän- ja verenkiertoelimistön sairauksissa. Näiden solutason mekanismien tunteminen osaltaan edesauttaa jatkossa uusien menetelmien kehittämistä sydämen vajaatoiminnan ehkäisyyn ja hoitoon.
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p38 mitogen-activated protein kinase and transcription factor GATA-4 in the regulation of cardiomyocyte functionKaikkonen, L. (Leena) 12 August 2014 (has links)
Abstract
Cardiovascular diseases are the leading causes of death in the developed countries and their incidence is not expected to decrease in the future. There is a lifetime risk of one in five of developing heart failure, which still has poor prognosis and current treatments only cover part of the pathophysiology behind this syndrome. Pathological processes contributing to heart failure include cardiac hypertrophy and remodeling, which involves neurohumoral activation, reactivation of fetal genes, impaired Ca2+ cycling, increased apoptosis, and increased fibrosis. Intracellular signalling pathways and transcription factors mediating the response to various extracellular stresses have a key role in the regulation of myocardial remodeling and they are investigated in order to develop new approaches for the treatment of heart failure.
The aim of this thesis was to elucidate roles of mitogen-activated protein kinases (MAPKs) and transcription factor GATA-4 in the regulation of cardiomyocyte function in cell cultures, and in hearts ex vivo and in vivo. The main findings were that (i) Inhibition of p38α MAPK enhanced function of sarco/endoplasmic reticulum Ca2+ -ATPase and thus cardiac contractility by increasing phosphorylation of protein phosphatase inhibitor-1 and phospholamban, (ii) p38 MAPK isoforms p38α and p38β regulated promoter activity of B-type natriuretic peptide via distinct pathways, (iii) p38α and p38β MAPKs also had different effects on gene expressions related to fibrosis and hypertrophy, and (iv) p38 and ERK1/2 MAPKs mediated stretch-induced activation of GATA-4 by phosphorylation at Ser 105. GATA-4 also seems to be regulated by ubiquitination.
This study provides novel data of p38 MAPK and GATA-4 in the regulation of cardiomyocyte function. Inhibition of p38α MAPK could be beneficial in the treatment of heart failure. Also GATA-4 is a potential target for treatment of cardiovascular diseases. / Tiivistelmä
Sydän- ja verisuonisairaudet ovat yleisin kuolinsyy länsimaissa, eikä niiden ilmaantuvuus tule vähenemään lähitulevaisuudessa. Elinikäinen riski sairastua sydämen vajaatoimintaan on 20 %, ja sydämen vajaatoiminnan ennuste on edelleen huono. Nykyisillä hoitomuodoilla voidaan puuttua vain osittain sydämen vajaatoiminnan patofysiologisiin mekanismeihin. Sydämen vajaatoiminnan kehittymiseen liittyvät sydänlihaksen liikakasvu ja uudelleenmuovautumisprosessi, johon liittyy neurohumoraalinen aktivaatio, sikiöaikaisten geenien uudelleenilmentyminen, häiriöt solunsisäisessä Ca2+-viestinnässä sekä lisääntynyt ohjelmoitu solukuolema ja sidekudoksen muodostuminen sydämeen. Solunsisäisillä viestinvälitysketjuilla sekä transkriptiotekijöillä, jotka vastaavat solunulkoisten ärsykkeiden välittämisestä solun sisällä, on keskeinen rooli edellämainittujen prosessien säätelyssä. Uusien lähestymistapojen kehittäminen sydämen vajaatoiminnan hoitoon edellyttää myös solunsisäisen viestinvälityksen ja geenien säätelyn mekanismien selvittämistä.
Tämän väitöstyön tavoite oli selvittää p38 mitogeeniaktivoituvan proteiinikinaasin (p38 MAPK) ja transkriptiotekijä GATA-4:n merkitystä sydämen vajaatoiminnan patogeneesissä soluviljelymalleissa. Päälöydöksiä olivat: (i) p38α MAPK -isoformin estäminen paransi kalsiumia solulimakalvostoon pumppaavan SERCA2a:n toimintaa ja sydänlihassolun supistumiskykyä lisäämällä fosfolambaanin ja proteiinifosfataasi-inhibiittori-1:n fosforylaatiota. (ii) p38 MAPK isoformit p38α ja p38β säätelivät B-tyypin natriureettisen peptidin geenin promoottorialuetta erillisten reittien kautta. (iii) p38α ja p38β isoformit vaikuttivat myös eri tavoin sydämen sidekudoksen muodostumiseen ja hypertrofiaan liittyvien geenien ilmentymiseen. (iv) p38 ja ERK1/2 välittävät venytyksen aiheuttaman GATA-4:n aktivaation fosforyloimalla seriini-105 fosforylaatiopaikan. Lisäksi GATA-4:n toimintaa säädellään ubiquitinaation avulla.
