Next Article in Journal
Performance Alteration Induced by Weight Cutting in Mixed Martial Arts—A Biomechanical Pilot Investigation
Previous Article in Journal
Understanding the Role of Persistent Organic Pollutants and Stress in the Association between Proximity to the World Trade Center Disaster and Birth Outcomes
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
IJERPH
Volume 19
Issue 4
10.3390/ijerph19042014
ijerph-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Triggers of Agitation in Psychiatric Hospitalization Ward According to Professional Experience Questionnaire

by
Irene Ortiz-Sandoval
1,
María Dolores Martínez-Quiles
2,
Jesús López-Pérez
3 and
Agustín Javier Simonelli-Muñoz
4,*
1
Faculty of Nursing, Campus de los Jerónimos s/n., Catholic University of Murcia, 30107 Murcia, Spain
2
Psychiatric Hospitalization, University Morales Meseguer Hospital, 30008 Murcia, Spain
3
Department of Anesthesiology, University Arrixaca Hospital, 30120 Murcia, Spain
4
Department of Nursing, Physiotherapy and Medicine, University of Almeria, 04120 Almeria, Spain
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2022, 19(4), 2014; https://doi.org/10.3390/ijerph19042014
Submission received: 31 December 2021 / Revised: 5 February 2022 / Accepted: 9 February 2022 / Published: 11 February 2022
Versions Notes

Abstract

:
Aim: To create and analyze an instrument to assess the possible agitation triggers of hospitalized psychiatric patients. Background: No tools exist for identifying according to a professional’s experience. Methods: Descriptive and cross-sectional study. The questionnaire of possible triggers of agitation behaviors of patients hospitalized in psychiatric wards according to professional experience (TAPE) was designed and analyzed. Results: The questionnaire was provided to 156 mental health workers (76.9% women, average work experience: 10.15 ± 8 years, 46.8% were nurses specialized in mental health, and 21.2% psychiatrists). A good internal consistency was obtained, with a Cronbach α value of 0.791 in the initial test, and 0.892 in the retest. The factorial analysis found four factors: factor 1 “personnel”, factor 2 “routines”, factor 3 “norms–infrastructure”, and factor 4 “clinic”. Factor 1 obtained the highest value, with a mean of 4.16 ± 0.63, highlighting the item “lack of specialized personnel” (mean 4.38 ± 0.81). The specialized professionals provided higher scores to the items from the factors associated with the training of the personnel and routines (p = 0.017; p = 0.042). Conclusions: The TAPE questionnaire is useful for identifying the possible triggers that could lead to situations of agitation of hospitalized patients.

1. Introduction

During psychomotor agitation, an increase in the motor activity is produced, provoked by organic or psychiatric causes; also, some drug-induced triggers of agitation may depend on pharmacogenomics [1]. These can rapidly escalate to aggressive patient behaviors, such as verbal aggressions or threats, damage to the property, themselves, other patients, or staff [2]. Psychomotor agitation is considered an acute emergency which requires identifying or discarding an organic cause and an immediate intervention to control the symptoms, to decrease the risk of lesions of the patient or other individuals [3].
The Project BETA guidelines were published by the American Association for Emergency Psychiatry [4] and provide detailed guidance on various aspects of patient management at risk or during psychomotor agitation. The guidelines for the management of psychomotor agitation include verbal de-escalation and pharmacological restraint. Drugs used in chemical restraint included olanzapine, haloperidol, droperidol, risperidol, flunitrazepam, midazolam, promethazine, ziprasidone, sodium valproate, or lorazepam. There is no clear superiority of any chemical method of managing psychomotor agitation [5]. When these above measures are not effective, physical restraint and/or isolation are required.
At the international level, work has been performed to reduce situations of agitation which can result in coercion measures (forced medication, mechanical restraint, or restriction), such as the EUNOMIA program in Europe [6] and the BETA project in the United States [7], due to the medical–legal aspects [8], post-traumatic stress of the patients, possible physical damage to the patients and professionals [4], and the high medical costs [9].
The UN 2020 report recognizes the need to protect, promote, and respect all human rights in the global response to mental health issues, and stresses that mental health and community services must incorporate a human rights perspective, not to cause any harm to the people who make use of them and to respect their dignity, their integrity, their enjoyment of legal capacity on an equal basis with others, their choices, and their inclusion in the community [10].
Different programs have been implemented at the international level to reduce agitation situations. For example, Bowers et al., through his program “Safewards” [11], proposed diverse actions on the staff, the physical environment, the patient’s community, the patient’s characteristics, and the regulatory framework. Huckshorn et al. presented the “six core strategies” model: leadership toward organizational change, use of data to inform practice, workforce development, use of seclusion/restraint prevention tools, consumer roles in inpatient settings, and debriefing techniques [12].

