CCATClinical Analysis Tool
‹ Knowledge base

Browse the corpus

Walk the evidence base by book and chapter — the raw source passages that ground Ask, Differential, and the rest.

43 passages

fulltextpubmed· Body· item PMC4921313

Introduction The estimated HIV-infected population totals 36·9 million people. In higher-income countries, up to one third of the HIV-infected population is 50 years or older, whereas this age group comprises roughly 10% of the HIV-infected population in low to middle-income areas. As access to combination antiretroviral therapy (cART) has improved throughout the world, mortality, including AIDS-related mortality, is declining.1 Several studies conducted in the era of cART suggest that the major causes of death are now non-AIDS related. Cardiovascular disease (CVD) has become one of the leading causes of non-AIDS related morbidity and mortality, and, as seen in the general population, CVD event rates increase with age.2 Thus, as cART use continues to expand and patients grow older, the incidence of CVD will likely rise unless effective management strategies are developed.3

fulltextpubmed· Body· item PMC4921313

(CVD) has become one of the leading causes of non-AIDS related morbidity and mortality, and, as seen in the general population, CVD event rates increase with age.2 Thus, as cART use continues to expand and patients grow older, the incidence of CVD will likely rise unless effective management strategies are developed.3 In areas with access to cART, the focus of care has changed from treating diseases related to immunodeficiency to managing chronic conditions like atherosclerosis. Coronary heart disease (CHD), for example, has become the leading cause of CVD in this patient population in developed countries.4, 5 Although traditional risk factors for CVD are more prevalent in patients with HIV, several epidemiologic studies have shown an increased risk of about 50 to 100% for CHD associated with HIV infection despite controlling for traditional risk factors (see Figure 1).6–13 This suggests that HIV-related mechanisms contribute to CVD risk as well. One limitation of several of these studies is that event rates were low, likely as a result of insufficient follow-up time for a relatively young HIV population.

fulltextpubmed· Body· item PMC4921313

h HIV infection despite controlling for traditional risk factors (see Figure 1).6–13 This suggests that HIV-related mechanisms contribute to CVD risk as well. One limitation of several of these studies is that event rates were low, likely as a result of insufficient follow-up time for a relatively young HIV population. As a result, many investigators have utilized non-invasive imaging of the carotid and coronary arteries to evaluate subclinical disease.14 Techniques have included assessment of carotid intima-media thickness (CIMT), intra-luminal plaque visualization with coronary computed tomography angiography (cCTA), and coronary artery calcium (CAC) scoring, the latter of which has also gained some acceptance as a clinical screening tool to assess CVD risk.15 Most studies evaluating CIMT in asymptomatic individuals have shown an increase in subclinical atherosclerosis in HIV-infected patients compared to uninfected controls.16, 17 On the other hand, a meta-analysis of five studies assessing coronary artery calcium reported no significant difference between HIV-infected and uninfected individuals.16 Not all coronary lesions, however, are calcified. Thus, cCTA has provided additional insight, as it can detect both non-calcified and calcified plaque as well as visualize intra-luminal plaque morphology. Several studies utilizing cCTA have shown a higher prevalence of subclinical coronary atherosclerosis and an increased burden of coronary plaque, especially non-calcified plaque, in HIV-infected patients compared to uninfected controls, even after controlling for traditional CVD risk factors.18, 19 These data suggest that factors related to HIV infection may accelerate the development of coronary atherosclerosis. Moreover, in addition to accelerated disease, cCTA has also shown differences in plaque morphology between HIV-infected and uninfected populations, including an increased prevalence of high-risk morphologic features that have been associated with increased rates of MI in the general population.20, 21 Overall, data from non-invasive imaging suggest HIV-specific mechanisms likely play a significant role in accelerating a unique atherosclerotic phenotype with altered plaque morphology that is potentially more vulnerable to rupture. This review will discuss the roles of both traditional and non-traditional, HIV-specific risk factors in atherosclerotic development and illustrate the emerging paradigm regarding pathogenesis of plaque formation (see Figure 2).

fulltextpubmed· Body· item PMC4921313

ic phenotype with altered plaque morphology that is potentially more vulnerable to rupture. This review will discuss the roles of both traditional and non-traditional, HIV-specific risk factors in atherosclerotic development and illustrate the emerging paradigm regarding pathogenesis of plaque formation (see Figure 2). We will then review management strategies for CVD in this patient population. Traditional Risk Factors Modifiable traditional CVD risk factors such as smoking, hypertension, diabetes, and dyslipidemia are more prevalent in the HIV population. For example, most studies that have included uninfected controls have shown a higher prevalence of modifiable CVD risk factors in HIV-infected patients. In a large retrospective study of a U.S. healthcare system, Triant et al reported a higher prevalence of diabetes (11·5 vs. 6·6%), dyslipidemia (23·3 vs. 17·6%), and hypertension (21·2 vs. 15·9%) in patients with HIV compared to patients without HIV (p<0·0001 for each comparison).8 Similarly, the prevalence of smoking is higher in the HIV-infected population and is estimated to be about 32–60%.22, 23

fulltextpubmed· Body· item PMC4921313

higher prevalence of diabetes (11·5 vs. 6·6%), dyslipidemia (23·3 vs. 17·6%), and hypertension (21·2 vs. 15·9%) in patients with HIV compared to patients without HIV (p<0·0001 for each comparison).8 Similarly, the prevalence of smoking is higher in the HIV-infected population and is estimated to be about 32–60%.22, 23 Despite an emerging pattern of increased CVD risk factors in HIV patients, actual prevalence estimates differ from study to study. This variation is likely due to differences in the patient populations evaluated and definitions used for risk factor cut-offs. For example, several studies of large cohorts within the U.S. estimated the prevalence of diabetes among HIV-infected individuals at about 11–15%.8, 24, 25 In contrast, data from primarily European cohorts, including the large Data Collection of Adverse Events of Anti-HIV Drugs (D:A:D) study, estimated the prevalence of diabetes among HIV-infected patients at about 3–5%.26–28 The difference between estimates of diabetes prevalence between the U.S. and Europe are likely a result of dissimilar definitions for diabetes among the various studies and specific social and demographic factors unique to each location, such as body mass index which tended to be higher in the U.S. based studies. In addition to diabetes, the Strategic Timing of Antiretroviral Treatment (START) trial, a study conducted in thirty-five countries, reported that the prevalence of other modifiable CVD risk factors including smoking, hypertension, and dyslipidemia also varied by regional location.22

fulltextpubmed· Body· item PMC4921313

e higher in the U.S. based studies. In addition to diabetes, the Strategic Timing of Antiretroviral Treatment (START) trial, a study conducted in thirty-five countries, reported that the prevalence of other modifiable CVD risk factors including smoking, hypertension, and dyslipidemia also varied by regional location.22 The effects of older cART on dyslipidemia, lipodystrophy, and diabetes likely contributed to the increased prevalence of these risk factors in HIV-infected patients, but this effect may be declining as newer medications appear to have less metabolic consequences. In general, older classes of cART such as non-nucleoside reverse transcriptase inhibitors (NNRTIs), nucleoside reverse transcriptase inhibitors (NRTIs), and protease inhibitors (PIs) have been extensively studied for their impact on metabolic function. As a result, the utilization of specific medications that have been associated with adverse metabolic effects has declined with time. Newer agents within these classes and newer classes of drugs such as entry inhibitors, fusion inhibitors, and integrase inhibitors have not been studied as thoroughly but major metabolic consequences have not yet been identified.

