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Consistency matters: Consistency in the timing and quality of daily interactions between parents and adolescents predicts production of proinflammatory cytokines in youths

Published online by Cambridge University Press:  19 June 2017

Erika M. Manczak ,
Adam K. K. Leigh ,
Chia-Ping Chin  and
Edith Chen
Erika M. Manczak*
Affiliation:
Northwestern University
Adam K. K. Leigh
Affiliation:
Northwestern University
Chia-Ping Chin
Affiliation:
Northwestern University
Edith Chen
Affiliation:
Northwestern University
*
Address correspondence and reprint requests to: Erika M. Manczak, Department of Psychology, Northwestern University, Swift Hall Suite 102, 2029 Sheridan Road, Evanston, IL 60208-0001; E-mail: emanczak@u.northwestern.edu.
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Abstract

The current study examined whether consistency in day-to-day interactions between children and parents related to inflammatory cytokine production in youths. One hundred twenty-three parents recorded the daily quality of interactions and timing of leisure activities with their adolescent children for 2 weeks, and the degree of variability in those ratings was calculated. One year later, the production of proinflammatory cytokines in youths’ blood was measured in response to in vitro exposure to lipopolysaccharide (a bacterial product). The results indicate that greater variability in parent–child relationship quality related to greater stimulated proinflammatory cytokine production in youths, above and beyond overall relationship quality. Greater variability in the timing of parent–child leisure activities also predicted greater stimulated proinflammatory cytokine production in youths, regardless of the frequency of interactions. In sum, consistency in both the affective and temporal aspects of parent–child relationships may contribute to inflammatory processes in youth.

Type
Regular Articles
Information
Development and Psychopathology , Volume 30 , Issue 2 , May 2018 , pp. 373 - 382
Copyright
Copyright © Cambridge University Press 2017 

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Footnotes

Support was provided by Canadian Institutes of Health Research Grant 97872; National Heart, Lung, and Blood Institute Grant R01-HL10872; National Institute on Drug Abuse Grant P30-DA027827; and National Institute of Mental Health Grant F31-MH105092.