Related Studies

Many international psychiatric studies have stressed the importance of better management of agitated patients, to avoid losing control and restrictive or isolation measures [2,9,11,13], with the prediction of risk of violence being a key component in clinical practice [14,15]. Novel technologies in monitoring such as emotion-aware computing propose improved algorithms for intelligent emotion-aware systems capable of predicting risk [16].
The agitation situations and the use of coercive measures can be reduced by learning verbal de-escalation techniques and the evaluation of risks [14].
In recent literature, many experts consider verbal de-escalation and environmental modification techniques as the main options for managing the aggressive patient, considering restraint as a last-resource strategy [17].
Risk assessment scales are commonly used to identify the risk of aggression [18]. These instruments help health personnel to identify and manage the risk of aggression in populations of hospitalized psychiatric patients to prioritize preventive interventions. The most utilized are The Overt Aggression Scale, OAS [19], Staff observation aggression scale, SOAS [20], Staff observation aggression scale-revised, SOAS-R [21], The Brøset Violence Checklist, BVC [22], Positive and Negative Syndrome Scale, PANSS [23], Excited Component of the Positive and Negative Syndrome Scale, PANSS-EC [24], and The Dynamic Appraisal of Situational Aggression, DASA [25].
It is important to also consider that external factors such as the organization of the institution, and personal situations and relationships, can also have an effect on the patient, and these can be modified. Agitation can also be incited by a combination of factors including patient, staff, and ward factors. [26,27,28,29,30].
Given the above, and due to the importance of the assessment of external risks, it is necessary to design a specific and reliable tool to assess the possible triggers that can lead to agitation situations in a hospital psychiatric ward. Therefore, the objective of the study was to create and validate a tool that could help with the identification of possible agitation triggers of hospitalized psychiatric patients, based on the professional experience of different psychiatric ward personnel.
The present manuscript is organized in the following manner: an introduction which describes the current situation of mechanical restraint of psychiatric patients, and the object of study; next, the material and methods section explains the type of study, the creation of the questionnaire and its items, and the factorial analysis; posteriorly, the results are described, which are compared and contrasted with past studies in the discussion section. Lastly, the research conclusions are presented, which detail the limitations and provide suggestions for further studies.

2. Materials and Methods

This is a descriptive and cross-sectional study that includes mental health personnel in Murcia (Spain). It took place from the end of December 2020 to the end of January 2021. Different types of psychiatric ward professionals participated in the study: psychiatrists, psychologists, mental health nurses, clinical aides, ward staff, psychiatric, mental health nurses, and psychology residents, who had previously provided services in mental health.
The study protocol was approved by the Ethics and Research Board at the HMM and complies with the Helsinki Declaration from 1964. The participants provided their consent when completing the questionnaire.
A total of 156 individuals, who had worked in mental health in the Region of Murcia (Spain), were included. The mean number of years worked was 10.1± 8 years. Most of the workers were women (76.9%, 120). All of them were mental health professionals and most worked in hospital psychiatric wards (38.5%) and mental health centers (34%). Additionally, 16.7% worked in other mental health resources, with the remaining 10.9% not working at the moment in mental health. As for their professional category, most of them were nurses specialized in mental health (46.8%), followed by psychiatrists (21.2%). The residents in training and nurse assistants totaled 13.4% and 9.6%, respectively. Lastly, the rest of the professionals were psychologists (5.1%) and ward staff (3.8%).
Personal and employment variables were studied, such as sex, professional category, years worked in mental health, and the place where they presently worked. The questionnaire was created by the research team with Google Forms and sent to the mental health personnel in the Region of Murcia (Spain), which includes 473 workers, according to the transparency portal of the Murcia Health Services [31]. The participants were previously informed about the characteristics of the study, as well as the final use of the data recorded.

2.1. The Questionnaire of Possible Triggers of Agitation Behaviors of Patients Hospitalized in Psychiatric Wards According to Professional Experience (TAPE)

The TAPE questionnaire was designed by the research team, comprised by two mental health nurses (one with experience in hospital psychiatric wards and mental health centers, and the other with experience in mental health research), and a psychiatrist from the hospital psychiatric ward. The generation of items was performed through a literature search of agitation triggers [2,3,4,13,14,18,19,20,21,24,26] and the professional experience of the research team [32]. The aim of the questionnaire was to uncover, according to the experience of mental health personnel, the possible triggers that can lead to agitation behaviors in hospital psychiatric wards. The Cronbach’s alpha coefficient for the subscales oscillated between 0.840 and 0.847. This questionnaire included 18 items scored with a 5-point Likert-type scale (1 = without risk of showing agitation behavior to 5 = greater risk of showing agitation behavior). The greater the score, the greater the worker’s perception that a trigger of agitation behavior could appear.

