Effect of congestive heart failure on humoral and ex vivo cellular immune responses to influenza vaccination in older adults

Antibody and Cell-Mediated Immune Responses Are Correlates of Protection against Influenza Infection in Vaccinated Older Adults

Despite efforts to design better vaccines for older adults, the risk for serious complications of influenza remains disproportionately high. Identifying correlates of vaccine effectiveness and understanding the heterogeneity of health outcomes in older adults are key to the vaccine development pipeline. We sought correlates of protection against laboratory-confirmed influenza illness (LCII) in a 4-year randomized trial of standard versus high-dose influenza vaccination of adults 65 years and older. To this end, we quantified serum hemagglutination-inhibition (HAI) titers and interferon-gamma (IFNγ) and interleukin-10 (IL-10) secretion by virus-challenged peripheral blood mononuclear cells. Of the 608 participants included, 26 developed either A/H3N2-(n = 17) or B-LCII (n = 9) at 10-20 weeks post-vaccination. Antibody titres for A/H3N2 at 4-weeks post-vaccination were significantly associated with protection against LCII, where every 1-standard deviation increase reduced the odds of A/H3N2-LCII by 53%. Although B-titres did not correlate with protection against B-LCII, the fold-increase in IFNγ:IL-10 ratios from pre- to 4-weeks post-vaccination was significantly associated with protection against B-LCII, where every 1-standard deviation increase reduced the odds by 71%. Our results suggest that both antibody and cell-mediated immune measures are valuable and potentially complementary correlates of protection against LCII in vaccinated older adults, although this may depend on the viral type causing infection.

Influenza Vaccination to Reduce Cardiovascular Morbidity and Mortality in Patients With COVID-19: JACC State-of-the-Art Review

Viral respiratory infections are risk factors for cardiovascular disease (CVD). Underlying CVD is also associated with an increased risk of complications following viral respiratory infections, including increased morbidity, mortality, and health care utilization. Globally, these phenomena are observed with seasonal influenza and with the current coronavirus disease 2019 (COVID-19) pandemic. Persons with CVD represent an important target population for respiratory virus vaccines, with capacity developed within 3 large ongoing influenza vaccine cardiovascular outcomes trials to determine the potential cardioprotective effects of influenza vaccines. In the context of COVID-19, these international trial networks may be uniquely positioned to redeploy infrastructure to study therapies for primary and secondary prevention of COVID-19. Here, we describe mechanistic links between influenza and COVID-19 infection and the risk of acute cardiovascular events, summarize the data to date on the potential cardioprotective effects of influenza vaccines, and describe the ongoing influenza vaccine cardiovascular outcomes trials, highlighting important lessons learned that are applicable to COVID-19.

Beneficial Effects of Vaccination on Cardiovascular Events: Myocardial Infarction, Stroke, Heart Failure

Influenza and pneumococcal infections have been suggested to be potential risk factors for causing adverse cardiovascular events, especially in high-risk patients. Vaccination against respiratory infections in patients with established cardiovascular disease (CVD) could serve as a potential cost-effective intervention to improve their clinical outcomes and cardiac societies have encouraged it. Previous studies have shown that influenza vaccination reduce mortality, acute coronary syndromes and hospitalization in patients with coronary heart disease (CHD) and/or heart failure (HF). However, there is a paucity of randomized prospective clinical trials in the field of the pneumococcal vaccination, and additional higher-quality evidence is needed. Furthermore, questions around the role of vaccination in the primary prevention of CVD, the optimal dose and timing are largely unanswered. The pathophysiologic mechanism in which vaccination provides cardiovascular protection may be related to the modification of the immune-inflammatory model of atherogenesis. The present review summarizes the current evidence and understanding for vaccination against influenza and streptococcus pneumoniae in CHD, HF and stroke and highlights its beneficial effect in the reduction of adverse cardiovascular events.

Age- and risk-related appropriateness of the use of available influenza vaccines in the Italian elderly population is advantageous: results from a budget impact analysis

INTRODUCTION

Nowadays, four different types of influenza vaccines are available in Italy: trivalent (TIV), quadrivalent (QIV), MF59-adjuvanted (aTIV) and intradermal TIV (idTIV) inactivated vaccines. Recently, a concept of the appropriateness (i.e. according to the age and risk factors) of the use of different vaccines has been established in Italy. We conducted a budget impact analysis of switching to a policy, in which the Italian elderly (who carry the major disease burden) received the available vaccines according to their age and risk profile.

