Venous haemodynamic and cerebrospinal fluid anomalies associated with multiple sclerosis

Beggs, Clive Barron

January 2014

This critical synopsis of prior work by Clive Beggs is submitted in support of a PhD by published work. The work focuses on venous and cerebrospinal fluid (CSF) anomalies associated with multiple sclerosis (MS) and other neurological diseases. MS is characterized by focal inflammatory lesions, which are often venocentric. Recently a vascular syndrome, chronic cerebrospinal venous insufficiency (CCSVI) has been linked with MS. This syndrome, which is characterized by constricted cerebral venous outflow, has become mired in controversy, with various studies producing conflicting findings, with the result that the science associated with CCSVI has become obscured. Clive Beggs work seeks to bring clarity to the debate surrounding CCSVI by characterizing physiological changes associated with constricted cerebral venous outflow. The work submitted here involves collaborative studies with Robert Zivadinov (University of Buffalo), Paolo Zamboni (University of Ferrara), and Chih- Ping Chung (National Yang Ming University of Medicine). The key findings of these studies are: (i) MS patients, diagnosed with CCSVI, exhibit greatly increased hydraulic resistance of the cerebral venous drainage system; (ii) MS patients experience loss of the small cerebral veins; (iii) MS patients exhibit reduced CSF bulk flow, consistent with mild venous hypertension; (iv) MS patients exhibit increased CSF pulsatility in the Aqueduct of Sylvius, which appears to be linked with mild venous hypertension associated with CCSVI; and (v) jugular venous reflux is associated with white matter and parenchymal volumetric changes in Alzheimer’s patients. Collectively, these findings suggest that extracranial venous anomalies are associated with changes in the intracranial physiology.

620

Left Ventricular Diastolic (Dys)Function in Sepsis

David Sturgess

Unknown Date

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.

Critical care

Sepsis

Biological Markers

B-type Natriuretic Peptide

Haemodynamics

Diastole

Echocardiography

Tissue Doppler

elasticity imaging techniques

Znalosti všeobecných sester o termodiluční technice monitorace srdečního výdeje pomocí Swan - Ganzova katétru / The nursing staff knowledge about thermo dilution technigue monitoring of cardiac output with support of Swan-Ganz catheter

Kuchtová, Helena

January 2016

No description available.

Venous haemodynamic and cerebrospinal fluid anomalies associated with multiple sclerosis

Beggs, Clive B.

January 2014

This critical synopsis of prior work by Clive Beggs is submitted in support of a PhD by published work. The work focuses on venous and cerebrospinal fluid (CSF) anomalies associated with multiple sclerosis (MS) and other neurological diseases. MS is characterized by focal inflammatory lesions, which are often venocentric. Recently a vascular syndrome, chronic cerebrospinal venous insufficiency (CCSVI) has been linked with MS. This syndrome, which is characterized by constricted cerebral venous outflow, has become mired in controversy, with various studies producing conflicting findings, with the result that the science associated with CCSVI has become obscured. Clive Beggs work seeks to bring clarity to the debate surrounding CCSVI by characterizing physiological changes associated with constricted cerebral venous outflow. The work submitted here involves collaborative studies with Robert Zivadinov (University of Buffalo), Paolo Zamboni (University of Ferrara), and Chih- Ping Chung (National Yang Ming University of Medicine). The key findings of these studies are: (i) MS patients, diagnosed with CCSVI, exhibit greatly increased hydraulic resistance of the cerebral venous drainage system; (ii) MS patients experience loss of the small cerebral veins; (iii) MS patients exhibit reduced CSF bulk flow, consistent with mild venous hypertension; (iv) MS patients exhibit increased CSF pulsatility in the Aqueduct of Sylvius, which appears to be linked with mild venous hypertension associated with CCSVI; and (v) jugular venous reflux is associated with white matter and parenchymal volumetric changes in Alzheimer’s patients. Collectively, these findings suggest that extracranial venous anomalies are associated with changes in the intracranial physiology.

