An innovative nonpharmacological intervention combined with intravenous patient-controlled analgesia increased patient global improvement in pain and satisfaction after major surgery

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Neuropsychiatric Disease and Treatment 2017:13 1033–1042

Neuropsychiatric Disease and Treatment

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an innovative nonpharmacological intervention

combined with intravenous patient-controlled

analgesia increased patient global improvement

in pain and satisfaction after major surgery

chia-chun chuang1 chien-ching lee1,2 li-Kai Wang1 Bor-shyh lin2 Wen-Ju Wu1 chung-han ho3 Jen-Yin chen1,4 1_{Department of anesthesiology,}

chi Mei Medical center, 2_Department

of imaging and Biomedical Photonics, National chiao Tung University, 3_{Department of Medical}

research, chi Mei Medical center,

4_{Department of the senior citizen}

service Management, chia Nan University of Pharmacy and science, Tainan, Taiwan, republic of china

Purpose: This study aimed to evaluate whether a nonpharmacological approach through

implementation of a communication improvement program (named CICARE for Connect, Introduce, Communicate, Ask, Respond and Exit) into standard operating procedure (SOP) in acute pain service (APS) improved satisfaction in patients receiving intravenous patient-controlled analgesia (IV-PCA).

Patients and methods: This was a nonrandomized before–after study. Adult patients (aged

between 20 and 80 years) who received IV-PCA after major surgery were included. Imple-menting CICARE into SOP was conducted in APS. Anonymous questionnaires were used to measure outcomes in this prospective two-part survey. The first part completed by APS nurses contained patients’ characteristics, morphine dosage, delivery/demand ratios, IV-PCA side effects and pain at rest measured with an 11-point numeric rating scale (NRS, 0–10). A score of NRS 4 was defined as inadequately treated pain. The ten-question second part was com-pleted by patients voluntarily after IV-PCA was discontinued. Each question was assessed with a 5-point Likert scale (1: extremely poor; 5: excellent). Patients were separated into “before” and “after” CICARE groups. Primary outcomes were patient global impression of improvement in pain (PGI-Improvement) and patient satisfaction. Secondary outcomes included quality of communication skills, instrument proficiency and accessibility/availability of IV-PCA.

Results: The response rate was 55.3%, with 187 usable questionnaires. CICARE effectively

improved patient global impression of improvement in pain, patient satisfaction, communication skills and accessibility/availability of IV-PCA. No significant differences were noted in instrument proficiency, morphine dosage, delivery/demand ratios, rates of inadequately treated pain at rest and side effects of IV-PCA between groups. Paradoxical findings were noted between the rates of inadequately treated pain/side effects and PGI-Improvement in pain/patient satisfaction, which were affected by psychological factors.

Conclusion: Nonpharmacological interventions carried out by implementing CICARE into

SOP for APS effectively improved patient satisfaction and postoperative pain management quality, but this did not affect actual pain.

Keywords: acute pain service, patient–physician communication, nonpharmacological

approach, patient-controlled analgesia, patient satisfaction

Introduction

Postoperative acute pain is an important issue. Poor management of postoperative acute pain may lead to severe complications such as pneumonia, deep vein thrombosis and correspondence: Jen-Yin chen

Department of anesthesiology, chi Mei Medical center,

No 901, Zhonghua road, Yongkang, Tainan 710, Taiwan, republic of china Tel +886 6 281 2811 53322

Fax +886 6 283 2639 email [email protected]

Journal name: Neuropsychiatric Disease and Treatment Article Designation: Original Research

Year: 2017 Volume: 13

Running head verso: Chuang et al

Running head recto: Nonpharmacological interventions and acute pain DOI: http://dx.doi.org/10.2147/NDT.S131517

