Abstract
Background
Nursing staff training in using observational pain assessment tools is highly important to improve the assessment of pain. The present study was conducted to examine the effect of two different training methods (lectures vs. a social networking app) on the diagnosis and management of pain in mechanically-ventilated patients.
Methods
This quasi-experimental study was conducted on 70 nurses working in two Intensive Care Units (ICU) in Mashhad, Iran. The nurses were trained in the application of observational pain assessment tools by lectures or through a social networking app. Before and after the intervention, the nurses’ performance was evaluated in both groups using a checklist based on Critical-Care Pain Observation Tool (CPOT).
Results
In the pre-intervention phase, the nurses’ performance scores in the domains of pain diagnosis and pain management were not significantly different between the two groups (P > 0.05). Following the intervention, the mean score of pain diagnosis was 82 ± 19 in the lecture group and 97 ± 8 in the social networking app group (P < 0.01), and the mean pain management scores were 30 ± 17 and 90 ± 18 (P < 0.01), respectively.
Conclusion
This study showed that learning through a social networking app led to improved diagnosis and management of pain in mechanically-ventilated patients when compared with lectures. Training through social networking applications can therefore be considered as a feasible instructional method for developing nurses’ pain management skills.
Keywords: Social networking app, Critical-care pain observation tool, Nurse, Education, Intensive care unit, Lectures
Background
Pain is a common phenomenon and a major stressor in intubated patients [1–3]. In addition to the primary illness, factors such as endotracheal tube suctioning, chest tube insertion, and certain positions on the bed can induce pain in these patients [4–7]. Despite the advances in theories associated with pain control [8–10], pain is still a major problem in critically-ill patients admitted to intensive care units (ICUs), as 64% of ICU patients complain about pain during their ICU admission [11].
ICU nurses are the largest professional group delivering services in ICUs. Critically-ill patients and their families benefit from the attention of highly trained and skilled personnel. Competence is a multidimensional concept in intensive and critical care nursing and pain assessment and management are fundamental components of clinical nursing practice [12]. The failure to properly assess the pain experienced by critically-ill patients with lower levels of consciousness causes poor pain management [13].
Although the patients’ self-reporting of the presence and severity of pain is the preferred method for the diagnosis and management of pain [14], some patients are unable to verbalize their pain for various reasons, including reduced levels of consciousness or intubation [15]. Non-verbal pain management tools should be used in such patients. Although several pain assessment tools are available to nurses and the use of reliable behavioral scales is highly recommended for detecting pain in intubated patients, these scales are rarely used in practice [12, 16, 17]. One of the underlying causes of this deficiency is that nursing staff are not usually equipped with adequate training and skills and do not follow a routine pain management protocol [18].
Apart from knowing about the physiology of pain and effective pain management, nurses also need to be informed about reliable pain assessment tools and be trained to employ them [19–21]. Nonetheless, the results of previous studies have shown that a large number (approximately 50%) of ICU nurses lack knowledge on the key aspects of pain assessment [9].
The time constraints of nurses and the inherent limitations of traditional training methods necessitate the use of other methods, such as e-learning, in continuing education in nursing [22]. Nevertheless, these time and space constraints can be overcome and nurses can receive information on the latest scientific discoveries [23]. The incorporation of social networking apps (SNA) into the training process constitutes a new educational method based on information and communication technology. These applications can cause a dramatic transformation in the practice of education, as they facilitate instructor-learner interaction and cooperation [24].
Despite the high prevalence of pain among mechanically-ventilated patients, there is a lack of effective pain control in these patients, maybe due to insufficient staff training and skills [18, 25–27]. We, therefore decided to provide ICU nurses with the necessary knowledge and skills to use observational pain assessment tools and evaluate the outcomes. The method of training applied included two-way interaction through a SNA in the first group and lectures for the second one. The present study thus sought to evaluate the effect of these two methods on the pain diagnosis and management in mechanically-ventilated patients.
Methods
Study type and sample size
This quasi-experimental study was conducted on 70 nurses working in two ICUs of Imam Reza and Ghaem hospitals (the largest hospitals in the Northeast of Iran) affiliated to Mashhad University of Medical Sciences in 2018. The sample size was calculated by a pilot study conducted on 20 people (n = 10 per group) and using the formula for the comparison of two means for pain diagnosis and management with a significance level set at 0.05 and power at 0.8. Based on this calculation, the sample size for the main study was determined as 26 per group; however, to take account of potential sample dropout, 35 nurses were allocated to each group.