fulltextpubmed· Body· item PMC4921313

dications that have been associated with adverse metabolic effects has declined with time. Newer agents within these classes and newer classes of drugs such as entry inhibitors, fusion inhibitors, and integrase inhibitors have not been studied as thoroughly but major metabolic consequences have not yet been identified. The increased prevalence of traditional risk factors in HIV-infected individuals has been associated with an increased risk of CHD. In the D:A:D cohort, dyslipidemia and diabetes were significantly associated with an increased risk of myocardial infarction (MI),29, 30 and in the study by Triant et al., hypertension, dyslipidemia, and diabetes were estimated to account for about 25% of the excess MI risk in HIV-infected patients.8 Furthermore, a Danish cohort study reported an increased risk of MI in HIV-infected individuals who were currently smoking.31 In the Veterans Aging Cohort Study Virtual Cohort, Paisible et al. investigated the effect of four traditional CVD risk factors—current smoking, diabetes, blood pressure/anti-hypertensive medication use, total cholesterol/statin use—on CHD and showed that patients with HIV had a step-wise increase in the risk of MI with an adjusted hazard ratio of 2·0 (95% CI 1·2–3·1) for those with 1 major CVD risk factor and 3·6 (95% CI 2·0 to 6·2) for those with 3+ major risk factors. In addition, they reported that HIV-infected veterans had higher rates of MI than uninfected veterans with the same CVD risk factor profile,13 implicating an effect of HIV-related mechanisms on CHD.

fulltextpubmed· Body· item PMC4921313

(95% CI 1·2–3·1) for those with 1 major CVD risk factor and 3·6 (95% CI 2·0 to 6·2) for those with 3+ major risk factors. In addition, they reported that HIV-infected veterans had higher rates of MI than uninfected veterans with the same CVD risk factor profile,13 implicating an effect of HIV-related mechanisms on CHD. Effect of cART on CVD Risk The D:A:D study prospectively investigated 23,468 HIV-infected patients living in Europe, Australia, and the United States for incident MI. They reported an adjusted relative rate of MI per year of PI exposure of 1·10 (95% CI 1·04–1·18) despite controlling for traditional risk factors.32 This association, however, does not appear to be a class effect. Older cART regimens containing the PIs, lopinavir-ritonavir or indinavir, for example, have been linked to an increased rate of MI33 while use of other, more contemporary PIs such as atazanavir have shown no increased risk,34 or as with darunavir, are still under investigation. The observation that some newer PIs appear to have no association with CVD may be a result of fewer associated cardiometabolic side effects, more aggressive treatment of traditional CVD risk factors in the modern era, or insufficient observational time in current studies for complications to have developed. Additionally, some newer PIs may also have cardioprotective effects that minimize harm such as atazanavir-ritonavir, which was shown to slow the rate of CIMT progression compared with darunavir-ritonavir, possibly as a result of increased bilirubin levels.35

fulltextpubmed· Body· item PMC4921313

time in current studies for complications to have developed. Additionally, some newer PIs may also have cardioprotective effects that minimize harm such as atazanavir-ritonavir, which was shown to slow the rate of CIMT progression compared with darunavir-ritonavir, possibly as a result of increased bilirubin levels.35 The D:A:D study also reported an increased risk of MI with recent use of the NRTIs, didanosine and abacavir, but not other NRTIs such as tenofovir, zidovudine, stavudine, or lamivudine.33 In a secondary analysis of the SMART study, abacavir, but not didanosine, was associated with an increased risk of MI.36 Some studies have also reported increased rates of CVD related to abacavir use, including two recent publications from the large Swiss HIV Cohort and U.S. Veterans Health Administration Clinical Case registry,37–39 while others, including two meta-analyses, have shown no such relationship.40, 41 Thus, whether abacavir increases the risk of CVD remains unclear.

fulltextpubmed· Body· item PMC4921313

rates of CVD related to abacavir use, including two recent publications from the large Swiss HIV Cohort and U.S. Veterans Health Administration Clinical Case registry,37–39 while others, including two meta-analyses, have shown no such relationship.40, 41 Thus, whether abacavir increases the risk of CVD remains unclear. Despite the concerns that older cART regimens may exacerbate CVD, there is a growing body of literature suggesting continuous use, and possibly early initiation, of modern cART regimens could actually decrease CVD in patients with HIV. The SMART trial randomized HIV-infected patients with a CD4 T-cell count > 350 cells/uL to either continuous cART or intermittent therapy based on CD4 T-cell counts. Sensitivity analysis revealed that the intermittent cART group had an elevated risk of CVD events compared to the continuous cART group with a hazard ratio of 1·57 (95% CI 1·00–2·46, p=0.05).42 This suggests that despite greater exposure to cART, continuous viral suppression may be more beneficial in preventing CVD, possibly due to reductions in proinflammatory cytokines that are related to atherosclerosis.43–45 Furthermore, evidence that earlier commencement of cART may decrease CVD risk comes from studies that have shown that lower CD4 counts, lower nadir CD4 counts, and increased viremia—which are all associated with delayed initiation of cART—result in higher rates of MI.46, 47 It is important to note, however, that not all studies have confirmed these findings, including analysis of the D:A:D cohort.48

fulltextpubmed· Body· item PMC4921313

s from studies that have shown that lower CD4 counts, lower nadir CD4 counts, and increased viremia—which are all associated with delayed initiation of cART—result in higher rates of MI.46, 47 It is important to note, however, that not all studies have confirmed these findings, including analysis of the D:A:D cohort.48 The recently published START trial was a randomized controlled trial investigating effects of starting cART at CD4 T-cell counts > 500 cells/uL versus delayed therapy at CD4 T-cell counts < 350 cells/uL. The trial was ended early as an interim analysis showed a significant decrease in serious AIDS and non-AIDS related events and death in the early treatment group with a hazard ratio of 0·43 (95% CI 0·3–0·62).49 Although CVD events were not significantly different between the two groups, event rates were lower than predicted, possibly related to the younger age of the population (median age was 36 years-old), and the study was stopped early, resulting in insufficient statistical power to detect potential benefits in CVD at this time. As a result, further research is needed to determine whether earlier initiation of cART protects against CVD. Strategies employing newer cART may permit earlier and sustained virological control and reduction in immune activation, with less metabolic effects, suggesting a potentially greater net benefit on CVD. Nonetheless, as discussed below, immune activation may persist even with effective cART, suggesting the possible need for additional strategies that address ongoing inflammation and immune activation.

fulltextpubmed· Body· item PMC4921313

l and reduction in immune activation, with less metabolic effects, suggesting a potentially greater net benefit on CVD. Nonetheless, as discussed below, immune activation may persist even with effective cART, suggesting the possible need for additional strategies that address ongoing inflammation and immune activation. Immune activation and cardiovascular disease The immune system plays a central role in the development of atherosclerosis, especially monocytes/macrophages and T-cells. Patients with HIV have increased markers of inflammation/immune activation, some of which have been related to measures of atherosclerosis (see Table 1). cART attenuates this heightened stimulation but does not completely resolve it. The source of continued immune activation despite cART is still under investigation but is likely multifactorial. Thus, in addition to cART, therapies targeting immune activation may provide benefit in reducing the risk of CVD.