2.2. Statistical Analysis

The categorical variables are shown as absolute frequencies (percentages), while the continuous variables are shown as the mean ± SD (standard deviation). The Kolmogorov–Smirnov test was utilized to verify the normal distribution of the continuous data.
The statistical test utilized to analyze the reliability of the scale was the test–retest, with the calculation of the intraclass correlation coefficient (ICC) to measure the agreement between the quantitative measures obtained in the questionnaire. To analyze the internal consistency, Cronbach’s α was utilized, with a value of 0.700 being the minimum value desired.
An exploratory factor analysis (EFA) was performed to analyze the structure, the relationship between variables. EFA is a statistical technique that allows us to explore the underlying dimensions, constructs, or latent variables of the variables observed in a more precise manner. A principal component analysis (PCA) with varimax rotation was performed to determine the factorial loads. Before this analysis, the Kaiser–Meyer–Olkin (KMO) and Bartlett’s sphericity tests were performed to analyze the adequacy of the data for the EFA [33]. Only the factors with values higher than 1 were extracted, as these explained the greater degree of total variability, utilizing the criteria that the extracted components comprised at least 60% of the variance explained by the correlation matrix. For the factorial loads to be consistent, for an item to be part of the factor extracted, its value had to be the equal to or greater than 0.40.
For the bivariate analysis, Person’s correlation coefficient, Student’s t-test, and a one-way ANOVA were utilized.
A value of p < 0.05 was considered significant. The statistical analyses were performed with the SPSS v21 software for Windows (SPSS, Inc., Chicago, IL, USA).

3. Results

To analyze the reliability, a pilot study was conducted with a sample of 36 professionals, through the use of the test–retest technique (Table 1), by repeating the questionnaire 14–21 days after completing it for the first time. The Spearman–Brown’s coefficient was calculated, with a value of 0.862 obtained, indicating the good reliability of the questionnaire. In the analysis of the two tests, Cronbach’s alpha value, which measures the internal consistency of the items that comprise the questionnaire in the pilot test, were also obtained, with a value of 0.791 for the original test and a value of 0.892 for the retest (Table 1).
To facilitate the management and interpretation of the results, a factorial analysis of the TAPE questionnaire was performed. First, we determined if the criteria necessary for its application were met, by verifying the existence of an underlying structure shaped by four factors, in agreement with the Kaiser rules. As a group, they explained 60.6% of the variance. The factorial load of each item was satisfactory for their inclusion in the model, as the values were >0.40. After the rotation, factor 1 included five items related with “personnel”, factor 2 included six items related with “routines”, factor 3 included five items related with “norms–infrastructure”, and factor 4 included three items related to “clinic” (Table 2).
All the factors have Cronbach’s α values above 0.700. Factor 1 “personnel”, has a Cronbach’s α of 0.783; factor 2 “routines”, a Cronbach’s α of 0.752; factor 3 “norms–infrastructure”, a Cronbach’s α of 0.725, and factor 4 “clinic”, a Cronbach’s α of 0.706.
The average score of all the items was 3.49 ± 0.51. Factor 1 obtained the highest score, with a mean of 4.16 ± 0.63, highlighting the item “lack of specialized personnel”, with a mean of 4.38 ± 0.81 (Table 3).
Table 4 shows the association between the questionnaire of agitation triggers (TAPE) and the characteristics, both personal and work-related, of the professionals who worked in mental health. We can observe the lack of association of the scores with respect to the variable sex, in all of the factors and the questionnaire as a whole.
When the professional category was analyzed, despite the lack of differentiation with the values of the questionnaire when all the questions were considered, we found a significant difference through an ANOVA (p = 0.006) in the factorial analysis between the professional category and factor 1, related with the professional training of the personnel. After the posterior application of the post-hoc multiple comparison Bonferroni test of factor 1, we found significant differences (p < 0.041 and p < 0.007) between the professional groups ward staff and mental health and residents-in-training, respectively. The specialized professionals and the residents in-training in the same professional categories granted a greater importance to the items in factor 1 (mental health nurse 4.22 ± 0.57; psychiatrist 4.13 ± 0.67; psychologist 4.10 ± 0.59; and residents 4.44 ± 0.35). This difference was re-enforced in workers from mental health centers (4.32 ± 0.54 p = 0.013) (Table 4).
As for the area of mental health of these professionals, statistically significant differences were observed in the analysis of factor 1 (p = 0.013) associated with the training of the staff, with the lowest mean found in the Hospital Psychiatric Ward (3.96 ± 0.75) (Table 4).
When analyzing the association between the TAPE and the work experience measured in years, a negative and weak correlation was found with the total questionnaire (r = −0.282 p = 0.001) and factors 1, 2, and 3 (r = −0.18 p = 0.024; r = −0.31 p = 0.001; r = −0.19 p = 0.015), respectively, which indicated a slight tendency of assigning lower scores to the items from these factors, as the professional’s experience increased (Table 4).