METHODS

A novel budget impact model was constructed with a time horizon of one influenza season. In the reference scenario the cohort of Italian elderly individuals could receive either available vaccine according to 2017/18 season market share. The alternative scenario envisaged the administration of TIV/QIV to people aged 65-74 years and at low risk of developing influenza-related complications, while aTIV/idTIV were allocated to high-risk 65-74-year-olds and all subjects aged ≥ 75 years.

RESULTS

Switching to the alternative scenario would result in both significant health benefits and net budget savings. Particularly, it would be possible to prevent an additional 8201 cases of laboratory-confirmed influenza, 988 complications, 355 hospitalizations and 14 deaths. Despite the alternative strategy being associated with slightly higher vaccination costs, the total savings derived from fewer influenza events completely resets this increase with net budget savings of € 0.13 million.

CONCLUSIONS

An immunization policy in which influenza vaccines are administered according to the age and risk profile of Italian elderly individuals is advisable.

Serum C-Reactive Protein and Congestive Heart Failure as Significant Predictors of Herpes Zoster Vaccine Response in Elderly Nursing Home Residents

Background

Elderly long-term care residents often exhibit a myriad of risk factors for immune dysfunction, including chronic inflammation and multiple comorbid conditions, which undoubtedly contribute to their enhanced susceptibility to infection. Hence, understanding the factors required for optimal vaccine responsiveness is critical.

Methods

We examined 187 elderly nursing home residents (aged 80-102 years) and 50 community-dwelling seniors (aged 60-75 years) immunized with the live-attenuated varicella-zoster virus (VZV) vaccine. Specifically, we examined whether vaccine responsiveness was associated with serum C-reactive protein (CRP), tumor necrosis factor, interleukin 1β, 6, and 10, leukocyte telomere length, chronic disease status, and frailty.

Results

Elderly participants had significantly higher levels of CRP, tumor necrosis factor, and interleukin 6 and shorter leukocyte telomere length. Vaccine responsiveness was inversely related to the CRP level in elderly participants, but not seniors, and those with congestive heart failure were less likely to achieve a 2-fold response (odds ratio, 0.08). The latter relationship is probably due to immunosenescence, because heart failure was associated with increased senescent CD4+ T cells, and reduced naive and effector and central memory CD8+ T cells.

Conclusions

In summary, these data improve our understanding of vaccine responsiveness for those in long-term care, suggesting that certain risk factors are associated with a greater likelihood of vaccine failure.

Can Vaccinations Improve Heart Failure Outcomes?: Contemporary Data and Future Directions

Heart failure (HF) is a chronic syndrome characterized by acute exacerbations. There is significant overlap between respiratory infections and exacerbation of underlying HF. Vaccination against respiratory infections in patients with HF could serve as a potential cost-effective intervention to improve patients' quality of life and clinical outcomes. The benefits of influenza vaccination in secondary prevention of ischemic heart disease have been previously studied. However, the evidence for influenza and pneumococcal vaccination specifically in the HF population is less well established. Furthermore, questions around the optimal timing, dose, frequency, and implementation strategies are largely unanswered. This review highlights the current evidence for vaccination against influenza and pneumococcal pneumonia in HF and cardiovascular disease. It summarizes current understanding of the pathophysiologic mechanisms in which vaccination may provide cardioprotection. Finally, it offers opportunities for further investigation on the effects of vaccination in the HF population, spanning basic science, translational research, and large clinical trials.

Influenza Vaccine Antibody Responses in Lung Transplant Recipients

Context

Lung transplant recipients are at high risk of morbidity and mortality from influenza infection because of altered lung physiology and immunosuppression. Annual influenza immunization is recommended, but the ability to mount an antibody response may be limited by immunosuppressant medications.

Objective

To compare the antibody response rate to influenza vaccine in lung transplant recipients to healthy controls.

Design

Open label study

Setting

Lung transplant clinic and General Clinical Research Center at a university hospital.

Subjects

Sixty-eight single and bilateral lung transplant recipients and 35 healthy controls were enrolled in October and November 2002.