Inclusion and exclusion criteria
The inclusion criteria consisted of a minimum of 1 year of experience as an ICU nurse, submitting informed written consent to participate in the study, and no history of participation in Critical-Care Pain Observation Tool (CPOT) training programs. The exclusion criteria included unwillingness to continue participation, transfer to other parts of the hospital, taking a leave for longer than 2 weeks, and failure to attend the training sessions provided.
Sampling method
Initially, one of the two teaching hospitals was randomly selected with a coin toss as the intervention site (A). The other hospital was selected as the control site (B). Each hospital made up a single group in order to prevent information dissemination and contamination between the two groups. Then, 35 nurses were selected from each hospital from their eligible ICU staff and were assigned to their corresponding group.
Instruments
The CPOT is mainly concerned with the behavioral indicators of pain in patients unable to self-report pain. This tool measures pain with four indicators, including facial expressions, body movements, muscle tonicity, and ventilator resistance, in critically-ill adult patients under mechanical ventilation and has a minimum score of zero and a maximum of eight. This tool was validated in 2006 by Gelinas et al. [28] and its validity and reliability were confirmed in Iran by Rafiei et al. in 2015 [29].
The tool has been developed for assessment purposes only and therefore lacks items on nursing interventions after pain diagnosis. Nonetheless, since the present study intended to assess the effect of different training methods on nurses’ performance, a new CPOT-based tool had to be designed that would detect nurses’ performance in correctly identifying the presence of pain and its severity (Outcome: Pain diagnosis) and subsequently carry out pain-related interventions (Outcome: Pain management). Valid content was therefore developed for the intended items through a literature review and then were revised using a two-round modified Delphi technique [30] to establish expert consensus by gathering their opinions [31].
Round 1
Fourteen items which were extracted through literature review, were presented in an expert panel. The topics of the added items included: Notifying the physician about the presence of pain, documenting the presence and severity of pain in the patient’s medical record, implementing pain-relief interventions, documenting the interventions in the patient’s medical record, and assessing the outcomes of the implemented interventions. Three anesthesiologists, four qualified nurses, and three statisticians were asked to rate the clinical relevance of the items on a 5-point Likert scale (“extremely relevant”, “relevant”, “don’t know”, “probably not relevant” and “definitely not relevant”). Also, they were invited to add any additional relevant items if needed. Then the percentage of agreements were calculated. Items with acceptable agreement and consensus (predefined level was considered as 75%) were added to the final list.
Round 2
The revised checklist with five remaining items, was sent back to the same experts via email to be commented on (if needed) and finalized (Table 1).
Table 1.
A. Pain Diagnosis | Yes / No | |
---|---|---|
Nurse can detect the pain indicators from facial expressions of patient, correctly. For example: presence of frowning, brow lowering, orbit tightening and levator contraction or any other change (e.g. opening eyes or tearing during nociceptive procedures). | ||
Nurse can detect the pain indicators from body movements of patient, correctly. For example: Slow, cautious movements, touching or rubbing the pain site, seeking attention through movements, pulling tube, attempting to sit up, moving limbs/thrashing, not following commands, striking at staff, trying to climb out of bed | ||
Nurse can detect the pain indicators of patient’s compliance with the ventilator, correctly. For example: coughing, blocking ventilation, frequently activated alarms. | ||
Nurse can detect the pain indicators from muscle tension of patient, correctly. For example: Strong resistance to passive movements or incapacity to complete them. | ||
Total Score: | Mean Score: | Corrected Score (Mean %): |
B. Pain Management | ||
Nurse notifies the presence of pain and its severity to the physician, immediately. | ||
Nurse documents the presence and severity of pain in the patient’s medical record. | ||
Nurse implements pain-relief interventions. | ||
Nurse documents the interventions in the patient’s medical record. | ||
Nurse assesses the outcomes of the implemented interventions. | ||
Total Score: | Mean Score: | Corrected Score (Mean %): |
Scoring method
The correct items scored one point and the incorrect ones scored zero. The total score was calculated as the average of the scores multiplied by 100 to yield a score out of 100.
Validity and reliability
The face validity
The face validity of the observational pain management checklist was evaluated both qualitatively and quantitatively. For evaluating the qualitative face validity, ten physicians and nurses working in ICUs were invited to comment on the difficulty, relevance, and clarity of each of the items. For assessing the quantitative face validity, the same ten personnel were asked to rate the importance of the items on a five-point Likert scale (1: not important, 2: relatively important, 3: moderately important, 4: fairly important, and 5: completely important). For calculating the item impact score, the relative frequency of the physicians and nurses who gave a score of 4 or 5 to that item was multiplied by the mean importance score of the item. An impact score greater than 1.5 was taken to be appropriate [32].