fulltextpubmed· Body· item PMC4921313

ee Table 1). cART attenuates this heightened stimulation but does not completely resolve it. The source of continued immune activation despite cART is still under investigation but is likely multifactorial. Thus, in addition to cART, therapies targeting immune activation may provide benefit in reducing the risk of CVD. T-cells In 2003, Hunt et al reported that cART treated subjects with viral suppression had a lower median percentage of activated T-cells compared to untreated patients, which remained higher when compared to uninfected controls.66 As discussed above, the SMART trial revealed that antiretroviral therapy interruption may increase the risk of CVD, and in a separate study, Tebas et al. showed that treatment interruption also results in increased levels of T-cell activation.67 However, whether T-cell activation leads to the increased risk of MI remains uncertain. In cross-sectional studies, activated T-cells have been associated with CIMT.52, 63 On the other hand, Tenorio et al reported no relationship between T-cell activation and non-AIDS defining events including myocardial infarction.44 Thus, further research is needed to determine whether T-cell activation leads to an increased risk of MI in HIV-infected patients.

fulltextpubmed· Body· item PMC4921313

lls have been associated with CIMT.52, 63 On the other hand, Tenorio et al reported no relationship between T-cell activation and non-AIDS defining events including myocardial infarction.44 Thus, further research is needed to determine whether T-cell activation leads to an increased risk of MI in HIV-infected patients. Monocytes/Macrophages In humans, monocyte subsets have been classified as classical, intermediate/inflammatory, and nonclassical/patrolling based on their expression of CD14 and CD16. Some of these subsets are thought to be “proatherogenic.” In the general population, intermediate monocytes independently predict cardiovascular events,68 and patients with acute coronary syndrome have increased percentages of intermediate and nonclassical monocytes with elevated tissue factor expression, a procoagulant molecule. This expression profile has also been shown to exist in patients with HIV,69 suggesting that HIV infection results in an environment with more proatherogenic monocytes, which in turn increases the risk of CHD. Furthermore, soluble CD14 (sCD14), a monocyte/macrophage activation marker that is elevated in HIV-infected patients, is associated with subclinical atherosclerosis and clinical CVD events and independently predicts all-cause mortality in HIV-infected subjects.53, 54, 59, 60 Additionally, soluble CD163 (sCD163), another marker of monocyte/macrophage activation that is elevated with HIV infection, has been associated with arterial inflammation on FDG-PET/CT and subclinical atherosclerosis on cCTA in HIV-infected subjects.20, 54, 58, 70 These studies implicate a role for monocyte/macrophage activation in the development of CVD in HIV-infected patients.

fulltextpubmed· Body· item PMC4921313

te/macrophage activation that is elevated with HIV infection, has been associated with arterial inflammation on FDG-PET/CT and subclinical atherosclerosis on cCTA in HIV-infected subjects.20, 54, 58, 70 These studies implicate a role for monocyte/macrophage activation in the development of CVD in HIV-infected patients. HIV infection may accelerate atherosclerotic development not only through monocyte/macrophage activation but through macrophage dysfunction as well. Removal of cholesterol from macrophages to high-density lipoprotein (HDL) is known as reverse cholesterol transport and is thought to protect against plaque development. One of the initial steps in this process involves the cholesterol efflux capacity (CEC) of macrophages. In vitro experiments have shown that the HIV protein, Nef, can impair CEC by down-regulating ATP-binding cassette transporter A1 (ABCA-1).71 HIV-infected patients have reduced ABCA-1 dependent plasma CEC compared to uninfected controls 72 and initiation of cART restores CEC.73

fulltextpubmed· Body· item PMC4921313

erol efflux capacity (CEC) of macrophages. In vitro experiments have shown that the HIV protein, Nef, can impair CEC by down-regulating ATP-binding cassette transporter A1 (ABCA-1).71 HIV-infected patients have reduced ABCA-1 dependent plasma CEC compared to uninfected controls 72 and initiation of cART restores CEC.73 Continued Immune Activation in cART-treated HIV-infected patients There are multiple possible explanations for the increased immune activation in HIV despite treatment with cART, including co-infection, low-levels of ongoing viral replication, and microbial translocation. For example, hepatitis C co-infection has been associated with elevated sCD163 levels and an increased risk of MI74, 75 whereas low-levels of ongoing HIV viral replication have been associated with increased levels of sCD163 and T-cell activation.66, 74 Furthermore, microbial translocation across the gastrointestinal system has become an active area of investigation as another source of continued inflammation in patients with HIV. Brenchley et al demonstrated that HIV-infected patients have elevated levels of lipopolysaccharide (LPS), a component of gram-negative bacteria, that likely originated from translocation across the gastrointestinal system. Initiation of cART resulted in a decline in LPS levels that remained elevated compared to uninfected controls.76 LPS levels in HIV-infected patients on cART have been associated with progression of cIMT,53 suggesting a potential relationship between microbial translocation and atherosclerosis. In addition, Srinivasa et al demonstrated a relationship between trimethylamine, a product of gastrointestinal bacterial metabolism of certain nutrients, and coronary plaque burden on cCTA in patients with HIV.77 Together, these data suggest that HIV-infected patients have ongoing translocation of microbial products across a “leaky” gastrointestinal system despite cART, resulting in chronic immune activation and promotion of atherosclerosis.

fulltextpubmed· Body· item PMC4921313

bolism of certain nutrients, and coronary plaque burden on cCTA in patients with HIV.77 Together, these data suggest that HIV-infected patients have ongoing translocation of microbial products across a “leaky” gastrointestinal system despite cART, resulting in chronic immune activation and promotion of atherosclerosis. Lessons from Elite Controller Data Studies from elite controllers, a rare subset of the HIV-infected population that maintains viral control without cART, have shed light on the role of cART and persistent immune activation with respect to CVD in HIV. Two studies evaluating elite controllers have reported a higher prevalence of CIMT and coronary plaque on cCTA compared to uninfected controls along with elevated levels of C-reactive protein, sCD14, and sCD163.78, 79 Collectively, these studies suggest that even HIV-infected individuals who have never been exposed to cART may have accelerated atherosclerosis, which is likely a result of heightened immune activation and cannot be attributed to any cardiometabolic effects of cART.