Pharmacological activation of pro-survival pathways as a strategy for improving donor heart preservation

Kwan, Jair Chau, Clinical School - St Vincent's Hospital, Faculty of Medicine, UNSW

January 2009

Despite the development and use of specialised cardiac preservation solutions, the quality of the donor heart may still be compromised by its obligatory exposure to periods of ischaemia (both cold and warm) followed by reperfusion upon reintroduction of the recipient circulation. This is reflected in Transplant Registry data showing increased primary allograft failure as a function of increasing ischaemic time. The research described in this thesis is designed to further the understanding of the mechanisms by which the donor heart may be adapted to these prolonged periods of ischaemia and reperfusion by the activation of endogenous pro-survival signalling pathways by the addition of pharmacological agents to Celsior, a clinical preservation solution. Studies were conducted in an isolated working rat heart model of donor heart preservation. The first study investigated the cardioprotective effects of a novel inhibitor of poly(ADP-ribose) polymerase 1, INO-1153. Maximum protective effect (after a 6 hour storage period) was observed when the PARP inhibitor was administered prior to cardiac arrest and storage and when the agent was added to the Celsior cardioplegic / storage solution. This protective affect was associated with activation of the Akt signalling pathway and could be prevented by inhibition of Akt phosphorylation and activation. The second study examined functional protection and pro-survival signalling pathway activation in hearts arrested and stored for 6 hours in Celsior supplemented with glyceryl trinitrate (an exogenous source of nitric oxide) and Cariporide (an inhibitor of sodium hydrogen exchange). Here, cardiac protection was accompanied by activation of the ERK 1/2 pro-survival pathway as well as a decrease in apoptosis. The third study examined the cardioprotective effect of supplementation of Celsior with all three agents after an extended (10 hour) period of hypothermic storage. Significant recovery of function was only observed in the triply supplemented hearts, being accompanied by activation of both the Akt and ERK pathways. These studies demonstrate for the first time the feasibility of recruitment of endogenous pro-survival pathways as an approach to increasing the post-storage function of the donor heart. Importantly, for the logistics of clinical transplantation, these pathways can be recruited by addition of appropriate pharmacological agents to the arresting and storage solution.

Nitric oxide

Ischaemia reperfusion

Preconditioning

Apoptosis

Pro-survival pathways

Celsior

RISK

Cardiac Haemodynamics

Cardiac contractility

Heart preservation

PARP

Na+/H+ exchange inhibitor

Quantifying collateral flow pathways in the brain

McConnell, Flora A. Kennedy

January 2017

Ischaemic stroke is a major cause of death and disability worldwide. Cerebral autoregulation, which can be impaired during acute stroke, and collateral flow to brain tissue through the circle of Willis, both play a role in preventing tissue infarction. The configuration of the arterial circle varies between individuals. Thus, personalised modelling of the cerebral arterial network, to determine the potential for collateral flow, can be of significant value in the clinical context of stroke. The interaction between autoregulation and collateral flow remains poorly understood. In this study, steady-state physiological models of the cerebral arterial network, including several common variants of the circle of Willis, were coupled to a spatially variable mathematical representation of cerebral autoregulation. The resulting model was used to simulate various arterial occlusions, as well as bilateral and unilateral impairment of autoregulation, in each structural variant. The work identified few circle of Willis variants that present either particularly high-risk or particularly low-risk of cerebral ischaemia. Instead it was found that most variants are dependent upon the bilateral function of autoregulation to facilitate collateral flow and preserve cerebral blood flows. When autoregulation was impaired unilaterally, downstream of an occlusion, blood flows in the contralateral hemisphere were preserved at the expense of the ipsilateral tissue at risk. Arterial network models have in the past been personalised using structural, rather than functional, angiography measurements. This thesis presents a novel model-based method for absolute blood volume flow rate quantification in short arterial segments using dynamic magnetic resonance angiography data. The work also investigated the additional information that can be obtained from such functional angiography. The flow quantification technique was found to accurately estimate flows in shorter arterial segments than an existing technique. However, improvements to noise performance, and strategies for rejection of contaminating signals from overlapping vessels within the imaging plane, are required before the technique can be applied to personalised cerebral arterial network modelling.