The content validity
The Content Validity Ratio (CVR) and Content Validity Index (CVI) were also calculated in this step. For calculating the CVR, ten experts in instrument development with experience of working in ICUs were asked to score each item on a three-point scale (‘necessary’, ‘useful but not necessary’, and ‘unnecessary’). Then, based on Lawshe’s table, items with CVR values of 0.62 or higher were selected [33]. For calculating the CVI, the same ten experts were invited to rate the relevance of each item. For calculating the item-level content validity index (I-CVI), the number of experts who gave a score of 3 or 4 to a particular item was divided by the total number of experts. A CVI value of 0.78 or higher was considered satisfactory [34]. For calculating the scale-level content validity index (S-CVI), the S-CVI average (S-CVI/Ave) technique was used and an S-CVI/Ave value greater than 0.90 indicated a very good content validity.
Reliability
The checklist reliability was assessed by measuring the inter-observer agreement. Accordingly, two assessors evaluated the pain assessment performance of ten ICU personnel with regard to ten ventilated patients based on the pain observation checklist, and the checklist reliability was measured by calculating the intragroup correlation coefficient. The test-retest ICC was found as 0.8, indicating the good consistency of the tool.
Pre-intervention phase
At the beginning of the study, the checklist was used to evaluate the nurses’ performance with regard to ventilator-dependent patients with decreased consciousness in three positions, including the rest position, the changing position, and the suctioning of tracheal secretions. This phase took about 1 month due to the nurses’ shift changes and selecting the eligible patients.
One of the researchers (RF) plus one external evaluator (out of the research team) with more than 20 years of experience in ICUs assessed the nurses’ performance based on the checklist. These evaluators had knowledge and skills in using pain assessment tools, such as CPOT, and were blinded to the nurses’ group allocations.
These two individuals were selected because of their ongoing and accepted presence in ICUs to train para-medical students. They assessed the nurses’ performance in routine tasks without their awareness and without attracting the personnel’s attention so as to avoid influencing their performance. Every time the personnel assessed and recorded a patient’s pain using the CPOT, the evaluators determined the patient’s pain score concurrently using the same tool. They then recorded the pain score recorded by the nurse and the pain score judged by the evaluator and the nurse’s further actions in their checklist.
Intervention phase
SNA group
In this phase, other researchers (AS with two physician assistants) trained the nurses on the application of the CPOT. They created a group on Telegram messenger and sent join requests to the nurses in the intervention group, who then received training by text, photo, video, and audio messages on a daily basis for 2 weeks.
The educational content included explanations about various pain assessment methods, pain self-reporting methods, and pain assessment methods in patients unable to self-report their pain, and also full explanations about the CPOT and its scoring method and full description of necessary interventions after the diagnosis of pain.
If the nurses had any questions about the application of this tool or the educational content, they were encouraged to discuss it in the group. These questions were answered at the earliest opportunity, and other members’ answers were also discussed. Furthermore, the personnel were asked to send a confirmatory message to the group instructor each day after studying the educational material for that day.
LBT group
With a prior notice, the nurses in this group were asked to participate in the training sessions held in the conference room of the hospital. One of the authors (AS) gave lectures including PowerPoint presentations on the same material as that in the SNA group. Overall, two 90-min lectures were given once a week to this group.
Post-intervention phase
Two weeks after the intervention was completed, the nurses’ performance was re-measured in the same domains with the same instrument and by the same evaluators for 2 weeks.
Data analysis
The statistical analysis of the data was performed in SPSS Statistics 16 (IBM Inc., Chicago, IL, USA). This study used the Shapiro-Wilks test was used to determine the normal distribution of the variables. Also, the Pearson’s Chi-square test for contingency table analysis and the independent T-tests for between group comparisons were used. McNemar’s test was also used to assess the pain documentation rate in each group, before and after the intervention.
Results
Seventy participants were enrolled in the study. Two participants in the lecture group were excluded due to non-attendance and one in the SNA group due to unwillingness to join the social media network. Table 2 presents participants’ characteristics. The two groups did not differ in any of their basic characteristics before the interventions.
Table 2.
Variables | groups | p value | |
---|---|---|---|
LBT (33) | SNA (34) | ||
Mean ± SD | Mean ± SD | ||
Age (year) | 34 ± 6 | 34 ± 7 | P = 0.92 |
Work history (year) | 9 ± 5 | 9 ± 6 | P = 0.90 |
Gender | N (%) | N (%) | |
Male | 9 (27) | 5 (15) | P = 0.21 |
Female | 24 (73) | 29 (85) | |
Educational level | N (%) | N (%) | |
BsC | 30 (91) | 34 (100) | P = 0.11 |
MsC | 3 (9) | 0 (0) |
1. T-test, 2. Chi-square, 3. Exact fisher
LBT Lecture-Based Training,
SNA Social Networking App,
BsC Bachelor of Science,
MsC Master of Science
Before the intervention, there was no significant difference between nurses’ performance scores in the domain of pain diagnosis in the SNA and LBT groups (P = 0.46). Nonetheless, after the intervention, the nurses in the SNA group, acquired significantly higher scores than LBT nurses (P < 0.01; Table 3).
