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S Afr Fam Pract
ISSN 2078-6190     EISSN 2078-6204 

© 2016 The Author(s)

REVIEW

Introduction

Pain is defined by the International Association for the Study of 
Pain (IASP) as an “unpleasant sensory and emotional experience, 
associated with actual or potential tissue damage or described in 

terms of such damage”.1 It can be steady, throbbing, stabbing, 
aching, pinching or described in many other ways as being either 
acute or chronic pain. Acute pain is usually more severe and 
lasts for a short time, whilst chronic pain normally persists for a 
much longer period of time.2 Most chronic pain experienced by 
patients is musculoskeletal pain, headache or abdominal pain.2 

The pain definition can be applied to any patient regardless of 
age, however paediatric pain expression is dependent on the 
child’s cognitive development and sociocultural background. 
Children normally learn from their parents, using simple words 
to express pain (such as ‘ouch’) or pointing to the body part in 
which they feel the pain.3

Pain involves sensory, physiological, cognitive, affective, 
behavioural and spiritual components and can therefore 
be classified as a multidimensional phenomenon with 
emotions (affective component), behavioural responses to 
pain (behavioural component), beliefs, attitudes, spiritual and 
cultural attitudes about pain, and the cognitive component of 
pain control.3 All of these aspects can alter the way in which 
pain is experienced (sensory component) by modifying the 
transmission of noxious or unpleasant stimuli to the brain 
(physiological component).3

Pain is both a sensory and emotional, personal experience and 
this often challenges the assessment of pain in paediatrics, 

especially in younger children, resulting in pain assessments 

being very complex.4 The sensory aspects of the pain experience 

are dependent on the age of the child. Children older than 

four years of age can usually talk about their pain; at the age of 

six to eight years they can use the visual analogue pain (VAP) 

scales in the same manner as adults. However, their capacity to 

describe pain increases with age and changes throughout their 

developmental stages3,5 and for this purpose the ages of the 

paediatric patients are categorised according to the National 

Institute of Child Health and Human Development (NICHD), 

2015, which contains paediatric terminology developed by 

the Eunice Kennedy Shriver Centre in the United States.6 The 

psychological age of children will influence their perception of 

pain (see Table I).

Table I: Paediatric classification7

Classification Months/years

Neonate 0–27 days

Infant from 28 days to 12 months

Toddler 13 months–2 years

Early childhood 2–5 years

Middle childhood 6–11 years

Early adolescent 12–18 years

Late adolescent 19–21 years

Abstract

Pain is defined by the International Association for the Study of Pain (IASP) as an “unpleasant sensory and emotional experience, 
associated with actual or potential tissue damage or described in terms of such damage”. It can be steady, throbbing, stabbing, aching, 
pinching or described in many other ways as being either acute or chronic pain. This pain definition can be applied to any patient, 
regardless of his/her age; however, paediatric pain expression is dependent on the child’s level of cognitive development and 
sociocultural background. Children older than four years of age can usually talk about their pain; at the age of six to eight years they 
can use the visual analogue pain (VAP) scale in the same manner as adults. Nevertheless, their capacity to describe pain increases 
with age and changes throughout their developmental stages. This article provides an overview of paediatric pain management.

Keywords: analgesic, paediatric pain, NSAID, opioid, non-opioid, paracetamol, ibuprofen

South African Family Practice 2016; 58(3):42-47
 
Open Access article distributed under the terms o f the 
Creative Commons License [CC BY-NC-ND 4.0] 
http://creativecommons.org/licenses/by-nc-nd/4.0

Paediatric pain management
Natalie Schellacka, Molebogeng Matimelab 

aAssociate Professor, Department of Pharmacy, Faculty of Health Sciences, Sefako Makgatho Health Sciences University
bAcademic Intern, Department of Pharmacy, Faculty of Health Sciences, Sefako Makgatho Health Sciences University
Corresponding author, email: natalie.schellack@smu.ac.za



Paediatric pain management 43

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Pain presentation in children normally falls into one of the 
following three categories3:

• Mild acute presentations of conditions such as otitis media and 
sore throat, which can be managed at the primary healthcare 
level.

• Acute presentations such as burns, fractures and severe 
abdominal pain, which require assessment and management 
at the secondary level of care.

• Long-term conditions that require ongoing management of 
pain, such as rheumatological disorders, cancer pain and pain 
without an identifiable cause.

The four most commonly used systems that the healthcare 
worker can use to classify the pain presentation are as follows3:

• The pathophysiological mechanism of pain (nociceptive or 
neuropathic pain);

• The duration of pain (chronic or acute, breakthrough pain);

• The aetiology (malignant or non-malignant); and

• The anatomical location of the pain.

Paediatric pain assessment

Proper assessment of paediatric pain is necessary to ensure 
the correct diagnosis and guidance in pain management 
interventions.4 Children normally experience physical and 
psychological pain, whilst their family may experience the 
emotional and social consequences as the results of pain. It 
is difficult to measure pain, especially in children, due to its 
subjectivity—healthcare workers have to rely on reports from 
the parents, and pain management techniques, tools and scales.5 
However, it is imperative that healthcare professionals are able 
to detect pain, especially in different age groups, where parents 
may not always be available, with the tools designed to track the 
child’s pain experience and pain control over time.5 

Methods available to measure pain in paediatrics

Self-reporting and behaviour are often used to measure pain 
intensity in paediatrics. Self-reports are normally nonverbal or 
verbal, however they require a level of cognitive understanding 

from the child to give a reliable response.8 They are assessed by 
asking patients to rate their pain on a numerical rating scale and 
if the child is unable to understand numerical concepts, then 
using a Visual Analogue Scale (VAS). Refer to Figure 1. The VAS 
is used in children above the age of eight, whereby the patient 
marks a point on a line pointing to, or marking, a certain level of 
pain, alternatively using a pain scale with different faces which 
consists of a set of discrete facial expressions indicative of a pain 
state.9 The child is shown a series of faces limited to a maximum 
of five or six categories ranging in stages of increasing distress. 
The child is then asked to identify the one they most relate to 
from a neutral expression to one of an intense face with tears. 10 
These scales have been found to correlate well in children aged 
three to seven years old.

Lastly the Poker Chip Tool may be used, where the child is 
given a set of chips that represents ‘hurt’ and asked how many 
pieces (with four red pieces in total) their pain equals. The tool is 
applicable for children between the ages of three and 12 years. 
It is a simple, quick-to-use tool, requiring minimal instruction 
and it is easily reproducible.11 VAS measurement, however, has 
gained advantage over the measuring scales because of its 
easy administration, low cost, and the fact that it has extensive 
evidence as a valid rating indicator for paediatric pain experience. 
A normal VAS consists of a 100 mm horizontal line indicating ‘no 
pain’ at the left endpoint and ‘worst pain possible’ at the right 
endpoint. Pain intensity will be calculated by measuring the 
distance from the left side of the scale to the child’s mark.9,11 
The VAS scale has shown to be one of the most reliable scales to 
display a correlation with the parents’ rating scales and those of 
medical personnel.

A behavioural measurement is often utilised when 
communication is difficult, mostly used with neonates, infants 
and younger children. It is used to assess any behavioural 
changes displayed by children as indicative of pain and 
distress.9 The measure consists of an assessment of crying, facial 
expression, body posture and movement.10 This scale is often 
recommended to be used in combination with the individual 
self-report completed by children, particularly those between 

0 10987654321

Numeric Rating Scale

No pain

No hurt Hurts little bit

0 2 4 6 8 10
Hurts little 

more
Hurts a 

whole lot
Hurts 
worst

Moderate
pain

Worst
possible pain

Figure 1: Wong-Baker FACES© pain rating scale

Hurts even 
more

© 1983 Wong-Baker FACES® Foundation. www.WongBakerFACES.org. Used with permission



S Afr Fam Pract 2016;58(3):42-4744

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three and seven years of age, with a sufficient level of cognitive 

understanding to provide reliable results.12

Non-pharmacological management of paediatric pain

Treatment strategies should be based on the findings of the 

assessment and should address the contributing factors.1 

Hence, it is imperative for healthcare professionals to be able to 

follow a child-centred or individualised approach to managing 

pain.5 This approach involves the participation of the parent 

and the child during the procedure, depending on the level 

of understanding.13 The child will either choose, associate or 

communicate during the process of the procedures. To ensure 

effective and positive results, the procedure should be done in a 

child-friendly environment, using appropriate pharmacological 

and non-pharmacological interventions with routine pain 

assessment and reassessment.10

The management of pain is multi-faceted. Effective reduction of 

pain includes modifying the different options stated below14:

• Environmental: Reducing the environmental sensory input, 

this includes reducing the light and noise levels.

• Behavioural: Providing physical boundaries, for example skin-

to-skin contact, and in the instance of young babies, using 

kangaroo mother care (KMC) and breastfeeding.

• Pharmacological: Appropriate use of analgesia.

One of the most frequently used approaches to guide children 

away from the pain in an emergency setting is called the 

‘distraction approach’. It is most useful when adopted according 

to the developmental level of the child. Distractions are divided 

into two groups, passive and active distraction.11 ‘Passive 

distraction’ is when the healthcare professional (e.g. the nurse) 

is involved during the procedure by singing, talking or reading 

a book to the child while the procedure is taking place, to move 

the focus of the child from the procedure and pain.11 ‘Active 

distraction’ involves the child’s participation in activities during 

the painful procedure.

Currently these approaches have been highly recommended 

as the strongest evidence base for efficacy of psychological 

intervention for reducing pain in children and this is routinely 

recommended in the paediatric setting.11

Pharmacological treatment of paediatric pain

The analgesics used in the management of pain are typically 

classified as being either non-opioid agents, or opioid agents.

Non-opioid analgesics

The following non-opioid related medicines are available for 

managing pain in children: paracetamol, and non-steroidal anti-

inflammatory drugs (NSAIDs), for example naproxen, ibuprofen 

and mefenamic acid.5 They adequately treat mild pain and 

moderate-to-severe pain in combination with other medicines, 

particularly opioids, to provide more effective relief and reduce 

adverse effects.5

Paracetamol

Paracetamol is one of the drugs of choice in pain management 
during the postoperative period in children due to its excellent 
safety profile and lack of any significant side-effects.6 It acts as 
a prodrug, with an active cannabinoid metabolite. In the brain 
and spinal cord, paracetamol follows deacetylation to its primary 
amine (p-aminophenol) which is conjugated with arachidonic 
acid to form N- arachidonolylphenolamide, a compound 
known as an endogenous cannabinoid. The involved enzyme 
is fatty acid amide hydrolase.15 N-arachidonolylphenolamide is 
an agonist at the Transient Receptor Potential Cation Channel, 
Subfamily V, Member 1 (TRPV1) receptors and an inhibitor of 
cellular anandamide uptake, which leads to increased levels of 
endogenous cannabinoids, inhibiting cyclooxygenases in the 
brain at concentrations that are probably not attainable with 
analgesic dosages of paracetamol.15 It is of interest to note that 
a cannabinoid-1 receptor antagonist, given at a dosage level 
that completely prevents the analgesic activity of a selective 
cannabinoid receptor agonist, completely inhibits the analgesic 
activity of paracetamol as well. This fact allows us to explain the 
mechanism of action of paracetamol in more detail.15 Despite 
this finding, however, the definite proof that the analgesic 
and antipyretic effects of paracetamol are dependent on COX-
inhibition is still unclear. Hence, it works effectively when 
combined with codeine for more effective control of moderate-
to-severe pain and discomfort.15

Paracetamol-induced hepatotoxicity has been reported with a 
high dose above the recommended dose for paediatrics which 
is 20mg/kg/dose 8 hourly and a maximum of 60mg/kg/24 
hours, pointing to the fact that paracetamol may have a narrow 
therapeutic index.8 Paracetamol is available orally, in several 
tablet and liquid formulations, however the dosage should be 
guided by the age and general condition of the patient.4

Rectal administration of paracetamol in the postoperative 
setting has gained a lot of interest over the past few years, for 
children who are unable or unwilling to take this medication 
orally.15 Recommended rectal dosages of paracetamol for 
children over four weeks of age are 20–30mg/kg three times 
daily, with a maximum daily dosage of one gram.16 Even though 
this is a useful route of administration, absorption of analgesics 
may vary in children, because of its unreliable bioavailability 
when using suppositories, thus limiting its applicability.16 Most 
importantly, the slow onset of action caused by a limited rate of 
rectal absorption is a disadvantage in postoperative analgesia, 
hence the use of liquid formulation is highly recommended in 
children that are able to swallow the oral formulation.

Non-steroidal anti-inflammatory drugs

The non-steroidal anti-inflammatory drugs (NSAIDs), such as 
ibuprofen, diclofenac, ketorolac and mefenamic acid, have 
analgesic and anti-inflammatory properties, which are useful 
in the management of postoperative pain.15 NSAIDs works by 
inhibiting the enzyme, cyclooxygenase (COX), which catalyses 
the conversion of arachidonic acid to prostaglandin E2. Aspirin, 
however, should rather be avoided in paediatric practice (due to 



Paediatric pain management 45

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its potential for causing Reye’s syndrome, especially in children 
between the ages of four to 12 years).

Ibuprofen is one of the most frequently used NSAIDs for mild 
and moderate pain, because of its availability in liquid form, 
allowing for easy administration to younger children.17 The 
medicine has gained advantage in the market as it is available 
as an over-the-counter medication for fever reduction, as 
well as pain relief in infants and children. Studies have shown 
ibuprofen to be superior in terms of its safety profile, compared 
to ketorolac. However, ketorolac has been used as a single agent 
for the treatment of postoperative pain, especially when used 
as an adjuvant to opioid analgesia, in children and adolescents 
following painful interventional procedures.1

Mefenamic acid is a potent inhibitor of cyclooxygenase with 
both central and peripheral analgesic action. It has efficacy 
and tolerability in paediatric patients with fever and is helpful 
in treating febrile illness in the paediatric populations.18 It is 
recommended as a suitable alternative, second-line antipyretic 
treatment in selected children, however more clinical evidence is 
still required for wider routine use.18

If pain is constantly present, analgesics should be administered 
on a regular time schedule, i.e. ‘by the clock’, whereby the 
medicine is administered at a fixed time interval with dosages 
tailored according to the patient’s pain, with the next dosage 
given before peak time effect of the previous dosage has worn 
off. This will result in more predictable and consistent levels of 
analgesia.3,5

The following should be taken into account when prescribing 
analgesia to children3:

• Accurate dosing calculation based on an up-to-date 
measurement of weight.

• Prescribed strengths of liquid formulations should be double 
checked.

• Ensure that the total volume of medicine does not exceed 
what is required.

• Ensure the child is not on any over-the-counter medicines, to 
avoid medicine duplication.

The use of paracetamol and ibuprofen should be individualised 
according to the child’s age and weight to ensure the most 
effective therapeutic effect. Certain conditions such as 
malnutrition, a poor nutritional state and the administration of 
other medicines should be taken into consideration, because 
they might have an influence on the metabolism rate of 
paracetamol and ibuprofen, for example.3 Table II provides an 
overview of the dosage ranges for pain relief with paracetamol 
and ibuprofen.

Opioid analgesics

Opioid analgesics will provide analgesia for moderate to severe 
pain, for the vast majority of children and with a wide margin 
of safety.8 This group includes the following examples: codeine, 
morphine, oxycodone, methadone, fentanyl and pethidine. 
Challenges may be faced with these medicines in terms of dosing 
difficulties in the paediatric setting, especially during the first 
several months of life.19 Pharmacokinetic differences should be 
understood when dosing children versus adults, to avoid severe 
adverse effects such as unwanted sedation and respiratory 
depression.4 Concomitant administration of an opioid with 
ibuprofen can reduce the amount of opioid analgesic required 
for pain control.

Pethidine, morphine and fentanyl

A variety of opioids are available for use; however, there is 
insufficient evidence to support a preference of one opioid 
over another.19,20 Generally morphine and fentanyl are used 
most commonly in neonates. Pethidine does not provide good 
analgesia compared to morphine and should not be used long-
term because of the possible accumulation of its toxic metabolite, 
nor-pethidine, that can result in seizures.19,20 In the neonatal 
population the likelihood of the formation of nor-pethidine is 
less than in adults, and more likely to occur in neonates with renal 
failure or with higher than recommended dosages of pethidine. 
Fentanyl provides approximately equal analgesic effects to 
morphine, and can be used for rapid analgesia over short 
periods of time if morphine is contraindicated.19 Opioids are the 
most commonly administered intravenous agents for moderate 
to severe pain (e.g. in the post-operative setting).20The opioid 
dosage that effectively relieves pain differs between children, 
and should be based on the child’s pain severity assessment. 
However, the long-term use of opioids is associated with 
constipation; therefore, children should receive a combination 
of a stool softener and stimulant laxative as prophylaxis when 
it is anticipated that these agents will be used over an extended 
period of time.19,20

Morphine is well established as the first-line strong opioid 
and is available in both immediate-release and prolonged-
release formulations.20 Immediate-release tablets are used to 
individualise patient dosages and have an adequate dosage 
for pain control. Prolonged-release oral formulations improve 
patient compliance by allowing longer dosing intervals. Oral 
morphine solution is usually used for persistent pain and given 
to children who are able to swallow.20

The use of a pain scale to manage pain is a crucial part of effective 
opioid therapy because these medicines do not have a so-called 
ceiling effect. Therefore it is imperative to ensure an appropriate 
dosage that provides effective analgesia with manageable side-

Table II: Recommended dosages of paracetamol and ibuprofen for the relief of pain in neonates, infants and children (oral route)3

Medicine Neonates from 0 to 29 days Infants from 30 days to 3 
months

Infants from 3 to 12 months 
or children from 1 to 12 years

Maximum daily dosage

Paracetamol 5–10 mg/kg every 6–8 hours 10 mg/kg every 4–6 hours 10–15 mg/kg every 4–6 hours Neonates, infants and children: 
4 dosages per day

Ibuprofen - - 5–10 mg/kg every 6–8 hours Children: 40 mg/kg/day



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effects. A suitable opioid antagonist, such as naloxone, should 
also be available in the healthcare setting for the management 
of adverse effects or opioid-related complications.3

When pain management is no longer needed, slow withdrawal 
of opioids may be necessary to prevent abstinence syndrome, 
with continuous monitoring of the vital signs. This may require 
tapering the daily dosage whilst monitoring the level of pain, 
with continuous reassessment to ensure that the patient is  
pain free.20

Regional analgesia

Regional analgesia includes peripheral nerve blocks and central 
blockade of the neuro-axis (i.e. spinal and epidural analgesia).21 

Epidural analgesia can be administered caudally, near the tip of 
the tailbone, or from the lumbar region, between the vertebral 
bones of the lower spine, either continuously via an epidural 
catheter, or as a single injection.13,21 This is recommended 
to be done by trained healthcare professionals, and close 
observation is essential for careful monitoring of the effects of 
the regional anaesthesia. Regional analgesia is often used pre-
operatively in combination with general anaesthesia, and post-
operatively in combination with other analgesics (e.g. morphine 
or paracetamol) to reduce pain.20 There are factors to consider 
in neonates that can affect the pharmacokinetics of medicines 
compared to adults, such as a reduction in hepatic blood flow 
and an immature enzyme system, hence proper calculations 
should be done as differences in protein binding in the neonate 
can result in dosage accumulation and possible toxic effects.21

Adjuvant therapy

Adjuvant therapy is sometimes necessary to manage the 
side-effects of medications for pain, provide symptom relief, 
treat anxiety and manage related or underlying conditions.3,22 

This is because patients with chronic pain are more likely to 
report anxiety, depression neuropathic pain and significant 
activity limitations.3,22 Examples of adjuvant medicines include 
corticosteroids, anxiolytics, antidepressants, hypnotics and 
anticonvulsants/antiepileptic agents.3,22 However the use of 
adjuvants has not been fully established because of insufficient 
evidence for their use in the management of pain in children.5

A stepwise approach

The World Health Organization’s (WHO) ‘analgesic ladder’ serves 
as the mainstay of treatment for the relief of pain together 
with psychological and rehabilitative modalities.3,22 This 
multidimensional approach offers the greatest potential for 
maximising analgesia and minimising adverse effects. According 
to the literature about 70–90% of cancer patients experience 
pain relief when clinicians apply the WHO ladder appropriately.22

According to the WHO, the key concepts for the effective 
management of pain are as follows:

• By mouth: If possible analgesics should be given by mouth.

• By the clock: Analgesics should be given at fixed time intervals 
and the dosage should be titrated according to the patient’s 
pain, and the next dosage should be given before the previous 
dosage has fully worn off.

• For the individual: The choice and dosages of the analgesics 
should be tailored to the needs and circumstances of the 
particular patient.

• By the ladder: The well-known WHO ladder, illustrated in Figure 2, 
advocates a stepwise approach to the use of analgesics, as 
explained below:

Step 1: Non-opioids (e.g. aspirin, paracetamol or ibuprofen) are 
used for mild to moderate pain.

Step 2: Weak opioids (e.g. codeine phosphate, dihydrocodeine, 
tramadol and buprenorphine) are recommended for moderate 
pain, used alone or in combination with one of the non-opioids 
mentioned in step 1.

Step 3: Strong opioids (morphine, hydromorphone, oxycodone, 
buprenorphine and tapentadol) may be used alone or in 
combination with a non-opioid (from the first step) for severe pain.

If the patient’s pain is already severe, it is recommended that 
the physician move to the third level of the ladder immediately, 
rather than starting with the first two.

As illustrated by Figure 2, opioids play an important role in the 
management of not only acute and chronic pain, but also in the 
management of moderate to severe pain.3,22 However, certain 

Strong opioid analgesics:
Morphine, hydromorphone,  
oxycodone, buprenorphine  

or tapentadol*;
With / without a non-opioid,  
such as aspirin, paracetamol  

or ibuprofen;
With / without an adjuvant*

Weak opioid analgesics:
Codeine, dextropropoxyphene,  

tramadol or buprenorphine;
With / without a non-opioid,  
such as aspirin, paracetamol  

or ibuprofen;
With / without an adjuvant*

Non-opioid analgesics:
Aspirin, paracetamol or ibuprofen;

With / without an adjuvant*

Mild to moderate pain

Persiste
nt or wo

rsening 
pain

Mild to moderate pain

Severe Pain

[*Examples of adjuvants include corticosteroids, antidepressants, hypnotics and anticonvulsants/antiepileptic agents.]

Figure 2: The World Health Organization’s three-step analgesic ladder3



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barriers limit the effective use of opioids in the management  
of pain:

• Concerns about the use of opioids from healthcare workers, 
family members and patients; these concerns may be related 
to the side-effects and risk of dependence when using opioids.

• Development of tolerance to the chronic use of opioids.

Conclusion

The effective management of children with pain will improve 
as pain management education expands and as the issue of 
paediatric pain is given greater public awareness. Children of 

all ages deserve to be treated with effective pain treatment 
options. Various methods are made available to assist healthcare 
professionals and parents in assessing paediatric pain. 
Nonpharmacological and pharmacological stepwise mana-
gement are often applied for children with chronic or recurrent 
pain associated with medical disease or injury. However, 
healthcare professionals should also be able to recognise that 
paediatric pain treatment is essential, even when the child is 
unable to report pain due to his/her cognitive developmental 
state.

References available on request.