Cardiovascular Risk Factors and Liver Transplantation

In the last decades, the survival of liver transplanted patients and grafts have had a great improvement due to many factors. Careful preoperative evaluation in transplant recipients, experience and a multidisciplinary approach have, without any doubt, a major role in the selection of candidates and in the diagnosis and treatment of preoperative complications. Moreover, with the introduction of new generation immunosuppressive drugs and careful pharmacological monitoring, both the episodes of acute rejection and toxic effects have been minimized (1)


Introduction
In the last decades, the survival of liver transplanted patients and grafts have had a great improvement due to many factors.Careful preoperative evaluation in transplant recipients, experience and a multidisciplinary approach have, without any doubt, a major role in the selection of candidates and in the diagnosis and treatment of preoperative complications.Moreover, with the introduction of new generation immunosuppressive drugs and careful pharmacological monitoring, both the episodes of acute rejection and toxic effects have been minimized (1) In consequence, since the graft and the patient post-transplant survival have been improved, the transplanted population has started showing long term medical complications.
Besides the risk correlated with graft rejection, the transplanted population has an increased risk of developing many malignancies.A number of hematologic diseases, skin cancer, gastrointestinal tumors seems to recognize a possible trigger factor in immunosuppressive drugs and the patient's immunological status but also in serological status and viral infections quite common in immunosuppressed patients.As for frequency, after these two groups of complications, cardiovascular diseases are the third cause of death in the transplanted population (1) Eligibility to liver transplant, once based on Child Pugh system, has been regulated, since a few years, by MELD score, an index of survival probability of the end stage liver disease (2).This score is obtained on three variables, INR, creatinine and bilirubine.Due to the well known inadequate number of available grafts, if compared to patients requiring liver transplantation and to the risk of mortality while in the waiting list, this score supplies a priority system, based on the severity of the disease, for the organ allocation.The cut off value normally considered for eligibility to liver transplantation is a MELD score ≥15.Since the evaluation of the MELD score is obtained with this mathematical formula: 10{0.957Ln(Scr)+0.378Ln(Tbil)+1.12Ln (INR) +0.643} eligibility to transplantation undergoes the parameter of severity of the disease, selecting the population of patients with generally worse clinical conditions.Moreover, the median age of the patients waiting for transplantation seems to be higher, essentially due to the improvement in the antiviral therapies and the better medical treatment in the hepatological patient; for these reasons, the impairment of the liver function resulting in an eligible score can be delayed, with a longer conservative treatment and an older age of the patients who undergo liver transplantation.
Like in general population, the risk of developing cardiovascular disease increases with age, but liver disease by itself is often related to cardiovascular disease or higher cardiovascular risk factors (2,3).Therefore, an accurate cardiovascular risk assessment of these patients, besides the whole pretransplant evaluation, is essential, both for the increased risk of cardiovascular diseases after liver transplant and for the cardiovascular risk assessment of the pre-transplant condition.

Pretransplant cardiovascular risk
Advanced hepatic liver disease is responsible for many changes in the physiology and biochemistry of the cardiovascular system, affecting contractility, heart rate, conduction and repolarization (4,5,6).
Cirrhotic cardiomyopathy is a pathological condition characterized by an increased cardiac output, impaired ventricular response to stress, decreased beta-agonist transduction, increased circulating inflammatory mediators with cardio depressant effect, alteration in repolarization, low systemic vascular resistance and bradycardia, altered function of muscarinic function and beta adrenergic stimulatory system, heart cell membrane abnormalities due to altered membrane fluidity and a modified calcium concentration, overproduction of nitric oxide, cardio depressant effects of an increased level of carbon monoxide (7).
Both the systolic and diastolic functions seem to be damages: the former, even if in cirrhotic cardiomyopathy the cardiac output is high, can be revealed by stress test, and can be caused by a reduced cardiovascular reactivity during exercise; the latter determined by fibrosis, myocardial hypertrophy and sub endothelial edema results in the impairment of compliance and relaxation.(4,5,6) Abnormalities at the ECG, such electromechanical dissociation, which results in a prolongation of the QT interval , and chronotropic incompetence given by an impaired response to beta stimulation, are very common in cirrhosis and seem to be mainly related to portal hypertension and portosystemic shunting, but also to alterations of the heart rate with a central hypovolemia, loss of renal excretion of water and sodium and an altered baroreflex sensitivity which contribute to impair the cardiovascular system.(4,5,6,8) These conditions can lead to a higher risk of torsade de pointes, rhythm disturbances but also to the inability to develop physiologic tachycardia when required.Some liver diseases seem to show a correlation also on the coronary blood flow.Diffuse but undetectable coronary atherosclerosis, reduced coronary micro vascular bed and impaired endothelium function are reported in NAFLD (9,10).