Table 3.
Performance scores | LBT group (33) | SNA group (34) | p-value |
---|---|---|---|
Before | 33 ± 34 (21.5, 45) | 39 ± 28 (28.5, 49) | 0.46 |
After | 82 ± 19 (75, 89) | 97 ± 8 (94, 100) | < 0.01 |
1. T-test
LBT Lecture-Based Training,
SNA Social Networking App
Similarly, before the intervention, there was no significant difference between nurses’ performance scores in the pain management domain (P = 0.59). Nonetheless, after the intervention, the nurses in the SNA group had better scores than in the LBT group (P < 0.01; Table 4).
Table 4.
Performance scores | LBT group (33) | SNA group (34) | p-value |
---|---|---|---|
Before | 20 ± 18.5 (13, 26) | 18 ± 11 (14, 22) | 0.59 |
After | 29.5 ± 17 (23.5, 36) | 90 ± 118 (84, 96) | < 0.01 |
1. T-test
LBT Lecture-Based Training,
SNA Social Networking App
Before the intervention, 55% of the nurses in the lecture group and 44% in the SNA group documented the patients’ pain in their medical record (P = 0.39), whereas after the intervention, 91 and 100% (P = 0.22), respectively, did so. The improvement in pain documentation was significant within both groups (P < 0.01, for both groups; McNemar’s test).
Discussion
The present study was conducted to compare ICU nurses’ training in the application of CPOT pain assessment tools using two methods, including SNA and LBT. According to our results, the two groups were not significantly different regarding the nurses’ performance in pain diagnosis and management before the intervention.
Nonetheless, after the intervention, the nurses’ performance showed a significant improvement in the SNA group compared to the LBT group. The comparison of the nurses’ performance scores in the pain management domain was also indicative of a significant increase in the SNA group compared to the LBT group. Although the mean scores in both indices were higher in the SNA group after the intervention, this effect was reportedly the most statistically significant in the pain management domain.
To the best of the researchers’ knowledge, no similar studies were yet conducted to compare training in CPOT application using both SNA and LBT; rather, most of the studies on the subject had used Social Network Sites (SNSs) as a new technology in health communication and research to teach, learn and enhance educational interactions. This technology was also used to create virtual communities to share knowledge in different domains [35, 36]. Their researchers had argued that such networks provide golden out-of-classroom teaching and learning opportunities [37–42].
Exhibiting desirable behaviors is the ultimate goal of designing and executing training programs [43]. The results of some studies, however, have shown that undergoing training in the pain domain does not always lead to more acceptable behaviors among the personnel [44, 45]. Teaching methods have been introduced as one of the most plausible reasons for this problem [46]. For instance, the content of lessons are not thoroughly discussed in traditional classrooms due to the time limitations and the uneven student-teacher interactions; therefore, learning does not truly take place at higher levels of education [47]. Nonetheless, the application of new methods such as SNSs for learning extends the boundaries of interaction beyond the classroom walls and provides greater learning opportunities due to the members’ increased participation in discussions [48]. This finding was confirmed by the improvement in the nurses’ performance in the SNA group. It seems that since the lecture-based classes were mainly held during the morning hours and inevitably attended by tired and drowsy night-shift nurses, the students have experienced a lower quality of learning and been reluctant to participate in class discussions and ask questions about the educational content. Conversely, the staff in the virtual group, who received the educational content at their convenient time and place, discussed deeper questions in their virtual group. The students’ inquiries and questions influence their intellectual formation under different circumstances. In other words, higher-level cognitive processes will not be stimulated in learners unless thoughtful and profound questions are posed [47, 49].
The proper leadership and management of the group along with the members’ involvement are one of the factors that bring success to social networks. A well-trained and skilled person coupled with energetic teaching assistants can initiate and lead online group discussions. Such group is key to the members’ success in acquiring the necessary skills. In the absence of a leader to organize and direct the members’ discussions, the group will gradually deviate from its original purpose and the members will only exchange pointless and non-educational messages [47]. Accordingly, in the present study, three clinical practitioners were present in the group and initiated purposeful educational discussions step by step in the group and answered the nurses’ questions at the earliest opportunity. These efforts maintained the quality of the messages, increased the educational value of the content, and discouraged irrelevant messages sent within the group.