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chronic pain. IV-PCA has been widely used for postoperative pain management. Improvement of both pain management efficacy and care quality is essential for achieving better outcomes in postoperative IV-PCA patients.1,2_Proposed

methods include pharmacological and nonpharmacological approaches, such as effective formulas, to lower pain intensity, the reduction of side effects, an easier PCA mechanical design and reaching patients’ perceptions of support.3–6

PCA is often provided by an APS team, which is composed of anesthesiologists and nurses with specialized training in pain management.7,8_{The amount of time anesthesiologists}

spend conferring with patients is usually limited compared to that by other physicians because of job attributes. From a patient’s perspective, time spent with physicians is associ-ated with the patient–physician relationship,9_{which effective}

communication greatly affects.10,11_{Therefore, it is important}

for anesthesiologists to improve pain management efficacy and care quality by establishing effective communication regard-less of time constraints. More importantly, communication skills are learnable, improvable and measurable.12

CICARE is a quality improvement program developed by the UCLA Medical Center to improve communication skills and patient care.13_{Moreover, Stanford Health Care’s}

CICARE also supports the validity and the reliability of this nonpharmacological intervention in clinical practice.14

It targets six communication behaviors, which are as follows: Connect (make eye contact and connect with patients and family members by addressing them appropriately), Introduce (introduce yourself properly), Communicate (pertinent infor-mation), Ask (patient’s needs and condition), Respond (prompt response) and Exit (exit courteously after explanation).15

A team approach may help manage the physician’s time more effectively and enhance the patient–physician relationship positively.16,17_{In addition, the standardization of medical}

procedures is central to any improvement of patient care.17

Accordingly, a nonpharmacological intervention through CICARE training and SOP for ward visits was expected to improve the efficacy and quality of pain management for the APS team.

Patient satisfaction is a patient-reported outcome that has been shown to be an index of health care quality and effective communication.2,18_{Patient questionnaires are useful}

for measuring the behavioral skills of team members and the quality of patient care.19,20_{Therefore, a questionnaire}

survey in groups “before” and “after” CICARE was con-ducted anonymously to investigate whether implementing CICARE through SOP for the APS team improved communication skills, PGI-Improvement in pain and patient satisfaction in patients receiving postoperative IV-PCA.17,21

Moreover, morphine dosage, delivery/demand ratio, pain severity and the rates of side effects of IV-PCA after surgery were compared between the groups.

Patients and methods

The prospective study was approved by the IRB of Chi Mei Medical Center, a 1,200-bed hospital that provides primary, outpatient and specialty care services to the local population of Tainan, Taiwan (IRB approval number: 09904-009) and was registered in a publicly accessible database (Trial ID: UMIN000016342).

aPs team and pain assessment

At the Chi Mei Medical Center, a nurse-based, anesthesiologist-supervised team offers APS, which is available 24 hours a day and 7 days a week. APS team members visited the IV-PCA patients twice a day regularly. The initial visit was provided by an anesthesiologist and a pain nurse, whereas the follow-up visits were usually performed by pain nurses. A standard IV-PCA formula of morphine was used to ensure the uniformity of the PCA service. PCA machines were routinely set to deliver a bolus dose without continu-ous infusion.22_{Pain severity was measured on an 11-point}

verbal NRS, with 0 indicating no pain and 10 representing the worst pain imaginable.21_{A score of NRS 4, defined as}

inadequately treated pain, was promptly treated by dosage adjustments.23_{For each patient, the effectiveness of analgesia}

and the side effects were assessed and recorded during every visit. If there were any problems related to IV-PCA, an anesthesiologist responded immediately and performed an extra visit 2–4 hours later.22

Patient population

Adult patients (aged between 20 and 80 years) who received IV morphine via a PCA device for at least 2 days were included. Currently, PCA use lasts no more than 3–4 days.3