Pre-transplant diabetes is another cardiovascular risk factor, and, in liver diseases the possibility to find an insulin resistance can be related to the pathogenesis of liver disease ( non alcoholic fatty liver disease), where the deregulation of fat metabolism causes an overproduction of very low density proteins involved in the metabolic syndrome, and, after the initial over activity with hyperinsulinemia, there is an impairment of islet beta cells; on the other hand, the liver glycogenogenesis and glycogenolysis pathways for the regulation of carbohydrate metabolism can be impaired due to the hepatic disease itself (10,11,12,13,14,15,16,17).
Renal dysfunction is not uncommon (microalbuminuria, hepato-renal syndrome), and also pulmonary heart disease has to be considered such as Hepatopulmonary Syndrome where a mismatch between ventilation and perfusion is involved with hypoxemia due to an excess of perfusion because of abnormal intrapulmonary vascular dilation.(5,9,11,16) Portopulmonary Hypertension, is a condition where pulmonary arterial hypertension is associated with liver disease or portal hypertension due to many factors such as hyperdinamic circulation, release of mediators from the congested bowel because of splancnic overload, vasoconstriction and remodeling of the lung vascular endothelium.(16) The American Association for the Study of Liver Diseases (2) recommends a rigorous preoperative Assessment

Post transplant cardiovascular risk
Patients who undergo liver transplantation have an around doubled risk of developing cardiovascular disease if compared to non transplanted population.To investigate the risk of such complications, multiple risk factors have to be added up.On one hand, there are all the risk factors of the general population such as advanced age, male gender, smoking history, high body mass index, pre-transplant diabetes mellitus, marital status.On the other hand, some peculiar risk related to the etiology of the underlying liver cirrhosis have to be www.intechopen.comconsidered, since liver disease caused by criptogenetic, alcohol and hepatitis C seems to be related to an increased cardiovascular risk.Moreover, after transplantation, a new physiological condition arises from the hemodynamic, biochemical and drug related standpoint.The vasodilatation existing in the cirrhotic patient has been solved and a systemic vasoconstriction is quite often present in the transplanted patient.Many factors seem to be involved in such systemic resistance modification but a definite pathogenesis is still under debate.The renin-angiotensin system seems to be involved but also the effect of endothelin, which seems to be higher then normal after LT, with its vasoconstrictor effect and which could determine the arterial pressure increase as well as the arterial stiffness which are clearly related to high pressure.Anyway a high arterial blood pressure before transplant seems to be a factor contributing the post transplant development of arterial hypertension (1,18,19) The metabolic syndrome is apparently another risk factor, quite common in transplanted patient.In liver cirrhosis the patient generally suffers from a hypermetabolic condition and insulin resistance is very common.The normalization of the metabolic status, and the change induced in the metabolism of lipoproteins, in absence or combined with insulin resistance or diabetes due to the pancreas cells function impairment, can explain some effects of the post-transplant status while the underlying liver disease itself (HCV infection and relapse) seems to be related to diabetes affecting the insulin pathway and directly affecting the pancreatic beta cells (20,21,22,23) A major role in the cardiovascular risk factors lies in the irreplaceable use of immunosuppressive drugs (1,18,24) Immunosuppressive drugs are related to arterial hypertension, and especially calcineurin inhibitors, have turned out to affect the vascular bed causing endothelial dysfunction.Besides their direct effect on the vascular endothelium, they also affect the vascular smooth muscle cells and have effects on the release and production of nitric oxide and endotheline.The renal function is impaired because of the nephrotoxic effects of many of these drugs that cause an impairment of the glomerular filtration rate and side effects on arterial pressure.Immunosuppressive drugs have also a pancreatic beta cells toxicity leading to a decrease in the production and secretion of insulin and an increased risk of diabetes (18).This condition by itself impairs the micro vascular bed and renal function.These drugs, especially M-tor inhibitors, affect the lipid metabolism, with the development of high levels of cholesterol and triglyceride concentration requiring lipid-lowering drugs.This side effect seems to be due to a decreased drug related bile acid synthesis but also to the agonist effects of some immunosuppressive drugs with low density lipoprotein cholesterol receptors, with a higher quantity of circulating low density lipoprotein.These side effects cause a further impairing in the vascular beds status, with effects of stiffness on the vascular walls.Also the steroids, frequently used in combination with immunosuppressive drugs or as treatment of acute rejection, have their well known effects on the vascular system, causing vasoconstriction, arterial hypertension, truncal fat deposition, and on the glucydic metabolism, causing a decreased insulin production, and impairing the peripheral glucose utilization, resulting in an insulin resistance or diabetes (1,18,25,26).

