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

© 2017 The Author(s)

REVIEW

Introduction

Urinary tract infection (UTI) is defined as a significant growth 
of bacteria in the urine, together with fever, lethargy, dysuria, 
pain, anorexia, vomiting and possible kidney scarring.1,2,3  
UTIs are usually caused by gram-negative aerobic bacilli; 
approximately 80% are caused by Escherichia coli.2,4 Other 
causative enterobacteria include Enterobacter, Citrobacter, 
Proteas, Providencia, Morganella and Serratia.4 Proteus is common 
in boys and in children with renal stones.5 Coagulase-negative 
Staphylococci have also been isolated.5 Premature infants can 
also develop a fungal UTI, usually caused by Candida species.4

Classification of UTIs 

Urinary tract infections may be classified as follows:

• Asymptomatic bacteriuria: is the absence of clinical signs and 
symptoms with the presence of bacteriuria.

• Cystitis: localised to the urethra and bladder. Dysuria, frequency, 
urgency, cloudy urine and lower abdominal discomfort are 
diagnostic symptoms, while pyuria and haematuria can also 
occur. This condition is common in girls over two years of age.

• Acute pyelonephritis (AP): presents systemically as high fever, 
malaise, vomiting, abdominal and loin pain and tenderness, 

poor feeding and irritability in infants.6 AP is a serious bacterial 
illness and has a high risk of sepsis and meningitis in young 
children.7

• Uncomplicated UTI: infection is limited to the lower urinary 
tract and there are no associated urological anomalies. 
Symptoms include dysuria, frequency, urgency, cloudy urine 
and abdominal discomfort. Urine dipsticks tests are positive 
for leukocyte esterase, nitrites and haematuria.8,9

• Complicated UTI: an infection of the urinary tract involving the 
renal parenchyma (AP) or which is associated with underlying 
congenital anomalies of the kidneys or the urinary tract. It 
may result in significant short-term morbidity, including septic 
shock and acute renal failure, especially in infants.8,9 

UTIs can be a significant source of morbidity in paediatrics and 
is a common cause of acute illness.1,10 Congenital genitourinary 
conditions, immature host defences, female gender, lack of 
circumcision in boys, and a prior history of UTI, are all risk factors 
for UTIs in paediatrics.11 According to Alper, 7% of girls and 2% of 
boys will have a UTI that is culture-confirmed and symptomatic 
by the age of six.5 

In both sexes, in the first year of life, febrile UTIs show the 
highest incidence whilst non-febrile UTIs occur predominately 

Abstract

Urinary Tract Infections (UTIs) are a common occurrence in paediatrics. UTIs present in children as fever, anorexia, vomiting, 
lethargy and dysuria. Approximately 80% of the time, Escherichia coli is the causative bacteria in paediatrics, however, fungal UTI 
caused by Candida species can occur in premature infants. With an estimated 150 million UTIs occurring worldwide annually, 
this paper aims to establish the ideal management of urinary tract infections in paediatrics. Clinical signs and symptoms of UTI 
in paediatrics are dependent on age of the child. Neonates (0–27 days old) present with sepsis, vomiting, fever, and prolonged 
jaundice, while school aged children present with symptoms similar to adults such as dysuria and urgency. Diagnosis of a UTI can 
be done by using a urine dipstick or using the midstream clean catch method in toilet trained children, and using the transurethral 
catheterisation or suprapubic aspiration method for infants and young children. In the wake of antibiotic resistance, choosing 
the best anti-microbial agent for treatment is imperative. Whilst asymptomatic bacteriuria does not require antibiotic treatment, 
amoxicillin and clavulanic acid combination, cephalexin, cefixime and cefpodoxime are the preferred oral antibiotics, provided 
there are no known allergies. Ceftriaxone, ampicillin, cefotaxime and gentamycin are the recommended parenteral antibiotics, 
provided age, allergic status and renal function are considered prior to use. Careful consideration needs to be given before using 
prophylaxis in UTIs and should be reserved for extreme cases.

Keywords: urinary tract infection (UTI), paediatrics, antibiotics, sepsis, cystitis, pyelonephritis

South African Family Practice 2017; 59(6):16-20
 
Open Access article distributed under the terms of the 
Creative Commons License [CC BY-NC-ND 4.0] 
http://creativecommons.org/licenses/by-nc-nd/4.0

Management of Urinary Tract Infections in Children 
Natalie Schellack,1 Cahlia Naested,2 Nicolene van der Sandt,3 Neelaveni Padayachee4

1 Associate Professor, School of Pharmacy, Faculty of Health Care Sciences, Sefako Makgatho Health Sciences University
2 Pharmacist at Netcare Greenacres Hospital
3 Community Service Pharmacist, Madibeng Sub-District Pharmacy, Department of Health, North-West Province
4 Pharmacy and Pharmacology, University of Witwatersrand
*Corresponding author, email: natalie.schellack@smu.ac.za