Exclusion criteria included ICU patients and those who were blind, deaf or sedated. Based on chart reviews and/or state-ments of patients and patients’ families, patients suffering from preoperative cognitive impairment and/or dementia, as well as patients with daily use of opioid analgesics and nonopioid medications (eg, gabapentinoids and tricyclic anti-depressants) 30 days before their operation, were excluded. Moreover, patients with anesthetic/surgical complications were excluded.3,22

instrument and intervention

Using survey questionnaires, the care quality of acute pain management in postoperative patients receiving IV-PCA

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was investigated. An anonymous two-part questionnaire was used in this study (Table 1).24_{The first part was assessed}

and recorded by APS pain nurses. It contained patients’ characteristics, pain severity at rest and side effects of IV-PCA in the “first” and “second” 24 hours after surgery. The second part was completed by patients voluntarily after the termination of IV-PCA usage. PSQs have been identi-fied as a validated tool for assessing the care quality from the patient’s perspective.25_{Based on the five dimensions of}

PSQ-18, this questionnaire was designed and simplified to ten questions26_{(Table 2). Each question (Q) was assessed}

using the 5-point Likert scale, with 1 indicating extremely poor and 5 indicating excellent. Q1 and Q2 were related to the dimension of “accessibility and convenience”, as acces-sibility and availability of PCA information and device; Q3 and Q4 asked about the dimension of “communication”, as quality of communication skills; Q5–Q7 investigated the dimension of “interpersonal manner”, as the attitude of managing patient’s problem; Q8 dealt with the dimension of “technical quality”, as instrument proficiency; Q9 and Q10 were related to the dimension of “general satisfaction”, as PGI-Improvement in pain and patient overall satisfaction with APS. The content validity of this questionnaire was confirmed by five experts in pain management at the Chi Mei Medical Center with I-CVI of 0.85.27_{The reliability of}

this questionnaire was confirmed by the Cronbach’s alpha value of 0.947 in the pretest 50 questionnaires.

CICARE has been implemented throughout Chi Mei Medical Center since September 2013.15_Accordingly,

members of the APS team received CICARE training in September 2013. The SOP of CICARE for APS team members during ward visits was established. An additional file shows this in more detail (Supplementary material). The importance of CICARE is regularly reinforced during monthly APS staff meetings.28

This study was a single-blind study. The APS team mem-bers had deep understanding of skills needed for performing CICARE during visits to patients, while patients did not know about CICARE strategy. For assessing the efficacy of CICARE, patients who received major surgery under general anesthesia were separated into two groups: “before” and “after” CICARE. Patients’ data in September 2013 were excluded because the APS team was trained for “CICARE” during this period. The before time frame was from April 1, 2013, to August 31, 2013, and the after time frame was from October 1, 2013, to February 28, 2014 (study design flowchart is shown in Figure 1).

ethical approval

A communication skill program can give rise to misun-derstanding questions, and behavior or communication patterns included in the program may affect the patients, leading to psychiatric disorders such as depression or anxi-ety, if not done properly by one of the team or the patient. In particular, patients suffering from personality disorders may be highly affected by any type of communication behavior.29_{In this research, the CICARE program of a}

regular service was applied to IV-PCA patients after major surgery (Table S1). We consulted psychiatrists to help understand the morality of patients when any behavior or communication problems occurred postoperatively.22_The

CICARE strategy applied by UCLA Medical Center and Stanford Medical Center has been shown to achieve excel-lence and improvement in both medical quality and patient satisfaction. Hence, the research presented no risk to the subjects.13–15_{The questionnaire was anonymous. Thus, the}

Table 1 Visitation schedule and assessment of questionnaires

Questionnaire contents Screening Daily ward visits After termination of IV-PCA

Part 1: recorded by pain nurses

Patients’ characteristics  – –

Pain severity and total daily dosage of morphine

–  –

side effects of iV-Pca –  –

Part 2: a 10-item questionnaire completed by patients voluntarily

– – 

Note: The dot indicates the action that should be conducted. Abbreviation: iV-Pca, intravenous patient-controlled analgesia.