Immunosuppression and cardiovascular risk factors
Transplantation soared in the 1980s thanks to the introduction of a new immunosuppressive drug: Cyclosporine.Before that, survival after liver transplantation was strongly impaired by the common onset of rejection and graft loss, when the immunosuppressive strategies were poor and crude such as the whole-body x-radiation at the very beginning (1960s) and azathioprine, prendisolone and anti-lymphocytes antibodies about ten years later.(27) The experience in liver transplant shows that liver transplant recipients develop a lower rate of rejection if compared to other organs (heart, kidney) possibly because a form of microchimerism due to a large number of donor's cells within the allograft.Also the production by the liver of soluble donor MHC class 1 molecules has been mentioned to explain this resistance to rejection in liver transplantation.The size and regenerative properties of liver can also play a role.(27,28) Nevertheless, although the liver is less prone to rejection then other organs, the immunosuppressive regimen remains mandatory after liver transplantation.The selection of immunosuppressive drugs is not universal but has to be done considering the pretransplant history and the medical conditions, considering for example pretransplant poor renal function, diabetes or hepatocellular carcinoma.Therefore a careful balance between pros and cons is essential.
At present, calcineurin inhibitors are the most large used immunosuppressive drugs for liver transplantation, with well known side effects such as neurotoxicity, nephrotoxicity, hypertension, increased risk of death due to cardiovascular risk factors, gingival hyperplasia, hirsutism and diabetes.
Cyclosporine, the oldest one, is derived from the fungus Tolypocladium inflatum and is a polypeptide of 11 amino acids.Tacrolimus, the most recent one, is derived from Streptomyces tsukabaensis and is a macrolide compound.
Cyclosporine inhibits interleukin 2 gene transcription, binding cyclophilin, inhibiting the calcium/calmodulin phosphatase dependent calcineurin complex.It causes a dephosphorilation of activated T cell which is important for the transcription of cytokines for the activation of T cells, while Tacrolimus, from the same group of immunosuppressive drugs and with a similar mechanism of action, inhibits calcineurin binding to another specific immunophilin, FK binding protein 12. (27,28,29) These drugs seem to have complex activities besides immunosuppression, causing endothelial dysfunction and more specifically a decrease in the production of the vasodilator nitric oxide (NO) by endothelial NO synthase (eNOS), affecting the vasodilator function by negatively altering endothelial intracellular Ca2+ and eNOS phosphorylation.Ca2+ concentration is altered by intracellular Ca2+ leak and decreased agonist-induced intracellular Ca2+ release which negatively affects eNOS phosphorylation, NO production, and endothelium-dependent dilatation.The precise mechanisms leading to hyperlipidemia are not completely known.There are contributing factors such as corticosteroids use and obesity.Anyway cyclosporine is related to an increase of VLDL and LDL while Tacrolimus seems to be characterized by VLDL increase alone.The mechanisms which underlie these side effects seem to be the increase in free intracellular cholesterol levels due to an impaired cholesterol esterification, but also the activation of the transcription factor responsible for the expression of lipid related genes.Oxidative processes may also underlie the atherosclerotic effect.
