1Faculty of Medicine, University of Oslo, Oslo, Norway
2Division of Neonatology, Dept. of Pediatrics, Post Graduate Institute of Medical Education and Research, Chandigarh, India
3Neonatal Intensive Care Unit, Oslo University Hospital, Rikshospitalet, Norway
4Department of Pediatric Research, University of Oslo, Norway
Received date: Mar 01, 2016; Accepted date: Mar 30, 2016; Published date: Mar 31, 2016
Citation: Bains S, Kumar P, Sundaram V, Lang A, Saugstad OD (2016) A Comparison of Health Care Workers Assessment and Management of Pain between a Neonatal Intensive Care Unit in India and Norway. J Palliat Care Med 6:255. doi:10.4172/2165-7386.1000255
Copyright: © 2016 Bains S, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Abstract Objective: Describe and compare health care worker´s assessment and management of neonatal procedural pain at one Neonatal Intensive Care Unit (NICU) in India (PGI: Post Graduate Institute of Medical Education and Research) one in Norway (OUH-U: Oslo University Hospital Ullevaal), and to investigate factors influencing the assessment and compare the management with international guidelines. Methods: A survey was conducted among NICU staff at both institutions assessing how painful specific neonatal procedures were considered to be using the Visual Analog Score (VAS). Kruskal Wallis H- and Mann-Whitney tests were performed for analysis. Procedural pain management protocols at the NICUs were obtained by interview. Results: There was a significant difference between the units in assessment of subjective pain intensity for the highest and moderately perceived painful procedures [Mean rank PGI - OUH-U (χ2): 26.04-43.47 (13.291); P = 0.000 and 28.34-41.03 (6.997); P = 0.008 respectively]. In group 3, females rated higher pain intensity than men [Mean rank (χ2): 37.85-25.87 (5.062). No significant difference was found for procedures within the low-pain category and factors such as age, profession, professional experience, and having own children. Procedural pain management differed between the two units, yet was not in accordance with guidelines from UpToDate. Conclusion: Overall, pain recognition and , specifically in the PGI NICU, was low, not consistent with current recommendations. These findings should serve as the basis for quality improvement interventions for both units. This difference also deserves exploration to identify the reasons and its impact on pain management at the NICUs.
Neonatal pain; Pain assessment; Pain management; Comparison; Procedural pain; India; Norway; Low/middle-income country; High-income country
Misconception about the neonate’s ability to perceive and experience pain has led to an under-treatment of pain throughout the history of neonatal medicine [1]. Before the nineteenth century, infants were considered to be more sensitive to pain than adults. However, in the late nineteenth century, studies done on neurologic development in neonates concluded that lack of myelination indicated lack of maturity in the neonatal nervous system and that localization of pain was not present in neonates [2]. These beliefs led to underuse of analgesic or anesthetic agents during invasive procedures, including surgery [3]. However, in the mid 1980’s extensive research on neuroanatomy of neonates showed how the pain pathway and cortical centers involved in the perception of pain are well developed in neonates [2].
Today we have adequate evidence that shows how repetitive painful procedures have short [4] and long term [5] adverse consequences for the developing neonatal brain. Although there has been a continued advance in perinatal care with increased awareness among health care workers (HCW) on the consequences of performing painful procedures on neonates, adequate pain management is still not observed [6]. This study was conducted to investigate the differences in pain perception and management between two large NICUs; one in a high income country and another in a low/middle income country. Since previous studies done on pain sensation and responses have found that different ethnic groups perceive pain in different ways [7], we also aimed to explore possible reasons for a different practice between these two neonatal units.
Overview of the neonatal intensive care units:
Division of Neonatology, Postgraduate Institute of Medical Education and Research (PGI), Chandigarh, India: Tertiary care governmental hospital, level III NICU serving the northern Indian states. Approximately 5500 deliveries and 650-750 NICU admissions per year with full bed occupancy rate. In total 40 beds, of which 22 are dedicated high-risk intensive care and 18 beds are step-down beds primarily for growers and feeders. The neonatal unit is staffed by 5 consultants, 9 senior residents (fellows in Neonatology) and 16-18 junior residents on a rotational basis (Pediatric trainee residents). There are a total of 38 nurses at the NICU with an average nurse to patient ratio of 1:2 or 1:3 in the morning shift and lesser (1:4) during the other shifts. However, this largely depends on the sickness level of the neonates with more sick and ventilated neonates being attended by a dedicated nurse in a shift. The nurse: patient ratio in the step down care area is approximately 1:8.