Methods

Each individual underwent blood sampling before receiving the 2002–2003 influenza vaccine and 4 weeks later. Influenza antibody concentrations were measured by hemagglutination inhibition assay. Vaccine response rates (antibody concentration >40 hemagglutination units and at least 4-fold increase in antibody concentration) were compared using χ2. The influence of specific immunosuppressants on vaccine response was compared.

Results

The influenza vaccine response rate for lung transplant recipients was 29/68 (43%) and 22/35 (63%) for the healthy individuals ( Pž < .05; χ2). Among the recipients, mycophenolate mofetil was associated with poorer influenza vaccine antibody response (> 40 hemagglutination units) (62% vs 91%; Pž = .01), whereas sirolimus (91% vs 63%; Pž = .02) was associated with better influenza antibody response compared to those not taking mycophenolate mofetil or sirolimus, respectively.

Conclusion

Lung transplant recipients had lower influenza vaccine response rates than healthy individuals. Influenza vaccine antibody response is influenced by concomitant administration of mycophenolate mofetil or sirolimus. Future studies should measure protection from influenza infection conferred by immunization and alternative vaccination strategies.

Lack of persistence of influenza vaccine antibody titers in patients with heart failure

BACKGROUND

Patients with heart failure (HF) have lower initial antibody responses to the influenza vaccine compared with healthy individuals. Whether antibody titers wane faster in this population remains unknown.

METHODS AND RESULTS

We studied 62 HF patients (18 ischemic, 44 idiopathic) and 40 healthy control subjects (HC) during the 2006-2007 and 2007-2008 influenza seasons. Antibody titers were measured before and 2-4 weeks and 11-12 months after vaccination. Serum antibody production was measured by hemagglutination inhibition assay, and antibody titers to individual vaccine viral strains between the HF and HC groups were compared after the influenza season to measure persistence of antibody response. All participants demonstrated early antibody seroprotection (titers 40 hemmaglutination inhibition units to 1 strain). Although antibody titers waned over time in both groups, titers to A/H3N2 and A/H1N1 strains decreased more in HF than in HC participants (P = .004 and P = .04, respectively). Titers to the B-type strain decreased to below seroprotective levels in both groups.

CONCLUSIONS

Antibody titers to influenza A vaccine strains wane to below seroprotective levels in HF patients compared with HC, despite similar rates of initial seroprotection and seroconversion. These findings suggest that HF patients may remain at increased risk for influenza infection despite annual vaccination.

Double dose vs. standard dose influenza vaccination in patients with heart failure: a pilot study

AIMS

Influenza infection leads to increased morbidity and mortality in those with heart failure, and individuals with heart failure exhibit reduced antibody responses to influenza vaccine. We hypothesized that patients with heart failure randomized to double dose (DD) influenza vaccine will mount more vigorous humoral immune responses compared with those given standard dose (SD) vaccine.

METHODS AND RESULTS

We randomized 28 heart failure patients to DD (30 μg/strain) or SD (15 μg/strain) influenza vaccine. We assessed antibody production by haemagglutination inhibition assay (reported as log haemagglutination units) prior to, at 2-4 weeks and at 4-6 months following vaccination. Baseline antibody titres between DD (n = 12, mean age 64 ± 10 years) and SD (n = 16, mean age 63 ± 9 years) did not differ significantly. At 2-4 weeks, DD haemagglutination unit changes were significantly higher than those of SD (3.3 vs. 1.6 for A/H3N2, P < 0.001; 1.9 and 1.1 for A/H1N1, P = 0.009; and 1.7 and 1 for B-type, P = 0.02). At 4-6 weeks, there were no differences in titres in any of the virus types between treatment groups and, although titres decreased, levels remained above the seroprotective threshold.

CONCLUSIONS

Higher influenza vaccine doses may elicit increased antibody-mediated responses in patients with heart failure; further studies should assess whether clinical outcomes are improved with this strategy.