Management of Urinary Tract Infections in Children 17

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in girls older than three years of age.12 Diagnosing UTI in 
paediatrics can be a challenge because the clinical presentation 
may be nonspecific in infants. Invasive methods like urethral 
catheterization are needed to obtain a reliable urine culture, 
and for this reason there may be a delay in diagnosis and 
treatment.13 Boys under the age of one have a higher incidence 
of UTI; however, UTI prevalence increases in girls after the age 
of one. Renal scarring is thought to develop after a single UTI in 
approximately 15–41% of children and chronic kidney disease, 
proteinuria, hypertension, and complications during pregnancy 
(if applicable) are a few of the long-term problems.1 

More than 6 billion dollars in direct healthcare costs are incurred 
by an estimated 150 million cases of UTI that occur annually 
worldwide.14 With pyelonephritis, younger age, male gender, 
higher comorbidity status, and concurrent hydronephrosis, 
stones or sepsis being the strongest predictors for inpatient 
admission, early signs and symptoms of UTIs in paediatrics need 
to be identified and treated aggressively to potentially reduce 
direct healthcare costs.11 

The ages of paediatric patients were categorised according to the 
paediatric terminology defined by the National Institute of Child 
Health and Human Development (NICHD) (2015), developed by 
Eunice Kennedy Shriver in the USA (Table 1).

Table 1: The 2015 classification of paediatric patients according to 
the National Institute of Child Health and Human Development

Classification Months/Years

Neonates 0–27 days

Infants Birth to12 months

Toddlers 13 months to 2 years

Early childhood 2–5 years

Middle childhood 6–11 years

Early adolescence 12–18 years

Late adolescence 19–21 years

Pathogenesis

UTIs typically develop when uropathogens that have colonized 
the periurethral area ascend via the urethra to the bladder. The 
pathogens can then spread from the bladder to the kidneys 
(pyelonephritis) or to the blood stream (bacteraemia). Pathogens 
can also infect the urinary tract through the direct spread via the 
faecal-perineal-urethral route.15

Clinical signs

Clinical signs and symptoms depend on the age of the child. 

Diagnosis

A urine dipstick test can be done for screening purposes, and if 
the dipstick test reveals the presence of leucocytes or nitrites, a 
clean urine sample should be obtained and sent for microscopy, 
culture and sensitivity testing.8,9,16 

For infants and young children the urine sample should be 
obtained by transurethral catheterisation or suprapubic 
aspiration. For older, toilet-trained children, the urine sample can 
be obtained using the mid-stream clean catch method.4,8

Criteria for the diagnosis of a UTI:8,9

Any culture from the suprapubic urine sample

• A culture of >100 colonies/ml urine of a single organism from 
a catheter specimen

• A pure culture of >100 colonies/ml in a midstream clean catch 
sample

• A consistent culture of a pure growth even with low counts.

A renal ultrasound is recommended for all children who have their 
first culture-confirmed UTI to assess for structural and functional 
abnormalities of the urinary tract. Abnormalities include 
vesicoureteric reflux, posterior urethral valves, ectopic ureters, 
polycystic kidneys and renal dysplasia. Should the ultrasound 
reveal an abnormality, a micturating cystourethrogram (MCUG) 
should be done.4,8,9

Treatment

Treatment should be tailored to the clinical severity, paediatric 
age, urosepsis suspicion, non-compliance (refusal of fluids, food 
and/or oral medication) and hydration status (in the case of 
severe vomiting or diarrhoea). Those with a high risk of serious 
illness should immediately be referred to a paediatric specialist 
for optimal care. Also, refer to Figure 1.15,17-19

Antibiotics are used in the acute management of UTIs, as well 
as for the prevention of recurrent UTIs. It is important to note 
that nephrotoxic agents should be avoided where possible. 
Analgesics may be used to ease voiding symptoms.15,17-19

Recommended oral antibiotics typically includes 
sulfamethoxazole and trimethoprim, amoxicillin/clavulanate, 
first and second generation cephalosporins and nitrofurantoin 
(Table 3). Parental agents used in the treatment of paediatric 
UTIs include ceftriaxone, cefotaxime, ampicillin, gentamicin and 
tobramycin (Table 4). A list of principles to ensure appropriate 

Table 2: Clinical signs and symptoms of UTI

Neonates Infants and young children School-aged children

Signs and symptoms Prolonged jaundice
Sepsis
Failure to thrive
Vomiting 
Fever
Renal failure