Finally, adequate and standard training is needed for the accurate assessment of pain using assessment tools, including CPOT, and the improvement of nurses’ performance in pain diagnosis and management [22]. Therefore, apart from the provision of useful and appropriate educational content, more effective teaching methods should also be applied. The results of one meta-analysis study indicated that SNS-based interventions are effective in changing health behaviors [50]. Nonetheless, the application of these networks is associated with certain concerns and limitations. For instance, learning how to use SNS poses a major challenge to some healthcare professionals. Unawareness about the technical aspects of SNSs has also been identified as one of the barriers to their application [51, 52]. In addition, considerable doubt exists over data protection and patient privacy [53]. Furthermore, not all the reviewed studies reported the use of SNSs to be helpful or effective for the participants. For example, some students regarded collaborative and group learning as ineffective teaching methods [54]. Another study also reported participants’ reluctance to use Twitter to enhance their educational experience [37]. Nonetheless, this unwillingness was due to the one-way information flow. The creation of an interactive relationship between the students and the professors and among peers (as our study) can help overcome such challenges.
One of the most notable limitations of the present study was that the nurses’ performance was assessed only for a short period after the training. Although nurses’ knowledge and performance may change over time, this study was incapable of continuing the assessment for a prolonged period due to organizational and financial constraints. Although the intervention and control hospitals were selected randomly, the random selection and allocation of the subjects to the lecture and social network groups was not possible because of the chances of cross-group contamination due to the close and ongoing communication between the subjects. Therefore, the candidates from one hospital were assigned to the control group and those from the other hospital to the intervention group. Furthermore, the evaluators of the nurses’ performance had a relatively continuous presence in these departments as nursing students’ instructors. Consequently, their presence was completely natural for the staff. Nonetheless, attempts were made to evaluate the nurses’ performance confidentially in order to minimize the potential impact of the researchers’ presence on the performances.
Conclusion
This study showed that learning through a SNA leads to improved diagnosis and management of pain in mechanically-ventilated patients when compared with lectures. Training through social networking applications can therefore be considered as a feasible instructional method for continuing development of nurses’ pain management skills.
Acknowledgements
The present study was derived from a research project (code: 960373) in Mashhad University of Medical Sciences, Mashhad, Iran. We appreciate the support of the Deputy of Research of Mashhad University of Medical Sciences. Also, the authors’ deepest appreciation goes to all the nurses involved in the study.
Abbreviations
- ICU
Intensive care unit
- CPOT
Critical-care pain observation tool
- LBT
Lecture-based training
- SNS
Social network site
- SNA
Social network application
Authors’ contributions
Study concept and design: KD, RF, AS, SRM. Providing the educational materials and teaching: KD, AS. Statistical analysis and interpretation of data: KD, RF, SRM. Data collection co-wrote the paper: All authors. Manuscript drafting: KD, RF. Critical revision and approval of the manuscript as for important intellectual content: All authors.
Funding
Deputy of Research of Mashhad University of Medical Sciences.
Availability of data and materials
The datasets generated and analyzed during the current study are available from the corresponding author on reasonable request.
Ethics approval and consent to participate
Before the start of the study, the approval of the Regional Research Ethics Committee was obtained under the code IR.MUMS.REC.1396.287. In addition, the study was registered in the Iran Clinical Trial Center under the code IRCT20171123037599N1. The principles of confidentiality and informed consent were observed carefully.
Consent for publication
The article does not contain any individual’s details and consent for publication is not applicable.
Competing interests
The authors declare that they have no competing interests.