Table 2 Dimensions of the survey questionnaire used to evaluate the care quality of acute pain services

Dimensions Question and assessment

accessibility and convenience

accessibility: Q1 – Pca information

availability: Q2 – Pca device and pain treatment

communication communication skills: Q3 – initial explanation on the use of Pca; Q4 – follow-up questions during ward visits interpersonal manner ask-and-response: Q5 – for ward nurses; Q6 and Q7 – for acute pain service team members

Technical quality Instrument proficiency: Q8 – operating the PCA device

general satisfaction global improvement: Q9 – patient global impression of improvement in pain Overall satisfaction: Q10 – patient overall satisfaction with acute pain services

Abbreviations: Q, question; Pca, patient-controlled analgesia.

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IRB of Chi Mei Medical Center approved this study and also approved the use of an oral consent procedure rather than a written consent form for the collection and use of the medical information for all subjects.13

Outcome measures

Primary outcomes were PGI-Improvement in pain and patient overall satisfaction with APS.21_{Secondary outcomes}

included accessibility and availability of PCA information and device, quality of communication skills and instrument proficiency. Additional assessments included the morphine dosage, delivery/demand ratios, severity of pain at rest and the rates of side effects of IV-PCA, including itching, dizziness and nausea/vomiting in the “first” and “second” 24 hours after surgery.

sample size

Based on the previous study, using a 5-point Likert scale on questions, the differences in patient satisfaction with the

service team and the instrument proficiency in the before and after intervention groups were estimated. A minimum sample size of patients (43 in each group) was determined to ensure high power (power =0.8), with a 5% level of statistical significance for an analysis of the questions.30

statistics

Data were analyzed using STATA 12.0 (StataCorp, College station, TX, USA) statistical software. Categorical characteristics of postoperative patients between survey groups were measured by the chi-square test and continuous variables were measured by the Student’s t-test. The results from the ten questions measured by a 5-point Likert scale were treated as ordinal data and analyzed by Student’s t-test.31_{Based on previous}

research, the minimal clinically important difference for the change of patient-reported outcomes on a 5-point Likert scale is defined as 0.3.32_{Morphine dosage and delivery/demand}

ratios between survey groups were compared by Student’s

t-test. Pain severity and rates of side effects in patients between

Figure 1 Flowchart of study design.

Abbreviations: aPs, acute pain service; cicare, connect, introduce, communicate, ask, respond and exit program; iV-Pca, intravenous patient-controlled analgesia. $36WHDPZDVWUDLQHGIRU³&,&$5(´LQ6HSWHPEHU $IWHUJHQHUDODQHVWKHVLDDQGPDMRUVXUJHU\VXUJLFDOSDWLHQWVVFKHGXOHG IRUSRVWRSHUDWLYH,93&$ZHUHHQUROOHG 5HFUXLWPHQWRIFRQWUROJURXS$SULOWR$XJXVW TXHVWLRQQDLUHVZHUHGLVWULEXWHGZKLOHTXHVWLRQQDLUHVZHUHUHWXUQHG DVHIIHFWLYHTXHVWLRQQDLUHV 5HFUXLWPHQWRILQWHUYHQWLRQDUP2FWREHUWR)HEUXDU\ TXHVWLRQQDLUHVZHUHGLVWULEXWHGZKLOHTXHVWLRQQDLUHVZHUHUHWXUQHG DVHIIHFWLYHTXHVWLRQQDLUHV ([FOXVLRQFULWHULD 3DWLHQWVZHUHVHQWWRLQWHQVLYHFDUHXQLWV 3DWLHQWVZHUHEOLQGGHDIRUVHGDWHG 3DWLHQWVVXIIHUHGIURPSUHRSHUDWLYHFRJQLWLYHLPSDLUPHQW EDVHGRQFKDUWUHYLHZDQGRUVWDWHPHQWVRISDWLHQWV¶IDPLO\ 3DWLHQWVUHFHLYHGGDLO\RSLRLGDQDOJHVLFVDQGRUQRQRSLRLG PHGLFDWLRQVHJJDEDSHQWLQRLGVWULF\FOLFDQWLGHSUHVVDQWVIRU GD\VRUORQJHUEHIRUHWKHLUVXUJHU\EDVHGRQFKDUWUHYLHZ DQGRUVWDWHPHQWVRISDWLHQWVDQGRUSDWLHQWV¶IDPLO\ 3DWLHQWVGHYHORSHGDQHVWKHWLFDQGRUVXUJLFDOFRPSOLFDWLRQV

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of 0.05 was considered significant.