Persistent fever
Dysuria
Failure to thrive
Strong smelling urine
Haematuria
Abdominal or flank pain
New-onset urinary
incontinence

Symptoms similar to adults that present 
with UTI, including:
Dysuria
Frequency
Urgency

 16,8,9,4



S Afr Fam Pract 2017;59(6):16-2018

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Ÿ Amoxicillin and clavulanic acid
Ÿ Sulfamethoxazole and trimethoprim
Ÿ Nitrofurantoin
Ÿ 1st or 2nd generaon cephalosporins 

Apparent sepsis, in 
shock and/or <3 
months of age

Febrile UTI’s in < 2 
years of age

Asymptomac 
bacteriuria 

Acute 
pyelonephris/ 

UUTI/ Bacterial UTI

R
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st Aggressive IV Fluids IV anbiocs

 Start anbioc treatment 
at the first suspicion 

of Febrile UTI

Apparent sepsis/ suspected 
urological obstrucon/ high-
grade VUR/ uncontrollable 

voming/ dehydraon.

 If IV is needed, but impossible

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Uncomplicated

7-10 days 

Complicated

2-4 days  
followed by oral 

anbiocs for a total 
duraon of 10 days.

Afebrile/ Cyss/ 
LUTI in > 3 months 

of age

3-4 days 

Anbiocs not
 recommended

No urological 
obstrucon/disease 

or signs of serious infecon

Ÿ Ampicillin
Ÿ Ce�riaxone
Ÿ Cefotaxime
Ÿ Gentamicin
Ÿ Tobramycin

Reserve for special cases:
Ÿ Ce�azidime
Ÿ Amikacin
Ÿ Carbapenems 
Ÿ Quinolones 

IM

antibiotic use and an algorithm providing guidance for paediatric 

UTI treatment per UTI classification can be seen in Table 3.

Table 3: Principles of appropriate for antibiotic use in paediatric UTI care

Principles for appropriate antibiotic use in paediatric UTI care

Only initiate an antibiotic once a urinalysis has been performed and a 
urine specimen for culture was obtained.

With the alarming increase in AMR, due care should be taken when 
choosing an agent.

Local antimicrobial susceptibility patterns should be used when 
deciding on empiric treatment and should cover the most common 
uropathogens (Escherichia coli, Enterococcus, Proteus, and Klebsiella 
species).

Reassess antibiotic 48 hours after initiation and modify according to 
susceptibility results.

Complicated or uncomplicated UTIs should be treated for 7–10 days.
However, short-courses of therapy may be used in adolescent girls 
with non-toxic UTIs.

If during the use of prophylactic medication a paediatric develops 
an infection: do not increase dose of current antibiotic, switch to a 
different agent.

Antibiotic treatment in the case of asymptomatic bacteriuria is not 
recommended.

16,17,18

Analgesics 

Paracetamol can be used to provide relief from voiding 

symptoms.9,15,20 The recommended dose of paracetamol is 

15 mg/kg 6 hourly. Both the World Health Organization and the 

National Department of Health recommend against the use of 

Non-Steroidal Anti-inflammatories (NSAIDs) as an analgesic for 

children with UTIs.9,20

Antibiotic prophylaxis

In paediatrics with a single prior UTI, the use of antibiotic 

prophylaxis is not routinely recommended. In asymptomatic 

bacteriuria, antibiotic prophylaxis should not be used. Paediatric 

patients with recurrent UTIs should be thoroughly assessed to 

rule out any urinary tract abnormalities, where prophylactic 

antibiotics may be used, based on an individual evaluation. 

When prescribing prophylactic antibiotics, it is important to 

consider the ever increasing AMR (antimicrobial resistance) 

patterns. Local microorganism susceptibility should be taken 

into consideration when choosing an agent, and preferably a 

narrow-spectrum antibiotic should be used. Table 6 shows age-

based prophylactic antibiotic recommendations .15,17-19 Tables 4 

and 5 provides an overview of antibiotics used in the treatment 

of paediatric UTI

Non-pharmacological interventions18,20

The following interventions may be applied:

• Addressing dysfunctional elimination syndromes and 

constipation

• Improving bowel habits

• Encouraging adequate hydration 

• Not delaying voiding

• Improving general hygiene.

