The intersection of biological sex and gender in adverse events following seasonal influenza vaccination in older adults

Background Women/females report more adverse events (AE) following immunization than men/males for many vaccines, including the influenza and COVID-19 vaccines. This discrepancy is often dismissed as a reporting bias, yet the relative contributions of biological sex and gender are poorly understood. We investigated the roles of sex and gender in the rate of AE following administration of the high-dose seasonal influenza vaccine to older adults (≥ 75 years) using an AE questionnaire administered 5–8 days post-vaccination. Participant sex (male or female) was determined by self-report and a gender score questionnaire was used to assign participants to one of four gender categories (feminine, masculine, androgynous, or undifferentiated). Sex steroid hormones and inflammatory cytokines were measured in plasma samples collected prior to vaccination to elucidate a possible biological mechanism for the AE reported. Results A total of 423 vaccines were administered to 173 participants over four influenza seasons (2019–22) and gender data were available for 339 of these vaccinations (2020–22). At least one AE was reported following 105 vaccinations (25%), by 23 males and 82 females. The majority of AE occurred at the site of injection, were mild, and transient. The odds of experiencing an AE were 3-fold greater in females than males and decreased with age to a greater extent in females than males. The effects of gender, however, were not statistically significant, supporting a central role of biological sex in the occurrence of AE. In males, estradiol was significantly associated with IL-6 and with the probability of experiencing an AE. Both associations were absent in females, suggesting a sex-specific effect of estradiol on the occurrence of AE that supports the finding of a biological sex difference. Conclusions These data support a larger role for biological sex than for gender in the occurrence of AE following influenza vaccination in older adults and provide an initial investigation of hormonal mechanisms that may mediate this sex difference. This study highlights the complexities of measuring gender and the importance of assessing AE separately for males and females to better understand how vaccination strategies can be tailored to different subsets of the population.

[1]  S. Cramer,et al.  Association of frailty, age, and biological sex with SARS-CoV-2 mRNA vaccine-induced immunity in older adults , 2022, medRxiv.

[2]  Alice Li,et al.  A Sex- and Gender-Based Analysis of Adverse Drug Reactions: A Scoping Review of Pharmacovigilance Databases , 2022, Pharmaceuticals.

[3]  L. Greaves,et al.  Sex, Gender and Health: Mapping the Landscape of Research and Policy , 2022, International journal of environmental research and public health.

[4]  S. Zeger,et al.  Sex-specific effects of aging on humoral immune responses to repeated influenza vaccination in older adults , 2021, NPJ vaccines.

[5]  K. Blumenthal,et al.  Delayed Large Local Reactions to mRNA Covid-19 Vaccines in Blacks, Indigenous Persons, and People of Color , 2021, The New England journal of medicine.

[6]  S. Klein,et al.  Sex-specific effects of age and body mass index on antibody responses to seasonal influenza vaccines in healthcare workers. , 2021, Vaccine.

[7]  S. Klein,et al.  The impact of sex and gender on immunotherapy outcomes , 2020, Biology of Sex Differences.

[8]  S. MacDonald,et al.  Is there a difference in the immune response, efficacy, effectiveness and safety of seasonal influenza vaccine in males and females? - A systematic review. , 2019, Vaccine.

[9]  A. Didierlaurent,et al.  The how’s and what’s of vaccine reactogenicity , 2019, npj Vaccines.

[10]  A. Callegaro,et al.  Inflammatory parameters associated with systemic reactogenicity following vaccination with adjuvanted hepatitis B vaccines in humans. , 2019, Vaccine.

[11]  Aliya Saperstein,et al.  Gender and Health: Beyond Binary Categorical Measurement , 2019, Journal of health and social behavior.

[12]  M. G. Gubbels Bupp,et al.  Androgen-Induced Immunosuppression , 2018, Front. Immunol..

[13]  S. Culos-Reed,et al.  Perceptions of masculinity and body image in men with prostate cancer: the role of exercise , 2018, Supportive Care in Cancer.

[14]  Amelia M. Jamison,et al.  The Role of Risk Perception in Flu Vaccine Behavior among African‐American and White Adults in the United States , 2017, Risk analysis : an official publication of the Society for Risk Analysis.