Results

In total, 338 questionnaires were distributed, while 187 questionnaires were returned as effective questionnaires, resulting in a total effective response rate of 55.3%. There were no significant differences in the characteristics of post-operative patients using IV-PCA after major surgery between the groups (Table 3).

Primary and secondary outcomes

PGI-Improvement in pain and patient satisfaction in the “after CICARE” group were rated with mean values of 4.4 (SD: 0.6) and 4.3 (SD: 0.6), respectively, which were significantly greater than those (mean: 4.0, SD: 0.6; mean: 3.8, SD: 0.5, respectively) in the “before CICARE” group (P0.001 and

P0.001, respectively; mean change difference =0.4 and 0.5, respectively). Clearly, the implementation of CICARE through SOP significantly improved PGI-Improvement in pain and patient satisfaction with the APS team. The find-ings demonstrate that effective communication, which is emphasized through SOP, is important for medical care and patient satisfaction. In the dimension regarding accessibility and availability of PCA information and device (Q1–Q2),

the mean scales 4.3 (SD: 0.6) and 4.4 (SD: 0.6) in the “after CICARE” group were significantly greater than those of the “before CICARE” group (mean: 3.9, SD: 0.5; mean: 4.0, SD: 0.6; P0.001 and P0.001, respectively; mean change difference =0.4 and 0.4, respectively). As for the communica-tion skills regarding initial explanacommunica-tion on the use of PCA, follow-up questions and ask-and-response of APS team members during ward visits, the mean scores for Q3, Q4, Q6 and Q7 for the APS team in group “after CICARE” were significantly greater than those in group “before CICARE” (all P0.001) (all mean change differences 0.3). As expected, CICARE effectively improved the communication skills of the APS team members. These results demonstrate that communication skills can be improved through training. However, the results of Q5 revealed the efficacy of CICARE training for the ward nurses as only a statistical significance (P0.001), without any significant clinical difference (mean change difference =0.2). In Q8 concerning instrument pro-ficiency, the mean change difference (0.2) did not meet the criteria of minimal clinically important difference (0.3), although a statistically significant difference was noted between the two survey groups (P0.001) (Table 4).

additional assessments

In the first 24 hours after surgery, 16.30% (15 patients) of the patients in group “after CICARE” rated their pain at rest as 4, which was close to that (18.95%, 18 patients) of the group “before CICARE” (P=0.64). Similarly, there was no difference in the rates of inadequately treated pain at rest in the second 24 hours after surgery between the two survey groups (7.37% vs 6.52%) (P=0.82). Furthermore, no differ-ences were found in the dosage of morphine, the delivery/ demand ratios and the rates of side effects in the “first” or “second” 24 hours after surgery between groups (Table 5). Taken together, CICARE did not affect actual pain scores, drug consumption, the delivery/demand ratios and the rates of side effects in IV-PCA patients.