The nephrotoxic effects are well known, and they can by themselves be related to the development of arterial hypertension.The mechanism, beside a possible involvement of the tubular epithelium, seems to be more strongly related to vascular alteration of the afferent arterioles, with consequent ions alteration and hyperkaliemia.(28,29,30) The arteriolar vasoconstriction and renal ischemia are related to an imbalance between the vasoactive messengers ( endothelin-1 and tromboxane A2), the dysregulation of nitric-oxide formation and the renin-angiotensin system.Besides these vascular effects altering the renal control of arterial pressure, the nephrotoxic direct effects should also be mentioned, with tubular cell apoptosis and necrosis, but also the effects on the cell cycle compromising the proliferation capacity and accelerating cell aging possibly mediated by an oxidative stress caused by reactive oxygen species (ROS) and lipid peroxides.This effect has been demonstrated as an abnormality in permeability of the mitochondria causing an isometric vacuolization resulting in the presence of giant mitochondria.Thus, the endoplasmic reticulum undergoes enlargement and the proteic syntesis is affected.Cyclosporine can act as an endoplasmic reticulum stress inducer causing epithelial phenotypic changes leading to nephrotoxicity (30,31,32,33,34).
Endoplasmic reticulum stress seems to play a major role in many diseases such as atherosclerosis, Alzheimer, diabetes and inflammatory bowel diseases, leading the unfolded protein response to an adaptative response.(35,36) The above mentioned stress is involved in post transplant diabetes, promoting insulin resistance and cells death.Insulin secerning cells undergo proteins synthesis stress and are very sensitive to any status causing accumulation of anomalous proteins.The pathophisiology of pancreatic beta cells damage during treatment with Tacrolimus and Cyclosporine is still matter of debate, but it seems related to the endoplasmic reticulum stress which modify cells vitality, since in animal models treated with calcineurin inhibitors, nuclear inclusions, dilatation in cistern of the granulous endoplasmic reticulum with degranulation and degeneration of pancreatic beta islets have been shown (35,36) Steroids are often used in immunosuppressive therapeutic schemes in the perioperative period, both intraoperatively, and after transplantation for a period ranging from 3 to 6 months for liver transplantation.Moreover, at the possible onset of acute rejection, bolus of steroids are administered.The steroid immunosuppressive function derives from the inactivation of the response of lymphocytes and macrophages by inhibiting the production of cytokines, but also suppressing antigens and stimulating the migration of T cells to the lymphoid tissue.(30) A large body of evidence supports the theory that steroids induce an imbalance between vasoconstriction and vasodilatation, favoring vasoconstriction, resulting in arterial hypertension.
The increased vasoconstriction is mediated by several mechanisms.In large part vasoconstriction is mediated by the increased endothelin-1 synthesis and secretion, increased erythropoietin levels by the increased level of cytosolic calcium, increased sympathetic activity that is mediated by the increase of Beta1-adrenergic receptor expression and increased synthesis of catecholamines, by the increased expression of various enzymes involved in the catecholamines biosynthesis including tyrosine hydroxilase and phenyl ethanolamine N-methyltransferase and altered availability of Alfa1-adrenergic receptors in vascular smooth muscles, leading to an increased vascular reactivity, pressure responsiveness and hypertension.The vasoconstriction and hypertension induced by steroids are also mediated through enhanced synthesis and action of vasoactive substances and their receptors, including neuro peptide Y (NPY), arginine vasopressin (AVP) and atrial natriuretic peptide (ANP).
Another interesting issue is the role of the renin-angiotensin system activation in the development of steroids induced hypertension.Steroids act directly at the liver site, enhancing the synthesis of angiotensinogen.(29,37) On the other hand, steroids negatively affect various vasodilatory systems causing nitric oxide (NO) deficiency through a range of a negative influences on the NO biosynthetic pathways involving alteration in the activity and expression of NO synthase, decreased availability of tetrahydrobiopterin (BH4) and decreased NO precursor L-arginine.Moreover steroids affect the production of other vasodilatatory substances as prostacyclin, prostaglandin E2 and kallikrein.
Steroids induce insulin resistance in skeletal muscle by directly interfering with the insulin signaling cascade.The same effect is produced also in hepatic cells and thus endogenous glucose production is increased.(28,29,37) Steroid s appear to have a direct causa l effect relati ons hip with cardiovas cular dis ease depending on dose, duration, cumulative dose of exposure and route of administration.The increased risk is mediated through the induction of several risk factors for cardiovascular disease.