Department of Neonatology, Oslo University Hospital Ullevaal (OUH-U), Norway: Tertiary state-owned hospital, level III NICU serving the south-eastern regions of Norway. Approximately 6-7000 deliveries and 700 admissions per year. In total 27 beds, of which 7 are dedicated high-risk intensive care, 10 for intermediate care and the last 10 beds are for growers and feeders. The bed occupancy is almost 80% throughout the year. There are 9 consultants and 11 residents at the NICU. The unit has a nursing staff of in total 100 man-year. The ratio of nurse to neonate is 1:1 at the intensive care unit, 1:2 at the intermediate and 1:3-4 at the growing unit.
Study design:
Direct observation and interview: The daily routines, meetings, handovers and specific procedures were observed during a 6 week stay at the PGI and in total 20 days at OUH-U in 2014 (SKB). Using guidelines from UpToDate as a reference [8], the consultants in both NICUs were interviewed about the routines for analgesia during specific neonatal procedures at their unit, including use of pain assessment tools. These guidelines, which are based on the World Health Organization analgesic ladder for pain management in adults [9] and guidelines from the Italian Society of Neonatology [10], should not be consider gold standard and are used as one of many international approaches. The length of stay of the data collector at PGI was significantly longer than at OUH-U, due to a lack of familiarity with the Indian health care system from before. However, we believe this has not significantly influenced our results as they are mainly based on questionnaires and interview, not so much on observation in itself.
Questionnaire: A questionnaire was prepared using demographic features and 27 procedures from a previously published survey [11]. The questionnaire, to be filled out by HCW from the NICUs, also included question about profession (physician/nurse/other health care worker), gender (male/female), age (20-35, 36-50, 50+), professional experience (0-5 years, 5-10 years, 10 years+) and whether they had own children or not (yes/no). The visual analog score (VAS) is a validated instrument to measure subjective responses [12].
The 27 common neonatal procedures were assessed and ranked according to the perceived intensity of pain by HCW on a 10-point VAS assuming absence of analgesia. At both hospitals all the HCW working in different shifts during 4-5 consecutive days were asked to fill out the questionnaire.
The HCW were encouraged to fill these surveys without discussing with each other. We listed the scores of all the procedures from the HCW based on their median, maximum and minimum VAS score for pain intensity.
For purpose of analysis we subsequently divided all the procedures into three categories of increasing perceived pain intensity: Procedure group 1/low- (Median VAS 1-3), group2/moderate (Median VAS 4-6) and group3/high (Median vas 7-10) as shown in Table 1.
