Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-27T21:04:15.888Z Has data issue: false hasContentIssue false

Eyes, the window on psychosis?

Published online by Cambridge University Press:  10 February 2022

Natalie Shoham*
Affiliation:
Division of Psychiatry, University College London (UCL), UK; and Camden and Islington NHS Foundation Trust, St Pancras Hospital, London, UK
Claudia Cooper
Affiliation:
Division of Psychiatry, University College London (UCL), UK; and Camden and Islington NHS Foundation Trust, St Pancras Hospital, London, UK
*
Correspondence: Natalie Shoham. Email: [email protected]
Rights & Permissions [Opens in a new window]

Summary

Much has been written on the theory that congenital blindness might protect against schizophrenia, but proof remains elusive. It has been suggested that visual ability might be associated with schizophrenia in a bell-shaped distribution, with both lifelong absent and perfect vision being protective. Alternatively, ocular aberrations and schizophrenia may share an aetiology. Any neuronal pathology implicated in schizophrenia could affect the retina, since it is an embryological extension of the brain. The retina is more amenable to direct imaging than other parts of the central nervous system and may give unique insights into schizophrenia-associated neuropathology. It is also possible that psychosis causes visual impairment: people with psychotic illnesses are probably not accessing optical care optimally and have higher levels of risk factors for visual loss.

Type
Editorial
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of the Royal College of Psychiatrists

Cross-sectionally, there is an association between visual impairment and psychosis, in both younger and older adults.Reference Shoham, Eskinazi, Hayes, Lewis, Theodorsson and Cooper1 Longitudinal evidence, however, paints a mixed picture. A study of over 1 million male military conscripts in Sweden found that poorer visual acuity in adolescence increased the likelihood of a subsequent diagnosis of psychotic illness.Reference Hayes, Picot, Osborn, Lewis, Dalman and Lundin2 The association remained when siblings were used as controls to account for both genetic and environmental confounders.Reference Hayes, Picot, Osborn, Lewis, Dalman and Lundin2 A very similar study in Israel found the exact reverse: refractive error in adolescence was negatively associated with schizophrenia in the future.Reference Caspi, Vishne, Reichenberg, Weiser, Dishon and Lubin3 The Swedish study suggested that correcting vision using glasses or similar aids does not remove the association, although it may attenuate it.Reference Hayes, Picot, Osborn, Lewis, Dalman and Lundin2 The reversed findings between this and the Israeli study are difficult to explain. Of note, however, is that the Israeli study does not specify duration of follow-up or which cut-off was used to define refractive error, and reported an unusually low prevalence of refractive error, suggesting that the cut-off was stringent.Reference Caspi, Vishne, Reichenberg, Weiser, Dishon and Lubin3 Myopia is positively associated with educational level, but both studies adjusted for possible negative confounding by IQ or socioeconomic status.

The ‘protection against schizophrenia’ model

Since 1950, multiple authors have commented on a supposed absence of reported cases of a congenitally blind person developing schizophrenia.Reference Silverstein, Wang and Keane4 At the most extreme, some have claimed that there are ‘no blind schizophrenics’.Reference Sanders, Platek and Gallup5 The ‘protection against schizophrenia’ model suggests that there is a roughly bell-shaped relationship between level of vision and psychosis, with both perfect and congenitally absent vision being protective.Reference Landgraf and Osterheider6 This is not to suggest that vision itself is a risk factor; rather that aberrant visual input is, and absent vision prevents this.Reference Silverstein, Wang and Keane4 Silverstein and colleagues report in detail the potential mechanisms through which congenital blindness could be protective.Reference Silverstein, Wang and Keane4 For example, congenitally blind individuals have superior auditory processing abilities to sighted individuals, and better working memory to enable them to create mental representations of objects through sequential touch. These are the reverse of typical cognitive deficits seen in schizophrenia, so a buffering effect might be created whereby congenitally blind individuals are less susceptible.Reference Silverstein, Wang and Keane4 In individuals with severe vision loss, spontaneous activity of the visual cortex appears able to drive visual hallucinations.Reference Silverstein, Keane and Corlett7 This experience has not been reported in people with congenital blindness even when hallucinogenic drugs are taken, and it is posited that lack of stored visual representations or recruitment of the visual cortex for processing of alternative sensory information may prevent it.Reference Silverstein, Keane and Corlett7 Further, dark-rearing of animals has been shown to alter N-methyl-d-aspartate (NMDA) receptor structure and function.Reference Sanders, Platek and Gallup5 Sanders and colleagues present the hypothesis that NMDA receptor adaptations in the occipital cortex may extend to the anterior cingulate cortex, which is a functionally connected region and has a role in cognition and schizophrenia, leading to the protective effect.Reference Sanders, Platek and Gallup5 These theories are not specific to any one cause of congenital blindness.