Multi-scale modelling of the microvasculature in the human cerebral cortex

El-Bouri, Wahbi K.

January 2017

Cerebrovascular diseases are by far the largest causes of death in the UK, as well as one of the leading causes of adult disability. The brain's healthy function depends on a steady supply of oxygen, delivered through the microvasculature. Cerebrovascular diseases, such as stroke and dementia, can interrupt the transport of blood (and hence oxygen) rapidly, or over a prolonged period of time. An interruption in flow can lead to ischaemia, with prolonged interruptions leading to tissue death and eventual brain damage. The microvasculature plays a key role in the transport of oxygen and nutrients to brain tissue; however, its role in diseases such as dementia is poorly understood, primarily due to the inability of current clinical imaging techniques to resolve microvessels, and due to the complexity of the underlying microvasculature. Therefore, in order to understand cerebrovascular diseases, it is necessary to be able to resolve and understand the microvasculature. In particular, generating large-scale models of the human microvasculature that can be linked back to contemporary clinical imaging is important in helping plug the current imaging gap that exists. A novel statistical model is proposed here that generates such large-scale models efficiently. Homogenization theory is used to generate a porous continuum capillary bed (characterised by its permeability) that allows for the efficient scaling up of the microvasculature. A novel order-based density-filling algorithm is then developed which generates morphologically accurate penetrating arterioles and venules, also demonstrating that the topology of the vessels only has a minor influence on CBF compared to diameter. Finally, the capillary bed and penetrating vessels are coupled into a large voxel-sized model of the microvasculature from which pressure and flux variations through the voxel can be analysed. A decoupling of the pressure and flux, as well as a layering of flow, was observed within the voxel, driven by the topology of the penetrating vessels. Micro-infarctions were also simulated, demonstrating the large local effects they have on the pressure and flux, whilst only causing a minor drop in CBF within the voxel.

610.28

Low-dose aspirin therapy in IVF and ICSI patients

Haapsamo, M. (Mervi)

