ABSTRACT
Objective: To investigate the role of depression severity in suicide risk by studying the predictive value of psychotic symptoms and depression scale scores, controlled for suicidal behavior and gender.
Methods: We conducted a prospective cohort study of consecutive psychiatric acute ward admissions between 2005 and 2014 from a Norwegian catchment area. Inclusion criteria were an ICD-10 diagnosis of unipolar or bipolar depression with a current depressive episode (n = 1,846); depression severity was measured by the Montgomery-Åsberg Depression Rating Scale (MADRS). Patients were assessed for suicidal ideation/planning, self-harm, and recent suicide attempts on admission. Mean follow-up time was 5.5 years (minimum/maximum: 0/10.6 years). We used Cox regression analyses and Kaplan-Meier analyses to explore potential predictors and time to suicide.
Results: During the follow-up period, 46 patients died by suicide, 30 (65%) of these within the year following admission. Psychotic depression (P = .014), admission MADRS score (P = .006), suicide attempts (P = .021), and male sex (P = .043) significantly predicted suicide. Suicidal ideation and self-harm did not predict suicide. The cumulative suicide risk in psychotic depression was 1.7% after 12 weeks and 3.0% after 52 weeks.
Conclusions: Depression severity as measured with the MADRS or a diagnosis of psychotic depression independently predicted suicide. More suicides may be prevented by implementing intensive treatment and post-discharge follow-up for patients who present to psychiatric acute wards with severe depressive episodes and recent suicide attempts, regardless of self-reported suicidal ideation, suicide plans, and self-harm.
J Clin Psychiatry 2022;83(5):21m14018
To cite: Fredriksen KJ, Gjestad R, Walby FA, et al. High scores on the Montgomery-Åsberg Depression Rating Scale and psychotic symptoms predict suicide: a prospective cohort study of psychiatric acute ward patients. J Clin Psychiatry. 2022;83(5):21m14018.
To share: https://doi.org/10.4088/JCP.21m14018
© 2022 Physicians Postgraduate Press, Inc.
aClinic of adult psychiatry, Stavanger University Hospital, Armauer Hansens vei 20, 4011 Stavanger, Norway
bRegional Centre for Clinical Research in Psychosis, Clinic of adult psychiatry, Stavanger University Hospital, Armauer Hansens vei 20, 4011 Stavanger, Norway
cFaculty of Social Sciences, Institute of Health, University of Stavanger, Kjell Arholms gate 41, 4036 Stavanger, Norway
dResearch Department, Division of Psychiatry, Haukeland University Hospital, Norway
eCentre for Research and Education in Forensic Psychiatry, Haukeland University Hospital, Sandviksleitet 1, 5036 Bergen, Norway
fNational Centre for Suicide Research and Prevention, Institute of Clinical Medicine, University of Oslo, Sognsvannsveien 21, 0372 Oslo, Norway
gDepartment of Social Studies, Faculty of Social studies, University of Stavanger, Norway
hDepartment of Addiction Medicine, Haukeland University Hospital, Bergen, Norway
iDepartment of Clinical Medicine, University of Bergen
jNORMENT, Division of Psychiatry, Haukeland University Hospital, Bergen, Norway
*Corresponding author: Kristin Joerstad Fredriksen, MD, Clinic of Adult Psychiatry, Stavanger University Hospital, Jan Johnsens gate 12, 4011 Stavanger, Norway ([email protected]).