fulltextpubmed· Body· item PMC4921313

evels of C-reactive protein, sCD14, and sCD163.78, 79 Collectively, these studies suggest that even HIV-infected individuals who have never been exposed to cART may have accelerated atherosclerosis, which is likely a result of heightened immune activation and cannot be attributed to any cardiometabolic effects of cART. Immune Activation and Unique Plaque Characteristics in Patients with HIV Cardiac imaging has provided a non-invasive tool to study the progression and morphology of atherosclerosis. Utilizing modalities such as cCTA and FDG-PET/CT, immune activation has been associated with coronary plaque that possesses characteristics suggesting vulnerability to rupture among HIV-infected patients. FDG-PET/CT can measure FDG-uptake in arterial walls as a tool to estimate arterial inflammation, which has been associated with risk of incident CVD in the general population.80 Distribution of FDG within coronary plaques has been shown to be predominantly in macrophages between the lipid core and fibrous cap and associated with areas of atherosclerosis.81 In a cross-sectional study of HIV-infected patients on cART without known CVD, Subramanian et al showed increased arterial inflammation measured by FDG uptake compared to uninfected controls matched by Framingham Risk score (see Figure 3A). They reported that the level of arterial inflammation equaled uninfected subjects with known atherosclerosis and was associated with sCD163.70 cCTA has also demonstrated increased rates of subclinical atherosclerosis among HIV-infected patients, especially prevalence of non-calcified plaques, which may be more prone to rupture (see Figure 3B and 3C).18, 19 In non-HIV studies, high risk plaques are often non-calcified and associated with four vulnerability features on cCTA—low attenuation, napkin ring sign, positive remodeling, and spotty calcification—and these characteristics along with plaque volume have been associated with culprit lesions in acute coronary syndrome.82 In HIV-infected patients, low attenuation plaques and positively remodeled plaques are increased when compared to HIV-negative controls matched for CVD risk factors.20 These vulnerability features in patients with HIV have been associated with increased arterial inflammation on FDG-PET/CT as well.83 These data taken together suggest that chronic immune activation among HIV-infected subjects may contribute to accelerated formation of high risk, inflamed plaque that is vulnerable to rupture.

fulltextpubmed· Body· item PMC4921313

vulnerability features in patients with HIV have been associated with increased arterial inflammation on FDG-PET/CT as well.83 These data taken together suggest that chronic immune activation among HIV-infected subjects may contribute to accelerated formation of high risk, inflamed plaque that is vulnerable to rupture. Management Current Challenges One of the primary issues concerning prevention of heart disease in HIV-infected individuals is first creating a method to adequately identify HIV-infected patients at risk for CVD who would benefit from primary prevention. Some studies suggest that traditional risk scores may underestimate the risk of CVD accurately in this patient population.84 Zanni et al reported that based on the 2013 ACC/AHA cholesterol guidelines, more HIV-infected patients with high risk morphology plaque on cCTA would receive statins compared to the 2004 ATP III guidelines, but 74% would still not be prescribed a statin.85 Furthermore, Metkus et al reported that even when the CAC score is zero, patients with HIV have more non-calcified plaque compared to uninfected controls independent of traditional risk factors, suggesting that the CAC score may underestimate plaque burden in this population.86 Traditional methods of screening for CVD may underestimate patients at risk because they do not take into account the non-traditional risk factors involved in the development of atherosclerosis. HIV-specific risk calculators have been created87 but require further corroboration with additional cohorts. Importantly, prospective studies are needed to assess the performance of the prediction calculators embedded in the new 2103 ACC/AHA guidelines, developed for the general population, to determine if they accurately predict CVD in HIV.

fulltextpubmed· Body· item PMC4921313

lators have been created87 but require further corroboration with additional cohorts. Importantly, prospective studies are needed to assess the performance of the prediction calculators embedded in the new 2103 ACC/AHA guidelines, developed for the general population, to determine if they accurately predict CVD in HIV. In light of the START trial mentioned above,49 an increased proportion of HIV-infected patients will likely be placed on cART regimens sooner in their clinical course. The impact of early initiation of cART on cardiovascular disease, however, remains uncertain and will require additional investigation, although continued follow-up of this cohort may provide an answer. Furthermore, the safety and efficacy of current treatment strategies used in the general population for prevention of CVD require validation in this distinct population as novel factors such as drug interactions and unique atherosclerotic mechanisms may play critical roles. As discussed above, therapies that target immune activation may provide additional benefit in treating CVD but additional research will be required to avoid detrimental immune suppression in this population at risk of immunodeficiency.

fulltextpubmed· Body· item PMC4921313

as drug interactions and unique atherosclerotic mechanisms may play critical roles. As discussed above, therapies that target immune activation may provide additional benefit in treating CVD but additional research will be required to avoid detrimental immune suppression in this population at risk of immunodeficiency. Managing Traditional CVD risk factors The Infectious Disease Society of America and the European AIDS Clinical Society have produced guidelines for monitoring traditional CVD risk factors including modifiable risk factors such as smoking, hypertension, diabetes, and dyslipidemia.88, 89 Some evidence suggests that identification and treatment of traditional CVD risk factors may have a profound impact on the risk of MI in patients with HIV. In a large, retrospective study of HIV patients in the Kaiser Permanente health care system in California, Klein et al reported a declining risk of MI over time in HIV-infected patients in conjunction with increased prescriptions for lipid lowering and hypertensive treatment and better control of HIV disease with cART. Importantly, the risk of MI was equivalent between HIV-infected and uninfected individuals in the most recent year of the study (2010–2011), during which time HIV-infected patients had a lower Framingham Risk score compared with HIV-negative controls.90 These findings require validation in other cohorts but suggest implementation of current therapies could have a substantial benefit in reducing CHD in people living with HIV.

fulltextpubmed· Body· item PMC4921313

t year of the study (2010–2011), during which time HIV-infected patients had a lower Framingham Risk score compared with HIV-negative controls.90 These findings require validation in other cohorts but suggest implementation of current therapies could have a substantial benefit in reducing CHD in people living with HIV. Smoking Smoking cessation has a profound impact in reducing CVD in patients with HIV. Current estimates suggest that smoking cessation could lead to a 42% decrease in MI in HIV-infected patients.31 In the D:A:D study cohort, the incidence rate ratios for cardiovascular events declined from 2·32 (95% CI 1·69–3·18) within one year following smoking cessation to 1·49 (95% CI 0·99–2·44) after three or more years compared to those who never smoked.91 Furthermore, smoking cessation could also reduce mortality as in one study, HIV current smokers had a CVD-related mortality rate ratio (MRR) of 8·82 (95% CI 1·15–67.8) whereas previous smokers had an MRR of 4·55 (95%CI 0·55–37·6) compared to never smokers.92 Thus, developing successful management strategies to help HIV-infected patients to quit smoking is important in reducing CVD and mortality in this patient population. Studies are currently underway to identify effective strategies to help patients to quit smoking93 but additional, larger trials are needed to determine safety and efficacy of current therapies for smoking cessation in HIV-infected patients.

fulltextpubmed· Body· item PMC4921313

smoking is important in reducing CVD and mortality in this patient population. Studies are currently underway to identify effective strategies to help patients to quit smoking93 but additional, larger trials are needed to determine safety and efficacy of current therapies for smoking cessation in HIV-infected patients. Lipodystrophy Lipodystrophy refers to the development of central lipohypertrophy, especially of visceral adipose tissue and the dorsocervical fat pad, as well as peripheral lipoatrophy of subcutaneous fat of the face and extremities. Risk factors for developing lipodystrophy include increasing age and cumulative cART exposure, particular PIs and thymidine NRTIs such as zidovudine and stavudine.94, 95 Lipodystrophy may predispose patients to adverse metabolic consequences such as insulin resistance, dyslipidemia, and coronary artery disease, partly due to accumulation of harmful fat depots such as visceral and epicardial adipose tissue.96–99 Management of lipodystrophy primarily consists of avoiding offending cART regimens, especially as more recently developed anti-retroviral therapies appear to be less likely to promote lipodystrophy. In addition, tesamorelin, a synthetic growth-hormone releasing hormone analogue, may also be used as it has been shown to reduce visceral adiposity and liver fat and improve lipids and quality of life in patients with HIV,100, 101 but an effect on CVD has yet to be determined. Tesamorelin is currently approved in the United States and Canada for treatment of abdominal fat accumulation in HIV lipodystrophy.

