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Is chronic stress in childhood abuse victims linked to structural brain changes?

Published online by Cambridge University Press:  30 July 2018

Shreya Asher*
Affiliation:
Barts and The London, School of Medicine and Dentistry, Garrod Building, Turner Street, Whitechapel, E12AD, London, UK
Vaishanjali Bhiman
Affiliation:
Barts and The London, School of Medicine and Dentistry, Garrod Building, Turner Street, Whitechapel, E12AD, London, UK
Nishma Gokani
Affiliation:
Barts and The London, School of Medicine and Dentistry, Garrod Building, Turner Street, Whitechapel, E12AD, London, UK
Kerrthana Jeyarayan
Affiliation:
Barts and The London, School of Medicine and Dentistry, Garrod Building, Turner Street, Whitechapel, E12AD, London, UK
Ravina Bhanot
Affiliation:
Barts and The London, School of Medicine and Dentistry, Garrod Building, Turner Street, Whitechapel, E12AD, London, UK
Archana Sasitharan
Affiliation:
Barts and The London, School of Medicine and Dentistry, Garrod Building, Turner Street, Whitechapel, E12AD, London, UK
*
Author for correspondence: Shreya Asher, E-mail: [email protected]
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Abstract

Type
Correspondence
Copyright
Copyright © Cambridge University Press 2018 

As medical students who recently completed our psychiatric and paediatric placements, we read Lim et al.’s (Reference Lim, Hart, Mehta, Worker, Simmons, Mirza and Rubia2017) study with avid interest. The study showed that youth exposed to abuse, compared with healthy controls, display certain structural brain changes that may underlie their psychopathology. This cohort was chosen for their lack of psychiatric comorbidities and previous drug and medication use. Specifically, changes were found in the parietal, temporal, occipital, cerebellar and orbitofrontal cortex–insular regions. The brain abnormalities observed were attributed to stress responses caused by chronic childhood maltreatment. Other studies have supported this hypothesis also by highlighting the changes in stress-susceptible brain areas in abuse groups (McCrory et al., Reference McCrory, De Brito and Viding2011; Hart and Rubia, Reference Hart and Rubia2012; Nemeroff, Reference Nemeroff2016).

Whilst the anatomical changes have been defined, the neurobiological mechanisms involved in childhood abuse are still unclear. The literature suggests that the levels and regulation of cortisol differ in youth exposed to chronic trauma v. those not. Prolonged hyperactivity of the hypothalamic–pituitary axis can lead to its adaptation and subsequent blunting of cortisol levels. It has been argued that this may contribute towards the brain's structural adaptation (Trickett et al., Reference Trickett, Noll, Susman, Shenk and Putnam2010). However, many studies which compared baseline cortisol levels between youth exposed to trauma and those not, found contradictory results. Three different studies showed inconclusive differences –positive, negative or none – in the concentration of cortisol between the two groups (Ciccheti and Rogosch, Reference Ciccheti and Rogosch2001; Pfeffer et al., Reference Pfeffer, Altemus, Heo and Jiang2007; Cicchetti et al., Reference Cicchetti, Rogosch, Gunnar and Toth2010). This could be due to the varying ages at the time of exposure to maltreatment, which has been shown to affect the molecular alterations in the prefrontal cortex, hippocampus, amygdala and the basolateral and central regions of the brain (Caldji et al., Reference Caldji, Diorio and Meaney2003; Kolb and Gibb, Reference Kolb and Gibb2014). In addition, these studies all followed different inclusion and exclusion criteria, which may act as confounders for cortisol levels.

The impact of childhood abuse on psychiatric wellbeing is substantial and has been demonstrated by numerous studies in the past (Currie and Spatz Widom, Reference Currie and Spatz Widom2010; Al Odhayani et al., Reference Al Odhayani, Watson and Watson2013). In 2017, 58 000 children in the UK required protection due to abuse. These numbers cannot be ignored and neither can our lack of understanding regarding causation. Due to the work of the studies mentioned thus far, we now have more solid evidence of the damage possible. Despite this, our understanding of the psychiatric implications remains far from optimal. It is imperative that we work to gain a greater understanding of the neurobiological mechanisms involved in victims of child abuse. This is the way forward for the development of more effective treatments and, more importantly, possible preventative interventions for such individuals. This can help stem the development of psychiatric illnesses in these patients or at the very least stop the progression to refractory disease.

Conflict of interest

None.

References

Al Odhayani, A, Watson, WJ and Watson, L (2013) Behavioural consequences of child abuse. Canadian Family Physician 59, 831836.Google Scholar
Caldji, C, Diorio, J and Meaney, M (2003) Variations in maternal care alter GABAA receptor subunit expression in brain regions associated with fear. Neuropsychopharmacology 28, 19501959.Google Scholar
Ciccheti, D and Rogosch, F (2001) Diverse patterns of neuroendocrine activity in maltreated children. Development and Psychopathology 13, 677693.Google Scholar
Cicchetti, D, Rogosch, F, Gunnar, M and Toth, S (2010) The differential impacts of early physical and sexual abuse and internalizing problems on daytime cortisol rhythm in school-aged children. Child Development 81, 252269.Google Scholar
Currie, J and Spatz Widom, C (2010) Long-term consequences of child abuse and neglect on adult economic well-being. Child Maltreatment 15, 111120.Google Scholar
Hart, H and Rubia, K (2012) Neuroimaging of child abuse: a critical review. Frontiers in Human Neuroscience 6, 52.Google Scholar
Kolb, B and Gibb, R (2014) Searching for the principles of brain plasticity and behavior. Cortex 58, 251260.Google Scholar
Lim, L, Hart, H, Mehta, M, Worker, A, Simmons, A, Mirza, K and Rubia, K (2017) Grey matter volume and thickness abnormalities in young people with a history of childhood abuse. Psychological Medicine 48, 10341046.Google Scholar
McCrory, E, De Brito, S and Viding, E (2011) The impact of childhood maltreatment: a review of neurobiological and genetic factors. Frontiers in Psychiatry 2.Google Scholar
Nemeroff, C (2016) Paradise lost: the neurobiological and clinical consequences of child abuse and neglect. Neuron 89, 892909.Google Scholar
Pfeffer, C, Altemus, M, Heo, M and Jiang, H (2007) Salivary cortisol and psychopathology in children bereaved by the September 11, 2001 terror attacks. Biological Psychiatry 61, 957965.Google Scholar
Trickett, P, Noll, J, Susman, E, Shenk, C and Putnam, F (2010) Attenuation of cortisol across development for victims of sexual abuse. Development and Psychopathology 22, 165.Google Scholar