Cellular immune responses to recurring influenza strains have limited boosting ability and limited cross-reactivity to other strains

Influenza vaccine provides protection against infection with matched strains, and this protection correlates with serum antibody titres. In addition to antibodies, influenza-specific CD8+ T-lymphocyte responses are important in decreasing disease severity and facilitating viral clearance. Because this response is directed at internal, relatively conserved antigens, it affords some cross-protection within a given subtype of influenza virus. With the possibility of a broader A(H1N1) Mexico outbreak in the fall of 2009, it appeared worthwhile studying the degree of cellular immune response-mediated cross-reactivity among influenza virus isolates. The composition of the 2006-2007 influenza vaccine included the A/New Caledonia/20/1999 strain (comprising a virus that has been circulating, and was included in vaccine preparations, for 6-7 years) and two strains not previously included (Wisconsin and Malaysia). This combination afforded us the opportunity to determine the degree of cross-reactive cellular immunity after exposure to new viral strains. We analysed the antibody responses and the phenotype and function of the T cell response to vaccine components. The results obtained show that antibody responses to A/New-Caledonia were already high and vaccination did not increase antibody or cytotoxic T lymphocyte responses. These data suggest that repeated exposure to the same influenza stain results in limited boosting of humoral and cellular immune responses.

Decreased T-cell responses to influenza vaccination in patients with heart failure

STUDY OBJECTIVE

To determine whether T-cell immune responses to influenza vaccination in patients with chronic heart failure (CHF) are less vigorous than the responses of healthy control subjects.

DESIGN

Prospective, single-center study.

SETTING

University hospital and research laboratory.

PARTICIPANTS

Eighteen adults with stable CHF receiving optimal treatment and 16 healthy control subjects.

INTERVENTION

Participants were immunized with the 2006-2007 trivalent inactivated (killed) influenza vaccine during October-December of 2006.

MEASUREMENTS AND MAIN RESULTS

Blood samples were taken from the participants before and 2-4 weeks after vaccination to measure antibody titers, which were measured with a hemagglutination inhibition assay, then 3-4 months after vaccination to assess T-cell responses, measured by using the trans vivo delayed-type hypersensitivity method. As part of this method, which mimics physiologic conditions, peripheral blood mononuclear cells were isolated from the blood samples. The cells were mixed with influenza vaccine antigens A/H1N1, A/H3N2, and B type and injected into the footpads of SCID mice (mice with severe combined immunodeficiency), as their resulting swelling is an index of human T-cell sensitization. Median T-cell-mediated immune responses to A/H3N2 were less vigorous in patients with CHF than in control subjects (62.5 vs 87.5 microm, unadjusted p=0.031, age-adjusted p=0.006). Median responses to A/H1N1 were not significantly different between the groups (56.3 vs 75 microm, p=0.11). Median responses to B type were also similar between the groups (62.5 vs 75 microm, p=0.47). All participants mounted an antibody response to the influenza vaccine.

CONCLUSION

Patients with CHF had reduced T-cell responses to the influenza vaccine compared with healthy control subjects, as demonstrated by a lower response to A/H3N2, the newest antigen in the 2006-2007 vaccine. However, differences in T-cell immune responses to the A/H1N1 and B type strains were not found to be significant between the two groups, which suggests that patients with CHF can mount an appropriate response to vaccine antigens to which they have been previously exposed, but less so to new antigens. These findings suggest that patients with CHF may be at increased risk for influenza infection, and clinicians may want to investigate other or additional strategies for influenza vaccination.

Antibody response to influenza immunization in coronary artery disease patients: a controlled trial

Safety of and humoral immune response to the anti-influenza vaccine in coronary artery disease (CAD) patients were evaluated. The trivalent vaccine was administered to 137 eligible CAD patients and 67 age- and sex-matched healthy individuals. Antibody (Ab) titers were measured before and 1 month after vaccination. CAD and HC groups were not significantly different in serologic response and magnitude of change in antibody titers against each of the vaccine antigens. In multivariate analyses, regular exercise and using multivitamin supplements were independently associated with better antibody response among CAD patients. There were no major cardiac or general adverse effects. Influenza vaccine was found safe in CAD patients and antibody responses were similar to HCs.