According to the World Health Organization, nearly 800,000 people die every year from suicide.1 Despite decades of research and clinical efforts in developing treatment and general security measures, suicide rates for inpatients and for those post-discharge remain very high.2,3 At present, our ability to predict suicide in emergency departments is close to chance, due to lack of studies with representative samples with short-term follow up.4,5
A recent review6 found that 18.3% of persons who died by suicide had made contact with inpatient mental health services the year before suicide. This fact motivates research on high-risk inpatient groups, as we desperately need more knowledge on how to prioritize inpatient admissions, and on post-discharge follow-up in order to save lives. Suicidal behavior (patients’ self-report of suicidal ideation/plans, self-harm, and previous suicide attempt) is a common reason for acute admittance to hospital.7,8 Previous suicide attempt is identified as a crucial risk factor for suicide.3,4,9–11 However, although there is evidence for suicidal ideation as a valid predictor for suicide in non-psychiatric populations and well as for those with schizophrenia and for mixed psychiatric patients,4,12 evidence from acutely admitted inpatients13 and those with affective disorders12,14 is scarce. Depression is the strongest diagnostic predictor of suicide,15,16 while prior psychiatric hospitalization is the strongest general predictor of suicide.4 Inpatients with a depressive episode as part of a unipolar or bipolar disorder are particularly at risk, especially during the first week of admission and after discharge.3,6,8,17,18 Clinical cohort and case-control studies9,10,19 indicate that suicide risk increases alongside the severity of a depressive episode as measured by diagnosis of depression severity. However, depression severity as assessed by depression rating scales is understudied as a suicide predictor.20,21 The Montgomery-Åsberg Depression Rating Scale (MADRS)22 is used extensively worldwide to assess severity of depression in both research and clinical settings, yet any relationship between MADRS scores and suicide risk remains unexplored.20
The ICD-10 classification of mental and behavioral disorders23 defines psychotic symptoms as both a subtype and a marker of severity in depressive episodes. Episodes of psychotic depression include the presence of delusions or hallucinations, often with mood-congruent content such as guilt and worthlessness.24,25 Researchers have hypothesized that psychotic processes may transform suicidal thoughts to suicidal acts in depressed patients.26–28 However, the impact of psychotic symptoms on suicide risk in the first year after a depressive episode as part of a unipolar or bipolar disorder remains poorly understood. Systematic studies of depression with psychotic features are limited, as these patients are often excluded from clinical studies,29,30 and psychotic depression is challenging to diagnose correctly.28 A recent review of unipolar psychotic depression31 reports only 3 dated studies of small study populations with less than 1-year follow-up, of which 2 reported inconclusive findings.32,33 The third cross-sectional study, from 1983,27 retrospectively reviewed all inpatient suicides (n = 14) associated with unipolar endogenous depression at the New York State Psychiatric Institute over a period of 25 years. The authors retrospectively assigned diagnoses and included 42 participants, 19 with delusions and 23 without delusions. Patients with delusions were 5.3 times more likely to die by suicide during their hospital stay than those without psychosis.27 Comparable short-term risk estimates of bipolar psychotic depression do not exist, to our knowledge. The majority of studies have looked at suicide risk in unipolar depression over longer time intervals up to 40 years, with results ranging from insignificant to elevated suicide risk associated with psychotic symptoms.9,11,31,34,35 Through our own qualitative studies of inpatients with severe unipolar or bipolar depressive episodes and psychotic symptoms,26,36 we found that suicidal behavior was underreported and impulsive in patients with psychotic depression. Acute psychotic episodes are associated with poorer daily functioning, neuropsychological deficits, and increased levels of stress hormones,37–39 which strengthens our hypothesis that increased suffering and impulsive behavior exacerbate acutely increased suicide risk. However, it is difficult to disentangle the effect of psychotic symptoms per se from the effect of more severe overall depressive symptoms.11
In the present study, our aim was to investigate whether depression severity assessed by MADRS sum score in combination with diagnoses of psychotic depression predicts suicide. We added recent suicide attempts and male sex into the model, as both are well-established risk factors for suicide.3,4,9–11 Suicidal behavior is a risk factor for completed suicide, and suicidal ideation and self-harm were also included in our model in addition to actual attempts. We investigated whether there was an association between time from assessment to suicide according to depression severity, as this possible association is highly clinically relevant for improving suicide risk assessments.
METHODS
Setting
This study was part of the prospective cohort study Suicidality in Psychiatric Emergency Admissions run by the Department of Psychiatry, Haukeland University Hospital, Norway.40 The Norwegian psychiatric health care system is catchment area–based and publicly funded. There are no privately run acute inpatient facilities. Haukeland University Hospital covers a population of approximately 400,000.
Participants
The cohort consisted of 7,000 patients consecutively admitted to the Psychiatric Emergency Department at Haukeland University Hospital from May 2005 to June 2014. Patients were included in the study if they had been acutely admitted and fulfilled the ICD-10 criteria for a depressive episode as part of unipolar or bipolar disorder as a primary or secondary diagnosis (ICD-10 codes: F31.3, F31.4, F31.5, F32.0, F32.1, F32.2, F32.3, F33.0, F33.1, F33.2, and F33.3). In cases with several admissions during the study period, we used data from the most recent admission. Patients with a primary or secondary diagnosis of F20–F29 (schizophrenia, schizotypal, and delusional disorders), and patients with a diagnosis of F31.8 (other bipolar disorders), which does not include a psychosis subspecifier, were excluded from the study. In total, 1,846 patients were included in the study.
Assessments
Clinicians and trained research assistants collected and coded demographic and clinical data. Clinical diagnoses were assessed according to ICD-10 criteria23 at admission.
Clinicians made qualitative assessments of current suicidal behavior over the past 7 days using a standardized rating form in which only 1 of the following items (the most severe) could be rated positive: no suicidal ideation, passive death wishes, suicidal ideation, suicide plans made, self-harm without suicidal intent, and suicide attempt. Suicide attempt would be considered the most severe, and no suicidal ideation would be considered the least severe.
All available information was used to complete this, including the patient’s self-report, information from referring physicians, and information from any known somatic hospital admissions for suicide attempts or self-harm.