fulltextpubmed· Body· item PMC4921313

be used as it has been shown to reduce visceral adiposity and liver fat and improve lipids and quality of life in patients with HIV,100, 101 but an effect on CVD has yet to be determined. Tesamorelin is currently approved in the United States and Canada for treatment of abdominal fat accumulation in HIV lipodystrophy. Diabetes, Hypertension, and Dyslipidemia Currently, there have been no large, randomized, prospective clinical trials in HIV-infected patients investigating potential benefit of specific therapies for traditional risk factors on CVD-related clinical events. As a result, there are no HIV-specific guidelines regarding treatment of these traditional risk factors, and general guidelines are often applied to the HIV-infected population while taking potential drug interactions with cART medications into account.

fulltextpubmed· Body· item PMC4921313

apies for traditional risk factors on CVD-related clinical events. As a result, there are no HIV-specific guidelines regarding treatment of these traditional risk factors, and general guidelines are often applied to the HIV-infected population while taking potential drug interactions with cART medications into account. Nonetheless, important information has been gleaned from randomized controlled trials assessing treatments for insulin resistance in HIV. Metformin, for example, has been shown to improve insulin resistance in most studies of HIV-infected patients with positive effects on some related fibrinolytic inflammatory markers, including plasminogen activator inhibitor-1 and tissue type plasminogen activator, and may be useful for HIV-infected patients with increased glucose.102, 103 Glitazones have also been shown to improve glucose in HIV, but the use of this class is controversial with respect to CVD.104 Although management of hyperglycemia is largely the same as in the general population, it is important to note that hemoglobin A1c may underestimate fasting glucose in HIV-infected patients.105

fulltextpubmed· Body· item PMC4921313

Glitazones have also been shown to improve glucose in HIV, but the use of this class is controversial with respect to CVD.104 Although management of hyperglycemia is largely the same as in the general population, it is important to note that hemoglobin A1c may underestimate fasting glucose in HIV-infected patients.105 Large randomized trials of antihypertensive therapy have not been performed among HIV-infected patients, but initial studies suggest increased activation of the renin-angiotensin-aldosterone system in HIV, which may be a target for therapy in this population with potential effects on blood pressure, insulin, and inflammation.106 Exercise and lifestyle modification may also have salutary effects on traditional metabolic parameters, such as glucose and blood pressure, in HIV and should be considered first when advising on CVD prevention.107

fulltextpubmed· Body· item PMC4921313

get for therapy in this population with potential effects on blood pressure, insulin, and inflammation.106 Exercise and lifestyle modification may also have salutary effects on traditional metabolic parameters, such as glucose and blood pressure, in HIV and should be considered first when advising on CVD prevention.107 Numerous studies have shown effects of lipid lowering agents such as fibrates, niacin, and fish oil to reduce triglycerides,108, 109 but a link to reduction in CVD events has not been definitively established in HIV. Given the unique pathophysiology of CVD in patients with HIV involving heightened immune activation, strategies that affect traditional and non-traditional, inflammatory pathways may have a comparative advantage in decreasing CVD-risk in this patient population. Statins in particular are of great interest as they are considered to also have immunomodulatory effects that could provide additional benefit in managing CVD in patients with HIV. In the general population, newer guidelines also focus on the use of statins, as the most relevant strategy to reduce CVD events.110

fulltextpubmed· Body· item PMC4921313

ation. Statins in particular are of great interest as they are considered to also have immunomodulatory effects that could provide additional benefit in managing CVD in patients with HIV. In the general population, newer guidelines also focus on the use of statins, as the most relevant strategy to reduce CVD events.110 Statins are well known for their ability to lower cholesterol levels, especially low density lipoprotein (LDL), and for their efficacy in primary and secondary prevention of CVD in the general population. Statins also possess anti-inflammatory properties that may contribute to their cardioprotective benefits. In 2008, the JUPITER trial reported results of a randomized placebo-controlled clinical trial of rosuvastatin in non-HIV-infected patients with LDL levels of less than 3·37 mmol/L but with hs-CRP levels of greater than 2 mg/L, indicating heightened inflammation. They found that statin therapy reduced cardiovascular events with a hazard ratio of 0·56 (95% CI 0·46–0·69) alongside reductions in hs-CRP and LDL.111 In comparison, a meta-analysis that primarily reviewed statin trials using LDL cholesterol criteria for enrollment reported about a 20% reduction in vascular events for every 1 mmol/L reduction in LDL,112 an effect that would have predicted a 25% lowering of events in the JUPITER trial. The observed effect, however, was almost doubled the predicted effect. Since the trial primarily enrolled patients based on elevated hs-CRP rather than elevated LDL, these data suggest a potential anti-inflammatory action of statins added to cardioprotection in a cohort with heightened inflammation. Nonetheless, the degree to which statins may decrease CVD through traditional and anti-inflammatory actions remains unknown and an important focus of current research.

fulltextpubmed· Body· item PMC4921313

han elevated LDL, these data suggest a potential anti-inflammatory action of statins added to cardioprotection in a cohort with heightened inflammation. Nonetheless, the degree to which statins may decrease CVD through traditional and anti-inflammatory actions remains unknown and an important focus of current research. Statin therapy may also be effective in reducing immune activation in the HIV population. Statins have been shown to lower sCD14 levels, decrease nonclassical monocytes and tissue factor expression, reduce macrophage derived phospholipase Lp-PLA2, and decrease T-cell activation in patients with HIV.113 Thus, statin therapy improves several markers of immune activation in HIV-infected patients, which in turn have been associated with subclinical atherosclerosis and CVD events, suggesting statins may also be efficacious in preventing CVD in this patient population.

fulltextpubmed· Body· item PMC4921313

nd decrease T-cell activation in patients with HIV.113 Thus, statin therapy improves several markers of immune activation in HIV-infected patients, which in turn have been associated with subclinical atherosclerosis and CVD events, suggesting statins may also be efficacious in preventing CVD in this patient population. Table 2 lists several trials that have investigated the effects of statins on mortality and atherosclerosis in HIV-infected patients. Statin therapy has been shown to decrease all-cause mortality in a non-randomized study of HIV-infected individuals.116 Lo et al also reported findings from a 12-month randomized controlled trial of atorvastatin in patients with HIV on cART. They showed significant reductions in the statin treated arm in total plaque volume, non-calcified plaque volume, low attenuation plaque, and positively remodeled plaque.120 Furthermore, in a non-randomized, observational study, 24 months of rosuvastatin therapy reduced cIMT,117 and a randomized, placebo-controlled trial with rosuvastatin for 96 weeks showed reduced progression in cIMT.121 Despite these promising results, however, all trials to date have either been small, retrospective, or performed with nonclinical endpoints (i.e., subclinical atherosclerosis). Thus, a large randomized trial is needed to definitely assess whether statins lower mortality and protect against CVD in HIV-infected patients. As a result, the multi-center, randomized, placebo-controlled REPRIEVE trial has been initiated to determine potential benefits of statin therapy in preventing cardiovascular disease in HIV-infected individuals.124 This large 6,500 person trial will assess effects on major adverse cardiovascular events (MACE) and will include a mechanistic study to also assess effects on plaque and immune function.