Discussion

In this study, implementing CICARE into SOP for APS represented a nonpharmacological intervention focusing on effective communication and standardization (greater adherence to protocol).15,17,33_{Using questionnaires}

(patient-reported outcomes), the impact of nonpharmacological interventions in APS was investigated in postoperative IV-PCA patients after major surgery.17_{Primary and}

second-ary outcomes revealed that CICARE incorporated into SOP effectively increased scores of PGI-Improvement in pain,

Table 3 characteristics of postoperative patients receiving

patient-controlled analgesia between the two survey groups, namely, “before” and “after” cicare

Characteristics Before CICARE After CICARE P-value n=95 n=92

Questionnaire response rate 55.2% (95/172) 55.4% (92/166) 0.97

age group, years, number (%) 0.14

20–39 16 (16.8) 11 (12.0) 40–59 39 (41.1) 29 (31.5) 60–80 40 (42.1) 52 (56.5) Mean age 58.8±12.7 54.8±13.5 gender, number (%) 0.41 Male 48 (50.5) 52 (56.5) Female 47 (49.5) 40 (43.5)

asa class, number (%) 0.59

classes i and ii 25 (26.3) 23 (25.0)

class iii 67 (70.5) 68 (73.9)

class iV 3 (3.2) 1 (1.1)

education level, number (%) 0.59

Primary school and none 44 (46.3) 48 (52.2)

high school 34 (35.8) 32 (34.8)

college and above 17 (17.9) 12 (13.0)

Notes: categorical variables were estimated by the chi-square test. P0.05 indicates statistical significance.

Abbreviations: cicare, connect, introduce, communicate, ask, respond and exit program; n, number; asa, american society of anesthesiologists.

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patient satisfaction and communication skills of APS team members, as well as accessibility and availability of PCA, in the “after CICARE” group compared to those in the “before CICARE” group. These findings substantiate that communi-cation and adherence to protocol can be improved through training and SOP.

The results of Q9 and Q10 showed that implementing CICARE into SOP for ward visits effectively enhanced PGI-Improvement in pain and patient satisfaction on APS. Interestingly, no significant differences between “before” and “after CICARE” groups was found in the rates of inadequately treated pain at rest – a quality indicator of postoperative pain control. Different cutoff points for acute postoperative pain management lead to different study results. In this study, the

cutoff point for inadequately treated pain at rest was defined as NRS 4, which has been demonstrated to be optimal by Gerbershagen et al.23_{Furthermore, there were no significant}

differences in the dosage of morphine and the delivery/ demand ratios between groups. These seemingly paradoxical responses were similar to previous findings from PAIN OUT,34

a European Union-funded acute pain registry and research project. They conclude that satisfaction with postoperative pain treatment is strongly linked to the impression of improvement and appropriateness of care; however, it is less associated with the patients’ actual pain.34

Postopera-tive pain is affected by multiple factors, including anxiety, age, surgical types, anesthetic techniques35_and

psychologi-cal factors, which effective communication influences.36,37

Table 4 responses to questionnaires between survey groups, namely, “before” and “after” cicare, in postoperative patients

receiving Pca

Questions (Q)a _{Before CICARE,}

mean ± SD

After CICARE, mean ± SD

P-value Mean change differenceb

Q1 Was Pca information easily accessible for you to obtain? 3.9±0.5 4.3±0.6 0.001 0.4

Q2 Was a Pca device readily available for your pain management? 4.0±0.6 4.4±0.6 0.001 0.4

Q3 Was the initial explanation on the use of Pca clear? 4.0±0.6 4.4±0.6 0.001 0.4

Q4 Was the aPs team’s communication comprehensible during ward visits? 4.1±0.5 4.5±0.5 0.001 0.4 Q5 if there were problems with Pca, did the ward nurse promptly respond? 4.2±0.6 4.4±0.6 0.001 0.2 Q6 if there were problems with the Pca, did the aPs team promptly respond? 4.1±0.6 4.5±0.5 0.001 0.4 Q7 If you experienced side effects of PCA, were you satisfied with the APS

team’s response?

