Hostname: page-component-848d4c4894-75dct Total loading time: 0 Render date: 2024-05-31T15:21:59.229Z Has data issue: false hasContentIssue false
  • English
  • Français

Colorectal cancer treatment in people with severe mental illness: a systematic review and meta-analysis

Published online by Cambridge University Press:  17 November 2022

Melinda M. Protani ,
Meshary Khaled N. Alotiby ,
Rebecca Seth ,
David Lawrence ,
Susan J. Jordan ,
Hayley Logan ,
Bradley J. Kendall ,
Dan Siskind ,
Grant Sara Open the ORCID record for Grant Sara [Opens in a new window]  and
Steve Kisely Open the ORCID record for Steve Kisely [Opens in a new window]
Melinda M. Protani
Affiliation:
University of Queensland, School of Public Health, Brisbane, Australia
Meshary Khaled N. Alotiby
Affiliation:
University of Queensland, School of Public Health, Brisbane, Australia
Rebecca Seth
Affiliation:
Graduate School of Education, University of Western Australia, Perth, Australia
David Lawrence
Affiliation:
Graduate School of Education, University of Western Australia, Perth, Australia
Susan J. Jordan
Affiliation:
University of Queensland, School of Public Health, Brisbane, Australia Population Health Department, QIMR Berghofer Medical Research Institute, Brisbane, Australia
Hayley Logan
Affiliation:
University of Queensland, School of Clinical Medicine, Brisbane, Australia
Bradley J. Kendall
Affiliation:
University of Queensland, School of Clinical Medicine, Brisbane, Australia Department of Gastroenterology and Hepatology, Princess Alexandra Hospital, Brisbane, Australia
Dan Siskind
Affiliation:
University of Queensland, School of Clinical Medicine, Brisbane, Australia Metro South Addiction and Mental Health Service, Brisbane, Australia
Grant Sara
Affiliation:
InforMH, System Information and Analytics Branch, NSW Ministry of Health, Sydney, Australia Northern Clinical School, Faculty of Medicine and Health, University of Sydney, Sydney, Australia
Steve Kisely*
Affiliation:
University of Queensland, School of Clinical Medicine, Brisbane, Australia Metro South Addiction and Mental Health Service, Brisbane, Australia Departments of Psychiatry, Community Health and Epidemiology, Dalhousie University, Halifax, Canada
*
Author for correspondence: Steve Kisely, E-mail: s.kisely@uq.edu.au
Rights & Permissions [Opens in a new window]

Abstract

Aims

People with severe mental illness (SMI) have a greater risk of dying from colorectal cancer (CRC), even though the incidence is lower or similar to that of the general population This pattern is unlikely to be solely explained by lifestyle factors, while the role of differences in cancer healthcare access or treatment is uncertain

Methods

We undertook a systematic review and meta-analysis on access to guideline-appropriate care following CRC diagnosis in people with SMI including the receipt of surgery, chemo- or radiotherapy. We searched for full-text articles indexed by PubMed, EMBASE, PsychInfo and CINAHL that compared CRC treatment in those with and without pre-existing SMI (schizophrenia, schizoaffective, bipolar and major affective disorders). Designs included cohort or population-based case–control designs.

Results

There were ten studies (sample size = 3501–591 561). People with SMI had a reduced likelihood of surgery (RR = 0.90, 95% CI 0.92–0.97; p = 0.005; k = 4). Meta-analyses were not possible for the other outcomes but in results from individual studies, people with SMI were less likely to receive radiotherapy, chemotherapy or sphincter-sparing procedures. The disparity in care was greatest for those who had been psychiatric inpatients.

Conclusions

People with SMI, including both psychotic and affective disorders, receive less CRC care than the general population. This might contribute to higher case-fatality rates for an illness where the incidence is no higher than that of the general population. The reasons for this require further investigation, as does the extent to which differences in treatment access or quality contribute to excess CRC mortality in people with SMI.

Keywords

Cancer treatmentcolorectal cancersevere mental illnesstreatment disparities
Type
Original Article
Information
Epidemiology and Psychiatric Sciences , Volume 31 , 2022 , e82
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - ND
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0), which permits non-commercial re-use, distribution, and reproduction in any medium, provided that no alterations are made and the original article is properly cited. The written permission of Cambridge University Press must be obtained prior to any commercial use and/or adaptation of the article.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press

Introduction

Cancer is a leading cause of mortality in people with a range of mental illnesses including severe mental illness (SMI) (Lawrence et al., Reference Lawrence, Holman, Jablensky, Threlfall and Fuller2000; Kisely et al., Reference Kisely, Sadek, MacKenzie, Lawrence and Campbell2008, Reference Kisely, Crowe and Lawrence2013a, Reference Kisely, Forsyth and Lawrence2016; Lawrence et al., Reference Lawrence, Hancock and Kisely2013). For instance, they are 60% more likely to die from colorectal cancer (CRC) than the general population with CRC being second only to lung cancer as a cause of cancer death in this group (Kisely et al., Reference Kisely, Sadek, MacKenzie, Lawrence and Campbell2008). The disparity is greater for people with SMI such as schizophrenia, major depressive disorder and bipolar disorder (Kisely et al., Reference Kisely, Sadek, MacKenzie, Lawrence and Campbell2008, Reference Kisely, Crowe and Lawrence2013a). This is despite the incidence of CRC in people with mental illness being the same or even lower than that of the general population (Lawrence et al., Reference Lawrence, Holman, Jablensky, Threlfall and Fuller2000; Kisely et al., Reference Kisely, Sadek, MacKenzie, Lawrence and Campbell2008, Reference Kisely, Crowe and Lawrence2013a, Reference Kisely, Forsyth and Lawrence2016). It is unlikely that this pattern can solely be explained by lifestyle factors following diagnosis such as diet or alcohol use.

Differences in cancer healthcare access and treatment may be another factor mediating the relationship between SMI and the increased risk of CRC mortality (Grassi and Riba, Reference Grassi and Riba2021). A recent systematic review found that women with SMI were less likely to be screened for breast and cervical cancer, although data on CRC were more limited (Solmi et al., Reference Solmi, Firth, Miola, Fornaro, Frison, Fusar-Poli, Dragioti, Shin, Carvalho, Stubbs, Koyanagi, Kisely and Correll2020). An Australian study found that people with SMI had lower rates of screening in primary care for colorectal, prostate and cervical cancer after adjustment for age, gender and clinic visits (Tuesley et al., Reference Tuesley, Jordan, Siskind, Kendall and Kisely2019). Australia has a National Bowel Cancer Screening Programme and there is ongoing research into whether there are similar disparities in participation for people with SMI (Protani et al., Reference Protani, Jordan, Kendall, Siskind, Lawrence, Sara, Brophy and Kisely2021). Reduced access to screening may therefore be one explanation for the finding that people with pre-existing mental illness are more likely to have advanced cancer stage at diagnosis, particularly those with SMI (Davis et al., Reference Davis, Bogner, Coburn, Hanna, Kurdyak, Groome and Mahar2020).