Footnotes
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
References
- 1.Campbell GB, Happ MB. Symptom identification in the chronically critically ill. AACN Adv Crit Care. 2010;21(1):64. doi: 10.1097/NCI.0b013e3181c932a8. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 2.Pandharipande PP, Patel MB, Barr J. Management of pain, agitation, and delirium in critically ill patients. Pol Arch Med Wewn. 2014;124(3):114–122. doi: 10.20452/pamw.2136. [DOI] [PubMed] [Google Scholar]
- 3.Stanik-Hutt JA, Soeken KL, Belcher AE, Fontaine DK. Pain experiences of traumatically injured patients in a critical care setting. Am J Crit Care. 2001;10(4):252. [PubMed] [Google Scholar]
- 4.Arroyo-Novoa CM, Figueroa-Ramos MI, Puntillo KA, Stanik-Hutt J, Thompson CL, White C, Wild LR. Pain related to tracheal suctioning in awake acutely and critically ill adults: a descriptive study. Intensive Crit Care Nurs. 2008;24(1):20–27. doi: 10.1016/j.iccn.2007.05.002. [DOI] [PubMed] [Google Scholar]
- 5.Bergeron DA, Leduc G, Marchand S, Bourgault P. Descriptive study of the evaluation process and documentation of postoperative pain in a university hospital [in French] Pain Res Manag. 2011;16:81–86. doi: 10.1155/2011/480479. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 6.Li D, Miaskowski C, Burkhardt D, Puntillo K. Evaluations of physiologic reactivity and reflexive behaviors during noxious procedures in sedated critically ill patients. J Crit Care. 2009;24(3):472. e479–472. e413. doi: 10.1016/j.jcrc.2008.07.005. [DOI] [PubMed] [Google Scholar]
- 7.Pudas-Tähkä SM, Axelin A, Aantaa R, Lund V, Salanterä S. Pain assessment tools for unconscious or sedated intensive care patients: a systematic review. J Adv Nurs. 2009;65(5):946–956. doi: 10.1111/j.1365-2648.2008.04947.x. [DOI] [PubMed] [Google Scholar]
- 8.Gélinas C, Johnston C. Pain assessment in the critically ill ventilated adult: validation of the critical-care pain observation tool and physiologic indicators. Clin J Pain. 2007;23(6):497–505. doi: 10.1097/AJP.0b013e31806a23fb. [DOI] [PubMed] [Google Scholar]
- 9.Shannon K, Bucknall T. Pain assessment in critical care: what have we learnt from research. Intensive Crit Care Nurs. 2003;19(3):154–162. doi: 10.1016/s0964-3397(03)00027-2. [DOI] [PubMed] [Google Scholar]
- 10.Watt-Watson J, Stevens B, Garfinkel P, Streiner D, Gallop R. Relationship between nurses’ pain knowledge and pain management outcomes for their postoperative cardiac patients. J Adv Nurs. 2001;36(4):535–545. doi: 10.1046/j.1365-2648.2001.02006.x. [DOI] [PubMed] [Google Scholar]
- 11.Sole ML, Klein DG, Moseley MJ: Introduction to critical care Nursing6: introduction to critical care nursing: Elsevier health sciences; 2013.
- 12.Rose L, Smith O, Gélinas C, Haslam L, Dale C, Luk E, Burry L, McGillion M, Mehta S, Watt-Watson J. Critical care nurses’ pain assessment and management practices: a survey in Canada. Am J Crit Care. 2012;21(4):251–259. doi: 10.4037/ajcc2012611. [DOI] [PubMed] [Google Scholar]
- 13.Akhond M, Froutan R, Malekzadeh J, Mazlom SR. The effect of implementation of a pain monitoring protocol on the pain intensity in the intensive care unit semiconscious patients. Evid Based Care. 2017;7(2):37–45. [Google Scholar]
- 14.Pasero C. Challenges in Pain Assessment. J Perianesth Nurs. 2009;24(1):50–54. doi: 10.1016/j.jopan.2008.10.002. [DOI] [PubMed] [Google Scholar]
- 15.Barr J, Fraser GL, Puntillo K, Ely EW, Gélinas C, Dasta JF, Davidson JE, Devlin JW, Kress JP, Joffe AM, et al. Clinical practice guidelines for the Management of Pain, agitation, and delirium in adult patients in the intensive care unit. Read Online: Critical Care Medicine. Soc Crit Care Med. 2013;41(1):263–306. doi: 10.1097/CCM.0b013e3182783b72. [DOI] [PubMed] [Google Scholar]
- 16.Payen J-F, Chanques G, Mantz J, Hercule C, Auriant I, Leguillou J-L, Binhas M, Genty C, Rolland C, Bosson J-L. Current practices in sedation and analgesia for mechanically ventilated critically ill PatientsA prospective multicenter patient-based study. J Am Soc Anesthesiol. 2007;106(4):687–695. doi: 10.1097/01.anes.0000264747.09017.da. [DOI] [PubMed] [Google Scholar]
- 17.Heidarzadeh M, Hasani P, Rahimzadeh A, Ghahramanian A, Kolahdouzi Pour J, Yousefi I. Quality of life and social support in congestive heart failure patients and healthy people. J Holist Nurs Midwifery. 2013;23(1):13–21. [Google Scholar]
- 18.Deldar K, Froutan R, Ebadi A. Challenges faced by nurses in using pain assessment scale in patients unable to communicate: a qualitative study. BMC Nurs. 2018;17(1):11. doi: 10.1186/s12912-018-0281-3. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 19.Gélinas C, Arbour C, Michaud C, Vaillant F, Desjardins S. Implementation of the critical-care pain observation tool on pain assessment/management nursing practices in an intensive care unit with nonverbal critically ill adults: a before and after study. Int J Nurs Stud. 2011;48(12):1495–1504. doi: 10.1016/j.ijnurstu.2011.03.012. [DOI] [PubMed] [Google Scholar]
- 20.Huijer HA, Miaskowski C, Quinn R, Twycross A: IASP curriculum outline on pain for nursing; 2013.