Procedure: | VAS score: | Procedure pain group: | |
---|---|---|---|
Median ( 1 - 3 Q) | Min - Max | ||
Insertion of a thoracic drain | 10 (8 -10) | 6 - 10 | 3 |
Intubation | 8 (5 -9) | 4 - 10 | 3 |
Lumbar puncture | 7 (5 -8) | 3 - 10 | 3 |
Bladder puncture | 6 (5 -8) | 2 - 10 | 2 |
Removal of a thoracic drain | 6 (5 -8) | 2 - 10 | 2 |
Eye screening for retinopathy of prematurity | 6 (3 -8) | 0 - 10 | 2 |
Thoracic drain with suction | 6 (5 -8) | 2 - 10 | 2 |
Insertion of a peripheral line | 5 (4 -7) | 0 - 10 | 2 |
Injections im/sc | 4 (3 -7) | 1 - 10 | 2 |
Endotracheal suctioning | 4 (3 -6) | 1 - 10 | 2 |
Heel stick | 5 (3 -7) | 1 - 10 | 2 |
Venipuncture | 4 (3 -6) | 1 - 8 | 2 |
Nasopharyngeal suctioning | 4 (3 -5) | 1 - 10 | 2 |
Insertion of a bladder catheter | 5 (4 -6) | 1 - 10 | 2 |
Insertion/reinsertion CPAP | 3 (2 -5) | 0 - 10 | 1 |
Extubation | 3 (2 -5) | 0 - 10 | 1 |
Removal of a tape | 4 (3 -6) | 1 - 10 | 2 |
Removal of transcutaneous O2 tape | 3 (2 -4) | 1 - 7 | 1 |
Insertion of a nasogastric tube | 3 (2 -5) | 1 - 8 | 1 |
Removal intravenous cannula | 2 (1 -4) | 0 - 8 | 1 |
Insertion of an umbilical line | 4 (2 -5) | 0 - 8 | 2 |
Removal of ECG tapes | 3 (2- 5) | 0 - 10 | 1 |
Removal of an umbilical line | 2 (1 -4) | 0 - 7 | 1 |
Removal of a nasogastric tube | 2 (1 -4) | 0 - 9 | 1 |
X-ray | 1 (0 -3) | 0 - 7 | 1 |
Cranial ultrasound | 1 (0 -2) | 0 - 5 | 1 |
Changing diaper | 1 (0 -2) | 0 - 5 | 1 |
Table 1: VAS score assessment of the neonatal procedures from questionnaires.
Statistical analyses: Kruskal-Wallis H tests were used to assess whether there was a statistically significant differences between medians for each of the groups 1-3. We used the median VAS score for each procedure group as a dependent variable and “country”, “profession”, “age”, “gender”, “professional experience” and “having own children” as an independent variable. Later we used a post-hoc test using Mann-Whitney tests with Bonferroni correction to see which specific groups of our independent variable were statistically significantly different from each other. Two tailed p-values <0.05 were considered statistically significant. The statistical analysis was performed using SPSS statistical software (version 22.0; SPSS Inc., Cary, NC).
Pain assessment:
A total of 35 questionnaires were filled out by HCW at PGI (20 from physicians, 15 from nurses) and 33 at OUH-U (8 from physicians, 25 from nurses). The response rate for the questionnaires at PGI was 100% among physicians and 94% for nurses. The response rate at OUH-U among physicians was 57% and among nurses was 83%.
A Kruskal-Wallis H test showed that there was a statistically significant difference in pain score for some parameters, as shown in Table 2. The parameter “country” showed significant p-values and chisquare for group 2 (p=0.008, χ2=6.997) and group 3 (p ± 0.001, χ2=13.291), with mean rank pain score of 28.34-41.03 for group 2 and 26.04-43.47 for group 3.
Group 1: low pain intensity | Group 2: moderate pain intensity | Group 3: high pain intensity | |||||||
---|---|---|---|---|---|---|---|---|---|
Mean rank | Chi-square | ‘p’ | Mean rank | Chi-square | ‘p’ | Mean ranks | Chi-square | ‘p' | |
Department | |||||||||
PGI 2 | 32.21 | 0.965 | 0.326 | 28.34 | 6.997 | 0.008 | 26.04 | 13.291 | <0.001 |
OUH-U3 | 36.92 | 41.03 | 43.47 | ||||||
Profession | |||||||||
Nurse | 34.77 | 0.075 | 0.785 | 33.61 | 0.02 | 0.889 | 28.93 | 3.283 | 0.07 |
Physician | 33.45 | 34.28 | 37.64 | ||||||
Gender | |||||||||
Female | 34.78 | 0.034 | 0.854 | 35.52 | 0.467 | 0.494 | 37.85 | 5.062 | 0.024 |
Male | 33.79 | 31.87 | 25.87 | ||||||
Age | |||||||||
20-35 | 35.26 | 0.134 | 0.935 | 33.92 | 1.335 | 0.513 | 34.84 | 0.235 | 0.889 |
36-50 | 33.4 | 33.44 | 33.38 | ||||||
50+ | 34.6 | 44.3 | 37.8 | ||||||
Professional experience1 | |||||||||
0-5 years | 37.5 | 2.262 | 0.323 | 35.65 | 0.729 | 0.694 | 37.62 | 1.588 | 0.452 |
5-10 years | 35.94 | 36.38 | 30.19 | ||||||
10+ years | 29.36 | 31.57 | 33.39 | ||||||
Having own children | |||||||||
Yes | 32.19 | 0.827 | 0.363 | 33.03 | 0.334 | 0.563 | 32.19 | 0.015 | 0.902 |
No | 36.56 | 35.81 | 34.78 |
Table 2: Comparison of pain assessment scores among health care workers according to department, profession, gender, age, professional experience and having own children.
Mann-Whitney U and p-values for PGI and OUH-U were likewise: group 1 (U=497 and p=0.326), group 2 (U=362 and p=0.008), group 3 (U=281 and p ± 0.001).
From this data, it can be concluded that procedures in group 2 (moderate) and group 3 (high) were rated significantly less painful by HCW at PGI than at OUH-U, whereas the ratings for procedures in group 1 (low) did not differ significantly. The parameter “gender” also showed a significant p-value (0.024) with χ2 (5.062) and mean ranks (37.85-25.87) (Table 2).
Pain management:
Table 3 compares a set of guidelines for neonatal analgesia [8] with the current management of neonatal pain relief at the two sites. The HCW responsible for each procedure is described along with the analgesia provided for the procedures at the unit. As shown in Table 3, analgesia was underutilized for relief of neonatal procedural pain at both NICUs when compared to international guidelines.
Procedures | Guidelines from UpTo Date(7) Stepwise interventions* and Comments | PGI (Post Graduate Institute of Medical Education and Research), Chandigarh, India | OUH-U (Oslo University Hospital Ullevaal), Oslo, Norway |
Tracheal aspiration | Step 1 (Non-pharm.), consider Step 4 (Opiod.) or lidocaine via the endotracheal tube. Perform rapidly, limit catheter insertion to the endotracheal tube only | Physician. Nothing | Nurse. Step 1 (Non-pharm.) |
Heelstick | Step 1 (Non-pharm.) & use mechanical lance. Venipuncture is more efficient, less painful; Steps 2 (Opioid.), 3 (Acetam.), & heel warming are ineffective | Physician. Nothing or Step 1 (Non-pharm.), depending on the availability of nurses | Nurse. Step 1 (Non-pharm.). Heelstick is not done on a regular basis, it is replaced with venipuncture |
Gastric tube insertion | Step 1 (Non-pharm.), consider Step 2 (Top. anae.). Perform rapidly, use lubricant, avoid injury | Nurse. Nothing | Nurse. Step 1 (Non-pharm.) |
Venipuncture | Steps 1 (Non-pharm) & 2 (Top anae.). Requires less time & less resampling than heelstick | Physician or Nurse.Nothing | Nurse. Step 1 (Non-pharm.) |
Arterial puncture | Steps 1 (Non-pharm) & 2 (Top anae.), consider Step5 (Lidoc.). More painful than venipuncture | Physician. Nothing | Physician. Step 1 (Non-pharm.) |
Intravenous cannulation | Steps 1 (Non-pharm) & 2 (Top anae.). Data only available for topical tetracaine | Physician or Nurse. Nothing | Physician. Step 1 (Non-pharm.) |
Tracheal intubation | Step 4 (Opiod.) or 6 (Deep sed.), use muscle relaxant only if experienced clinician, consider atropine. Superiority of a specific drug regimen over the others has not been investigated | Physician. Step 6 (Deep sed.) if the neonate is not sedated, if already sedated then nothing. | Physician. Step 1 (Non-pharm.) + Step 6 (Deep sed.) |
Central line placement | Steps 1 (Non-pharm), 2 (Top anae.), 5 (Lidoc.), consider Step 4 (Opiod.) or 6 (Deep sed.). Some centers prefer using general anesthesia | Physician. Step 6 (Deep sed.) if the neonate is not sedated, if already sedated then nothing. | Physician. Step 1 (Non-pharm.). Done by a small puncture, not opening up a vessel. |
Umbilical catheterization | Step 1 (Non-pharm.), avoid sutures on skin. Cord tissue is not innervated, avoid injury to skin | Physician. Nothing or Step 1 (Non-pharm.), depending on the availability of nurses | Physician. Step 1 (Non-pharm.) |
Subcutaneous and intramuscular injection | Avoid if possible, Steps 1 (Non-pharm) & 2 (Top anae.). | Physician or Nurse. Nothing | Nurse. Step 1 (Non-pharm.) |
Lumbar puncture | Steps 1 (Non-pharm), 2 (Top anae.), 5 (Lidoc.), careful positioning. Consider Step 4 (Opiod.) if patient is intubated/ventilated | Physician. Nothing or Step 1 (Non-pharm.), depending on the availability of nurses | Physician. Step 1 (Non-pharm.) and/or Step 2 (Top. anae.) |
Peripheral arterial line | Steps 1 (Non-pharm), 2 (Top anae.), consider Steps 5 (Lidoc.), 4 (Opioid.) | Physician. Nothing or Step 1 (Non-pharm.), depending on the availability of nurses | Physician. Step 1 (Non-pharm.) |
Peripheral insertion of central catheter (PICC line placement) | Steps 1 (Non-pharm), 2 (Top anae.), consider Steps 4 (Opioid.) & 5 (Lidoc.). Some centers prefer using general anesthesia | Physician. Step 6(Deep sed.) if the neonate is not sedated, if already sedated then nothing. | Physician. Step 1 (Non-pharm.) |
Thoracic drainage | Step 1 (Non-pharm.) & Step 6 (Deep sed.) for chest tube placement. | Physician. Step 6 (Deep sed.) | Physician. Step 1 (Non-pharm.) + Step5 (Lidoc.) + Step 6 (Deep sed.) If continuous thoracic drain then Step 3 (Acetam.) + Step 4 (Opiod.) |
Table 3: Analgesia for specific neonatal procedures.
At PGI step 1 (Non-pharm.) was performed less frequently and often depended on the availability of nurses, while it was performed before any procedure at OUH-U. Physicians performed almost all procedures at PGI, while it was the opposite at OUH-U where nurses performed more procedures.
UpToDate recommends a step-wise approach for some painful procedures, in other words, instead of going directly to Step 6 (Deep sed.) they often recommend trying to combine for instance Step 1 (Non-pharm.), 2 (Top anae.) and 5 (Lidoc.). Proceeding directly to the last steps was more often used at PGI, while OUH-U used this approach for some procedures.
This study shows that there is a difference in assessment of pain intensity for the highest and moderately perceived painful procedures between HCW in PGI and OUH-U. None of the other factors such as age, profession, professional experience, or having own children were found to significantly influence the assessment of neonatal procedural pain; whereas the difference between the two countries remained significant (Table 2). In contrast, other studies with larger sample size have shown that there was an influence of profession, with physicians rating the procedures as less painful than nurses [13,14]. There was a significant difference between gender, where female rated higher pain perception compared to male, but this was only seen for group 3. Another interesting finding was that the difference in pain assessment increased with increasing pain intensity. One possible reason for the larger difference in group 3 could simply be that the procedures were performed in a different way, with different techniques or different instruments at the two units. The use of standardized pain assessment tools increases the detection and knowledge of the staff that there are many painful procedures at the NICU [15-17]. Hence, the difference in assessment could also be explained by lack of usage of these tools for instance because of high patient load in Indian nurses or overestimating pain intensity by HCW in Norway.
A previous study from the NICU’s in Norway concluded that procedural pain in neonates was not sufficiently managed and that both pharmacological and comfort measurements were underutilized [18]. Based on the findings from the interviews and observation of management of painful procedures compared to the guidelines from UpToDate we can conclude the same. This discrepancy has been confirmed in studies from other countries [19-21]. One of the most likely identified reasons for the differences in pain management in the current study may be the numbers of nurses at the two hospitals, as there were less nurses per patient at PGI compared to OUH-U. We do not know if the HCW at the two units are educated and trained differently when it comes to pain recognition and management, but while the quality of education can impact the knowledge obtained, skill maintenance requires repeated training sessions with periodic evaluation [22]. The term knowing-doing gap is often used to describe the phenomenon where there is a discrepancy between what HCW know and what they do about it [23]. Some procedures in our study illustrate this, for instance the procedure “lumbar puncture”, that according to the guidelines from Up-to-date and the guidelines used at PGI from National Neonatology Forum of India [24] recommend a minimum use of topical anesthesia. Even though this procedure was ranked as a highly painful procedure by the HCW at PGI, the Indian infants were often not given any analgesia before this procedure, as shown in the table of analgesia for specific neonatal procedures; “Nothing or Step 1 (Nonpharm.), depending on the availability of nurses”.
Shortage of HCW is a reality in many countries and a study from 2014 showed how a significant shortage of trained nurses in the field of newborn care was contributing to poor neonatal outcomes in India [25]. Another recent study from 2015 in India found that 70.5 % of the NICU nurses were identified as perceiving moderate to high stress with 43.6 % attending to more than 4 patients per shift [26]. One approach to the lack of nurses at the NICU could be to involve the parents in the care of their child more, as suggested in a study that states that by entrusting the mothers with simple tasks like changing their baby’s diapers and monitoring for skin color and respiratory movements, the nurses can get more time for other tasks [27].
There can be several other reasons for the underutilization of analgesic measures in neonatology. One obvious factor is the difficulty in using oral sucrose because of its non-availability in India when this study was conducted. Lack of knowledge about the importance and effect of comfort measures, and to some degree lack of experience and training in performing them, are some others [28]. Often medical attention is focused on treatment of medical conditions and therefore procedural pain might be neglected. Comforting measures is often considered a task for the nurse, while physicians often tend to focus on pharmacological approaches for pain management. HCW might also want to perform procedures quickly either because of lack of time or because they believe that if you perform a procedure quickly then it’s less painful. Lack of awareness and knowledge about analgesic methods, including concerns about addiction and side effects of analgesic medicine can also be a contributing factor [29].
The present study had several methodological limitations. The conclusions in this study should be judged with caution as it has a small sample size and a certain degree of bias due to subjective measurements. The number and response rate of physicians at OUH-U is lower than in PGI and analyses of the non-responders have not been undertaken, but it is highly likely that physicians who do not consider pain as an important issue did not respond. In order to assure manageability of the collected data, questionnaires used only a ranking from 0 to 10 and did not include open-ended response items. Although the 27 procedures are the same, it is likely that there is variability between how they are performed at the units and hence the pain itself has a likelihood of varying. Many differences exist between the two centers (staffing, structure, size and ratio of high-risk beds) that may have influenced the assessment of pain within the two centers, yet the individual impact of each of these factors was not possible to assess within the present study. VAS has not been validated for postulating what pain may be felt by neonates as understood by the HCW at the units. It was assumed that all HCW who participated answered all the survey questions independently and that the physicians and nurses interviewed for the analgesia for specific procedures gave answers that reflected the practice at the unit. During the statistical analysis the 27 procedures were grouped into 3 groups based on the median value from all the questionnaires which might have skewed the analysis.
This study showed that HCW at PGI assessed neonatal procedures to be less painful for the infant than HCW at OUH-U. It also showed that the procedural pain management was not sufficient compared to international guidelines. High patient load for NICU nurses in India, causing lack of pain reducing measures being used, is an important factor that need to be addressed. There is also a need for measures and interventions to get even better pain management of painful procedures in neonates and therefore studies that show the efficacy and effect of interventions need to be performed. However, given the small sample size and the marked differences in structure of the 2 units, the comparisons are difficult to interpret for a broader use.
We sincerely thank the entire staff at both NICUs in India and Norway for enabling the visit to the units, for letting us observe their daily routines, interview them and fill out the questionnaires. We also thank statistician Kjetil Røysland for advice on statistical analyses.
No specific funding was received for this study. The authors report no financial or conflict of interest to disclose.
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