Sceptics of the theory that congenital blindness protects against schizophrenia argue that to statistically prove a negative association between these two conditions, databases of many millions of participants would be required; and these have not so far been used to test the hypothesis.Reference Jefsen, Petersen, Bek and Østergaard8 Nevertheless, shared risk factors for the two conditions, such as birth trauma and chromosomal abnormalities, would seem to make the lack of case reports conspicuous.

A 2014 revisitation of the literature found possible reports of psychosis in congenitally blind individuals, challenging earlier assertions of their absence.Reference Leivada and Boeckx9 However, most of these examples did not appear to describe psychotic illness by modern diagnostic criteria, with one clearly describing autism instead.Reference Silverstein, Wang and Keane4 All individuals described had peripheral blindness (originating from the eye) as opposed to cortical blindness, leading the authors to conclude that it might be specifically congenital cortical blindness that is protective.Reference Leivada and Boeckx9

Impaired visual processing and shared brain–eye neuropathology

Visual processing is much broader than visual acuity. It includes lower-level functions, some of which occur at eye level, such as visual acuity; medium-level functions, such as visual perceptual organisation or ‘putting together’ of visual components; and higher-level functions, such as using existing knowledge to adapt visual perceptions.Reference Silverstein, Seitz, Ahmed, Thompson, Zemon and Gara10 An association between schizophrenia and visual processing impairment more broadly is well established.Reference Silverstein, Seitz, Ahmed, Thompson, Zemon and Gara10 In fact, a US trial of visual cognitive remediation therapy in schizophrenia is currently underway, to determine whether improving visual processing leads to gains in cognition and functioning more generally.Reference Silverstein, Seitz, Ahmed, Thompson, Zemon and Gara10 Studies investigating visual processing impairment tend to assume that any impairment occurs at the level of the cortex, but as the lower-level eyesight functions are essential to this ability, a contribution from visual acuity impairment is difficult to discount.

The association between visual impairment and psychosis might also be explained, at least in part, by shared neuropathology between the brain and the eye. The retina is formed from the same embryonic tissue as the brain and central nervous system. It is therefore potentially affected by alterations in expressions of neurotransmitters, neuronal loss or neurodevelopmental abnormalities in the same way. Retinal imaging studies using structural (optical coherence tomography, OCT) imaging show macular thinning in people with schizophrenia, as well as alterations in retinal vasculature.Reference Silverstein, Demmin, Schallek and Fradkin11 Studies using functional (electroretinogram, ERG) imaging in schizophrenia consistently show reduced b-wave amplitude, with the b-wave primarily reflecting depolarisation of retinal bipolar and amacrine cells.Reference Silverstein, Demmin, Schallek and Fradkin11 To what extent retinal alterations translate to reduced vision is not entirely clear.Reference Silverstein, Demmin, Schallek and Fradkin11 Speculation that retinal imaging might one day have prognostic or diagnostic utility in schizophrenia has not yet been realised. The information obtainable through these techniques is limited; they cannot show neuronal structures beyond the eye, or synaptic functioning. Nevertheless, retinal imaging has shown promise as a tool for prevention and early diagnosis in Alzheimer's disease, and retinal alterations might be a marker of neurodegeneration or neural damage in multiple sclerosis, Huntington's disease, Parkinson's disease and traumatic brain injury, with early work also showing changes in bipolar disorder and autism.Reference Silverstein, Demmin, Schallek and Fradkin11 Hébert and colleagues have found retinal functional alterations in non-affected offspring of people with schizophrenia and bipolar disorder, suggesting that these may be trait characteristics;Reference Hébert, Gagné, Paradis, Jomphe, Roy and Mérette12 whereas Balogh and colleagues found that the alterations were state-related and occurred only in the acute phase of the illness.Reference Balogh, Benedek and Kéri13

Psychosis as a risk factor for visual impairment

We have so far considered visual impairment as a possible risk factor for, or marker of, schizophrenia. The converse relationship, whereby psychotic illnesses lead to poorer vision, has been less well-studied. Schizophrenia could very plausibly lead to visual impairment. Potential mechanisms include side-effects of antipsychotic medications, which can cause blurred vision through anticholinergic side-effects, as well as increasing the risk of glaucoma and cataracts.Reference Richa and Yazbek14 Older medications, such as thioridazine, can directly lead to damaging retinal deposits.Reference Richa and Yazbek14 Common comorbidities of psychotic illnesses, such as diabetes and hypertension, also increase the risk of eyesight damage. Psychotic illness may make it harder for people to arrange eye tests and other optical care, since this typically relies on individual initiative and obtaining funds. In fact, evidence suggests that a very high proportion of in-patients with psychotic illnesses both have visual acuity impairments and have not attended for eyesight testing for several years.Reference Viertiö, Laitinen, Perälä, Saarni, Koskinen and Lönnqvist15 In the USA, eyesight testing is recommended every 1–2 years as part of the routine physical health check for people with psychotic illnesses. By contrast in the UK, routine screening in not recommended in guidelines and not typically carried out in clinical practice.