Since the late 1990s other immunosuppressive drugs have been introduced into the world of transplantation: the group of m-Tor inhibitors (Sirolimus and Everolimus) (27,28,29).
Sirolimus is derived from actinomycete Streptomyces hygroscopicus.It has a homologous structure if compared to Cyclosporine and Tacrolimus and it also binds to FK bindig proteins family (FKBP-12) which binds to mammalian targets of rapamycin (MTOR) which has a kinase activity.Sirolimus plays its action on the signal transduction pathway, blocking the IL-2 and IL-5 induction of B and T cell proliferation.It inhibits the normal cell proliferation in response to IL-2.Everolimus, is a macrolide derived from Sirolimus, with a similar mechanism of action, inhibiting the activation of immunophyllin FKBP-12.Unlike Sirolimus it has pharmacokinetics properties which make it easier to handle.These drugs are particularly interesting and under debate.Based on their anti proliferative effects, they also seem to have anti-neoplastic effects based on the fact that they inhibit angiogenesis, inhibit cancer cells survival and also cancer stem cells survival (27,28,29).
They seem to have less nephrotoxic effects than calcineurin-inhibitors provided there is no pre-existing renal disease, basing their action on m-Tor contrasting the renal fibrosis caused by TGF-beta.There's anyway a risk of proteinuria or of renal damage amplification in an already compromised renal function.
They show interesting properties in promoting tolerance but Sirolimus is considered an unsafe drug for the 1 st month after transplantation for a higher risk of developing hepatic artery thrombosis and for a slower and more difficult wounds healing.Mouth ulcers and leg edema are common.It's strongly related to high risk of developing of hyperlipidemia which seems to be caused by an increased hepatic secretion of VLDL, increased hepatic synthesis of apoB100 and a reduction in the hepatic catabolism of LDL.The action of lipoprotein lipase is decreased and the expression of apoCIII and lipase in adipose tissue are increased.Anyway these drugs have effects on macrophages and antiproliferative effects which could protect from the cardiovascular risk of atherosclerosis (27,28,29,38,39).
Antimetabolites such as mycophenolate mofetil and mycophenolate sodium have immunosuppressive properties which were recognized in the 1990s although these drugs are older.Their action derive from the blockage of inosine-5 1 -monophosphate deydrogenase (IMPDH) resulting in the selective lymphocyte proliferation blockage.They have probably less cardiovascular side effects, mainly gastrointestinal disorders, bone marrow depression, some infections.Their exclusive use is hardly ever considered due to their insufficient protection from acute rejection if not combined to m-Tor or CNI.Yet their use anyway often allows a lower CNI or m-Tor dosage with side effects sparing properties.(27,28,29,40) Both polyclonal and monoclonal antibodies [ anti-thymocites globilin (ATG), antilymphocyte globulin (ALG), monoclonal antibodies (OKT3, Campath, Basiliximab)] are also largely used in combination with CNI or m-Tor delayed introduction as induction therapies, minimizing the side effects of CNI and m-Tor inhibitors.
Other immunosuppressive drugs are currently undergoing trials such as Belatacept, which inhibits T cell activation binding CD80 and CD86, and looks promising, with less renal toxicity, and Efalizumab which inhibits T cell-APC stabilization and blocks lymphocyte adhesion to endothelial cells, with good results as for immunosuppressive properties but with an increased risk of onset of post-transplant lymphoproliferative disorders (27,28,29).

Risk of new onset of diabetes (36)
• African American, Hispanic

Conclusions
Besides the cardiovascular risk factors related to age, family disease and life habits, the transplant candidate has a particular hemodynamic, biochemical, cardiac and systemic condition depending on the hepatic disease.After transplantation, these paraphysiologic modifications suddenly change, with the onset of a new systemic condition, the appearance of organ damages not evident before, a new risk factors profile related to the new situation and to unavoidable life-saving drugs treatment.
For these reasons the pre-transplant cardiovascular evaluation and the post-transplant accurate monitoring followed by a careful choice of the immunosuppressive therapeutic regimen, drug level monitoring, educational efforts to ameliorate life style and risk factors are mandatory for a satisfactory outcome.

Fig. 1 .
Fig. 1.Suggested strategy for pre-operative cardiac assessment of liver transplant candidates