29 November 2011

Abstract The first aim of this randomized, placebo-controlled and double-blind study was to investigate whether low-dose aspirin therapy, started prior to controlled ovarian hyperstimulation, improves ovarian stimulation response, uterine haemodynamics and clinical pregnancy rates in unselected patients who underwent in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI). The second aim was to examine if the maternal serum placental proteome is different in IVF/ICSI pregnancies compared with spontaneous pregnancies, and whether low-dose aspirin modifies maternal serum placental protein expression and uteroplacental haemodynamics during the first half of pregnancy. Finally, the effect of low-dose aspirin therapy on the incidence of hypertensive pregnancy complications among women who became pregnant after IVF/ICSI was investigated. Low-dose aspirin therapy did not increase the number of oocytes retrieved, the total number of embryos or number of top-quality embryos, endometrial thickness or uterine haemodynamics on the day of embryo transfer (ET) or clinical pregnancy rates compared with placebo-treated IVF/ICSI women. On the day of ET, low-dose aspirin did not affect UtA vascular impedance, but the incidence of non-optimal uterine artery haemodynamics (UtA PI≥3.0) was statistically significantly lower (p<0.05) in the aspirin group compared with the placebo group. In the placebo-treated IVF/ICSI patients, maternal serum proteome analysis showed altered protein expression compared with women with spontaneous pregnancies. Between aspirin- and placebo-treated IVF/ICSI patients, proteome analysis showed a unique and distinct pattern of differentially expressed proteins including extra-cellular matrix, complement and transport proteins. At 6 weeks’ gestation, arcuate artery PI and at 18 weeks’ gestation, UtA PI values were lower (p<0.05) in the aspirin group than in the placebo group. In conclusion, low-dose aspirin therapy, when started concomitantly with controlled ovarian hyperstimulation, did not improve ovarian responsiveness, uterine receptivity, pregnancy outcome in unselected IVF/ICSI women or affect UtA vascular impedance on the day of ET. Low-dose aspirin modified the early placentation process and reduced uteroplacental vascular impedance in mid-pregnancy, but did not decrease the incidence of hypertensive pregnancy complications. / Tiivistelmä Keinoalkuisten hedelmöityshoitojen seurauksena keskimäärin reilu kolmannes naisista tulee raskaaksi hoitokertaa kohti. Näissä raskauksissa äidin seerumista määritettyjen istukkaperäisten merkkiaineiden pitoisuuksissa on eroavaisuuksia verrattuna spontaanisti raskaaksi tulleiden naisten seerumipitoisuuksiin ensimmäisen ja toisen raskauskolmanneksen aikana. Pre-eklampsian eli raskausmyrkytyksen riski on myös lisääntynyt. Syyksi arvellaan istukan verisuonipuuston poikkeavaa kehitystä. Pre-eklampsiaan liitetään intravaskulaarisen prostasykliinin ja tromboksaanin epätasapaino, joka johtaa verihiutaleiden aggregaation lisääntymiseen ja verisuonten supistumiseen. Matala-annoksinen asetyylisalisyylihappo (ASA) vähentää tromboksaanituotantoa ja korjaa tromboksaani- ja prostasykliinituotannon epätasapainoa, mutta sen ei ole todettu merkittävästi vähentävän näiden raskauskomplikaatioiden esiintyvyyttä edes riskiryhmillä, kun lääkitys on aloitettu toisen raskauskolmanneksen aikana. Tämän satunnaistetun ja plasebo-kontrolloidun kaksoissokkotutkimuksen tavoitteena oli tutkia keinoalkuisia hedelmöityshoitoja saavilla naisilla matala-annoksisen ASA-hoidon (100 mg/vrk) merkitystä munasarjojen stimulaatiovasteeseen, alkion kiinnittymiseen, istukan muodostumiseen ja kehittymiseen sekä lääkehoidon vaikutusta kohdun, istukan ja sikiön verenkiertoon, kun lääkitys aloitettiin munasarjojen stimulaatiohoidon alkaessa. Lisätavoitteena oli selvittää, onko lapsettomuushoitoja saavien naisten raskauksissa todettavissa spesifinen istukkaproteomiikkalöydös (istukan tuottamat valkuaisaineet) verrattuna spontaanisti raskaaksi tulleisiin naisiin ja voidaanko siihen vaikuttaa matala-annoksisella ASA-hoidolla. Toisena lisätavoitteena oli selvittää matala-annoksisen ASA-hoidon vaikutus pre-eklampsian esiintyvyyteen loppuraskaudessa. Matala-annoksinen asetyylisalisyylihappo (ASA) ei paranna keinoalkuisten hedelmöityshoitojen hoitotuloksia eikä vaikuta kohdun verenkiertoon tai kohdun limakalvon paksuuteen ultraäänellä arvioituna alkion siirtopäivänä. Matala-annoksista ASA-hoitoa käyttäneiden potilaiden ryhmässä todettiin kuitenkin merkitsevästi vähemmän naisia, joilla oli huonoa hoitotulosta keinoalkuisissa hedelmöityshoidoissa ennakoiva korkea molemminpuolinen kohtuvaltimoiden verenvirtausvastus alkion siirtopäivänä verrattuna plasebo-ryhmään. Raskaaksi tulleilla naisilla, jotka käyttivät matala-annoksista ASA-hoitoa, todettiin kohdun verenvirtausvastus matalammaksi alku- ja keskiraskaudessa verrattuna plasebo-ryhmän naisiin. Istukkaproteomiikkatutkimusten mukaan varhaisistukan proteiinituotanto on erilainen keinoalkuisissa raskauksissa verrattuna spontaanisti alkaneisiin raskauksiin ja siihen voidaan vaikuttaa matala-annoksisella ASA-hoidolla. Pre-eklampsian ja sikiön kasvunhidastuman esiintyvyydessä ei ryhmien välillä todettu eroa. Matala-annoksinen ASA-hoito aloitettuna ennen raskautta munasarjojen stimulaatiohoidon alkaessa ei paranna munasarjojen vastetta lapsettomuushoidoissa käytettäville hormonihoidoille, raskauslukuja eikä kohdun verenkiertoa alkion siirtopäivänä. Hoidon todettiin kuitenkin vaikuttavan varhaisistukan kehittymiseen sekä parantavan kohdun verenkierto alku- ja keskiraskaudessa viitaten istukan verisuonipuuston parempaan kehittymiseen. Matala-annoksinen ASA-hoito ei vähentänyt istukkaperäisten raskauskomplikaatioiden esiintymistä.