Conclusions

In this brief review, we have discussed three possible mechanisms which could explain the cross-sectional association between visual impairment and psychosis. Some researchers, notably Silverstein and colleagues, hope that improving visual processing has potential to improve overall functioning in people with schizophrenia. Theory regarding a protective effect of congenital blindness and causative effect of later-life visual impairment is described elegantly, but observational evidence is not yet conclusive. While we aim to further our understanding of the mechanisms by which visual impairment and psychosis associate, we should not forget the basics: how often do we ask our patients with schizophrenia when they last had their eyes tested?

Data availability

Data availability is not applicable to this article as no new data were created or analysed in its preparation.

Author contributions

N.S. drafted the article. Both authors edited the draft.

Funding

N.S. is funded by a National Institute for Health Research doctoral fellowship (NIHRDH-NIHR300703).

Declaration of interest

None.

References

Shoham, N, Eskinazi, M, Hayes, JF, Lewis, G, Theodorsson, M, Cooper, C. Associations between psychosis and visual acuity impairment: a systematic review and meta-analysis. Acta Psychiatr Scand 2021; 144: 627.CrossRefGoogle ScholarPubMed
Hayes, JF, Picot, S, Osborn, DPJ, Lewis, G, Dalman, C, Lundin, A. Visual acuity in late adolescence and future psychosis risk in a cohort of 1 million men. Schizophr Bull 2018; 45: 571–8.CrossRefGoogle Scholar
Caspi, A, Vishne, T, Reichenberg, A, Weiser, M, Dishon, A, Lubin, G, et al. Refractive errors and schizophrenia. Schizophr Res 2009; 107: 238–41.CrossRefGoogle Scholar
Silverstein, S, Wang, Y, Keane, BP. Cognitive and neuroplasticity mechanisms by which congenital or early blindness may confer a protective effect against schizophrenia. Front Psychol 2013; 3: 624.CrossRefGoogle ScholarPubMed
Sanders, GS, Platek, SM, Gallup, GG. No blind schizophrenics: are NMDA-receptor dynamics involved? Behav Brain Sci 2003; 26: 103–4.CrossRefGoogle Scholar
Landgraf, S, Osterheider, M. “To see or not to see: that is the question.” The “Protection-Against-Schizophrenia” (PaSZ) model: evidence from congenital blindness and visuo-cognitive aberrations. Front Psychol 2013; 4: 352.CrossRefGoogle ScholarPubMed
Silverstein, SM, Keane, BP, Corlett, PR. Oculomics in schizophrenia research. Schizophr Bull 2021; 47: 577–9.CrossRefGoogle ScholarPubMed
Jefsen, OH, Petersen, LV, Bek, T, Østergaard, SD. Is early blindness protective of psychosis or are we turning a blind eye to the lack of statistical power? Schizophr Bull 2020; 46: 1335–6.CrossRefGoogle ScholarPubMed
Leivada, E, Boeckx, C. Schizophrenia and cortical blindness: protective effects and implications for language. Front Hum Neurosci 2014; 8: 940.CrossRefGoogle ScholarPubMed
Silverstein, SM, Seitz, AR, Ahmed, AO, Thompson, JL, Zemon, V, Gara, M, et al. Development and evaluation of a visual remediation intervention for people with schizophrenia. J Psychiatr Brain Sci 2020; 5: e200017.Google ScholarPubMed
Silverstein, SM, Demmin, DL, Schallek, JB, Fradkin, SI. Measures of retinal structure and function as biomarkers in neurology and psychiatry. Biomarkers Neuropsychiatry 2020; 2: 100018.CrossRefGoogle Scholar
Hébert, M, Gagné, A-M, Paradis, M-E, Jomphe, V, Roy, M-A, Mérette, C, et al. Retinal response to light in young nonaffected offspring at high genetic risk of neuropsychiatric brain disorders. Biological Psychiatry 2010; 67: 270–4.CrossRefGoogle ScholarPubMed
Balogh, Z, Benedek, G, Kéri, S. Retinal dysfunctions in schizophrenia. Prog Neuropsychopharmacol Biol Psychiatry 2008; 32: 297300.CrossRefGoogle Scholar
Richa, S, Yazbek, JC. Ocular adverse effects of common psychotropic agents: a review. CNS Drugs 2010; 24: 501–26.CrossRefGoogle ScholarPubMed
Viertiö, S, Laitinen, A, Perälä, J, Saarni, SI, Koskinen, S, Lönnqvist, J, et al. Visual impairment in persons with psychotic disorder. Soc Psychiatry Psychiatr Epidemiol 2007; 42: 902–8.CrossRefGoogle ScholarPubMed
Submit a response

eLetters

No eLetters have been published for this article.