Tämä tutkimus tuo uutta tietoa p38 MAPK:n ja GATA-4:n rooleista sydämen vajaatoiminnan kehittymisessä. p38α-isoformin toiminnan estäminen voisi olla hyödyllinen hoitomuoto sydämen vajaatoiminnassa. Myös GATA-4 on potentiaalinen lääkehoidon kohde sydänsairauksien hoidossa.
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Techniques to assess volume status and haemodynamic stability in patients on haemodialysisMathavakkannan, Suresh January 2010 (has links)
Volume overload is a common feature in patients on haemodialysis (HD). This contributes significantly to the cardiovascular disease burden seen in these patients. Clinical assessments of the volume state are often inaccurate. Techniques such as interdialytic blood pressure, relative blood volume monitoring, bioimpedance are available to improve clinical effectives. However all these techniques exhibit significant shortcomings in their accuracy, reliability and applicability at the bed side. We evaluated the usefulness of a dual compartment monitoring technique using Continuous Segmental Bioimpedance Spectroscopy (CSBIS) and Relative Blood Volume (RBV) as a tool to assess hydration status and determine dry weight. We also sought to evaluate the role of Atrial Natriuretic Peptide (ANP) and B-type Natriuretic Peptide (BNP) as a volume marker in dialysis patients. The Retrospective analysis of a historical cohort (n = 376, 55 Diabetic) showed a significant reduction in post-dialysis weights in the first three months of dialysis (72.5 to 70kg, p<0.027) with a non-significant increase in weight between months 6-12. The use of anti-hypertensive agents reduced insignificantly in the first 3 months, increased marginally between months 3-6 and significantly increased over the subsequent 6 months. The residual urea clearance (KRU) fell and dialysis times increased. The cohort was very different to that dialysing at Tassin and showed a dissociation between weight reduction and BP control. This may relate to occult volume overload. CSBIS-RBV monitoring in 9 patients with pulse ultrafiltration (pulse UF) showed distinct reproducible patterns relating to extra cellular fluid (ECF) and RBV rebound. An empirical Refill Ratio was then used to define the patterns of change and this was related to the state of their hydration. A value closer to unity was consistent with the attainment of best achievable target weight. The refill ratio fell significantly between the first (earlier) and third (last) rebound phase (1.97 ± 0.92 vs 1.32 ± 0.2). CSBIS monitoring was then carried out in 31 subjects, whilst varying dialysate composition, temperature and patient posture to analyse the effects of these changes on the ECF trace and to ascertain whether any of these interventions can trigger a change in the slope of the ECF trace distinct to that caused by UF. Only, isovolemic HD caused a change in both RBV and ECF in some patients that was explained by volume re-distribution due to gravitational shifts, poor vascular reactivity, sodium gradient between plasma and dialysate and the use of vasodilating antihypertensive agents. This has not been described previously. These will need to be explored further. The study did demonstrate a significant lack of comparability of absolute values of RECF between dialysis sessions even in the same patient. This too has not been described previously. This is likely to be due to subtle changes in fluid distribution between compartments. Therefore a relative changes must be studied. This sensitivity to subtle changes may increase the usefulness of the technique for ECF tracking through dialysis. The potential of dual compartment monitoring to track volume changes in real time was further explored in 29 patients of whom 21 achieved weight reductions and were able to be restudied. The Refill Ratio decreased significantly in the 21 patients who had their dry weights reduced by 0.95 ± 1.13 kg (1.41 ± 0.25 vs 1.25 ± 0.31). Blood pressure changes did not reach statistical significance. The technique was then used to examine differences in vascular refill between a 36oC and isothermic dialysis session in 20 stable prevalent patients. Pulse UF was carried out in both these sessions. There were no significant differences in Refill Ratios, energy removed and blood pressure response between the two sessions. The core temperature (CT) of these patients was close to 36oC and administering isothermic HD did not confer any additional benefit. Mean BNP levels in 12 patients during isovolemic HD and HD with UF did not relate to volume changes. ANP concentrations fell during a dialysis session in 11 patients from a mean 249 ± 143 pg/ml (mean ± SD) at the start of dialysis to 77 ± 65 pg/ml at the end of the session (p<0.001). During isolated UF levels did not change but fell in the ensuing sham phase indicating a time lag between volume loss and decreased generation. (136±99 pg/ml to 101±77.2 pg/ml; p<0.02) In a subsequent study ANP concentrations were measured throughout dialysis and in the post-HD period for 2 hours. A rebound in ANP concentration was observed occurring at around 90 min post-HD. The degree of this rebound may reflect the prevailing fluid state and merit further study. We have shown the utility of dual compartment monitoring with CSBIS-RBV technique and its potential in assessing volume changes in real time in haemodialysis patients. We have also shown the potential of ANP as an independent marker of volume status in the same setting. Both these techniques merit further study.
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