Intake clinicians rated symptom severity using the MADRS, which consists of 10 items rated for severity on an ordinal scale ranging from 0 to 6.22 The total score may be seen as indicating mild (12–20), moderate (21–29), or severe depression (≥ 30). The observation time for the MADRS was the previous 72 hours. The MADRS is used extensively worldwide in clinical research to assess severity of depression, with sound reliability and validity.41–43 Clinicians who were involved in the assessment of patients at admission underwent training in the MADRS and rating of suicidal behavior.
Suicide as Primary Outcome
We obtained suicide data by linking each patient’s 11-digit birth number to the Norwegian Cause of Death Registry (CDR) up to December 31, 2015, representing a mean and maximum follow-up time of 5.5 and 10.6 years, respectively. The CDR contains information about Norwegian residents regardless of geographic location of death and has a completeness rate of > 98%.44
Statistical Analyses
Descriptive analyses were used to explore clinical and demographic features at admission and group differences. We used Cox regression analyses to investigate 6 predictor variables (depression with psychosis vs non-psychotic depression, reporting suicide ideation/plan, non-suicidal self-harm, suicide attempt, men vs women, and MADRS sum score), included in the first step based on a priori hypotheses. The variable measuring passive death wishes was entered in a second step. The inclusion of this variable failed to statistically significantly improve the model; thus, we report only the results from the first step. Correlation analyses of predictor variables indicated that multicollinearity was not present. Figure 1 was based on the Cox regression.
We linked patient’s birth number to the CDR regarding death by suicide. Follow-up time from first admission to censor date when the last suicide in the study occurred in the mortality registry was 553 weeks (10.6 years).
Time to suicide was analyzed using the Kaplan-Meier method to compare the number of suicides in non-psychotic depression versus psychotic depression. In a subanalysis including only patients diagnosed with a severe depressive episode as part of a unipolar or bipolar disorder, we used the Kaplan-Meier Wilcoxon test to compare those with psychosis to those without.
All tests were 2-tailed, and a P value < .05 was considered statistically significant. We used SPSS software (v. 24; IBM SPSS; Armonk, New York) for all analyses.
Ethics
The Regional Committee for Medical Research Ethics (REK 2009/1057) and the Norwegian Social Science Data Service (NSD 11237) approved the study. The Norwegian Directorate of Health Care (SHDIR 07/2558) authorized the use of patient information.
RESULTS
Demographic and clinical characteristics of the study population are described in Table 1. There were 46 deaths by suicide in the total study sample of 1,846 included patients during the follow-up time. Significant predictors of suicide during the follow up time were psychosis, male sex, recent suicide attempt, and 5-point sum score increase in MADRS (Table 2).
As the Cox regression analysis indicated the MADRS sum score to be a significant predictor of suicide, we compared MADRS sum scores between patients who died by suicide (mean [SD] = 34.10 [8.5]) to the scores of those who did not (mean [SD] = 30.44 [8.2]). Group level sum scores differed significantly (P = .003).
Depression severity and risk of suicide were examined further by grouping participants according to severity of ICD-10 diagnoses. Patients diagnosed with a mild/moderate depressive episode (n = 1,163, 63% of patients) had a suicide risk of 1.7%, while patients with a severe depressive episode (n = 451, 24.4% of patients) without psychosis had a suicide rate of 3.3% compared to 4.7% for those with psychosis (n = 232, 12.6% of patients). However, Wilcoxon test including only patients diagnosed with a severe depressive episode found no significant difference in suicide risk between those with psychosis and those without (P = .356). We found no significant differences in suicide risk between unipolar and bipolar groups (P = .77).
A higher proportion of patients with psychotic depression died by suicide than those without psychotic symptoms at every follow-up point except after 4 weeks (Table 3 and Figure 1). The 1-year suicide risk rate in psychotic depression was 3%. Suicide rates were especially high the first year following admission in the total study population, constituting 65% (n = 30) of all completed suicides. Although the curve stabilized somewhat after this, the continuing fall represents a long-term stable number of suicides.
Of patients diagnosed with psychotic depression, 30.8% reported no suicidal ideation (vs 11.0% without psychotic symptoms), 14.7% reported passive death wishes (vs 13.6%), 22.3% reported suicidal ideation (vs 26.3%), 9.8% reported suicide plan (vs 24.2%), 10.3% reported self-harm (vs 11.3%), and 9.8% (vs 12.5%) reported suicide attempt. We found that on a group level, patients with psychosis were significantly less likely to report suicidal behavior (including suicidal thoughts, suicide plans, self-harm, and suicide attempts) at the time of admission compared with those without psychotic symptoms (P < .001), and they also had a significantly longer mean (SD) length of stay (P < .001; (65.5 [110.53] days vs 28.3 [66.46] days).