4. Discussion

The objective of the present study was to design a simple tool to identify the possible agitation triggers in a hospital psychiatric ward according to the ward professionals’ experience. The TAPE questionnaire included 18 items and was validated by professionals who had worked in mental health, with the tool showing good internal consistency.
A review of the literature demonstrated the scarce number of studies conducted at hospital psychiatric wards and the difficulty in the assessment of the quality of the programs, services, and results of medical care [17], with differences found in the use of guides among centers and where even acute stress, such as a transplant, could be a trigger [34]. Future research should focus on the use of programs and homogenous guides such as the WHO Quality Rights Toolkit [35] between countries to reduce mechanical restraint [6]. We found that, specifically, the Assessment toolkit overview document can be used to assess and improve quality and human rights in mental health and social care facilities, through the evaluation tools, the implementation of improvements, and follow-up found within it [35].
Professional experience can help with the management of the agitated patient [31,36], and the decrease in the use of coercive measures, and this is where we find the importance of the present study.
Diverse research studies have shown the importance of modifying external factors, such as the organization of the institution, the specialization of the staff, and routines, given their influence on the state and evolution of the patient [2,11]. In our study, the professionals specialized in mental health, psychiatrists, psychologists, nurses, and residents in training, granted more importance to training in factor 1. This factor included involuntary admission, the lack of information about the patient, lack of communication with the team, lack of specialized staff/specialist, lack of training, and verbal de-escalation.
According to the TAPE questionnaire, more importance was given to the lack of specialized training of the health professionals as a possible trigger of agitation. This lack of training could be corrected by the hospital management board with the creation of specific job postings to cover these posts with specialized personnel. A systematic review, which recommended training the staff, also underlined verbal de-escalation techniques and evaluation of risks, such as the prediction of patients at risk of violence, and the reduction of mechanical/physical restraints. This review ultimately recommended teaching and training of health professionals, especially mental health nurses [14]. Similarly, the BETA report indicated that all the clinical personnel from an emergency service or psychiatric emergency services, should receive at least annual training on verbal de-escalation techniques and the prevention and management of aggressive behavior [4]. The second item that was highly scored in the TAPE was involuntary admission, in which the use of coercive measures, such as forced medication, isolation, and restriction, were utilized as the treatment for agitated patients, although they were associated with a greater degree of lesions for the patients and the staff (psychical and psychological), which could also affect the doctor–patient relationship [4].
In the present study, more importance was given to training in mental health centers (MHC) than in hospital wards. This could be because in Murcia, weekly clinical sessions are conducted at the MHC, with the participation of members of the healthcare team within their work day, and at the hospital wards, the clinical sessions are performed weekly, but without the participation of the nurses, assistants, or ward staff, as the patients are under a 24 h watch.
In our study, the greater the work experience, the lower the agitation triggers scored in factors 1, 2, and 3, with respect to the workers from other centers within the mental health network. This could be due to skill development, the trust in the means used by the specialized hospital workers in situations of agitation in their work environment. According to De Benedictis [26], in general, the staff members with experience calm the patients more effectively that the less experienced staff, and utilize confinement and restrain less often.

5. Conclusions

This study demonstrated that the TAPE questionnaire is a simple and easy tool to use, showing a good reliability. This is a useful instrument for identifying possible triggers of agitation at a hospital psychiatric ward, according to the experience of ward professionals. Further studies are needed to confirm if its use could allow us to intervene on these triggers and decrease the use of coercion methods.

5.1. Limitations

The TAPE was created and internally content validated by staff who worked in the Region of Murcia (Spain). To obtain an optimal content validity, experts in their respective fields should assess this questionnaire. More prospective studies are needed in other regions in Spain and at the international level, to externally validate this questionnaire for its use in clinical practice. The TAPE questionnaire will identify triggers for agitation. More studies are needed to see if intervention on these triggers produces a reduction in agitation situations.
There was no construct validation, no examination with related scales, and no testing of organizational variables. Additionally, the absence of prior hypotheses could alter the value of the association of the scale or subscales with the characteristics of the personnel.
Another potential limitation is to consider the mental health personnel as a group, because the findings may not be homogeneous.

5.2. Suggestions for Future Works

Lastly, more collaboration is needed between the managers from the different centers, to implement the questionnaire at their institutions along with the center’s staff, with the commitment to improve the trigger conditions. The authors suggest future intervention studies that improve the level of training of the personnel, and that assess their repercussion on the number and quality of the mechanical restraints.

Author Contributions

Conceptualization I.O.-S.; methodology, A.J.S.-M.; formal analysis, A.J.S.-M.; I.O.-S., J.L.-P. and M.D.M.-Q.; investigation, I.O.-S., J.L.-P., M.D.M.-Q. and A.J.S.-M.; data curation, I.O.-S., J.L-P., M.D.M.-Q. and A.J.S.-M.; writing—original draft preparation, I.O.-S., J.L.-P., M.D.M.-Q. and A.J.S.-M.; writing—review and editing, I.O.-S., J.L.-P., M.D.M.-Q. and A.J.S.-M.; supervision, A.J.S.-M. and J.L.-P. All authors have read and agreed to the published version of the manuscript.

Funding

This research study did not receive any specific subsidies from public, commercial, or non-profit sectors.

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki, and approved by the Ethics Committee of General University Hospital José María Morales Meseguer of Murcia (protocol code CEIC: 61/17 and date of approval 14/12/2020).

Informed Consent Statement

Written informed consent has been obtained from the patient(s) to publish this paper.