- 21.Gélinas C. Pain assessment in the critically ill adult: recent evidence and new trends. Intensive Crit Care Nurs. 2016;34:1–11. doi: 10.1016/j.iccn.2016.03.001. [DOI] [PubMed] [Google Scholar]
- 22.Björn A, Pudas-Tähkä S-M, Salanterä S, Axelin A. Video education for critical care nurses to assess pain with a behavioural pain assessment tool: a descriptive comparative study. Intensive Crit Care Nurs. 2017;42:68–74. doi: 10.1016/j.iccn.2017.02.010. [DOI] [PubMed] [Google Scholar]
- 23.Ebrahimi Kooshkmahdi S. The utilization of web-based continuing medical education courses in Mashhad University of Medical Sciences and its relationship with course characteristics. Iran J Med Educ. 2012;12(2):74–83. [Google Scholar]
- 24.Ahmad A. Social network sites and its popularity. Int J Res Rev Comput Sci. 2011;2(2):522–526. [Google Scholar]
- 25.Alkhatib GS, Al Qadire M, Alshraideh JA. Pain Management Knowledge and Attitudes of Healthcare Professionals in Primary Medical Centers. Pain Manag Nurs. 2020;21(3):265–70. 10.1016/j.pmn.2019.08.008. [DOI] [PubMed]
- 26.Kahsay DT, Pitkäjärvi M. Emergency nurses´ knowledge, attitude and perceived barriers regarding pain Management in Resource-Limited Settings: cross-sectional study. BMC Nurs. 2019;18(1):56. doi: 10.1186/s12912-019-0380-9. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 27.Farahani P, Alhani F. Barriers to the use of pain assessment tools for children by nurses. J Nurs Midwifery. 2008;18:40–44. [Google Scholar]
- 28.Cl G, Fillion L, Puntillo KA, Viens C, Fortier M. Validation of the critical-care pain observation tool in adult patients. Am J Crit Care. 2006;15(4):420–427. [PubMed] [Google Scholar]
- 29.Rafiei M, Ghadami A, Irajpour A, Feizi A. Validation of critical care pain observation tool in patients hospitalized in surgical wards. Iran J Nurs Midwifery Res. 2016;21(5):464–469. doi: 10.4103/1735-9066.193391. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 30.Berger-Estilita J, Nabecker S, Greif R. A Delphi consensus study for teaching “Basic Trauma Management” to third-year medical students. Scand J Trauma Resusc Emerg Med. 2019;27(1):91. doi: 10.1186/s13049-019-0675-6. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 31.Newman LR, Lown BA, Jones RN, Johansson A, Schwartzstein R. Developing a peer assessment of lecturing instrument: lessons learned. Acad Med. 2009;84(8):1104–1110. doi: 10.1097/ACM.0b013e3181ad18f9. [DOI] [PubMed] [Google Scholar]
- 32.Broder HL, McGrath C, Cisneros GJ. Questionnaire development: face validity and item impact testing of the child Oral health impact profile. Community Dent Oral Epidemiol. 2007;35(s1):8–19. doi: 10.1111/j.1600-0528.2007.00401.x. [DOI] [PubMed] [Google Scholar]
- 33.Lawshe C. A quantitative approach to content validity. Pers Psychol. 1975;28(4):563–575. [Google Scholar]
- 34.Polit DF, Beck CT, Owen SV. Is the CVI an acceptable indicator of content validity? Appraisal and recommendations. Res Nurs Health. 2007;30(4):459–467. doi: 10.1002/nur.20199. [DOI] [PubMed] [Google Scholar]
- 35.Capurro D, Cole K, Echavarria MI, Joe J, Neogi T, Turner AM. The use of social networking sites for public health practice and research: a systematic review. J Med Internet Res. 2014;16(3):e79. doi: 10.2196/jmir.2679. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 36.Chan WS, Leung AY. Use of social network sites for communication among health professionals: systematic review. J Med Internet Res. 2018;20(3):e117. doi: 10.2196/jmir.8382. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 37.Reames BN, Sheetz KH, Englesbe MJ, Waits SA. Evaluating the use of twitter to enhance the educational experience of a medical school surgery clerkship. J Surg Educ. 2016;73(1):73–78. doi: 10.1016/j.jsurg.2015.08.005. [DOI] [PubMed] [Google Scholar]
- 38.Ali A. Medical students' use of Facebook for educational purposes. Perspect Med Educ. 2016;5(3):163–169. doi: 10.1007/s40037-016-0273-5. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 39.Kostka-Rokosz MD, Camiel LD, McCloskey WW. Pharmacy students’ perception of the impact of a Facebook-delivered health news service—two-year analysis. Curr Pharm Teach Learn. 2014;6(4):471–477. [Google Scholar]