References

Belsky, J., Ruttle, P. L., Boyce, W. T., Armstrong, J. M., & Essex, M. J. (2015). Early adversity, elevated stress physiology, accelerated sexual maturation, and poor health in females. Developmental Psychology, 51, 816822.Google Scholar
Benson, M. J., Buehler, C., & Gerard, J. M. (2008). Interparental hostility and early adolescent problem behavior: Spillover via maternal acceptance, harshness, inconsistency, and intrusiveness. Journal of Early Adolescence, 28, 428454.Google Scholar
Bjorgvinsson, T., Kertz, S. J., Bigda-Peyton, J. S., McCoy, K. L., & Aderka, I. M. (2013). Psychometric properties of the CES-D-10 in a psychiatric sample. Assessment, 20, 429436.Google Scholar
Bowlby, J. (1982). Attachment and loss: Vol. 1. Attachment. New York: Basic Books.Google Scholar
Boyce, W. T., Jensen, E. W., & James, S. A. (1983). The family routines inventory: Theoretical origins. Social Science & Medicine, 17, 193200.Google Scholar
Bradley, K. L., McGrath, P. J., Brannen, C. L., & Bagnell, A. L. (2010). Adolescents’ attitudes and opinions about depression treatment. Community Mental Health Journal, 46, 242251.Google Scholar
Brody, G., Ge, X., Conger, R., Gibbons, F., Murry, V. M., Gerrard, M., & Simmons, R. L. (2001). The influence of neighborhood disadvantage, collective socialization, and parenting on African American children's affiliation with deviant peers. Child Development, 72, 12311246.Google Scholar
Danese, A., Pariante, C. M., Caspi, A., Taylor, A., & Poulton, R. (2007). Childhood maltreatment predicts adult inflammation in a life-course study. Proceedings of the National Academy of Sciences, 104, 13191324.Google Scholar
Dess, N. K., Linwick, D., & Patterson, J. (1983). Immediate and proactive effects of controllability and predictability on plasma cortisol responses to shocks in dogs. Behavioral Neuroscience, 97, 10051016.Google Scholar
Dickerson, S. S., & Kemeny, M. E. (2004). Acute stressors and cortisol responses: A theoretical integration and synthesis of laboratory research. Psychological Bulletin, 130, 355391.Google Scholar
Dickstein, S. (2002). Family routines and rituals—The importance of family functioning: Comment on the special section. Journal of Family Psychology, 16, 441444.Google Scholar
Doane, L. D., Mineka, S., Zinbarg, R. E., Craske, M., Griffith, J. W., & Adam, E. K. (2013). Are flatter diurnal cortisol rhythms associated with major depression and anxiety disorders in late adolescence? The role of life stress and daily negative emotion. Development and Psychopathology, 25, 629642.Google Scholar
Dowlati, Y., Herrmann, N., Swardfager, W., Liu, H., Sham, L., Reim, E. K., & Lanctôt, K. L. (2010). A meta-analysis of cytokines in major depression. Biological Psychiatry, 67, 446457.Google Scholar
Ehlers, C. L., Frank, E., & Kupfer, D. J. (1988). Social zeitgebers and biological rhythms. Archives of General Psychiatry, 45, 948952.Google Scholar
Evans, G. W., Gonnella, C., Marcynyszyn, L. A., Gentile, L., & Salpekar, N. (2005). The role of chaos in poverty and children's socioemotional adjustment. Psychological Science, 16, 560565.Google Scholar
Fan, X., Pristach, C., Liu, E. Y., Freudenreich, O., Henderson, D. C., & Goff, D. C. (2007). Elevated serum levels of C-reactive protein are associated with more severe psychopathology in a subgroup of patients with schizophrenia. Psychiatry Research, 149, 267271.Google Scholar
Felger, J. C., & Lotrich, F. E. (2013). Inflammatory cytokines in depression: Neurobiological mechanisms and therapeutic implications. Neuroscience, 246, 199229.Google Scholar
Felitti, V. J., Anda, R. F., Nordenberg, D., Williamson, D. F., Spitz, A., Edwards, V. J., … Marks, J. S. (1998). Relationship of childhood abuse and household dysfunction to many of the leading causes of death in adults. American Journal of Preventative Medicine, 14, 245258.Google Scholar
Fuligni, A. J., & Telzer, E. H. (2013). Another way family can get in the head and under the skin: The neurobiology of helping the family. Child Development Perspectives, 7, 138142.Google Scholar
Fuligni, A. J., Telzer, E. H., Bower, J., Irwin, M. R., Kiang, L., & Cole, S. W. (2009). Daily family assistance and inflammation among adolescents from Latin American and European backgrounds. Brain, Behavior, and Immunity, 23, 803809.Google Scholar
Halgunseth, L. C., Perkins, D. F., Lippold, M. A., & Nix, R. L. (2013). Delinquent-oriented attitudes mediate the relation between parental inconsistent discipline and early adolescent behavior. Journal of Family Psychology, 27, 293302.Google Scholar