DISCUSSION
The main finding of this study was that severity of depression as measured by MADRS sum score and a diagnosis of psychotic depression at admission both independently predicted suicide in a sample of 1,846 consecutively admitted patients with a depressive episode. We also found that a higher proportion of patients with psychotic depression died by suicide as compared to the group without psychotic symptoms at every follow-up point.
Our finding that MADRS-assessed depression severity is a predictor of suicide is not easily compared to existing findings on depression scales and suicide risk.21,45,46 This is because no studies have previously assessed the predictive validity of either the MADRS suicidality item or the MADRS sum score in suicide risk evaluation.20 Also, existing studies of depression rating scales have investigated samples unrepresentative of psychiatric inpatients.21,46 However, two studies of the Beck Depression Inventory (BDI) have found the pessimism item to predict suicide in samples including inpatients: Beck et al47 included 207 inpatients in a mixed diagnostic sample with 14 suicide deaths at up to 10 years follow-up, and Oquendo et al48 studied 308 patients, of whom 80% were inpatients, with major depressive disorder or bipolar disorder with 4 suicides at 2-year follow-up. Results from these BDI studies,47,48 alongside our own MADRS-related findings, highlight the need for future studies to examine depression scales as clinical tools for suicide risk assessment.
However, the extent to which the MADRS sum score provides predictive suicide risk information beyond simply providing an accurate assessment of depression severity is still uncertain. In our study, we also found a dose-response effect of baseline ICD-10 severity criteria for depression on risk of suicide. These results are in accordance with those of other studies tracking hospitalized patients with a depressive episode.9,11,49 More research is needed to elucidate any distinction between these two indicators of depression severity. However, we believe that a MADRS score gives a more detailed description of the symptomatic load than do the ICD-10 severity criteria, given that each symptom is rated separately. This information may be valuable when planning an individual treatment plan.
Interestingly, we found no difference in death by suicide when comparing those with and without psychosis from within the group with severe depression. This finding is contrary to those of a recent review and meta-analysis,31 which found increased risk of suicide in unipolar psychotic depression. Our finding may be due to type 2 error given the small size of the sample. However, results are in line with those of a registry-based Danish prospective cohort study of unipolar severely depressed patients in which psychotic depression was not found to be an independent risk factor.15 Also in our study, diagnoses were not mutually exclusive, and the same person may have received both diagnoses during the follow-up, thus potentially disguising potential between-group differences. Diagnostic instability is a common weakness in longitudinal studies, including ours, as we used the diagnoses at last admission in the inclusion period. Such instability makes it difficult to examine the specific ways in which psychotic symptoms induce suicidal behavior, as the symptoms are subtle and intermittent.28 This is especially pertinent given that we do not have access to information about each participant’s clinical state at the time of suicide.
We found independent effects of suicide risk both for depression severity as assessed by MADRS sum score and for psychotic symptoms. Previous findings in this area are equivocal, with some authors10,11 arguing that psychotic symptoms are associated with more severe depressive symptoms while several other studies50–53 have found weak or missing correlations between depression severity and occurrence of psychotic symptoms. These differing findings suggest individual variation in susceptibility to psychotic symptoms rather than depression severity as the sole determinant.
Our results, including data showing that duration of stay increases when psychotic symptoms are present, may indirectly support findings that severe depressive episodes predict longer episode duration and recurrence of future episodes,54–56 which in turn result in more time spent across the lifespan in a state of clinically elevated suicide risk. High levels of residual symptoms at discharge may also be one reason for post-discharge suicide and increased short-term risk.26,36 One review34 also suggests that more persistent symptoms may play a role in elevating the risk of suicidal behavior after a psychotic episode. Our results regarding suicide risk in psychotic depression after 1, 4, 12, and 26 weeks are again not comparable to those of other studies. Although 3 somewhat similar studies exist, they are quite dated and look at unipolar psychotic depression report measuring points after 1-year follow-up or less,34 ie, study a different timeframe. However, our results do indicate elevated risk across short-time follow-up for inpatients with psychosis as compared to patients without psychosis, similar to the sole existing study by Roose et al27 with conclusive findings.