[15]  S. Deeks,et al.  Assessment of sex-specific differences in adverse events following immunization reporting in Ontario, 2012-15. , 2017, Vaccine.

[16]  A. George,et al.  How to do (or not to do)… gender analysis in health systems research. , 2016, Health policy and planning.

[17]  M. Zunzunegui,et al.  Bem Sex Role Inventory Validation in the International Mobility in Aging Study , 2016, Canadian Journal on Aging / La Revue canadienne du vieillissement.

[18]  J. Guralnik,et al.  Gender Roles and Physical Function in Older Adults: Cross-Sectional Analysis of the International Mobility in Aging Study (IMIAS) , 2016, PloS one.

[19]  I. Messaoudi,et al.  Impact of Estrogen Therapy on Lymphocyte Homeostasis and the Response to Seasonal Influenza Vaccine in Post-Menopausal Women , 2016, PloS one.

[20]  Ricardo Oliveira Guerra,et al.  Depression, Sex and Gender Roles in Older Adult Populations: The International Mobility in Aging Study (IMIAS) , 2016, PloS one.

[21]  Saad B Omer,et al.  Vaccine hesitancy: Causes, consequences, and a call to action. , 2015, Vaccine.

[22]  O. Wichmann,et al.  Why are older adults and individuals with underlying chronic diseases in Germany not vaccinated against flu? A population-based study , 2015, BMC Public Health.

[23]  B. Ditto,et al.  A Composite Measure of Gender and Its Association With Risk Factors in Patients With Premature Acute Coronary Syndrome , 2015, Psychosomatic medicine.

[24]  T. Jorgensen,et al.  Suppressive effects of androgens on the immune system. , 2015, Cellular immunology.

[25]  M. Zunzunegui,et al.  The validity of the 12-item Bem Sex Role Inventory in older Spanish population: an examination of the androgyny model. , 2014, Archives of gerontology and geriatrics.

[26]  S. Klein,et al.  Sex-based biology and the rational design of influenza vaccination strategies. , 2014, The Journal of infectious diseases.

[27]  Mark M. Davis,et al.  Systems analysis of sex differences reveals an immunosuppressive role for testosterone in the response to influenza vaccination , 2013, Proceedings of the National Academy of Sciences.

[28]  Ricardo Oliveira Guerra,et al.  Gender Differences: Examination of the 12-Item Bem Sex Role Inventory (BSRI-12) in an Older Brazilian Population , 2013, PloS one.

[29]  R. Fillingim,et al.  Sex differences in pain: a brief review of clinical and experimental findings. , 2013, British journal of anaesthesia.

[30]  S. Klein,et al.  Mechanisms of sex disparities in influenza pathogenesis , 2012, Journal of leukocyte biology.

[31]  Mark I. Johnson,et al.  Gender role affects experimental pain responses: a systematic review with meta-analysis , 2011 .

[32]  M. Hoyt Gender role conflict and emotional approach coping in men with cancer , 2009, Psychology & health.

[33]  I. Cook Sex differences in injection site reactions with human vaccines , 2009, Human vaccines.

[34]  I. Cook Evidence based route of administration of vaccines , 2008, Human vaccines.

[35]  R. Straub,et al.  The complex role of estrogens in inflammation. , 2007, Endocrine reviews.

[36]  D. Pond,et al.  Definition of needle length required for intramuscular deltoid injection in elderly adults: an ultrasonographic study. , 2006, Vaccine.

[37]  M. Kaminishi,et al.  Gender differences in cytokine secretion by human peripheral blood mononuclear cells: role of estrogen in modulating LPS-induced cytokine secretion in an ex vivo septic model. , 2001, Shock.

[38]  M E Robinson,et al.  Gender role expectations of pain: relationship to sex differences in pain. , 2001, The journal of pain : official journal of the American Pain Society.

[39]  J. Charboneau,et al.  Determination of deltoid fat pad thickness. Implications for needle length in adult immunization. , 1997, JAMA.

[40]  S. Bem The measurement of psychological androgyny. , 1974, Journal of consulting and clinical psychology.

[41]  S. Klein,et al.  Sex-based differences in immune function and responses to vaccination. , 2015, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[42]  S. McArthur,et al.  Side effects from influenza vaccination: differences between returned and random surveys. , 1996, Military medicine.