fulltextpubmed· Body· item PMC4921313

been initiated to determine potential benefits of statin therapy in preventing cardiovascular disease in HIV-infected individuals.124 This large 6,500 person trial will assess effects on major adverse cardiovascular events (MACE) and will include a mechanistic study to also assess effects on plaque and immune function. There are potential concerns regarding the safety of statins in this patient population given drug interactions with certain cART regimens. Fortunately, data thus far suggest statin use is generally safe. Statins have no significant effect on CD4 T-cell counts and viral load.125 In regards to drug-drug interactions with cART, some PIs inhibit while certain NNRTIs induce cytochrome P450 CYP3A4. Thus, these medications can interfere with specific statins such as simvastatin, which is contraindicated with PI use, and to a lesser extent, atorvastatin. Randomized trials in patients with HIV and a large retrospective study comparing lipid lowering therapy in HIV-infected versus HIV-uninfected patients showed that statins in general led to few, if any, serious adverse events.120, 126–128 Furthermore, some newer statins that are not metabolized by cytochrome P450 CYP3A4 appear to have minimal to no drug-drug interactions such as pitavastatin. In fact, pitavastatin is primarily metabolized by glucuronidation and pharmacokinetic studies suggest minimal interactions with PIs or NNRTIs.129 The safety of pitavastatin in this patient population will also be further evaluated in the REPRIEVE trial.

fulltextpubmed· Body· item PMC4921313

to have minimal to no drug-drug interactions such as pitavastatin. In fact, pitavastatin is primarily metabolized by glucuronidation and pharmacokinetic studies suggest minimal interactions with PIs or NNRTIs.129 The safety of pitavastatin in this patient population will also be further evaluated in the REPRIEVE trial. Immune Activation Given the emerging role of immune activation in CVD in this patient population, several investigators are currently exploring therapies targeting inflammation or suspected mechanisms of continued immune activation such as microbial translocation. Sevelamer, a phosphate lowering medication, has been shown to reduce markers of inflammation and microbial translocation in non-HIV patients with renal insufficiency130 but did not do so in an 8-week trial in untreated HIV-patients.131 There were reductions in other factors related to CVD such as D-dimer, LDL, and oxidized LDL, and thus, further studies with sevelamer may show a cardioprotective effect. Additionally, in a 12-week randomized placebo-controlled trial in HIV-infected patients on cART, investigators found that probiotics led to a decrease in LPS-binding protein levels,132 suggesting that probiotics may decrease microbial translocation. Additional studies, however, are needed to further explore potential benefits of sevelamer, probiotics, and other therapeutic strategies in reducing atherosclerosis.

fulltextpubmed· Body· item PMC4921313

, investigators found that probiotics led to a decrease in LPS-binding protein levels,132 suggesting that probiotics may decrease microbial translocation. Additional studies, however, are needed to further explore potential benefits of sevelamer, probiotics, and other therapeutic strategies in reducing atherosclerosis. Investigators are also exploring a possible role of anti-inflammatory agents in HIV with the hope of controlling immune activation without losing viremic control. For example, methotrexate is currently being studied at low doses for safety and efficacy in reducing inflammation in cART treated HIV-infected patients.133 In addition, certain anti-viral medications such as CCR5 antagonists may possess therapeutic benefits specific for atherosclerosis in patients with HIV. CCR5 is a chemokine receptor on macrophages, T-cells, and other immune cells. A study comparing HIV-infected patients classified as atherosclerotic progressors versus non-progressors based on changes in CIMT over 2 years reported a significant association between progression and CCR5 mRNA expression in leukocytes.134 Administration of a CCR5 antagonist to ritonavir-treated, atherosclerotic-prone mice led to inhibition of atherosclerotic progression by preventing macrophage infiltration into plaques.135 Studies in humans involving CCR5 antagonists on cardiovascular endpoints, however, are still needed as randomized trials have reported differing results regarding the effects of maraviroc, a CCR5 antagonist, on reducing immune activation.136, 137

fulltextpubmed· Body· item PMC4921313

erotic progression by preventing macrophage infiltration into plaques.135 Studies in humans involving CCR5 antagonists on cardiovascular endpoints, however, are still needed as randomized trials have reported differing results regarding the effects of maraviroc, a CCR5 antagonist, on reducing immune activation.136, 137 Conclusion As HIV-infected patients live longer on cART, the impact of CVD on morbidity and mortality will likely worsen unless effective management strategies are developed. Currently, HIV-infected individuals have an increased risk of cardiovascular disease, especially CHD, compared to uninfected controls. An increased prevalence of traditional risk factors is seen among HIV patients. Studies also suggest that non-traditional, HIV-specific risk factors may play a critical role. Although older cART regimens may result in more adverse metabolic effects and may contribute to the risk of CVD, early and continuous use of modern cART regimens may help minimize the risk of MI by maintaining viral suppression and decreasing immune activation. Nonetheless, data suggests that immune activation persists to a degree among HIV-infected patients on cART, potentially contributing to accelerated and vulnerable coronary atherosclerotic plaque morphology more prone to rupture and resulting MI. A comprehensive management strategy to prevent CVD in HIV will likely require addressing traditional risk factors as well as non-traditional, HIV-specific mechanisms such as immune activation and inflammation. Contributors

fulltextpubmed· Body· item PMC4921313

Conclusion As HIV-infected patients live longer on cART, the impact of CVD on morbidity and mortality will likely worsen unless effective management strategies are developed. Currently, HIV-infected individuals have an increased risk of cardiovascular disease, especially CHD, compared to uninfected controls. An increased prevalence of traditional risk factors is seen among HIV patients. Studies also suggest that non-traditional, HIV-specific risk factors may play a critical role. Although older cART regimens may result in more adverse metabolic effects and may contribute to the risk of CVD, early and continuous use of modern cART regimens may help minimize the risk of MI by maintaining viral suppression and decreasing immune activation. Nonetheless, data suggests that immune activation persists to a degree among HIV-infected patients on cART, potentially contributing to accelerated and vulnerable coronary atherosclerotic plaque morphology more prone to rupture and resulting MI. A comprehensive management strategy to prevent CVD in HIV will likely require addressing traditional risk factors as well as non-traditional, HIV-specific mechanisms such as immune activation and inflammation. Contributors EN did the initial literature review and wrote the first draft of the manuscript. JL, CH, and SKG assisted with additional literature review and revised the manuscript. Declaration of Interests