We found that the rate of suicide at mean 5.5-year follow-up (minimum/maximum: 0/10.6 years) was more than twice as high in inpatients diagnosed with psychotic symptoms during their depressive episode as compared to the rate in patients without psychosis. Because our sample included both bipolar and unipolar patients, suicide rates in this study are not directly comparable to those of other studies. Results are, however, in line with those of a systematic review and meta-analysis31 reporting that patients with unipolar psychotic depression have increased risk of suicide, both during lifetime and in the acute phase, as compared to patients with non-psychotic depression. We found no significant differences in suicide risk between unipolar and bipolar groups. Our findings regarding suicide rates for psychotic depression may add knowledge to bipolar research, in which suicide remains severely underexplored.57
Consistent with existing findings,6,10,11,35,58 we found male sex and suicide attempts directly preceding admission to predict suicide. When asked routine questions to assess suicidal intent, 884 (48.2%) of the participants reported suicidal ideation/plans, but these self-reports did not predict suicide. Systematic assessment of suicidal behavior at admission (including suicidal ideation/plans, passive death wishes, self-harm, and suicide attempt) in all consecutively admitted acute ward patients has, to our knowledge, never previously been conducted in a prospective study. Suicidal ideation is one main suicide predictor in prospective studies,4 but many clinical studies lack a control group presenting self-reports of suicide survivors,8 and we do not know which factors predict the transition from suicidal thoughts to completed suicide.59 Several other studies of mixed diagnostic samples have described that patients may not disclose their suicidal ideation to clinicians.60–63 Despite reporting less suicidal ideation/planning on admission, patients with psychotic depression were at increased risk of suicide. This is interesting given our previous qualitative findings of patients with psychotic depression indicating that they may underreport suicidal behavior due to hindrances such as shame, paranoid ideas, and impulsivity,26,36 which may obstruct appropriate interventions. It is possible based on these findings combined that the nature of psychosis, which often entails sudden and unpredictable changes in affective state or behavioral intent, as well as paranoia is motivating a higher level of underreporting than in other patient groups.
Strengths and Limitations
Notable strengths of this study are the inclusion of a broad and clinically representative high-risk population of acutely admitted patients who were not selected by the presence of suicidal ideation or behavior, its prospective design, and the more accurate measurement of depression severity at baseline by MADRS sum score. The completeness of the Norwegian CDR made it possible to identify and follow every patient after discharge. In Norway, contact rates with mental health services have been found to be above 40% in the year before suicide.6 We thus ostensibly have clinical data on a relatively large proportion of suicide victims in our catchment area. Our follow-up points of the effect of psychotic symptoms on suicide risk in the first year after a depressive episode as part of a unipolar or bipolar disorder is a strength, and to our knowledge this has not been studied before.
One limitation is that the absolute number of suicides (46) in our sample prevented us from completing interaction analyses between significant predictors. The cohort is smaller and number of events fewer than in register-based studies,9,15 which may result in incidental findings. This also meant we were unable to explore several potential risk factors or protective factors for suicide that may be pertinent, including age, socioeconomic status measured by educational level, paid employment, and being married/cohabiting. A larger study sample may have allowed us to combine identified predictors of suicide in this study to identify and study a potentially ultrahigh-risk group. It should be noted that our study evaluated and coded suicidal behavior only during patients’ stay in the acute unit, and patients may have reported more suicidal thoughts/behaviors at a later stage during their admission. Our findings should thus be generalized to those from other non-acute, longer-term settings with caution.
Diagnoses in this study were made by practicing clinicians in an acute ward, making diagnostic imprecision more likely. Clinicians may also fail to identify psychotic symptoms in major depression due to the psychosis’s being subtle, intermittent, or concealed.28 Interrater reliability for diagnostics and the MADRS was not assessed due to the practical limitations of a naturalistic setting.
Clinical Implications
Patients with depression are repeatedly shown to be the largest diagnostic group associated with suicide risk. High MADRS scores and/or psychotic symptoms during hospital treatment may indicate an ultrahigh risk group. This may especially be the case in patients who are male and have previously attempted suicide.
However, patients with psychotic symptoms were significantly less likely to report suicidal behavior (including suicidal thoughts, suicide plans, self-harm, and suicide attempts), despite being at elevated risk of suicide both short-term and long-term.
Contrary to common clinical beliefs, suicidal ideation, self-harm, and suicidal plans did not significantly predict suicide. Denial of suicidal ideation, which in the case of some patients may be motivated or exacerbated by psychotic symptoms or exceptionally high symptom load, may mislead clinicians to wrongly assess suicide risk as low. Clinicians therefore cannot and should not rely solely on patients’ self-report of suicidal ideation in the presence of psychotic symptoms.
It is in our opinion thus unviable that any universal, structured suicidal risk assessment tool would successfully identify suicide risk across clinical settings. Suicide risk assessment, especially in high-risk groups as those reported in this article, should mainly be based on regular clinical evaluations both during hospital treatment and after discharge. Depressive symptoms and psychotic symptoms may, however, be modifiable during admission and after discharge and as such be relevant target points for both interventions and future risk assessment tools. On the basis of our findings that 65% of completed suicides occurred the first year following admission, we suggest applying symptom-focused treatment approaches both during hospitalization and after discharge.
Submitted: March 31, 2021; accepted February 28, 2022.
Published online: July 27, 2022.
Relevant financial relationships: The authors declare that they have no conflict of interest.
Funding /support: Supported by Stavanger University Hospital, Haukeland University Hospital, University of Oslo and Western Norway Regional Health Authority (Grant numbers: 911209/HV and 911671/HV).