There is less information on care following diagnosis and it is possible that another contributor to higher mortality is differential access to guideline appropriate treatment such as resection and adjuvant radio- or chemotherapy (Brown et al., Reference Brown, Solomon, Mahon and O'Shannassy2019; Grassi and Riba, Reference Grassi and Riba2021). We therefore undertook a systematic review of CRC treatment rates and modalities in those with and without SMI. A further aim was to assess if any differences in treatment between those with and without SMI were reflected in differences in subsequent mortality between the two groups.

Methods

Search strategy

This systematic review was registered with PROSPERO (ID CRD42021224360) and conducted according to PRISMA guidelines (Page et al., Reference Page, McKenzie, Bossuyt, Boutron, Hoffmann, Mulrow, Shamseer, Tetzlaff, Akl and Brennan2021) and recommendations for the reporting of meta-analyses of observational studies in epidemiology (Stroup et al., Reference Stroup, Berlin, Morton, Olkin, Williamson, Rennie, Moher, Becker, Sipe and Thacker2000). PubMed, EMBASE, PsychInfo and CINAHL were searched from inception to December 2021 to identify studies comparing CRC treatment in groups with and without pre-existing SMI. The search strategy included key terms for CRC, SMI and cancer treatments (surgical, systemic and radiation therapies) (see online Supplementary Table 1 for full list of search terms). There were no language restrictions. The reference lists of all eligible papers and related reviews were also scanned to identify any additional relevant studies.

Study selection

Studies were eligible for inclusion if they were cohort or population-based case–control studies of adults that reported original data on cancer treatment, stratified by pre-existing SMI status, in those with CRC. Studies that did not establish that the SMI diagnosis preceded the cancer diagnosis were excluded, as were those that did not include a representative comparison group of CRC patients without mental illness. Search results were imported into EndNote software, which was then used to eliminate duplicates. Articles were initially screened by title and abstract and then full text for their eligibility for inclusion in the review by pairs of reviewers working independently.

Data extraction and quality assessment

Data were extracted into an Excel spreadsheet and included study characteristics (country, sample size, age at diagnosis, years of cancer diagnosis, cancer type and staging), type and definition of psychiatric disorders, the cancer treatment of interest, effect estimates of the relationship between SMI and cancer treatment, and confounders adjusted for. Although some studies looked at predictors of subsequent mortality, none directly compared mortality in those with and without SMI as a result of any differences in treatment between the two groups. Study quality was assessed using the Newcastle–Ottawa Scale for cohort studies (Wells et al., Reference Wells, Shea, O'Connell, Peterson, Welch, Losos and Tugwell2011). Study selection, data extraction and quality assessment were independently conducted by three co-authors working in pairs with disagreements settled by consensus with or without the assistance of a fourth reviewer. Consensus was achieved in all cases.

Statistical analysis

Outcomes were the receipt of surgery, radio- or chemotherapy. Where data were available for three or more studies, they were combined in a meta-analysis using RevMan and Win-Pepi (Abramson, Reference Abramson2011). Odds ratios were converted to risk ratios (Zhang and Yu, Reference Zhang and Yu1998; Schünemann et al., Reference Schünemann, Vist, Higgins, Santesso, Deeks, Glasziou, Akl, Guyatt, Group, Higgins, Thomas, Chandler, Cumpston, Li, Page and Welch2019; ClinCalc.com). Where studies reported both crude and adjusted risk ratios, adjusted ratios were included in analysis. If there were at least 10 studies in a meta-analysis, we planned to assess for publication bias using funnel plots. We used an I2 statistic value of greater than 50% as an indicator of significant heterogeneity. We explored any heterogeneity further through sensitivity analyses of the effect of omitting each study in turn. A random effects model was used for all analyses because of variation in studies between settings and methods.

Results

The search identified 13 153 citations, of which nine met the criteria for inclusion. We also included re-analysed data from a further published study by two of the present review's authors (SK and DL) (Kisely et al., Reference Kisely, Crowe and Lawrence2013a). Although this had compared rates of colorectal surgery between those with any psychiatric disorder and the general population, separate data for schizophrenia/psychosis were available.

The three main reasons for exclusion were that studies did not examine treatment for CRC in people with SMI, did not evaluate the exposure (SMI) prior to cancer diagnosis, or did not report original outcome data (Fig. 1).

Fig. 1. Study selection process.

Notes: Exclusion criteria A: studies that did not examine treatment in SMI patients with colorectal/colon/rectal cancer. Exclusion criteria B: studies that did not examine SMI (schizophrenia/psychotic disorders/bipolar/major depression) that occurred prior to cancer diagnosis. Exclusion criteria C: studies which did not contain a comparison population (i.e. CRC patients without history of SMI). Exclusion criteria D: studies which contained a repeated analysis for the same outcome in a single population. Exclusion criteria E: Studies not reporting original data (e.g. reviews/text book chapters). Exclusion criteria F: Full text could not be retrieved/conference abstract contained insufficient information.

Characteristics of the ten studies are included in Table 1. These were all retrospective cohorts of patients diagnosed with CRC between 1988 and 2013 (colon = 1, rectal = 1; colorectal = 8). Three were conducted in the United States (Baillargeon et al., Reference Baillargeon, Kuo, Lin, Raji, Singh and Goodwin2011; Wieghard et al., Reference Wieghard, Hart, Herzig, Lu and Tsikitis2015; Ho et al., Reference Ho, Steinhagen, Angell, Navale, Schiltz, Reimer, Madigan and Koroukian2018), two in Canada (Kisely et al., Reference Kisely, Campbell and Cox2012; Mahar et al., Reference Mahar, Kurdyak, Hanna, Coburn and Groome2020), and one each from Australia (Kisely et al., Reference Kisely, Crowe and Lawrence2013a), Denmark (Kaerlev et al., Reference Kaerlev, Iachina, Trosko, Qvist, Ljungdalh and Nørgård2018), Finland (Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018), Taiwan (Huang et al., Reference Huang, Wang, Hsieh and Hsieh2018) and Japan (Ishikawa et al., Reference Ishikawa, Yasunaga, Matsui, Fushimi and Kawakami2016). The sample size ranged from 3501 to 591 561, with a median of 24 507. The median number of people with SMI was 1106 (range = 136–11 837).

Table 1. Characteristics of studies included in the systematic review (n = 10)

CRC, colorectal cancer; dx, diagnosis; NS, not stated; SMI, severe mental illness.

a Excludes substance use disorder.