Data Availability Statement

The data presented in this study are available on request from the corresponding author.

Acknowledgments

We thank the health professionals who participated in this research study, by sharing their work experience and completing the TAPE questionnaire, as well as their involvement in showing it to their work colleagues within the mental health network in Murcia.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Di Nunno, N.; Esposito, M.; Argo, A.; Salerno, M.; Sessa, F. Pharmacogenetics and Forensic Toxicology: A New Step towards a Multidisciplinary Approach. Toxics 2021, 9, 292. [Google Scholar] [CrossRef] [PubMed]
  2. Richmond, J.S.; Berlin, J.S.; Fishkind, A.B.; Holloman, G.H.; Zeller, S.L.; Wilson, M.P.; Rifai, M.A.; Ng, A.T. Verbal De-escalation of the Agitated Patient: Consensus Statement of the American Association for Emergency Psychiatry Project BETA De-escalation Workgroup. West. J. Emerg. Med. 2012, 13, 17–25. [Google Scholar] [CrossRef] [PubMed]
  3. Garriga, M.; Pacchiarotti, I.; Kasper, S.; Zeller, S.L.; Allen, M.H.; Vázquez, G.; Baldaçara, L.; San, L.; McAllister-Williams, R.H.; Fountoulakis, K.N.; et al. Assessment and management of agitation in psychiatry: Expert consensus. World J. Biol. Psychiatry 2016, 17, 86–128. [Google Scholar] [CrossRef] [PubMed]
  4. Knox, D.K.; Holloman, G.H. Use and Avoidance of Seclusion and Restraint: Consensus Statement of the American Association for Emergency Psychiatry Project BETA Seclusion and Restraint Workgroup. West. J. Emerg. Med. 2012, 13, 35–40. [Google Scholar] [CrossRef]
  5. Muir-Cochrane, E.; Oster, C.; Gerace, A.; Dawson, S.; Damarell, R.; Grimmer, K. The effectiveness of chemical restraint in managing acute agitation and aggression: A systematic review of randomized controlled trials. Int. J. Ment. Health Nurs. 2019, 29, 110–126. [Google Scholar] [CrossRef]
  6. Kallert, T.W.; Glöckner, M.; Onchev, G.; Raboch, J.; Karastergiou, A.; Solomon, Z.; Magliano, L.; Dembinskas, A.; Kiejna, A.; Nawka, P.; et al. The EUNOMIA project on coercion in psychiatry: Study design and preliminary data. World Psychiatry 2005, 4, 168–172. [Google Scholar]
  7. Holloman, G.H.; Zeller, S.L. Overview of Project BETA: Best Practices in Evaluation and Treatment of Agitation. West. J. Emerg. Med. 2012, 13, 1–2. [Google Scholar] [CrossRef] [Green Version]
  8. Gómez-Durán, E.L.; Guija, J.A.; Ortega-Monasterio, L. Ortega-Monasterio L. Medical-legal issues of physical and pharmacological restraint. Med. Clín. 2014, 142, 24–29. [Google Scholar] [CrossRef]
  9. Viñado, E.G.; Lizano-Díez, I.; Arissó, P.N.R.; Moreno, J.M.V.; Bernad, C.M.D.V. El coste económico de los procedimientos de contención mecánica de origen psiquiátrico en España. Psiquiatr. Biol. 2015, 22, 12–16. [Google Scholar] [CrossRef]
  10. UN. Resolution 43/13 Adopted by the Human Rights Council. “Mental health and human rights” A/HRC/RES/43/13. 2020. Available online: https://undocs.org/A/HRC/RES/43/13 (accessed on 1 September 2021).
  11. Bowers, L. Safewards: A new model of conflict and containment on psychiatric wards. J. Psychiatr. Ment. Health Nurs. 2014, 21, 499–508. [Google Scholar] [CrossRef]
  12. Fernández-Costa, D.; Gómez-Salgado, J.; Fagundo-Rivera, J.; Martín-Pereira, J.; Prieto-Callejero, B.; García-Iglesias, J.J. Alternatives to the Use of Mechanical Restraints in the Management of Agitation or Aggressions of Psychiatric Patients: A Scoping Review. J. Clin. Med. 2020, 9, 2791. [Google Scholar] [CrossRef] [PubMed]
  13. Simonelli-Muñoz, A.J.; Gallego-Gómez, J.I.; Fernández-García, N.; Rivera-Caravaca, J.M. Initial management of the patients with psychiatric involvement in hospital emergency departments: A systematic review. An. Sist. Sanit. Navar. 2021, 44, 71–81. [Google Scholar] [CrossRef] [PubMed]