Immunosenescence Modulation by Vaccination

A decline in immune function is a hallmark of aging that leads to complicated illness from a variety of infectious diseases, cancer and other immune-mediated disorders, and may limit the ability to appropriately respond to vaccination. How vaccines might alter the senescent immune response and what are the immune correlates of protection will be addressed from the perspective of 1) stimulating a previously primed response as in the case of vaccines for seasonal influenza and herpes zoster, 2) priming the response to novel antigens such as pandemic influenza or other viruses, 3) vaccination against bacterial pathogens such as pneumococcus, and 4) altering the immune response to an endogenous protein as in the case of a vaccine against Alzheimer’s disease. In spite of the often limited efficacy of vaccines for older adults, influenza vaccination remains the only cost-saving medical intervention in this population. Thus, considerable opportunity exists to improve current vaccines and develop new vaccines as a preventive approach to a variety of diseases in older adults. Strategies for selecting appropriate immunologic targets for new vaccine development and evaluating how vaccines may alter the senescent immune response in terms of potential benefits and risks in the preclinical and clinical trial phases of vaccine development will be discussed.

Decreased immune responses to influenza vaccination in patients with heart failure

BACKGROUND

Heart failure (HF) patients are at risk for influenza despite widespread vaccination. Both humoral (antibody) and cytotoxic T-lymphocyte (CTL) responses are important for protection. We explored antibody- and CTL-mediated responses to the influenza vaccine in HF patients compared with healthy controls.

METHODS AND RESULTS

We studied 29 HF patients (9 ischemic, 20 nonischemic) stable on HF therapies and 17 healthy controls. Participants had phlebotomy before and after influenza vaccination. Antibody production was measured in serum by hemagglutination inhibition assay and CTL responses (via interferon [IFN]-gamma and interleukin [IL]-10 production) were measured in isolated peripheral blood mononuclear cells with enzyme-linked immunosorbent assay. CTL responses demonstrated increased IL-10 production in HF patients after vaccination (P = .002), but similar IFN-gamma responses to healthy controls. All participants demonstrated antibody seroprotection; groups had similar rates of seroconversion (P = NS). Antibody-mediated response to the newest vaccine antigen, H3N2, was reduced in HF (P = .009).

CONCLUSIONS

Patients with HF had higher vaccine induced IL-10 concentrations, suggesting a different CTL phenotype for vaccine responses. HF patients did not mount as vigorous of an antibody immune response to the newest vaccine viral strain compared with healthy individuals. These data suggest that immunologic memory may be important for vaccine protection in HF patients.

Immunological outcomes of exercise in older adults

Aging is associated with a dysregulation of the immune system known as immunosenescence. Immunosenescence involves cellular and molecular alterations that impact both innate and adaptive immunity, leading to increased incidences of infectious disease morbidity and mortality as well as heightened rates of other immune disorders such as autoimmunity, cancer, and inflammatory conditions. While current data suggests physical activity may be an effective and logistically easy strategy for counteracting immunosenescence, it is currently underutilized in clinical settings. Long-term, moderate physical activity interventions in geriatric populations appear to be associated with several benefits including reduction in infectious disease risk, increased rates of vaccine efficacy, and improvements in both physical and psychosocial aspects of daily living. Exercise may also represent a viable therapy in patients for whom pharmacological treatment is unavailable, ineffective, or inappropriate. The effects of exercise impact multiple aspects of immune response including T cell phenotype and proliferation, antibody response to vaccination, and cytokine production. However, an underlying mechanism by which exercise affects numerous cell types and responses remains to be identified. Given this evidence, an increase in the use of physical activity programs by the healthcare community may result in improved health of geriatric populations.

Immunodominant peptides from conserved influenza proteins – A tool for more efficient vaccination in the elderly?

Influenza-specific CD8+ T cells are important for the clearance of infection especially in high risk groups such as elderly persons. Activation of these cells by immunization might therefore be a useful tool for a better protection of this specific age group. We therefore analyzed the frequency, phenotype and function of CD8+ T cells with specificity to the influenza M1(58-66) peptide in young, middle-aged and elderly persons ex vivo and after in vitro stimulation. Significantly lower numbers of M1(58-66)-specific CD8+ T cells were detected in the middle-aged and elderly compared to young donors. M1(58-66)-specific CD8+ T cells were either CD45RA(low)CD45RO(low) or CD45RA-CD45RO+, expressed CD28 and CD62L and did not produce perforin. There was no difference in the phenotype of influenza-specific CD8+ T cells between the three age groups. Despite the initially low numbers of M1(58-66)-specific CD8+ T cells in the older age groups, these cells could be expanded in vitro following peptide stimulation. They also acquired a CD45RO+CD28+ CD62L(+/-) phenotype and produced perforin. Our results demonstrate that although initially low in number, M1(58-66)-specific CD8+ T cells from elderly persons can be propagated and differentiated into perforin producing effector cells upon appropriate stimulation. M1(58-66) peptide or other immunodominant peptides derived from conserved influenza proteins could therefore be useful in future influenza vaccines in order to render elderly persons better protected against disease, in particular in the case of an influenza pandemic.