Four studies reported cancer treatment by psychotic disorders and mood disorders separately, three looked at combined SMIs and three studies considered only schizophrenia (Table 1). Pre-existing SMI diagnoses were identified using databases from insurance records, hospital admissions or outpatient/psychiatrist visits. One study also used prescriptions of antipsychotic medication or selective serotonin/norepinephrine reuptake inhibitors (SSRI/SNRIs) as indicators of schizophrenia, schizoaffective, bipolar and major affective disorders (Kisely et al., Reference Kisely, Campbell and Cox2012).

Quality assessment revealed that all studies, except for one (Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018), reported adjusted estimates controlling for at least age and cancer stage (Table 2). Other important confounders adjusted for in most studies included sociodemographic factors (e.g., race/ethnicity, income, rurality), comorbidities and year of diagnosis. In the one study that did not give adjusted estimates for treatment access, largely because this was not the primary outcome, the authors presented raw numbers on the presence of metastases stratified by sex. Using these it was possible to calculate that there were no significant differences for either males or females in the proportion of people presenting with metastases in the psychosis, mood or control groups (Table 3). Two studies did not explicitly demonstrate that cancer treatment outcomes occurred after, rather than before, the psychiatric diagnosis (Wieghard et al., Reference Wieghard, Hart, Herzig, Lu and Tsikitis2015; Ho et al., Reference Ho, Steinhagen, Angell, Navale, Schiltz, Reimer, Madigan and Koroukian2018).

Table 2. Quality assessment of studies included in the systematic review using the Newcastle–Ottawa Scale

Notes: * indicates that the study met the criterion; N/S: not stated; †There were no significant differences between cases and controls in the presence of metastases at presentation.

Table 3. Presence of metastases on presentation from Manderbacka et al

Receipt of surgery

Table 4 presents results for the seven studies that examined surgical outcomes by SMI status. Outcomes including any operation, sphincter preserving or emergency surgery. Four studies compared the likelihood of any surgery in people with schizophrenia/psychosis to controls (Kisely et al., Reference Kisely, Campbell and Cox2012, Reference Kisely, Crowe and Lawrence2013a; Ishikawa et al., Reference Ishikawa, Yasunaga, Matsui, Fushimi and Kawakami2016; Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018), although in one study this was combined with endoscopy (Ishikawa et al., Reference Ishikawa, Yasunaga, Matsui, Fushimi and Kawakami2016). Two studies presented results for mood disorders (Kisely et al., Reference Kisely, Campbell and Cox2012; Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018). In almost all comparisons, people in either diagnostic group were significantly less likely to receive surgery (Table 4). The one exception was the study by Manderbacka et al. (Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018) that found non-significant results for females although they were still significant for males (Table 4). However, in the other study that also presented results by sex, there were no differences between males and females (Table 4) (Kisely et al., Reference Kisely, Crowe and Lawrence2013a). There was little difference between the two diagnostic groups given overlapping 95% confidence intervals (Table 4).

Table 4. Results of studies examining receipt of surgery for CRCs, by SMI type

dx, diagnosis.

a Restricted to stage I-III patients.

b Odds ratios were presented, rather than relative risks.

c Study included both gastric and CRC included (~50% CRC).

d Restricted to stage II/III patients.

We were only able to meta-analyse results for schizophrenia/psychotic disorders and this confirmed the findings from the majority of individual studies that people with SMI were less likely to receive any surgery (RR = 0.90; 95% CI 0.84–0.98; I 2 = 76%; p = 0.003) (Fig. 2). Omitting the study that combined colorectal surgery with endoscopy did not alter the findings (RR = 0.85; 95% CI 0.74–0.97; I 2 = 81%; p = 0.02).

Fig. 2. Receipt of surgery in people with schizophrenia/ psychotic disorders.

In terms of other surgical outcomes that could not be meta-analysed, people with either schizophrenia/psychotic or mood disorders were significantly less likely than people without SMI to receive sphincter preserving as opposed to non-sphincter preserving rectal surgery on adjusted analyses in one study (Table 4) (Wieghard et al., Reference Wieghard, Hart, Herzig, Lu and Tsikitis2015). In another study, people with all forms of SMI were also significantly more likely to require emergency colorectal surgery, even after adjustment for important confounders (RR = 1.25; 95% CI 1.04–1.50) (Ho et al., Reference Ho, Steinhagen, Angell, Navale, Schiltz, Reimer, Madigan and Koroukian2018).

A final study reported on the likelihood of not receiving CRC surgery in people with SMI who had an inpatient psychiatric history and those who had only been outpatients (Table 4). Only those with an inpatient history were less likely than non-psychiatric controls to have had surgery on adjusted analyses (RR = 2.15; 95% CI 1.07–4.33).

Receipt of adjuvant therapy

Four studies examined the receipt of adjuvant therapy such as chemo- and radiotherapy therapy, all but one presenting adjusted results (Table 5). However, in the latter case, there were no significant differences between cases and controls in the presence of metastases (Table 5). In two studies, the outcome was any adjuvant therapy (Kaerlev et al., Reference Kaerlev, Iachina, Trosko, Qvist, Ljungdalh and Nørgård2018; Mahar et al., Reference Mahar, Kurdyak, Hanna, Coburn and Groome2020), in another, the non-receipt of chemotherapy (Baillargeon et al., Reference Baillargeon, Kuo, Lin, Raji, Singh and Goodwin2011), and in the fourth, the receipt of chemotherapy and radiation therapy separately (Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018).

Table 5. Results of studies examining receipt of adjuvant therapies (chemotherapy and/or radiation therapy), by SMI type

SMI, severe mental illness; RR, relative risk; CI, confidence intervals; dx, diagnosis; SEER, Surveillance; Epidemiology and End Results database.

a Restricted to stage III patients.

b Odds ratios were presented, rather than relative risks.

c Restricted to stage II/III patients.

Three studies found that those with SMI were less likely to receive adjuvant therapies (Baillargeon et al., Reference Baillargeon, Kuo, Lin, Raji, Singh and Goodwin2011; Kaerlev et al., Reference Kaerlev, Iachina, Trosko, Qvist, Ljungdalh and Nørgård2018; Mahar et al., Reference Mahar, Kurdyak, Hanna, Coburn and Groome2020). One of the three studies stratified by SMI severity and reported that participants who had previously received inpatient psychiatric care were significantly less likely to receive adjuvant therapy (RR = 2.07; 95% CI 1.72–2.50) than those with SMI only receiving outpatient care (RR = 1.22; 95% CI 1.00–1.49) (Mahar et al., Reference Mahar, Kurdyak, Hanna, Coburn and Groome2020). However, in another that presented results separately by diagnostic group, the likelihood of not receiving chemotherapy was similar for people with psychotic illness (RR = 1.56; 95% CI 1.21–2.03) and mood disorders (RR = 1.27; 95% CI 1.10–1.46) as shown by overlapping 95% confidence intervals (Baillargeon et al., Reference Baillargeon, Kuo, Lin, Raji, Singh and Goodwin2011).