Role of the sponsor: Funding agencies were not involved in the conduct of the study in any way, including the design of the study; management, analysis, or interpretation of the data; or preparation, review, or approval of the manuscript.
Previous presentation: Oral communication of preliminary results was presented at the 30th World Congress of The International Association for Suicide Prevention at the session “Psychosis and Suicide”; September 19, 2019; Londonderry, UK.
Acknowledgments: We thank all participants of the study, and clinicians at the Department of Psychiatry, Bergen University Hospital, Norway, who conducted the clinical assessments. We honor Liv Mellesdal, PhD (deceased), former principal investigator in SIPEA, for valuable input in the whole research process.
Additional information: Data sharing is not applicable due to limitations of data sharing as restricted in the approval from the Regional Committee for Medical and Health Research Ethics and the Norwegian Social Science Data Service.
Clinical Points
- Suicide was predicted by both depression severity as assessed by a rating scale and the presence of psychosis. However, self-reported suicidal ideation, suicide plans, and self-harm failed to predict suicide.
- Male sex and suicide attempts predicted suicide.
- Acutely admitted patients with depression remain at high risk of suicide both during hospitalization and post-discharge.
References (63)
- World Health Organization. WHO website. https://www.who.int/news-room/fact-sheets/detail/suicide. 2019.
- Walsh G, Sara G, Ryan CJ, et al. Meta-analysis of suicide rates among psychiatric in-patients. Acta Psychiatr Scand. 2015;131(3):174–184. PubMed CrossRef
- Madsen T, Erlangsen A, Nordentoft M. Risk estimates and risk factors related to psychiatric inpatient suicide-an overview. Int J Environ Res Public Health. 2017;14(3):253. PubMed CrossRef
- Franklin JC, Ribeiro JD, Fox KR, et al. Risk factors for suicidal thoughts and behaviors: a meta-analysis of 50 years of research. Psychol Bull. 2017;143(2):187–232. PubMed CrossRef
- Bolton JM. Suicide risk assessment in the emergency department: out of the darkness. Depress Anxiety. 2015;32(2):73–75. PubMed CrossRef
- Walby FA, Myhre MO, Kildahl AT. Contact with mental health services prior to suicide: a systematic review and meta-analysis. Psychiatr Serv. 2018;69(7):751–759. PubMed CrossRef
- Mellesdal L, Mehlum L, Wentzel-Larsen T, et al. Suicide risk and acute psychiatric readmissions: a prospective cohort study. Psychiatr Serv. 2010;61(1):25–31. PubMed CrossRef
- Chung DT, Ryan CJ, Hadzi-Pavlovic D, et al. Suicide rates after discharge from psychiatric facilities: a systematic review and meta-analysis. JAMA Psychiatry. 2017;74(7):694–702. PubMed CrossRef
- Aaltonen KI, Isometsä E, Sund R, et al. Risk factors for suicide in depression in Finland: first-hospitalized patients followed up to 24 years. Acta Psychiatr Scand. 2019;139(2):154–163. PubMed CrossRef
- Hawton K, Casañas I Comabella C, Haw C, et al. Risk factors for suicide in individuals with depression: a systematic review. J Affect Disord. 2013;147(1-3):17–28. PubMed CrossRef
- Isometsä ET. Suicides in mood disorders in psychiatric settings in nordic national register-based studies. Front Psychiatry. 2020;11:721. PubMed CrossRef
- Hubers AAM, Moaddine S, Peersmann SHM, et al. Suicidal ideation and subsequent completed suicide in both psychiatric and non-psychiatric populations: a meta-analysis. Epidemiol Psychiatr Sci. 2018;27(2):186–198. PubMed CrossRef
- McHugh CM, Corderoy A, Ryan CJ, et al. Association between suicidal ideation and suicide: meta-analyses of odds ratios, sensitivity, specificity and positive predictive value. BJPsych Open. 2019;5(2):e18. PubMed CrossRef
- Chapman CL, Mullin K, Ryan CJ, et al. Meta-analysis of the association between suicidal ideation and later suicide among patients with either a schizophrenia spectrum psychosis or a mood disorder. Acta Psychiatr Scand. 2015;131(3):162–173. PubMed CrossRef
- Leadholm AK, Rothschild AJ, Nielsen J, et al. Risk factors for suicide among 34,671 patients with psychotic and non-psychotic severe depression. J Affect Disord. 2014;156:119–125. PubMed CrossRef
- Qin P, Nordentoft M. Suicide risk in relation to psychiatric hospitalization: evidence based on longitudinal registers. Arch Gen Psychiatry. 2005;62(4):427–432. PubMed CrossRef
- Isometsä E, Sund R, Pirkola S. Post-discharge suicides of inpatients with bipolar disorder in Finland. Bipolar Disord. 2014;16(8):867–874. PubMed CrossRef
- Madsen T, Erlangsen A, Hjorthøj C, et al. High suicide rates during psychiatric inpatient stay and shortly after discharge. Acta Psychiatr Scand. 2020;142(5):355–365. PubMed CrossRef
- Deisenhammer EA, Behrndt E-M, Kemmler G, et al. Suicide risk factors in patients recently discharged from a psychiatric hospital: a case-control study. J Clin Psychiatry. 2019;80(5):18m12702. PubMed CrossRef
- Runeson B, Odeberg J, Pettersson A, et al. Instruments for the assessment of suicide risk: a systematic review evaluating the certainty of the evidence. PLoS One. 2017;12(7):e0180292. PubMed CrossRef
- Roos L, Sareen J, Bolton JM. Suicide risk assessment tools, predictive validity findings and utility today: time for a revamp? Neuropsychiatry (London). 2013;3(5):483–495. CrossRef
- Montgomery SA, Åsberg M. A new depression scale designed to be sensitive to change. Br J Psychiatry. 1979;134(4):382–389. PubMed CrossRef
- World Health Organization. The ICD-10 Classification of Mental and Behavioural Disorders: Clinical Descriptions and Diagnostic Guidelines. World Health Organization; 1992.