Heikkilä, K., Harris, R., Lowe, G., Rumley, A., Yarnell, J., Gallacher, J., … Lawlor, D. A. (2008). Associations of circulating C-reactive protein and interleukin-6 with cancer risk: Findings from two prospective cohorts and a meta-analysis. Cancer Causes & Control, 20, 1526.Google Scholar
Hightower, E. (1990). Adolescent interpersonal and familial precursors of positive mental health at midlife. Journal of Youth and Adolescence, 19, 257275.Google Scholar
Hughes, C. H., & Ensor, R. A. (2009). How do families help or hinder the emergence of early executive function? New Directions for Child and Adolescent Development, 2009, 3550.Google Scholar
Johnson, J. G., Cohen, P., Kasen, S., Smailes, E., & Brook, J. (2001). Association of maladaptive parental behavior with psychiatric disorder among parents and their offspring. Archives of General Psychiatry, 58, 453460.Google Scholar
Kiecolt-Glaser, J., McGuire, L., Robles, T. F., & Glaser, R. (2002). Emotions, morbidity, and mortality: New perspectives from psychoneuroimmunology. Annual Review of Psychology, 53, 83107.Google Scholar
Low, C. A., Matthews, K., & Hall, M. (2013). Elevated CRP in adolescents: Roles of stress and coping. Psychosomatic Medicine, 75, 449452.Google Scholar
Mallinckrodt, B. (1992). Childhood emotional bonds with parents, development of adult social competencies, and availability of social support. Journal of Counseling Psychology, 39, 453461.Google Scholar
Manczak, E. M., DeLongis, A., & Chen, E. (2016). Does empathy have a cost? Diverging psychological and physiological effects within families. Health Psychology, 35, 211218.Google Scholar
Matheny, A. P., Wachs, T. D., Ludwig, J. L., & Phillips, K. (1995). Bringing order out of chaos: Psychometric characteristics of the confusion, hubbub, and order scale. Journal of Applied Developmental Psychology, 16, 429444.Google Scholar
Miller, G. E., Brody, G. H., Yu, T., & Chen, E. (2014). A family-oriented psychosocial intervention reduces inflammation in low-SES African American youth. Proceedings of the National Academy of Sciences, 111, 1128711292.Google Scholar
Miller, G. E., & Chen, E. (2010). Harsh family climate in early life presages the emergence of a proinflammatory phenotype in adolescence. Psychological Science, 21, 848856.Google Scholar
Miller, G. E., Chen, E., & Parker, K. J. (2011). Psychological stress in childhood and susceptibility to the chronic diseases of aging: Moving toward a model of behavioral and biological mechanisms. Psychological Bulletin, 137, 959997.Google Scholar
Repetti, R. L., Taylor, S. E., & Seeman, T. (2002). Risky families: Family social environments and mental and physical health of offspring. Psychological Bulletin, 128, 330366.Google Scholar
Ridker, P. M., Hennekens, C. H., Buring, J. E., & Rifai, N. (2000). C-reactive protein and other markers of inflammation in the prediction of cardiovascular disease in women. New England Journal of Medicine, 342, 836843.Google Scholar
Sapolsky, R. M. (1994). Individual differences and the stress response. Seminars in Neuroscience, 6, 261269.Google Scholar
Schreier, H. M. C., & Chen, E. (2010). Longitudinal relationships between family routines and biological profiles among youth with asthma. Health Psychology, 29, 8290.Google Scholar
Schreier, H. M. C., Roy, L. B., Frimer, L. T., & Chen, E. (2014). Family chaos and adolescent inflammatory profiles: The moderating role of socioeconomic status. Psychosomatic Medicine, 76, 460467.Google Scholar
Stetler, C. A., & Miller, G. E. (2007). Social integration of daily activities and cortisol secretion: A laboratory based manipulation. Journal of Behavioral Medicine, 31, 249257.Google Scholar
Tiggemann, M., & Winefield, A. H. (1987). Predictability and timing of self-report in learned helplessness experiments. Personality and Social Psychology Bulletin, 13, 253264.Google Scholar
Tighe, C. A., Dautovich, N. D., & McCrae, C. S. (2015). Daily social contact in relation to sleep: The role of age. Behavioral Sleep Medicine. Advance online publication.Google Scholar
Verhage, M., Schuengel, C., Madigan, S., Fearon, R. M. P., Oosterman, M., Cassibba, R., … van IJzendoorn, M. H. (2016). Narrowing the transmission gap: A synthesis of three decades of research on intergenerational transmission of attachment. Psychological Bulletin, 142, 337366.Google Scholar