There were mixed findings in the fourth study which presented separate results for males and females. In the case of radiotherapy, both males and females with either psychotic illnesses or mood disorders had the same likelihood of treatment as the controls (Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018). This was also true for the receipt of chemotherapy in females. However, males were significantly less likely to receive this treatment irrespective of diagnostic group.

Other outcomes

A study from Taiwan examined CRC palliative care outcomes in patients with and without schizophrenia between 2000 and 2012 (Huang et al., Reference Huang, Wang, Hsieh and Hsieh2018). This included palliative care consultation services (OR = 0.59; 95% CI 0.43–0.82) and chemotherapy (OR = 0.60, 95% CI 0.55–0.66). By contrast, they were more likely to receive intensive care treatment (OR = 1.21, 95% CI 1.07–1.36) or invasive interventions, such as cardiopulmonary resuscitation (OR = 1.34, 95% CI 1.15–1.57) (Huang et al., Reference Huang, Wang, Hsieh and Hsieh2018). There were no significant differences in the use of hospice ward or home care (Huang et al., Reference Huang, Wang, Hsieh and Hsieh2018). As noted previously, there were no studies that assessed if any differences in treatment between those with and without SMI were reflected in differences in subsequent mortality between the two groups.

Non-receipt of any treatment

Two studies reported on the non-receipt of any CRC treatment in people with psychotic disorders or mood disorders (Baillargeon et al., Reference Baillargeon, Kuo, Lin, Raji, Singh and Goodwin2011; Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018). The first study reported an increased risk of non-receipt of treatment in people with psychotic illness (RR = 1.42; 95% CI 1.13–1.78) and mood disorders (RR = 1.28; 95% CI 1.08–1.52) compared to those without mental illness (Baillargeon et al., Reference Baillargeon, Kuo, Lin, Raji, Singh and Goodwin2011). This study adjusted for age, stage, race, ethnicity, sex, marital status, region, income, comorbidity, and year of diagnosis. The second study also observed an increased risk of non-receipt of treatment in those with psychotic illness, but inconsistent results for severe mood disorders (Manderbacka et al., Reference Manderbacka, Arffman, Lumme, Suvisaari, Keskimäki, Ahlgren-Rimpiläinen, Malila and Pukkala2018). Although unadjusted, these results were stratified by sex and there were no significant differences between cases and controls in the presence of metastases at presentation.

Heterogeneity and publication bias

The results for the receipt of surgery in SMI showed significant heterogeneity (Fig. 2). We therefore explored this by excluding each study in turn in every analysis. The omission of the unpublished re-analysed data that came from one of the studies (Kisely et al., Reference Kisely, Crowe and Lawrence2013a) resulted in an I2 of less than 50% (RR = 0.93; 95%CI 0.89–0.97; p = 0.0008; I 2 = 46%). We were unable to analyse for the effects of publication bias as none of the analyses had 10 or more studies.

Discussion

This systematic review identified a small number of studies (n = 10) examining CRC treatment in those with and without SMI. Despite significant inter-study heterogeneity, those with SMI appeared to be generally less likely to receive CRC treatment (any treatment, surgery or adjuvant therapy) compared to those without SMI. These differences persisted after adjustment for socio-demographic variables and cancer stage at presentation. The latter is an important potential covariate given that people with pre-existing mental illness are more likely to have advanced cancer stage at diagnosis.

These overall findings are consistent with studies examining treatment for other cancer sites such as breast and cervix. For instance, people with SMI were less likely to receive guideline recommended treatment for breast cancer (Mahabaleshwarkar et al., Reference Mahabaleshwarkar, Khanna, Banahan, West-Strum, Yang and Hallam2015) (Dalton et al., Reference Dalton, Suppli, Ewertz, Kroman, Grassi and Johansen2018) and encountered greater delays before initiation of therapy than those without SMI (Iglay et al., Reference Iglay, Santorelli, Hirshfield, Williams, Rhoads, Lin and Demissie2017; Haskins et al., Reference Haskins, McDowell, Carnahan, Fiedorowicz, Wallace, Smith and Chrischilles2019).

This mirrors findings for other chronic physical illness such as cardiovascular disease and diabetes in studies in people with SMI from the United States, Canada, Australia, and Great Britain (Druss et al., Reference Druss, Bradford, Rosenheck, Radford and Krumholz2001; Hippisley-Cox et al., Reference Hippisley-Cox, Parker, Coupland and Vinogradova2007; Kisely et al., Reference Kisely, Smith, Lawrence, Cox, Campbell and Maaten2007, Reference Kisely, Campbell and Wang2009; Kilbourne et al., Reference Kilbourne, Welsh, McCarthy, Post and Blow2008; Mitchell et al., Reference Mitchell, Malone and Doebbeling2009; Lawrence and Kisely, Reference Lawrence and Kisely2010). For instance, psychiatric patients are less likely to have their weight or blood pressure measured in primary care or be assessed or treated for hyperlipidaemia despite physician consultation rates being generally high in people with SMI (Jablensky et al., Reference Jablensky, McGrath, Herrman, Castle, Gureje, Evans, Carr, Morgan, Korten and Harvey2000; Hippisley-Cox et al., Reference Hippisley-Cox, Parker, Coupland and Vinogradova2007; Kilbourne et al., Reference Kilbourne, Welsh, McCarthy, Post and Blow2008). In secondary care, psychiatric patients are less likely to receive specialist procedures such as cardiac catheterisations and coronary artery bypass grafting than the general population, even though their mortality rates for the same conditions are significantly higher (Kisely et al., Reference Kisely, Smith, Lawrence, Cox, Campbell and Maaten2007, Reference Kisely, Campbell and Wang2009). On discharge from hospital following myocardial infarction, they are also less likely to be prescribed beta-blockers and statins (Kisely et al., Reference Kisely, Campbell and Wang2009).

In terms of variations within the SMI group, males were significantly less likely to receive chemo- or radiotherapy than the general population while rates for females were no different. Although not the focus of the present study, there were mixed findings on sex as a predictor of CRC treatment in overall study samples. For instance, females were less likely to require emergency resection but more likely to have sphincter-sparing surgery in adjusted analyses from two studies (Wieghard et al., Reference Wieghard, Hart, Herzig, Lu and Tsikitis2015; Ho et al., Reference Ho, Steinhagen, Angell, Navale, Schiltz, Reimer, Madigan and Koroukian2018). By contrast, there were no differences between males and females in the overall receipt of surgery ± endoscopy in two further studies (Kisely et al., Reference Kisely, Crowe and Lawrence2013a; Ishikawa et al., Reference Ishikawa, Yasunaga, Matsui, Fushimi and Kawakami2016). The reasons for these conflicting results are unclear but are reflected elsewhere. On one hand, a care pathways study in Great Britain found that while CRC incidence was higher in males, subsequent access to services was generally the same for both sexes (White et al., Reference White, Ironmonger, Steele, Ormiston-Smith, Crawford and Seims2018). On the other hand, qualitative work found that males and females with CRC had different treatment experiences (Brewer et al., Reference Brewer, Peacock, Ferrans, Campbell, Polite, Carnahan, Jones and Rauscher2020). We did not find larger disparities in participants with psychotic illnesses compared with severe mood disorders although those who had previously received inpatient psychiatric care were significantly less likely to receive adjuvant therapy than people with SMI only receiving outpatient care (Mahar et al., Reference Mahar, Kurdyak, Hanna, Coburn and Groome2020).