3.9±0.5 4.3±0.5 0.001 0.4

Q8 Was the APS team proficient when operating the PCA device? 4.2±0.5 4.4±0.5 0.001 0.2 Q9 Was using Pca effective in reducing pain? (patient global impression

of improvement in pain)

4.0±0.6 4.4±0.6 0.001 0.4

Q10 Were you satisfied with the APS team services? 3.8±0.5 4.3±0.6 0.001 0.5

Notes: a_{survey responses were assessed by a 5-point likert scale for each question, with 1 representing extremely poor and 5 indicating excellent.}b_{Mean change difference:} the difference between mean scores of “before cicare” and “after cicare” groups. continuous variables were estimated by the student’s t-test. P0.05 indicates statistical significance.

Abbreviations: aPs, acute pain service; cicare, connect, introduce, communicate, ask, respond and exit program; Pca, patient-controlled analgesia.

Table 5 Morphine dosage, delivery/demand ratio, pain severity and rates of side effects in patients receiving patient-controlled analgesia

in the “first” and “second” 24 hours after surgery between the survey groups “before” and “after” CICARE

Variables Response First 24 hours P-value Second 24 hours P-value Before CICARE (n=95) After CICARE (n=92) Before CICARE (n=95) After CICARE (n=92) Morphine, mg – 34.68±18.66 30.37±15.42 0.09 21.09±11.38 18.34±10.57 0.09 Delivery/demand ratio – 0.66±0.22 0.65±0.20 0.80 0.68±0.22 0.68±0.18 0.95

Pain at rest, Nrs score: 0–10 4 18 15 0.64 7 6 0.82

4 77 77 88 86

itching Yes 11 8 0.43 6 2 0.16

No 84 84 89 90

Dizziness Yes 22 22 0.90 10 12 0.29

No 73 70 85 80

Nausea and/or vomiting Yes 21 15 0.41 5 9 0.24

No 74 77 90 83

Notes: categorical variables were estimated by the chi-square test. P0.05 indicates statistical significance.

Abbreviations: cicare, connect, introduce, communicate, ask, respond and exit program; Nrs, numeric rating scale.

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Dovepress Nonpharmacological interventions and acute pain The paradoxical responses in this study indicate that

improve-ment of pain manageimprove-ment in clinical pain studies should be assessed concurrently by two measurements, including NRSs and patient-reported outcomes.2,38

Reducing the side effects of IV-PCA is an alternative approach to improve patient satisfaction for pain control.11

Similarly, there were no differences in the rates of side effects of IV-PCA in the “first” and “second” 24 hours after surgery between groups. Nonetheless, patient satisfaction for IV-PCA management significantly increased after CICARE training. According to the improvements in Q3, Q4, Q6 and Q7, improved communication behaviors of APS team members could have contributed to the results. When treating patients, technical knowledge and skills of physicians and other staff members are essential; however, effective communication can be equally as important.10,11,33_{The results were}

consis-tent with the recommendations of Meissner et al2_{that better}

professional training of the pain team, greater adherence to protocol and good physician–patient communication are key priorities for improving postoperative pain management.

Q5 was set up as a control question compared to Q6. Despite “CICARE” being implemented throughout the entire Medical Center staff, patients were more satisfied with the APS team members than with ward nurses when experi-encing PCA problems. It may be attributed to the fact that APS team members were more experienced and had more specialized training in pain management than ward nurses. In this study, APS nurses documented patients’ pain scores regularly, whereas ward nurses were not required to assess and document patient’s pain reports regularly. Documented pain scores have been shown to ensure effective communications between health care professionals and patients. Nurses who do not document pain scores may ignore the importance of pain management.6–8,39,40_{Moreover, the APS team receives regular}

reinforcement of CICARE in monthly staff meetings.28_The

findings support Cole’s proposal that all medical providers, including ward nurses, should work closely with pain man-agement specialists and take more time to know the best pain strategies for all patients under all circumstances.28,41

As for instrument proficiency, no significant clinical difference was noted in Q8. Previous studies have shown that technical quality and proficiency are more difficult for patients to judge even after the service has been performed.33

This may explain why patients reported no clinical difference on Q8. Nonetheless, patients’ confidence in profession-als is important in pain management.42,43_{Further work on}

promoting patients’ confidence on instrument proficiency is needed.