fulltextpubmed· Body· item PMC4921313

Conclusion As HIV-infected patients live longer on cART, the impact of CVD on morbidity and mortality will likely worsen unless effective management strategies are developed. Currently, HIV-infected individuals have an increased risk of cardiovascular disease, especially CHD, compared to uninfected controls. An increased prevalence of traditional risk factors is seen among HIV patients. Studies also suggest that non-traditional, HIV-specific risk factors may play a critical role. Although older cART regimens may result in more adverse metabolic effects and may contribute to the risk of CVD, early and continuous use of modern cART regimens may help minimize the risk of MI by maintaining viral suppression and decreasing immune activation. Nonetheless, data suggests that immune activation persists to a degree among HIV-infected patients on cART, potentially contributing to accelerated and vulnerable coronary atherosclerotic plaque morphology more prone to rupture and resulting MI. A comprehensive management strategy to prevent CVD in HIV will likely require addressing traditional risk factors as well as non-traditional, HIV-specific mechanisms such as immune activation and inflammation. Contributors EN did the initial literature review and wrote the first draft of the manuscript. JL, CH, and SKG assisted with additional literature review and revised the manuscript. Declaration of Interests There was no role of any funding source in the creation of this review article. SKG has consulted for BMS, Merck, Navidea, Theratechnologies, Gilead, NovoNordisk, AstraZeneca, Aileron, received speaker fees from Takeda, and research funding from BMS, Gilead, Amgen, Navidea, Kowa Pharmaceuticals and Theratechnologies over the past 3 years, all unrelated to this manuscript. EN, JL, and CH have no competing interests. This work was supported in part by the National Institute of Allergies and Infectious Diseases Intramural Program. SKG is a co-investigator for the currently enrolling REPRIEVE trial.

fulltextpubmed· Body· item PMC4921313

armaceuticals and Theratechnologies over the past 3 years, all unrelated to this manuscript. EN, JL, and CH have no competing interests. This work was supported in part by the National Institute of Allergies and Infectious Diseases Intramural Program. SKG is a co-investigator for the currently enrolling REPRIEVE trial. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Figure 1 Summary of epidemiology studies investigating relative risk of cardiovascular disease in HIV patients vs. control subjects Data are relative risk with 95% CI where available. Dotted line indicates relative risk of one. Figure 2 Pathophysiology of atherosclerosis in HIV-infected individuals RCT = reverse cholesterol transport, CEC = cholesterol efflux capacity, Rx = treatment

fulltextpubmed· Body· item PMC4921313

Figure 1 Summary of epidemiology studies investigating relative risk of cardiovascular disease in HIV patients vs. control subjects Data are relative risk with 95% CI where available. Dotted line indicates relative risk of one. Figure 2 Pathophysiology of atherosclerosis in HIV-infected individuals RCT = reverse cholesterol transport, CEC = cholesterol efflux capacity, Rx = treatment Figure 3 FDG/PET and Coronary Computed Tomography Angiography Images of Arterial Inflammation and Non-Calcified Plaque Progression in HIV patients 3A: Representative axial and coronal images of the aorta on FDG-PET. There is increased aortic PET-FDG uptake (red coloration) in an HIV-infected subject compared with a HIV-uninfected Framingham Risk score-matched control subject. A=Anterior-Posterior orientation, F=Foot-Head orientation. Figure is reproduced from Subramanian et al70 by permission of JAMA. 3B and 3C: Coronary computed tomography angiography images of the left anterior descending coronary artery of an HIV-infected individual at baseline (panel B) and at 12 months (panel C). Plaque volume increased from 11 to 124 mm3 (arrows) with high risk morphology features of low attenuation lipid core and positive remodeling at 12 months. Figure is reproduced from Lo et al120 by permission of Lancet HIV. Table 1 Relationship between immune markers and cardiovascular disease in HIV-infected individuals

fulltextpubmed· Body· item PMC4921313

Figure 3 FDG/PET and Coronary Computed Tomography Angiography Images of Arterial Inflammation and Non-Calcified Plaque Progression in HIV patients 3A: Representative axial and coronal images of the aorta on FDG-PET. There is increased aortic PET-FDG uptake (red coloration) in an HIV-infected subject compared with a HIV-uninfected Framingham Risk score-matched control subject. A=Anterior-Posterior orientation, F=Foot-Head orientation. Figure is reproduced from Subramanian et al70 by permission of JAMA. 3B and 3C: Coronary computed tomography angiography images of the left anterior descending coronary artery of an HIV-infected individual at baseline (panel B) and at 12 months (panel C). Plaque volume increased from 11 to 124 mm3 (arrows) with high risk morphology features of low attenuation lipid core and positive remodeling at 12 months. Figure is reproduced from Lo et al120 by permission of Lancet HIV. Table 1 Relationship between immune markers and cardiovascular disease in HIV-infected individuals Immune Marker Subclinical Atherosclerosis Cardiovascular Disease High sensitivity CRP CIMT progression50 MI and major CVD event45, 51 IL-6 MI, stroke, and major CVD event44, 45 D-dimer MI, stroke, and major CVD event44, 45, 51 sTNFR CIMT52 MI and stroke44 Lipopolysaccharide CIMT progression53 MCP-1 CIMT, stenosis ≥ 50%, CAC, coronary segments with plaque18, 54, 55 Lp-PLA2 CIMT56 Oxidized LDL CIMT55 HDL Redox Activity Non-calcified plaque57 Soluble CD163 CAC; vulnerable, total, non-calcified, mixed, and calcified plaque; coronary stenosis ≥ 50%20, 54, 58 Soluble CD14 Non-calcified plaque, CIMT and coronary stenosis ≥ 50%53, 54, 58, 59 Highest quartile sCD14 w/CVD death,60 MI, and stroke44 CD14+CD16+ monocytes CAC progression61 CX3CR1/CD16+ monocytes CIMT62 CD11b/total monocytes CIMT62 CD4+CD38+HLADR+ CIMT63 CD8+CD38+HLADR+ CIMT52, 63 Low CD4 count CIMT64 MI12, 47 Low nadir CD4 count MI46 Viral Load CIMT progression65 MI12, 46 CRP = C-reactive protein, IL-6 = interleukin-6, sTNFR = soluble tumor necrosis factor receptor, MCP-1 = monocyte chemoattractant protein-1, Lp-PLA2 = lipoprotein phospholipase-A2, LDL = low density lipoprotein, HDL = high density lipoprotein, CIMT = carotid intima media thickness, CAC = coronary artery calcium, MI = myocardial infarction, CVD = cardiovascular

fulltextpubmed· Body· item PMC4921313

kin-6, sTNFR = soluble tumor necrosis factor receptor, MCP-1 = monocyte chemoattractant protein-1, Lp-PLA2 = lipoprotein phospholipase-A2, LDL = low density lipoprotein, HDL = high density lipoprotein, CIMT = carotid intima media thickness, CAC = coronary artery calcium, MI = myocardial infarction, CVD = cardiovascular Table 2 Studies investigating impact of statins on mortality and/or cardiovascular disease in HIV-infected individuals