  14. Vieta, E.; Garriga, M.; Cardete, L.; Bernardo, M.; Lombraña, M.; Blanch, J.; Catalán, R.; Vázquez, M.; Soler, V.; Ortuño, N.; et al. Protocol for the management of psychiatric patients with psychomotor agitation. BMC Psychiatry 2017, 17, 328. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  15. Huckshorn, K.A. Reducing seclusion restraint in mental health use settings: Core strategies for prevention. J. Psychosoc. Nurs. Ment. Health Serv. 2004, 42, 22–33. [Google Scholar] [CrossRef] [PubMed]
  16. Mario, W.L.; Moreira, J.J.P.C.; Rodrigues, N.K.; Saleem, K.; Igor, V. Illin, Postpartum Depression Prediction through Pregnancy Data Analysis for Emotion-aware Smart Systems. Inf. Fusion 2018, 47, 27–31. [Google Scholar]
  17. Gaynes, B.N.; Brown, C.; Lux, L.J.; Brownley, K.; van Dorn, R.; Edlund, M.; Coker-Schwimmer, E.; Zarzar, T.; Sheitman, B.; Weber, R.P.; et al. Strategies to De-escalate Aggressive Behavior in Psychiatric Patients [Internet]. Agency for Healthcare Research and Quality (US). Available online: https://www.ncbi.nlm.nih.gov/books/NBK379388/ (accessed on 19 April 2021).
  18. Ramesh, T.; Igoumenou, A.; Montes, M.V.; Fazel, S. Use of risk assessment instruments to predict violence in forensic psychiatric hospitals: A systematic review and meta-analysis. Eur. Psychiatry 2018, 52, 47–53. [Google Scholar] [CrossRef]
  19. Yudofsky, S.C.; Silver, J.M.; Jackson, W.; Endicott, J.; Williams, D. The Overt Aggression Scale for the objective rating of verbal and physical aggression. Am. J. Psychiatry 1986, 143, 35–39. [Google Scholar] [CrossRef]
  20. Palmstierna, T.; Wistedt, B. Staff observation aggression scale, SOAS: Presentation and evaluation. Acta Psychiatr. Scand. 1987, 76, 657–663. [Google Scholar] [CrossRef]
  21. Nijman, H.L.I.; Muris, P.; Merckelbach, H.L.G.J.; Palmstierna, T.; Wistedt, B.; Vos, A.M.; van Rixtel, A.; Allertz, W. The staff ob-servation aggression scale–revised (SOAS-R). Aggress. Behav. 1999, 25, 197–209. [Google Scholar] [CrossRef]
  22. Woods, P.; Almvik, R. The Brøset violence checklist (BVC). Acta Psychiatr. Scand. 2002, 106 (Suppl. 412), 103–105. [Google Scholar] [CrossRef]
  23. Kay, S.R.; Fiszbein, A.; Opler, L.A. The Positive and Negative Syndrome Scale (PANSS) for Schizophrenia. Schizophr. Bull. 1987, 13, 261–276. [Google Scholar] [CrossRef] [PubMed]
  24. Montoya, A.; Valladares, A.; Lizan, L.; San, L.; Escobar, R.; Paz, S. Validation of the Excited Component of the Positive and Negative Syndrome Scale (PANSS-EC) in a naturalistic sample of 278 patients with acute psychosis and agitation in a psychiatric emergency room. Health Qual. Life 2011, 9, 18. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  25. Ogloff, J.R.P.; Daffern, M. The dynamic appraisal of situational aggression: An instrument to assess risk for imminent aggression in psychiatric inpatients. Behav. Sci. Law 2006, 24, 799–813. [Google Scholar] [CrossRef] [PubMed]
  26. De Benedictis, L.; Dumais, A.; Sieu, N.; Mailhot, M.-P.; Letourneau, G.; Tran, M.-A.M.; Stikarovska, I.; Bilodeau, M.; Brunelle, S.; Côté, G.; et al. Staff Perceptions and Organizational Factors as Predictors of Seclusion and Restraint on Psychiatric Wards. Psychiatr. Serv. 2011, 62, 484–491. [Google Scholar] [CrossRef]
  27. Doedens, P.; Vermeulen, J.; Boyette, L.; Latour, C.; De Haan, L. Influence of nursing staff attitudes and characteristics on the use of coercive measures in acute mental health services—A systematic review. J. Psychiatr. Ment. Health Nurs. 2019, 27, 446–459. [Google Scholar] [CrossRef] [Green Version]
  28. Steinert, T.; Eisele, F.; Goeser, U.; Tschoeke, S.; Uhlmann, C.; Schmid, P. Successful interventions on an organisational level to reduce violence and coercive interventions in in-patients with adjustment disorders and personality disorders. Clin. Pr. Epidemiol. Ment. Health 2008, 4, 27. [Google Scholar] [CrossRef] [Green Version]
  29. Pelto-Piri, V.; Warg, L.-E.; Kjellin, L. Violence and aggression in psychiatric inpatient care in Sweden: A critical incident technique analysis of staff descriptions. BMC Health Serv. Res. 2020, 20, 1–11. [Google Scholar] [CrossRef]