- 40.Fox BI, Varadarajan R. Use of twitter to encourage interaction in a multi-campus pharmacy management course. Am J Pharm Educ. 2011;75(5):88. doi: 10.5688/ajpe75588. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 41.Desselle SP. The use of twitter to facilitate engagement and reflection in a constructionist learning environment. Currents in pharmacy teaching & learning. 2017;9(2):185–194. doi: 10.1016/j.cptl.2016.11.016. [DOI] [PubMed] [Google Scholar]
- 42.Raiman L, Antbring R, Mahmood A. WhatsApp messenger as a tool to supplement medical education for medical students on clinical attachment. BMC Med Educ. 2017;17(1):7. doi: 10.1186/s12909-017-0855-x. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 43.Cilliers FJ, Herman N. Impact of an educational development programme on teaching practice of academics at a research-intensive university. Int J Acad Dev. 2010;15(3):253–267. [Google Scholar]
- 44.Francis L, Fitzpatrick JJ. Postoperative pain: nurses' knowledge and patients' experiences. Pain Manag Nurs. 2013;14(4):351–357. doi: 10.1016/j.pmn.2012.05.002. [DOI] [PubMed] [Google Scholar]
- 45.Overmeer T, Boersma K, Denison E, Linton SJ. Does teaching physical therapists to deliver a biopsychosocial treatment program result in better patient outcomes? A randomized controlled trial. Phys Ther. 2011;91(5):804–819. doi: 10.2522/ptj.20100079. [DOI] [PubMed] [Google Scholar]
- 46.Kusi Amponsah A, Björn A, Bam V, Axelin A. The effect of educational strategies targeted for nurses on pain assessment and Management in Children: an integrative review. Pain Manag Nurs. 2019. [DOI] [PubMed]
- 47.Yang Y-TC. A catalyst for teaching critical thinking in a large university class in Taiwan: asynchronous online discussions with the facilitation of teaching assistants. Educ Technol Res Dev. 2008;56(3):241–264. [Google Scholar]
- 48.Hung H-T, Yuen SC-Y. Educational use of social networking technology in higher education. Teach High Educ. 2010;15(6):703–714. [Google Scholar]
- 49.King A. Enhancing peer interaction and learning in the classroom through reciprocal questioning. Am Educ Res J. 1990;27(4):664–687. [Google Scholar]
- 50.Laranjo L, Arguel A, Neves AL, Gallagher AM, Kaplan R, Mortimer N, Mendes GA, Lau AY. The influence of social networking sites on health behavior change: a systematic review and meta-analysis. J Am Med Inform Assoc. 2015;22(1):243–256. doi: 10.1136/amiajnl-2014-002841. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 51.Patel SS, Hawkins CM, Rawson JV, Hoang JK. Professional social networking in radiology: who is there and what are they doing? Acad Radiol. 2017;24(5):574–579. doi: 10.1016/j.acra.2016.09.026. [DOI] [PubMed] [Google Scholar]
- 52.Nikiphorou E, Studenic P, Ammitzboll CG, Canavan M, Jani M, Ospelt C, Berenbaum F. Social media use among young rheumatologists and basic scientists: results of an international survey by the emerging EULAR network (EMEUNET) Ann Rheum Dis. 2017;76(4):712–715. doi: 10.1136/annrheumdis-2016-209718. [DOI] [PubMed] [Google Scholar]
- 53.Lofters AK, Slater MB, Nicholas Angl E, Leung FH. Facebook as a tool for communication, collaboration, and informal knowledge exchange among members of a multisite family health team. J Multidiscip Healthc. 2016;9:29–34. doi: 10.2147/JMDH.S94676. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 54.Wang T, Wang F, Shi L. The use of microblog-based case studies in a pharmacotherapy introduction class in China. BMC Med Educ. 2013;13(1):120. doi: 10.1186/1472-6920-13-120. [DOI] [PMC free article] [PubMed] [Google Scholar]
Associated Data
This section collects any data citations, data availability statements, or supplementary materials included in this article.
Data Availability Statement
The datasets generated and analyzed during the current study are available from the corresponding author on reasonable request.