fulltextpubmed· Body· item PMC4921313

kin-6, sTNFR = soluble tumor necrosis factor receptor, MCP-1 = monocyte chemoattractant protein-1, Lp-PLA2 = lipoprotein phospholipase-A2, LDL = low density lipoprotein, HDL = high density lipoprotein, CIMT = carotid intima media thickness, CAC = coronary artery calcium, MI = myocardial infarction, CVD = cardiovascular Table 2 Studies investigating impact of statins on mortality and/or cardiovascular disease in HIV-infected individuals Study Population Design N Duration Results Stein et al114 HIV pts on stable ART w a PI for 3 months, LDL > 3·36 mmol/L, and either TG > 3·38 mmol/L or HDL < 1·07 mmol/L Placebo-controlled, double-blind, cross-over study of pravastatin 40mg 20 8 weeks on treatment-placebo + 8 weeks on placebo-treatment Flow mediated dilation tended to increase with pravastatin (0.7% ± 0.6%, p = 0.08) Boccara et al115 HIV pts on cART for 12 mos, LDL > 4·14 mmol/L, one additional vascular risk factor Case-control study of pravastatin group versus group without lipid treatment 84 (42 in each group) Pravastatin group treated for at least 12 months No difference in CCA-CIMT between groups Moore et al116 HIV pts initiating cART and achieving virologic suppression within 6 months with maintenance of virologic suppression Analysis of the Johns Hopkins HIV Clinical Cohort for statin use and mortality 1538 (238 with statin use) Median time to censoring 570 days (IQR: 268–1286 days) Statin use had relative hazard ratio of 0·33 [95% CI 0·14–0·76] for all-cause mortality. CVD-mortality not different between statin users and non-statin users but small number of deaths in statin users (7 of 85 total) and 15 deaths with unknown cause Calza et al117 HIV pts w/asymptomatic carotid atherosclerosis and hypercholesterolemia Observational study of pts starting rosuvastatin 10mg 36 24 months Significant decreases of mean CIMT from baseline Rasmussen et al118 HIV pts initiating cART and achieving virologic suppression within 6 months Danish nationwide population based cohort study of statin use and mortality 1738 (169 with statin use) 7,952 person-years of follow-up With censoring for virologic failure, the adjusted mortality rate ratio for statin use was 0·75 [95%CI 0·33–1·68] and 0·34 [95%CI 0·11–1·04] after a diagnosis of CVD, CKD, or DM.

fulltextpubmed· Body· item PMC4921313

months Danish nationwide population based cohort study of statin use and mortality 1738 (169 with statin use) 7,952 person-years of follow-up With censoring for virologic failure, the adjusted mortality rate ratio for statin use was 0·75 [95%CI 0·33–1·68] and 0·34 [95%CI 0·11–1·04] after a diagnosis of CVD, CKD, or DM. Overton et al119 HIV pts from the ALLRT cohort not on a statin at baseline Analysis of the ALLRT data for statin use and non-AIDS events 3601 (484 initiated a statin during observation) 15,135 person-years of follow-up Statin use with adjusted hazard ratio of 0·81 [95%CI 0·53–1·24] for non-AIDS event and 0·89 [95%CI 0·32–2·44] for CVD event Lo et al120 HIV pts on cART w/arterial inflammation, subclinical atherosclerosis, and LDL < 3·36 mmol/L Randomized to atorvastatin versus placebo 40 (19 in atorvastatin arm) 12 months Significant reductions in total plaque volume, non-calcified plaque volume, low attenuation plaque, and positively remodeled plaque in atorvastatin group compared to increases in placebo McComsey et al121 HIV pts on cART for 6 months with LDL < 3·36 mmol/L and either hsCRP > 2 mg/L or CD8+CD38+HLADR+ > 19% Randomized clinical trial of rosuvastatin 10mg versus placebo 147 (72 in statin group) 96 weeks Significant increase in mean CCA CIMT in placebo group versus no change in treatment group with larger difference between groups in subset with baseline CAC Lang et al122 HIV pts from control group of the FHDH-ANRS CO4 Cohort Case-control study for statin use and 7-year all-cause mortality 1776 (138 on statin) Median follow-up of 53 months Statin use with estimated hazard ratio of 0·86 [95% CI 0·34–2·19] on all-cause mortality Krsak et al123 HIV pts on cART at anytime during follow-up from Nutrition for Healthy Living Cohort Retrospective analysis for statin use and MI, stroke, and all-cause mortality composite 438 (67 on statin) Mean follow-up time 275 weeks in non-statin group and 411 weeks in statin group Hazard ratio for composite 0·93 [95% CI 0·65–1·32] in statin duration model and 1·26 [95% CI 0·57–2·79] in statin history model cART = combined antiretroviral therapy, LDL = low density lipoprotein, CCA = common carotid artery, CIMT = carotid intima media thickness, CVD = cardiovascular disease, CKD = chronic kidney disease, DM = diabetes mellitus, hsCRP = high sensitivity C-reactive protein, CAC = coronary artery calcium

fulltextpubmed· Body· item PMC4921313

n statin history model cART = combined antiretroviral therapy, LDL = low density lipoprotein, CCA = common carotid artery, CIMT = carotid intima media thickness, CVD = cardiovascular disease, CKD = chronic kidney disease, DM = diabetes mellitus, hsCRP = high sensitivity C-reactive protein, CAC = coronary artery calcium Search Strategy and Selection Criteria We searched the authors’ personal files in addition to Pubmed and Google Scholar using the search term “HIV” along with one or several of the following terms: atherosclerosis, subclinical atherosclerosis, cardiovascular disease, coronary heart disease, myocardial infarction, acute coronary syndrome, metabolic, traditional risk factors, smoking, hypertension, blood pressure, diabetes, insulin resistance, dyslipidemia, lipodystrophy, reverse cholesterol transport, cholesterol efflux capacity, lipids, antiretroviral therapy, ART initiation, ART interruption, delayed ART, early ART, ART naive, ART treated, protease inhibitor, nucleoside reverse transcriptase inhibitor, non-nucleoside reverse transcriptase inhibitor, entry inhibitor, fusion inhibitor, integrase inhibitor, immune activation, inflammation, biomarkers, monocytes, macrophages, T-cells, co-infection, microbial translocation, viral replication, coronary computed tomography angiography, coronary artery calcium, carotid intima-media thickness, carotid ultrasound, non-calcified plaque, calcified plaque, mixed plaque, vulnerable plaque, high-risk plaque, low attenuation plaque, positively remodeled plaque, spotty calcified plaque, napkin ring sign, carotid intima-media thickness, flow-mediated dilation, FDG-PET, FDG, arterial inflammation, cardiovascular risk prediction, cardiovascular risk calculators, smoking cessation, quit smoking, metformin, glitazones, lifestyle modification, exercise, diet, renin, angiotensin, aldosterone, statins, tesamorelin, CCR5 antagonists, methotrexate, probiotics, sevelamer. There were no date restrictions. Full-text, original articles and reviews resulting from these searches and relevant references cited in those articles were reviewed. UNAIDS and WHO were also reviewed for relevant HIV global statistics. Relevant abstracts from the 2015 and 2014 Conference on Retroviruses and Opportunistic Infections were also included. We also searched ClinicalTrials.gov for ongoing clinical trials of HIV and immune activation or cardiovascular disease.