There were some limitations in this study. First, the cur-rent study was a nonrandomized, controlled before–after study for evaluating the effectiveness of the intervention. The before group receiving the IV-PCA alone without CICARE acted as a control group (no-intervention arm).13–15,44_The

potential limitations of this design include lack of randomiza-tion and the presence of temporal confounders. However, the analysis revealed that there were no significant differences in the baseline characteristics and performances of participants between the before group (control group) and the after group.45

In addition, random withholding of a quality improvement intervention will not be allowed generally because of ethical considerations. Second, those who responded to the ques-tionnaires are not representative of the others who did not. The effective response rate of questionnaires in this study was 50%, which is regarded as an adequate response rate.46_{Third, this study included a small number of research}

participants. Fourth, this research was conducted in a single institution. Further large-sized and multiple-hospital studies are needed to validate our findings.

Conclusion

This study confirms the aspect that communication skills are learnable and improvable when implementing a quality improvement program into SOP.12,17_{Nonpharmacological}

inter-ventions conducted through implementing CICARE into SOP for APS can effectively enhance pharmacological treatment for acute pain management and optimize patient satisfaction with IV-PCA.2–6_{Patient feedback from questionnaires can be}

informative for organizing educational service programs and improving APS performance. However, investigation into the impact of proper communication skills on individual subunits of hospital staffs is warranted in further studies.

List of abbreviations

APS, acute pain service; CICARE, Connect, Introduce, Com-municate, Ask, Respond and Exit; IRB, institutional review board; ICU, intensive care unit; I-CVI, item-level content validity index; IV-PCA, intravenous patient-controlled anal-gesia; NRS, numeric rating scale; PCA, patient-controlled analgesia; PGI-Improvement, patient global impression of improvement; PSQ, patient satisfaction questionnaire; Q, question; SD, standard deviation; SOP, standard operating procedure; UCLA, University of California – Los Angeles.

Acknowledgments

We appreciate the helpful remarks from Chung-His Hsing, Professor, Department of Anesthesiology, Chi Mei Medical

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Center, Tainan, Taiwan, Republic of China. We thank Dr Chun-Hao Chen and nurse Yu Li Cheng for their help in the study.

Author contributions

J-Y Chen, C-C Chuang and W-J Wu have designed the origi-nal questionnaire. C-C Chuang was a major contributor in writing the manuscript. C-C Lee, L-K Wang, and B-S Lin were involved in the study design and acquisition of data. C-H Ho performed the statistical analysis. All authors have been involved in critical study concepts and design, acquisi-tion of data, revisions and editing of the manuscript and have approved the final draft.

Disclosure

The authors report no conflicts of interest in this work.

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Supplementary material

Table S1 standard operating procedures of cicare for aPs team members during postoperative visits

Component Procedure

Connect eye-to-eye contact and smile while properly addressing the patient and checking his/her conscious level.

Introduce introduce ourselves as the aPs team and our responsibilities; demonstrate the functions of the portable handheld pulse oximeter (spO2 monitor); connect the patient’s finger to the pulse oximeter.

Communication explain the readings on the pulsemonitor. reinforcedrug information and the operating procedures of the Pca device.

Ask assess pain severity using the 11-point Nrs. ask about side effects (itching, dizziness, nausea or vomiting) and whether the patient has experienced any trouble when using the Pca device.

Respond respond to Pca questions and treat any side effects accordingly.

Exit exit courteously after reminding patients how to contact the aPs team if encountering Pca problems and to make a follow-up visit.

Abbreviations: aPs, acute pain service; cicare, connect, introduce, communicate, ask, respond and exit program; spO2, oxygen saturation of pulse oximetry; Pca, patient-controlled analgesia; Nrs, numeric rating scale (Nrs: 0–10, with 0 indicating no pain and 10 indicating the most pain imaginable).