Possible mechanisms

There are several possible explanations as to why people with SMI who are diagnosed with CRC are less likely to receive guideline recommended cancer treatment. Firstly, those with SMI are more likely to have higher comorbidity burdens (e.g., cardiovascular disease, chronic obstructive pulmonary disease, obesity, diabetes) compared to those without SMI (Viron and Stern, Reference Viron and Stern2010; Janssen et al., Reference Janssen, McGinty, Azrin, Juliano-Bult and Daumit2015; Onyeka et al., Reference Onyeka, Collier Høegh, Nåheim Eien, Nwaru and Melle2019). This may influence clinician/patient decision making around the provision of treatment such as chemotherapy (Gross et al., Reference Gross, McAvay, Guo and Tinetti2007; Boakye et al., Reference Boakye, Jansen, Halama, Chang-Claude, Hoffmeister and Brenner2021). However, most studies in this review adjusted for differences in comorbidities and still identified treatment disparities, so this is unlikely to be the primary mediating factor. Clinical decisions on chemotherapy may also be influenced by concerns over potential interactions between particular anti-neoplastic agents and some psychotropic medications such as clozapine (Yap et al., Reference Yap, Tay, Chui and Chan2011). Another mechanism for reduced surgery could be the perception of poor post-operative outcomes in those with SMI (Irwin et al., Reference Irwin, Henderson, Knight and Pirl2014; McBride et al., Reference McBride, Solomon, Young, Steffens, Lambert, Glozier and Bannon2018). For instance, people with schizophrenia have higher rates of complications and mortality following surgery. These include respiratory failure, sepsis, deep venous thrombosis, pulmonary embolism, paralytic ileus, stroke, and delirium (Irwin et al., Reference Irwin, Henderson, Knight and Pirl2014).

Other explanations for our findings could include health service access and/or patient treatment adherence. For instance, three of the studies were from the United States where people with mental illness may face barriers to private health cover. It is also possible that people with SMI are treated differently by medical professional with negative attitudes or stigma leading to disparities in care (Thornicroft, Reference Thornicroft2008; Ostrow et al., Reference Ostrow, Manderscheid and Mojtabai2014). Finally, ‘overshadowing’ may contribute to delays in diagnosis or treatment (Jopp and Keys, Reference Jopp and Keys2001; Giddings, Reference Giddings2013; Jones et al., Reference Jones, Howard and Thornicroft2008). This is the tendency to regard somatic symptoms such as decreases in energy, appetite or weight as being due to an underlying psychiatric disorder (Giddings, Reference Giddings2013), or that the presence of psychiatric co-morbidity adversely affects the quality of care (Jopp and Keys, Reference Jopp and Keys2001). This might include an unwillingness to address possible barriers to appropriate treatment.

Limitations

There are several limitations to these findings. Firstly, there was a large variation in the definitions of SMI and the reference categories used. While all studies used medically diagnosed SMI from hospital/insurance records, definitions included any psychotic illness, only schizophrenia, the prescription of anti-psychotic medication, any mood disorder, severe mood disorder and any SMI. In addition, the reference categories ranged from the absence of SMI to that of any mental disorder, making direct comparisons between studies difficult. Most studies also did not incorporate markers of severity within their definition of psychiatric illness. In the one that did, people with SMI who were treated as inpatients were more likely to have greater treatment disparities than those managed as outpatients (Mahar et al., Reference Mahar, Kurdyak, Hanna, Coburn and Groome2020).

From an oncology perspective, the majority of studies used simple binary measures of receipt/non-receipt of CRC treatment. However, there are several other indicators of the quality of cancer care that have, thus far, received limited attention in those with SMI and cancer. Outcomes such as lower chemotherapy relative dose intensity (which considers both chemotherapy dose reductions and delays between cycles), early cessation of chemotherapy/radiation and longer time between diagnosis and initiation of cancer treatment have all been shown to be associated with poorer long-term outcomes such as increased recurrence and poorer cancer survival (Lyman, Reference Lyman2009; Cone et al., Reference Cone, Marchese, Paciotti, Nguyen, Nabi, Cole, Molina, Molina, Minami and Mucci2020). There was also no standard definition of guideline-appropriate CRC care.

None of the included studies examined the reasons for the differences in treatment rates in those with and without SMI. We are, therefore, presently unable to distinguish whether treatment disparities are due to lack of patient adherence (being offered treatment with subsequent refusal) or inequitable access to treatment (not being offered/having access to relevant treatment options). Identifying the cause of treatment disparities will help to determine the best avenues for intervention, e.g., clinician-based education, enhanced multidisciplinary team meetings or better patient support and education around the processes and benefits of cancer treatment. In addition, more information is required about the effect of treatment disparities on subsequent outcomes such as mortality.

Other limitations to this research are that we only undertook backward citation searching in retrieved articles and did not search forwards. We also did not calculate agreement between reviewers on the inclusion of studies but resolved any disagreements through consensus with the assistance of a third author if required. We were only able to meta-analyse the results for one outcome, the receipt of surgery. Despite being statistically significant, the likelihood of surgery was reduced by less than 10%. The results also showed heterogeneity. Although we used a random effects model to incorporate heterogeneity into our analyses and the I2 value was no longer significant with the removal of one study, our findings should still be viewed with caution. We were also unable to test for publication bias.

Possible interventions

In terms of possible interventions, a small study from Japan reported that case management including education and patient navigation for CRC screening in people with schizophrenia resulted in greater participation than treatment as usual (Fujiwara et al., Reference Fujiwara, Yamada, Shimazu, Kodama, So, Matsushita, Yoshimura, Horii, Fujimori, Takahashi, Nakaya, Kakeda, Miyaji, Hinotsu, Harada, Okada, Uchitomi, Yamada and Inagaki2021). This approach might also be applied to CRC treatment following diagnosis, including the use of navigators, possibly in combination with collaborative care between general practitioners, oncology and mental health services (Irwin et al., Reference Irwin, Henderson, Knight and Pirl2014). One particular focus might be people with SMI who have been lost to psychiatric follow-up. As an example, re-engagement in psychiatric care was associated with a six-fold reduction in mortality, including that due to cancer (Bowersox et al., Reference Bowersox, Kilbourne, Abraham, Reck, Lai, Bohnert, Goodrich and Davis2012; Irwin et al., Reference Irwin, Henderson, Knight and Pirl2014). In another, improved community or outpatient follow-up by mental health teams led to reductions in all-cause mortality, the vast majority of which was due to medical illness (Kisely et al., Reference Kisely, Preston, Xiao, Lawrence, Louise and Crowe2013b). These interventions should be combined with efforts to address stigma, patient factors (e.g., lack of trust), clinician factors (e.g., inadequate training), and healthcare fragmentation (e.g., between psychiatry and oncology) (Grassi and Riba, Reference Grassi and Riba2021). Further research is indicated into where along the CRC care pathway, from screening to end of life care, barriers to intervention occur and the reasons for these (Protani et al., Reference Protani, Jordan, Kendall, Siskind, Lawrence, Sara, Brophy and Kisely2021). In particular, people with experience of SMI and CRC, or their carers, should be asked about their experience of barriers and enablers to treatment (Protani et al., Reference Protani, Jordan, Kendall, Siskind, Lawrence, Sara, Brophy and Kisely2021).

Conclusion

In conclusion, this review identified a small number of studies on the receipt of CRC treatment in those with and without SMI. There was consistent evidence that those with SMI received less CRC treatment than those without SMI, and that the disparity may be greater in those who have required inpatient treatment. Despite this, there is limited understanding as to why those with SMI experience CRC treatment disparities, and to what extent these treatment differences may mediate the excess CRC mortality observed in those with SMI.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S2045796022000634.

Data

Data supporting the findings are available from the corresponding author.

Financial support

This work was supported by Cancer Australia: grant number APP1157870. DS was funded in part by an NHMRC Early Career Fellowship: GNT11111136.

Conflicts of interest

None declared.

References

Abramson, JH (2011) WINPEPI updated: computer programs for epidemiologists, and their teaching potential. Epidemiologic Perspectives & Innovations 8, 1.CrossRefGoogle ScholarPubMed
Baillargeon, J, Kuo, YF, Lin, YL, Raji, MA, Singh, A and Goodwin, JS (2011) Effect of mental disorders on diagnosis, treatment, and survival of older adults with colon cancer. Journal of the American Geriatrics Society 59, 12681273.CrossRefGoogle ScholarPubMed
Boakye, D, Jansen, L, Halama, N, Chang-Claude, J, Hoffmeister, M and Brenner, H (2021) Early discontinuation and dose reduction of adjuvant chemotherapy in stage III colon cancer patients. Therapeutic Advances in Medical Oncology 13, 17588359211006348.Google ScholarPubMed
Bowersox, NW, Kilbourne, AM, Abraham, KM, Reck, BH, Lai, Z, Bohnert, AS, Goodrich, DE and Davis, CL (2012) Cause-specific mortality among veterans with serious mental illness lost to followup. General Hospital Psychiatry 34, 651653.CrossRefGoogle Scholar
Brewer, KC, Peacock, NR, Ferrans, CE, Campbell, RT, Polite, B, Carnahan, L, Jones, LA and Rauscher, GH (2020) Gender-and race-based differences in barriers and facilitators to early detection of colon cancer. Journal of Women's Health 29, 11921202.CrossRefGoogle ScholarPubMed
Brown, KG, Solomon, MJ, Mahon, K and O'Shannassy, S (2019) Management of colorectal cancer. Bmj 366(I4561). doi:10.1136/bmj.I4561Google ScholarPubMed
ClinCalc.com. Odds Ratio to Risk Ratio. Available at https://clincalc.com/Stats/ConvertOR.aspx (Accessed February 14).Google Scholar
Cone, EB, Marchese, M, Paciotti, M, Nguyen, D-D, Nabi, J, Cole, AP, Molina, G, Molina, RL, Minami, CA and Mucci, LA (2020) Assessment of time-to-treatment initiation and survival in a cohort of patients with common cancers. JAMA Network Open 3, e2030072e2030072.CrossRefGoogle Scholar
Dalton, SO, Suppli, NP, Ewertz, M, Kroman, N, Grassi, L and Johansen, C (2018) Impact of schizophrenia and related disorders on mortality from breast cancer: a population-based cohort study in Denmark, 1995–2011. The Breast 40, 170176.CrossRefGoogle Scholar
Davis, LE, Bogner, E, Coburn, NG, Hanna, TP, Kurdyak, P, Groome, PA and Mahar, AL (2020) Stage at diagnosis and survival in patients with cancer and a pre-existing mental illness: a meta-analysis. Journal of Epidemiology & Community Health 74, 8494.CrossRefGoogle Scholar
Druss, BG, Bradford, WD, Rosenheck, RA, Radford, MJ and Krumholz, HM (2001) Quality of medical care and excess mortality in older patients with mental disorders. Archives of General Psychiatry 58, 565572.CrossRefGoogle ScholarPubMed
Fujiwara, M, Yamada, Y, Shimazu, T, Kodama, M, So, R, Matsushita, T, Yoshimura, Y, Horii, S, Fujimori, M, Takahashi, H, Nakaya, N, Kakeda, K, Miyaji, T, Hinotsu, S, Harada, K, Okada, H, Uchitomi, Y, Yamada, N and Inagaki, M (2021) Encouraging participation in colorectal cancer screening for people with schizophrenia: a randomized controlled trial. Acta Psychiatrica Scandinavica 144, 318328.CrossRefGoogle ScholarPubMed
Giddings, G (2013) Sense and sensitivity. Canadian Medical Association Journal 185, 1555.CrossRefGoogle ScholarPubMed
Grassi, L and Riba, MB (2021) Disparities and inequalities in cancer care and outcomes in patients with severe mental illness: call to action. Psycho-Oncology 30, 19972001.CrossRefGoogle ScholarPubMed
Gross, CP, McAvay, GJ, Guo, Z and Tinetti, ME (2007) The impact of chronic illnesses on the use and effectiveness of adjuvant chemotherapy for colon cancer. Cancer 109, 24102419.CrossRefGoogle ScholarPubMed
Haskins, CB, McDowell, BD, Carnahan, RM, Fiedorowicz, JG, Wallace, RB, Smith, BJ and Chrischilles, EA (2019) Impact of preexisting mental illness on breast cancer endocrine therapy adherence. Breast Cancer Research and Treatment 174, 197208.CrossRefGoogle ScholarPubMed
Hippisley-Cox, J, Parker, C, Coupland, C and Vinogradova, Y (2007) Inequalities in the primary care of patients with coronary heart disease and serious mental health problems: a cross-sectional study. Heart 93, 12561262.CrossRefGoogle ScholarPubMed
Ho, VP, Steinhagen, E, Angell, K, Navale, SM, Schiltz, NK, Reimer, AP, Madigan, EA and Koroukian, SM (2018) Psychiatric disease in surgically treated colorectal cancer patients. Journal of Surgical Research 223, 815.CrossRefGoogle ScholarPubMed
Huang, H-K, Wang, Y-W, Hsieh, J-G and Hsieh, C-J (2018) Disparity of end-of-life care in cancer patients with and without schizophrenia: a nationwide population-based cohort study. Schizophrenia research 195, 434440.CrossRefGoogle ScholarPubMed
Iglay, K, Santorelli, ML, Hirshfield, KM, Williams, JM, Rhoads, GG, Lin, Y and Demissie, K (2017) Diagnosis and treatment delays among elderly breast cancer patients with pre-existing mental illness. Breast Cancer Research and Treatment 166, 267275.CrossRefGoogle ScholarPubMed
Irwin, KE, Henderson, DC, Knight, HP and Pirl, WF (2014) Cancer care for individuals with schizophrenia. Cancer 120, 323334.CrossRefGoogle ScholarPubMed
Ishikawa, H, Yasunaga, H, Matsui, H, Fushimi, K and Kawakami, N (2016) Differences in cancer stage, treatment and in-hospital mortality between patients with and without schizophrenia: retrospective matched-pair cohort study. The British Journal of Psychiatry 208, 239244.CrossRefGoogle ScholarPubMed
Jablensky, A, McGrath, J, Herrman, H, Castle, D, Gureje, O, Evans, M, Carr, V, Morgan, V, Korten, A and Harvey, C (2000) Psychotic disorders in urban areas: an overview of the study on low prevalence disorders. Australian & New Zealand Journal of Psychiatry 34, 221236.CrossRefGoogle Scholar
Janssen, EM, McGinty, EE, Azrin, ST, Juliano-Bult, D and Daumit, GL (2015) Review of the evidence: prevalence of medical conditions in the United States population with serious mental illness. General Hospital Psychiatry 37, 199222.CrossRefGoogle ScholarPubMed
Jones, S, Howard, LM and Thornicroft, G (2008) Diagnostic overshadowing: worse physical health care for people with mental illness. Acta Psychiatrica Scandinavica 118, 169171.CrossRefGoogle ScholarPubMed
Jopp, DA and Keys, CB (2001) Diagnostic overshadowing reviewed and reconsidered. American Journal on Mental Retardation 106, 416433.2.0.CO;2>CrossRefGoogle ScholarPubMed
Kaerlev, L, Iachina, M, Trosko, O, Qvist, N, Ljungdalh, PM and Nørgård, BM (2018) Colon cancer patients with a serious psychiatric disorder present with a more advanced cancer stage and receive less adjuvant chemotherapy – A nationwide Danish cohort study. BMC Cancer 18, 1050.CrossRefGoogle ScholarPubMed
Kilbourne, AM, Welsh, D, McCarthy, JF, Post, EP and Blow, FC (2008) Quality of care for cardiovascular disease-related conditions in patients with and without mental disorders. Journal of General Internal Medicine 23, 16281633.CrossRefGoogle ScholarPubMed
Kisely, S, Smith, M, Lawrence, D, Cox, M, Campbell, LA and Maaten, S (2007) Inequitable access for mentally ill patients to some medically necessary procedures. Canadian Medical Association Journal 176, 779784.CrossRefGoogle ScholarPubMed
Kisely, S, Sadek, J, MacKenzie, A, Lawrence, D and Campbell, LA (2008) Excess cancer mortality in psychiatric patients. Canadian Journal of Psychiatry 53, 753761.CrossRefGoogle ScholarPubMed
Kisely, S, Campbell, LA and Wang, Y (2009) Treatment of ischaemic heart disease and stroke in individuals with psychosis under universal healthcare. British Journal of Psychiatry 195, 545550.CrossRefGoogle ScholarPubMed
Kisely, S, Campbell, LA and Cox, M (2012) The effect of study design on the reporting of mortality due to colorectal cancer in adults with mental illness in Nova Scotia. Canadian Journal of Psychiatry 57, 389394.CrossRefGoogle ScholarPubMed
Kisely, S, Crowe, E and Lawrence, D (2013 a) Cancer-related mortality in people with mental illness. JAMA Psychiatry 70, 209217.CrossRefGoogle ScholarPubMed
Kisely, S, Preston, N, Xiao, J, Lawrence, D, Louise, S and Crowe, E (2013 b) Reducing all-cause mortality among patients with psychiatric disorders: a population-based study. Canadian Medical Association Journal 185, E50E56.CrossRefGoogle ScholarPubMed
Kisely, S, Forsyth, S and Lawrence, D (2016) Why do psychiatric patients have higher cancer mortality rates when cancer incidence is the same or lower? Australian & New Zealand Journal of Psychiatry 50, 254263.CrossRefGoogle ScholarPubMed
Lawrence, D and Kisely, S (2010) Inequalities in healthcare provision for people with severe mental illness. Journal of Psychopharmacology 24, 6168.CrossRefGoogle ScholarPubMed
Lawrence, D, Holman, CD, Jablensky, AV, Threlfall, TJ and Fuller, SA (2000) Excess cancer mortality in Western Australian psychiatric patients due to higher case fatality rates. Acta Psychiatrica Scandinavica 101, 382388.CrossRefGoogle ScholarPubMed
Lawrence, D, Hancock, KJ and Kisely, S (2013) The gap in life expectancy from preventable physical illness in psychiatric patients in Western Australia: retrospective analysis of population based registers. British Medical Journal 346, f2539.CrossRefGoogle ScholarPubMed
Lyman, GH (2009) Impact of chemotherapy dose intensity on cancer patient outcomes. Journal of the National Comprehensive Cancer Network 7, 99108.CrossRefGoogle ScholarPubMed
Mahabaleshwarkar, R, Khanna, R, Banahan, B, West-Strum, D, Yang, Y and Hallam, JS (2015) Impact of preexisting mental illnesses on receipt of guideline-consistent breast cancer treatment and health care utilization. Population Health Management 18, 449458.CrossRefGoogle ScholarPubMed
Mahar, AL, Kurdyak, P, Hanna, TP, Coburn, NG and Groome, PA (2020) The effect of a severe psychiatric illness on colorectal cancer treatment and survival: a population-based retrospective cohort study. PLoS ONE 15, e0235409.CrossRefGoogle ScholarPubMed
Manderbacka, K, Arffman, M, Lumme, S, Suvisaari, J, Keskimäki, I, Ahlgren-Rimpiläinen, A, Malila, N and Pukkala, E (2018) The effect of history of severe mental illness on mortality in colorectal cancer cases: a register-based cohort study. Acta Oncologica 57, 759764.CrossRefGoogle ScholarPubMed
McBride, KE, Solomon, MJ, Young, JM, Steffens, D, Lambert, TJ, Glozier, N and Bannon, PG (2018) Impact of serious mental illness on surgical patient outcomes. Australian & New Zealand Journal of Surgery 88, 673677.CrossRefGoogle Scholar
Mitchell, AJ, Malone, D and Doebbeling, CC (2009) Quality of medical care for people with and without comorbid mental illness and substance misuse: systematic review of comparative studies. British Journal of Psychiatry 194, 491499.CrossRefGoogle ScholarPubMed
Onyeka, IN, Collier Høegh, M, Nåheim Eien, EM, CandMag, Nwaru, BI and Melle, I (2019) Comorbidity of physical disorders among patients with severe mental illness with and without substance use disorders: a systematic review and meta-analysis. Journal of Dual Diagnosis 15, 192206.CrossRefGoogle Scholar
Ostrow, L, Manderscheid, R and Mojtabai, R (2014) Stigma and difficulty accessing medical care in a sample of adults with serious mental illness. Journal of Health Care for the Poor and Underserved 25, 19561965.CrossRefGoogle Scholar
Page, MJ, McKenzie, JE, Bossuyt, PM, Boutron, I, Hoffmann, TC, Mulrow, CD, Shamseer, L, Tetzlaff, JM, Akl, EA and Brennan, SE (2021) The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. British Medical Journal 372(n71). doi:10.1136/bmj.n71Google ScholarPubMed
Protani, MM, Jordan, SJ, Kendall, BJ, Siskind, D, Lawrence, D, Sara, G, Brophy, L and Kisely, S (2021) Colorectal cancer outcomes in people with severe mental illness cohort (COSMIC): a protocol for an Australian retrospective cohort using linked administrative data. BMJ Open 11, e044737.CrossRefGoogle ScholarPubMed
Schünemann, HJ, Vist, GE, Higgins, JP, Santesso, N, Deeks, JJ, Glasziou, P, Akl, EA, Guyatt, GH and Group, CGM (2019) Interpreting results and drawing conclusions. In Higgins, JP, Thomas, J, Chandler, J, Cumpston, M, Li, T, Page, MJ and Welch, VA (eds), Cochrane Handbook for Systematic Reviews of Interventions. Wiley Online Library, pp. 403431. https://doi-org.ezproxy.library.uq.edu.au/10.1002/9781119536604.ch15.CrossRefGoogle Scholar
Solmi, M, Firth, J, Miola, A, Fornaro, M, Frison, E, Fusar-Poli, P, Dragioti, E, Shin, JI, Carvalho, AF, Stubbs, B, Koyanagi, A, Kisely, S and Correll, CU (2020) Disparities in cancer screening in people with mental illness across the world versus the general population: prevalence and comparative meta-analysis including 4 717 839 people. The Lancet. Psychiatry 7, 5263.CrossRefGoogle ScholarPubMed
Stroup, DF, Berlin, JA, Morton, SC, Olkin, I, Williamson, GD, Rennie, D, Moher, D, Becker, BJ, Sipe, TA and Thacker, SB and Group ftM-aOOSiE (2000) Meta-analysis of observational studies in Epidemiology: a proposal for reporting. JAMA 283, 20082012.CrossRefGoogle Scholar
Thornicroft, G (2008) Stigma and discrimination limit access to mental health care. Epidemiologia e Psichiatria Sociale 17, 1419.CrossRefGoogle ScholarPubMed
Tuesley, KM, Jordan, SJ, Siskind, DJ, Kendall, BJ and Kisely, S (2019) Colorectal, cervical and prostate cancer screening in Australians with severe mental illness: retrospective nation-wide cohort study. Australian & New Zealand Journal of Psychiatry 53, 550558.CrossRefGoogle ScholarPubMed
Viron, MJ and Stern, TA (2010) The impact of serious mental illness on health and healthcare. Psychosomatics 51, 458465.CrossRefGoogle ScholarPubMed
Wells, G, Shea, B, O'Connell, D, Peterson, J, Welch, V, Losos, M and Tugwell, P (2011) The Newcastle–Ottawa Scale (NOS) for assessing the quality of nonrandomized studies in meta-analyses. Ottawa, Canada: Department of Epidemiology and Community Medicine, University of Ottawa. Ottawa Hospital Research Institute Web site.Google Scholar
White, A, Ironmonger, L, Steele, RJ, Ormiston-Smith, N, Crawford, C and Seims, A (2018) A review of sex-related differences in colorectal cancer incidence, screening uptake, routes to diagnosis, cancer stage and survival in the UK. BMC cancer 18, 11.CrossRefGoogle ScholarPubMed
Wieghard, NE, Hart, KD, Herzig, DO, Lu, KC and Tsikitis, VL (2015) Psychiatric illness is a disparity in the surgical management of rectal cancer. Annals of Surgical Oncology 22, 573579.CrossRefGoogle ScholarPubMed
Yap, KL, Tay, W, Chui, W and Chan, A (2011) Clinically relevant drug interactions between anticancer drugs and psychotropic agents. European journal of cancer care 20, 632.CrossRefGoogle ScholarPubMed
Zhang, J and Yu, KF (1998) What's the relative risk? A method of correcting the odds ratio in cohort studies of common outcomes. JAMA 280, 16901691.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1. Study selection process.Notes: Exclusion criteria A: studies that did not examine treatment in SMI patients with colorectal/colon/rectal cancer. Exclusion criteria B: studies that did not examine SMI (schizophrenia/psychotic disorders/bipolar/major depression) that occurred prior to cancer diagnosis. Exclusion criteria C: studies which did not contain a comparison population (i.e. CRC patients without history of SMI). Exclusion criteria D: studies which contained a repeated analysis for the same outcome in a single population. Exclusion criteria E: Studies not reporting original data (e.g. reviews/text book chapters). Exclusion criteria F: Full text could not be retrieved/conference abstract contained insufficient information.

Figure 1

Table 1. Characteristics of studies included in the systematic review (n = 10)

Figure 2

Table 2. Quality assessment of studies included in the systematic review using the Newcastle–Ottawa Scale

Figure 3

Table 3. Presence of metastases on presentation from Manderbacka et al

Figure 4

Table 4. Results of studies examining receipt of surgery for CRCs, by SMI type

Figure 5

Fig. 2. Receipt of surgery in people with schizophrenia/ psychotic disorders.

Figure 6

Table 5. Results of studies examining receipt of adjuvant therapies (chemotherapy and/or radiation therapy), by SMI type

Supplementary material: File

Protani et al. supplementary material

Table S1

Download Protani et al. supplementary material(File)
File 21.7 KB