Doppler ultrasonography

antiplatelet therapy

assisted reproduction

ovarian responsiveness

placenta-related pregnancy complications

placentation

pregnancy rate

uterine haemodynamics

Doppler ultraääni

istukan kehitys

istukkaperäiset raskauskomplikaatiot

keinohedelmöitys

kohdun verenkierto

munasarjojen hormonivaste

raskausluku

Fluid dynamic assessments of spiral flow induced by vascular grafts

Kokkalis, Efstratios

January 2014

Peripheral vascular grafts are used for the treatment of peripheral arterial disease and arteriovenous grafts for vascular access in end stage renal disease. The development of neo-intimal hyperplasia and thrombosis in the distal anastomosis remains the main reason for occlusion in that region. The local haemodynamics produced by a graft in the host vessel is believed to significantly affect endothelial function. Single spiral flow is a normal feature in medium and large sized vessels and it is induced by the anatomical structure and physiological function of the cardiovascular system. Grafts designed to generate a single spiral flow in the distal anastomosis have been introduced in clinical practice and are known as spiral grafts. In this work, spiral peripheral vascular and arteriovenous grafts were compared with conventional grafts using ultrasound and computational methods to identify their haemodynamic differences. Vascular-graft flow phantoms were developed to house the grafts in different surgical configurations. Mimicking components, with appropriate acoustic properties, were chosen to minimise ultrasound beam refraction and distortion. A dual-beam two-dimensional vector Doppler technique was developed to visualise and quantify vortical structures downstream of each graft outflow in the cross-flow direction. Vorticity mapping and measurements of circulation were acquired based on the vector Doppler data. The flow within the vascular-graft models was simulated with computed tomography based image-guided modelling for further understanding of secondary flow motions and comparison with the experimental results. The computational assessments provided a three-dimensional velocity field in the lumen of the models allowing a range of fluid dynamic parameters to be predicted. Single- or double-spiral flow patterns consisting of a dominant and a smaller vortex were detected in the outflow of the spiral grafts. A double- triple- or tetra-spiral flow pattern was found in the outflow of the conventional graft, depending on model configuration and Reynolds number. These multiple-spiral patterns were associated with increased flow stagnation, separation and instability, which are known to be detrimental for endothelial behaviour. Increased in-plane mixing and wall shear stress, which are considered atheroprotective in normal vessels, were found in the outflow of the spiral devices. The results from the experimental approach were in agreement with those from the computational approach. This study applied ultrasound and computational methods to vascular-graft phantoms in order to characterise the flow field induced by spiral and conventional peripheral vascular and arteriovenous grafts. The results suggest that spiral grafts are associated with advanced local haemodynamics that may protect endothelial function and thereby may prevent their outflow anastomosis from neo-intimal hyperplasia and thrombosis. Consequently this work supports the hypothesis that spiral grafts may decrease outflow stenosis and hence improve patency rates in patients.

617.4