- American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders (DSM-5). Arlington, VA: American Psychiatric Association; 2013.
- World Health Organization. The ICD-10 Classification of Mental and Behavioural Disorders: Diagnostic Criteria for Research. Geneva: World Health Organization; 1993.
- Fredriksen KJ, Schoeyen HK, Johannessen JO, et al. Psychotic depression and suicidal behavior. Psychiatry. 2017;80(1):17–29. PubMed CrossRef
- Roose SP, Glassman AH, Walsh BT, et al. Depression, delusions, and suicide. Am J Psychiatry. 1983;140(9):1159–1162. PubMed CrossRef
- Rothschild AJ, Winer J, Flint AJ, et al; Study of Pharmacotherapy of Psychotic Depression (STOP-PD) Collaborative Study Group. Missed diagnosis of psychotic depression at 4 academic medical centers. J Clin Psychiatry. 2008;69(8):1293–1296. PubMed CrossRef
- Sisti DA, Joffe S. Implications of zero suicide for suicide prevention research. JAMA. 2018;320(16):1633–1634. PubMed CrossRef
- Villa J, Ehret BC, Depp CA. Systematic review of the inclusion of people with psychosis in suicide-specific clinical trials. Crisis. 2020;41(3):233–236. PubMed CrossRef
- Gournellis R, Tournikioti K, Touloumi G, et al. Psychotic (delusional) depression and completed suicide: a systematic review and meta-analysis. Ann Gen Psychiatry. 2018;17(1):39. PubMed CrossRef
- Robinson DG, Spiker DG. Delusional depression: a one year follow-up. J Affect Disord. 1985;9(1):79–83. PubMed CrossRef
- Wolfersdorf M, Keller F, Steiner B, et al. Delusional depression and suicide. Acta Psychiatr Scand. 1987;76(4):359–363. PubMed CrossRef
- Zalpuri I, Rothschild AJ. Does psychosis increase the risk of suicide in patients with major depression? a systematic review. J Affect Disord. 2016;198:23–31. PubMed CrossRef
- Suominen K, Haukka J, Valtonen HM, et al. Outcome of patients with major depressive disorder after serious suicide attempt. J Clin Psychiatry. 2009;70(10):1372–1378. PubMed CrossRef
- Fredriksen KJ, Schaufel MA, Johannessen JO, et al. Preventing suicide among psychiatric inpatients with psychotic depression. Psychiatr Q. 2020;91(1):223–236. PubMed CrossRef
- Lefteris L, Rossetos G. Psychotic (delusional) major depression: new vistas. Curr Psychiatry Rev. 2009;5(1):1–28. CrossRef
- Zaninotto L, Guglielmo R, Calati R, et al. Cognitive markers of psychotic unipolar depression: a meta-analytic study. J Affect Disord. 2015;174:580–588. PubMed CrossRef
- Fleming SK, Blasey C, Schatzberg AF. Neuropsychological correlates of psychotic features in major depressive disorders: a review and meta-analysis. J Psychiatr Res. 2004;38(1):27–35. PubMed CrossRef
- Strømme MF, Mellesdal LS, Bartz-Johannesen C, et al. Mortality and non-use of antipsychotic drugs after acute admission in schizophrenia: a prospective total-cohort study. Schizophr Res. 2021;235:29–35. PubMed CrossRef
- Müller MJ, Himmerich H, Kienzle B, et al. Differentiating moderate and severe depression using the Montgomery-Asberg depression rating scale (MADRS). J Affect Disord. 2003;77(3):255–260. PubMed CrossRef
- Williams JBW, Kobak KA. Development and reliability of a structured interview guide for the Montgomery Asberg Depression Rating Scale (SIGMA). Br J Psychiatry. 2008;192(1):52–58. PubMed CrossRef
- Svanborg P, Asberg M. A comparison between the Beck Depression Inventory (BDI) and the self-rating version of the Montgomery Asberg Depression Rating Scale (MADRS). J Affect Disord. 2001;64(2–3):203–216. PubMed CrossRef
- Pedersen AG, Ellingsen CL. Data quality in the causes of death registry. Tidsskr Nor Laegeforen. 2015;135(8):768–770. PubMed CrossRef