  30. Weltens, I.; Bak, M.; Verhagen, S.; Vandenberk, E.; Domen, P.; van Amelsvoort, T.; Drukker, M. Aggression on the psychiatric ward: Prevalence and risk factors. A systematic review of the literature. PLoS ONE 2021, 16, e0258346. [Google Scholar] [CrossRef]
  31. Servicio Murciano De Salud- Plantillas De Personal Del Sector Público (s.f). Available online: https://transparencia.carm.es/plantillas-de-personal-del-sector-publico? (accessed on 21 May 2021).
  32. Nocete, L.; Carballeira, L.C.; López, I.; Cocho, C.; Fernández, A. Percepciones y Actitudes de los Profesionales de Salud men-tal en la Contención Mecánica. en Coordinador Beviá B y Bono A.Coerción y Salud Mental. Revisando las Prácticas de Coer-Ción en la Atención a las Personas Que Utilizan Los Servicios de Salud Mental; Asociación Española de Neuro-psi-Quiatría: Madrid, Spain, 2017; pp. 109–169. [Google Scholar]
  33. Yong, A.G.; Pearce, S. A Beginner’s Guide to Factor Analysis: Focusing on Exploratory Factor Analysis. Tutor. Quant. Methods Psychol. 2013, 9, 79–94. [Google Scholar] [CrossRef]
  34. Noohi, S.; Tavallaii, S.A.; Bazzaz, A.; Khoddami-Vishte, H.-R.; Saadat, S.H. Restlessness and psychomotor agitation after kidney transplantation: Their impact on perceived health status. Psychol. Health Med. 2008, 13, 249–256. [Google Scholar] [CrossRef]
  35. World Health Organization. WHO Qualityrights Tool Kit: Assessing and Improving Quality and Human Rights in Mental Health and Social Care Facilities; World Health Organization: Geneva, Switzerland, 2012; Available online: https://www.who.int/publications/i/item/9789241548410 (accessed on 30 December 2021).
  36. Krieger, E.; Moritz, S.; Lincoln, T.M.; Fischer, R.; Nagel, M. Coercion in psychiatry: A cross-sectional study on staff views and emotions. J. Psychiatr. Ment. Health Nurs. 2021, 28, 149–162. [Google Scholar] [CrossRef] [PubMed]
Table
Table 1. Test–retest of the items in the pilot study.
Table 1. Test–retest of the items in the pilot study.
ICC (CI 95%)Fp
1. Involuntary admission0.604 (0.215–0.800)2.5250.004
2. Change from voluntary to involuntary0.719 (0.444–0.858)3.5610.001
3. Schedules implemented0.690 (0.387–0.844)3.2310.001
4. Bathroom supervision0.765 (0.535–0.882)4.260.001
5. Taking of medication0.753 (0.511–0.875)4.0480.001
6. Smoker0.799 (0.602–0.899)4.9790.001
7. Assigned diets0.834 (0.671–0.916)6.0180.001
8. Water drinking monitoring0.773 (0.550–0.885)4.4040.001
9. Lack of patient clinical information0.795 (0.595–0.897)4.8860.001
10. TV use0.836 (0.675–0.917)6.1010.001
11. Not allowing calls/visits0.165 (−0.654–0.579)1.1980.041
12. Scarce infrastructures0.681 (0.368–0.839)3.1320.001
13. Hospitalization unit closed0.858 (0.719–0.928)7.0480.001
14. Not authorizing phone, laptop0.728 (0.460–0.862)3.6710.001
15. Not authorizing clothes from home0.854 (0.710–0.926)6.8350.001
16. Bad communication among care team0.718 (0.442–0.858)3.5520.001
17. Lack of qualified/specialized personnel0.482(−0.27–0.738)1.930.03
18. Lack of personnel training courses0.470 (−0.050–0.732)1.8860.034
Cronbach’s Alphatest0.791
retest0.892
Correlation between forms 0.758
Spearman–Brown Coefficient 0.862
ICC: intraclass correlation index.
Table
Table 2. Factorial analysis of the questionnaire: matrix of rotated components.
Table 2. Factorial analysis of the questionnaire: matrix of rotated components.
Kaiser–Meyer–Olkin Test0.804
Bartlett’s Sphericity Test<0.001
ItemsFactor 1
Personnel		Factor 2
Routines		Factor 3
Norms–Infrastructure		Factor 4
Clinic
1. Involuntary admission0.482
2. Change from voluntary to involuntary 0.478
3. Schedules implemented 0.746
4. Bathroom supervision 0.787
5. Medication schedule 0.594
6. Smoker 0.410
7. Diets 0.788
8. Water drinking monitoring 0.765
9. Lack of patient information0.476
10. TV use 0.535
11. No phone/visits 0.718
12. Scarce infrastructures 0.541
13. Closed hospitalization unit 0.654
14. Non phone/laptop use 0.669
15. No house clothes/pajamas 0.4750.522
16. Bad team communication0.702
17. Lack of qualified/specialized personnel0.893