Figure 1: Suggested approach to the management of paediatric UTIs15,17-19 

IM= Intra muscular

Acute pyelone-
phritis/ UUTI = 
Uncomplicated 

urinary tract 
infection /  

Bacterial UTI

Afebrile/ Cysti-
tis/ LUTI = Lower 

Urinary Tract 
Infections > 3 
months of age

If IV is needed, but impossible
(Intra Venous)

Apparent sepsis / suspected 
urological obstruction / high 
grade VUR=Vesicoureteral 

reflux / uncontrollable vomiting / 
dehydration



Management of Urinary Tract Infections in Children 19

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Preventative measures

The use of vitamin C, cranberry juice, vaccines with uropathogenic 
strains and/or probiotics is not recommended due to a lack of 
scientific evidence.21

Referral

Referral should be considered in the following circumstances8,9: 

• Poor response, despite adequate treatment (persistent 
positive culture or fever)

• Recurrent UTIs, 

• Suspected obstruction or abnormal imaging

• Abnormal renal function

Conclusion

UTI is an uncomfortable and unpleasant condition, which 

requires immediate attention in paediatrics.  Adequate urine 

tests are necessary to isolate the bacteria, thus narrowing the 

choice of antibiotic. Appropriate antibiotic and supportive 

treatment must be considered to ensure a quick recovery and 

to prevent complications like renal scarring in young children. 

With antibiotic resistance taking centre stage globally, using the 

most appropriate antibiotic is essential to obtain the best results 

without compromising the patients’ wellbeing. Prior to choosing 

an antibiotic, the allergic status, age and renal function must be 

established. Supportive treatment like paracetamol together 

Table 4: Oral antibiotics used in paediatric UTI care

Oral antibiotics Dosing Notes

Amoxicillin and clavulanic acid 20–40 mg/kg divided q8h
Uncomplicated UTI: 30 mg/kg/dose 8h po
Complicated UTI: 25mg/kg/dose 8H IV =intra venous8,9

Alternative if allergic/intolerant to macrolides

Amoxicillin Not recommended due to high E.coli resistance

Sulfamethoxazole and trimethoprim 30–60 mg/kg SMZ, 6–12 mg/kg TMP divided q12 Not recommended as an option by South 
African guidelines4,8,9

Cephalexin 50–100 mg/kg/day divided q6h

Cefixime 8 mg/kg/day

Cefpodoxime 10 mg/kg/day divided q12h Use in mixed aerobic-anaerobic UTIs 

Ciprofloxacin Not recommended as a first choice in paediatrics
Can be used to treat MDR infections when there is no other safe and effective alternative.  Limit to treat 
UTIs caused by Pseudomonas aeruginosa or other MDR gram-negative bacteria.13

SMZ= sulfamethoxazole, TMP= trimethoprim, q= every  15,17-19

Table 5: Parenteral antibiotics used in paediatric UTI care

IV antibiotic Dosing Notes

Ceftriaxone 50–75 mg/kg/day IV/IM single dose or divided q12h Contra-indicated in < 6 weeks of age; bilirubin may be 
displaced from albumin

Ampicillin 100 mg/kg/day IV/IM divided q8h < 2 weeks of age used in combo with gentamicin
Used in paediatrics allergic to cephalosporins;
Initial therapy where either gram-positive cocci or no 
organism is found in urinary sediment

Cefotaxime 150 mg/kg/day IV/IM divided q6-8h Safe in < 6 weeks of age
Aged 2–8 weeks: Used in combo with ampicillin; 
Use in neonates and jaundiced paediatrics

Gentamicin < 7 days: 3.5–5 mg/kg/dose IV q24h 
< 5 years: 2.5 mg/kg/dose IV q8h or single daily dosing with 
normal renal function of 5–7.5 mg/kg/dose IV q24h 
≥ 5 y: 2–2.5 mg/kg/dose IV q8h or single daily dosing with 
normal renal function; 5–7.5 mg/kg/dose IV q24h 

Monitor blood levels and kidney function if therapy extends 
> 48hours;
Empirical therapy should not be used for > 3 days. If 
empirical therapy is still required, consider changing to 
ceftriaxone

IV= Intravascular, IM= Intramuscular, q= every15,17-19

Table 6: Prophylactic antibiotic recommendations

Age Antibiotic Dosage

< 2 months of age*
Amoxicillin**
1st/2nd generation Cephalosporin***

A 1/3 or 1/4 of normal recommended dose< 8 weeks of age

If nitrofurantoin/ TMP/ SMZ-TMP cannot be used

> 2 months SMZ-TMP 5–10 mg/kg/day SMZ, 1–2 mg/kg/day TMP 

> 2–3 years of age Nitrofurantoin 1–2 mg/kg/day.

*Nitrofurantoin should not be used. 
**Amoxicillin is typically not recommended because of the high incidence of resistant E. coli.
***Reduce dosages of 1st generation cephalosporin (e.g. cephalexin at 10 mg/kg), until patient reaches 6 weeks of age.
SMZ= sulfamethoxazole15,17-19



S Afr Fam Pract 2017;59(6):16-2020

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with non-pharmacological advice, such as good hygiene and 
adequate hydration, can reduce the discomfort for the patient. 

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