- Simon GE, Rutter CM, Peterson D, et al. Does response on the PHQ-9 Depression Questionnaire predict subsequent suicide attempt or suicide death? Psychiatr Serv. 2013;64(12):1195–1202. PubMed CrossRef
- Simon GE, Coleman KJ, Rossom RC, et al. Risk of suicide attempt and suicide death following completion of the Patient Health Questionnaire depression module in community practice. J Clin Psychiatry. 2016;77(2):221–227. PubMed CrossRef
- Beck AT, Steer RA, Kovacs M, et al. Hopelessness and eventual suicide: a 10-year prospective study of patients hospitalized with suicidal ideation. Am J Psychiatry. 1985;142(5):559–563. PubMed CrossRef
- Oquendo MA, Galfalvy H, Russo S, et al. Prospective study of clinical predictors of suicidal acts after a major depressive episode in patients with major depressive disorder or bipolar disorder. Am J Psychiatry. 2004;161(8):1433–1441. PubMed CrossRef
- Kessing LV. Severity of depressive episodes during the course of depressive disorder. Br J Psychiatry. 2008;192(4):290–293. PubMed CrossRef
- Østergaard SD, Bille J, Søltoft-Jensen H, et al. The validity of the severity-psychosis hypothesis in depression. J Affect Disord. 2012;140(1):48–56. PubMed CrossRef
- Forty L, Jones L, Jones I, et al. Is depression severity the sole cause of psychotic symptoms during an episode of unipolar major depression? a study both between and within subjects. J Affect Disord. 2009;114(1–3):103–109. PubMed CrossRef
- Ohayon MM, Schatzberg AF. Prevalence of depressive episodes with psychotic features in the general population. Am J Psychiatry. 2002;159(11):1855–1861. PubMed CrossRef
- Maj M, Pirozzi R, Magliano L, et al. Phenomenology and prognostic significance of delusions in major depressive disorder: a 10-year prospective follow-up study. J Clin Psychiatry. 2007;68(9):1411–1417. PubMed CrossRef
- Nelson JC, Bickford D, Delucchi K, et al. Risk of psychosis in recurrent episodes of psychotic and nonpsychotic major depressive disorder: a systematic review and meta-analysis. Am J Psychiatry. 2018;175(9):897–904. PubMed CrossRef
- Melartin TK, Rytsälä HJ, Leskelä US, et al. Severity and comorbidity predict episode duration and recurrence of DSM-IV major depressive disorder. J Clin Psychiatry. 2004;65(6):810–819. PubMed CrossRef
- Holma KM, Holma IA, Melartin TK, et al. Long-term outcome of major depressive disorder in psychiatric patients is variable. J Clin Psychiatry. 2008;69(2):196–205. PubMed CrossRef
- Kuperberg M, Katz D, Greenebaum SLA, et al. Psychotic symptoms during bipolar depressive episodes and suicidal ideation. J Affect Disord. 2021;282:1241–1246. PubMed CrossRef
- Nordström P, Asberg M, Aberg-Wistedt A, et al. Attempted suicide predicts suicide risk in mood disorders. Acta Psychiatr Scand. 1995;92(5):345–350. PubMed CrossRef
- Glenn CR, Nock MK. Improving the short-term prediction of suicidal behavior. Am J Prev Med. 2014;47(suppl 2):S176–S180. PubMed CrossRef
- Bolton JM, Gunnell D, Turecki G. Suicide risk assessment and intervention in people with mental illness. BMJ. 2015;351(nov09 1):h4978. PubMed CrossRef
- Busch KA, Fawcett J, Jacobs DG. Clinical correlates of inpatient suicide. J Clin Psychiatry. 2003;64(1):14–19. PubMed CrossRef
- Høyen KS, Solem S, Cohen LJ, et al. Non-disclosure of suicidal ideation in psychiatric inpatients: rates and correlates. Death Stud. 2021;1–9. PubMed CrossRef
- Richards JE, Whiteside U, Ludman EJ, et al. Understanding why patients may not report suicidal ideation at a health care visit prior to a suicide attempt: a qualitative study. Psychiatr Serv. 2019;70(1):40–45. PubMed CrossRef
Save
Cite
Advertisement
GAM ID: sidebar-top