Immune response to influenza vaccination in community-dwelling Chinese elderly persons

We investigated the immune antibody response to influenza vaccine in community-dwelling Chinese elderly persons in Hong Kong. One hundred and twenty-eight subjects were recruited in a single-blind, randomized, and placebo-controlled trial. There was no significant baseline difference between the vaccine and placebo groups regarding the seroprotection rates (PR) (haemagglutination inhibition [HI] titre>or=1:40) and geometric mean titres (GMT) of the HI antibody titers. The PR, GMTs and serological response rates increased significantly in the vaccinated versus placebo groups in A-H1N1 at both weeks 4 and month 6. The GMTs and serological response rates but not the PR for A-H3N2 and influenza B increased significantly in vaccinated versus placebo group at week 4 and month 6 post-vaccination. Multivariate logistic regression analyses of the seroconversion rate for A-H3N2 within the vaccinated group showed that gender, coronary heart disease and the serum albumin level were significant predictors (p=0.018, 0.009 and 0.025, respectively). Influenza vaccination provoked a protective HI antibody response in community-living Chinese elderly persons. The mean number of unplanned hospital admissions per subject over 6 months was significantly lower in the vaccinated than in the placebo groups. Hospitalized elderly persons had poorer nutrition, 4-week post-immunization HI antibody titres and lower mini-mental state examination (MMSE) score than non-hospitalized elderly persons. Logistic regression analyses showed that chronic obstructive airway disease significantly increased the risk of hospitalization while the serum albumin level and 4-week A-H3N2 PR (HI>or=40) were independent predictors of a decreased risk of hospitalizations.

The unmet need in the elderly: Designing new influenza vaccines for older adults

Influenza is a serious illness and probably the single most important cause of excess disability and mortality during the winter months. In spite of limited efficacy in older adults, influenza vaccination is nevertheless a cost-saving medical intervention since it does reduce hospitalisation and death rates due to pneumonia, exacerbations of heart failure and, surprisingly, heart attacks and strokes. Yet hospitalisation and death rates for acute respiratory illnesses continue to rise in spite of widespread vaccination programs. As a person ages, the immune response to antigenic stimulation with the influenza virus shifts toward T helper type 2 cytokine production. This is associated with a relative reduction in cytotoxic T-cell activity and a reduced capacity to destroy infected host cells and clear the virus from infected lung tissue. Breakthrough strategies to improve the current influenza vaccines are required to avoid a crisis in health care. A targeted approach will develop vaccines that can reverse these age-related changes in T-cell responses, particularly the functions of cytotoxic T lymphocytes.

Comparison of single versus booster dose of influenza vaccination on humoral and cellular immune responses in older adults

This study compared the immune response to the standard single-dose (SD) of influenza vaccine to a booster dose (BD) re-vaccination given 16 weeks after the initial dose. While seroprotection rates following vaccination were similar, T-cell responses were more optimally stimulated in the SD versus the BD group. SD lead to a greater than 10-fold decline in ex vivo interleukin-10 (IL-10) levels (P < .0001) and a corresponding significant increase in the interferon-gamma (IFN-gamma) to IL-10 ratio. Although BD had no further effect on IL-10 production, the IFN-gamma:IL-10 ratio declined in the BD group (P < .001, A/H3N2 and B strains). In the SD group only, IFN-gamma:IL-10 ratios significantly correlated with serum antibody titers (R = .37 - .50, P < or = .01) and ex vivo granzyme B (Grz B) levels (R = .50-.65, P < or = .001). Following vaccination, granzyme B levels were significantly higher in the SD compared to the BD group (P < or= .0002). These results suggest that SD influenza vaccine produces Th1 and CTL responses while BD may produce a Th2 response that poorly stimulates the CTL response.