18. Lack of training/verbal de-escalation0.850
Self-values
Variance		5.173
31.54%		2.341
14.27%		1.356
8.26%		1.083
6.60%
Table
Table 3. Descriptive statistics of the TAPE.
Table 3. Descriptive statistics of the TAPE.
Min.Max.MeanStd. dev.
Mean of factors and items153.490.51
Factor 1 (1, 9, 16, 17, and 18)154.160.63
Factor 2 (3, 4, 5, 6, 10, and 15)152.890.67
Factor 3 (11, 12, 13, 14, and 15)153.620.68
Factor 4 (2, 7, and 8)153.140.76
1. Involuntary admission154.310.74
2. Change from voluntary to involuntary154.240.86
3. Schedules implemented152.781.09
4. Bathroom supervision152.480.96
5. Taking of medication152.941.03
6. Smoker153.920.97
7. Assigned diets152.401.03
8. Water drinking monitoring152.811.05
9. Lack of patient clinical information153.840.93
10. TV use152.460.91
11. Not allowing calls/visits154.220.86
12. Scarce infrastructures154.070.89
13. Hospitalization unit closed153.571.10
14. Not authorizing phone, laptop153.481.04
15. Not authorizing clothes from home152.791.05
16. Bad communication among care team154.060.91
17. Lack of qualified/specialized personnel154.380.81
18. Lack of personnel training courses154.250.92
Table
Table 4. Association between the questionnaire on agitation triggers and the personal and employment factors of the personnel who work in MH.
Table 4. Association between the questionnaire on agitation triggers and the personal and employment factors of the personnel who work in MH.
Variables InvestigatedFactor 1
Personnel		Factor 2
Routines		Factor 3
Norms–Infrastructure		Factor 4
Clinic		Total
Questionnaire
Sex
Male (n = 36)4.03 ± 0.662.81 ± 0.713.48 ± 0.743.07 ± 0.883.39 ± 0.58
Female (n = 120)4.20 ± 0.622.91 ± 0.653.67 ± 0.663.27 ± 0.733.53 ± 0.48
p = 0.151p = 0.442p = 0.154p = 0.503p = 0.150
Professional Category
Nurse mental health (n = 73)4.22 ± 0.572.95 ± 0.603.64 ± 0.653.15 ± 0.753.54 ± 0.46
Psychiatrist (n = 33)4.13 ± 0.672.62 ± 0.673.52 ± 0.752.92 ± 0.733.34 ± 0.57
Psychologist (n = 8)4.10 ± 0.592.72 ± 0.753.55 ± 0.843.25 ± 0.683.43 ± 0.65
Nurse assistant (n = 15)3.89 ± 0.773.00 ± 0.833.53 ± 0.573.31 ± 1.013.45 ± 0.50
Ward staff (n = 6)3.43 ± 0.923.27 ± 0.773.70 ± 0.573.61 ± 0.493.50 ± 0.46
Residents in training (n = 21)4.44 ± 0.352.98 ± 0.653.79 ± 0.783.20 ± 0.753.64 ± 0.52
p = 0.006p = 0.105p = 0.783p = 0.330p = 0.355
Active Service
MHC (n = 53)4.32 ± 0.542.89 ± 0.723.82 ± 0.683.18 ± 0.783.59 ± 0.54
PH ward (n = 60)3.96 ± 0.752.93 ± 0.683.51 ± 0.683.07 ± 0.833.41 ± 0.50
Others (n = 26)4.29 ± 0.442.75 ± 0.603.50 ± 0.643.17 ± 0.603.46 ± 0.45
Currently unemployed MH (n = 17)4.20 ± 0.492.99 ± 0.603.60 ± 0.673.23 ± 0.743.53 ± 0.47
p = 0.013p = 0.637p = 0.079p = 0.826p = 0.278
Work experiencer= −0.18r= −0.31r= −0.19r= −0.15r= −0.29
(n = 156)p = 0.024p = 0.001p = 0.015p = 0.060p = 0.001
r: Pearson’s correlation coefficient. p: statistical significance. MH: mental health. MHC: mental health center. HP: psychiatric hospitalization.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Ortiz-Sandoval, I.; Martínez-Quiles, M.D.; López-Pérez, J.; Simonelli-Muñoz, A.J. Triggers of Agitation in Psychiatric Hospitalization Ward According to Professional Experience Questionnaire. Int. J. Environ. Res. Public Health 2022, 19, 2014. https://doi.org/10.3390/ijerph19042014

AMA Style

Ortiz-Sandoval I, Martínez-Quiles MD, López-Pérez J, Simonelli-Muñoz AJ. Triggers of Agitation in Psychiatric Hospitalization Ward According to Professional Experience Questionnaire. International Journal of Environmental Research and Public Health. 2022; 19(4):2014. https://doi.org/10.3390/ijerph19042014

Chicago/Turabian Style

Ortiz-Sandoval, Irene, María Dolores Martínez-Quiles, Jesús López-Pérez, and Agustín Javier Simonelli-Muñoz. 2022. "Triggers of Agitation in Psychiatric Hospitalization Ward According to Professional Experience Questionnaire" International Journal of Environmental Research and Public Health 19, no. 4: 2014. https://doi.org/10.3390/ijerph19042014

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop