Lesson of the week: Delayed presentation of handlebar injuries in children

doi:10.1136/bmj.322.7297.1288

BMJ 2001;322:1288-1289 ( 26 May )

Clinical review

Lesson of the week

Delayed presentation of handlebar injuries in children

Initial assessment of children with abdominal trauma from bicycle handlebars may provide false reassurances

Jimmy P H Lam, senior house officer, Graeme J Eunson, senior house officer, Fraser D Munro, consultant paediatric surgeon, John D Orr, consultant paediatric surgeon.

Department of Paediatric Surgery, Royal Hospital for Sick Children, Edinburgh EH9 1LF

Correspondence to: F D Munro fdmunro{at}rcsed.ac.uk

Accidents represent the largest single cause of death in childhood. Although head injuries are the major cause of mortalityand morbidity after bicycle accidents in children, abdominal injuriesare not uncommon. Bicycle accidents account for 5-14% of bluntabdominal trauma in children.^1-3 In general, injuries to thespleen, liver, or kidneys are readily evident soon after the accident;however, injuries to the bowel and pancreas often present lateand result in greatermorbidity.

Case reports

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Case reports
Discussion
References

Case 1
An 11 year old boy fell off his bicycle andsustained a handlebar injury to his upper abdomen. He attendedhis general practitioner on the same day because of abdominalpain and vomiting, which was treated with an antiemetic drug.For the next 18 days the boy had vomiting, anorexia, weight loss,and increased epigastric pain. He was then referred to the localsurgical unit forassessment.

Examination showed that he was anxious and pale, with a tender epigastrium and a palpable mass in his upper abdomen. His whiteblood count was 12.9×10⁹/l and his serum amylase concentration was 2850 U/l. A diagnosisof traumatic pancreatitis was made and the boy was transferredto the regional paediatric surgicalcentre.

An ultrasound scan showed a large pancreatic pseudocyst (4.9 cm in diameter) lying between the body of the pancreas and thestomach. The boy was initially treated conservatively with totalparenteral nutrition. However, over the next seven days his serumamylase concentration remained high and serial ultrasound scansshowed an enlarging pseudocyst. Contrast enhanced computed tomographyof the abdomen confirmed that the boy had a pancreatic pseudocystmeasuring 11 cm×8 cm×7 cm. Endoscopic retrograde pancreatographyshowed complete disruption of the pancreatic duct at the junctionof the head and body of the pancreas. Distal pancreatectomy wasundertaken in cooperation with the hepatobiliary surgeons, anda drain was inserted into the lesser sac. The boy made steadyprogress and was discharged home 10 days after surgery with thedrain in situ. One week later he was reviewed in outpatients;his symptoms had resolved and his drain wasremoved.

Case 2
A 10 year old boy presented to his local,out of hours general practitioner service with abdominal painand vomiting two hours after sustaining blunt abdominal traumafrom his bicycle handlebars. Examination showed that he had anabrasion to the left of his umbilicus with no evidence of anyperitonism (figure), and he was therefore dischargedhome.

The boy's abdominal pain and vomiting worsened over the next 36 hours and he was therefore referred to the local surgicalunit. During examination he was noted to be dehydrated and tachycardic.He had generalised abdominal tenderness and peritonism. Plainradiographs of his chest and abdomen suggested free air in theright upper quadrant. Initial blood tests showed a neutrophiliaof 18.2×10⁹/l and a raised urea concentration of 10.1 mmol/l, but his serumamylase value was normal. Some free fluid was noted on abdominalultrasonography, but no solid organ injury was seen.

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Abdominal abrasion in a 10 year old boy with handlebar injury

The boy was transferred to the regional paediatric surgical centre. Contrast enhanced computed tomography of his abdomen confirmedfree air and fluid within the peritoneal cavity. There was dilatationand thickening of his proximal small intestine but no free retroperitonealgas. The boy had a laparotomy and this showed complete transectionof his jejunum 20 cm from the duodenojejunal flexure. He underwenta limited segmental resection with primary anastomosis, and thoroughperitoneal lavage was carried out. The boy was treated with acourse of intravenous antibiotics and given a short period oftotal parenteral nutrition. He made a steady recovery and waswell enough to return home 12 days aftersurgery.

	Discussion

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The common abdominal injuries after blunt trauma are those to the spleen, liver, and kidneys. ³ ⁴ These are usually evidenton presentation because the associated blood loss results in signsof shock and the blood causes irritation of the peritoneum, resultingin signs ofperitonism.

Perforation of the gastrointestinal tract is reported in 4-9% of patients who present at hospital with blunt abdominal trauma. ² ⁵ ⁶ While most of these injuries are a result of motor vehicle accidents,bicycle handlebar injuries have been reported to account for 14-20%of cases. ⁴ ⁵ Diagnosis is often delayed because there isusually no associated major blood loss. The small intestine isthe most common site of perforation, and peritonism may not beevident initially because the content of the small bowel is ofa neutral pH, low bacterial density, and low enzymatic activity.Studies have reported that only 38-54% of cases had signs of peritonismat presentation. ² ⁶ A plain radiograph is also unreliablein diagnosis as there is no pneumoperitoneum in 54-85% of cases ² ^6-8 ;this is because the small bowel contains little air, unlike thestomach or colon, in which perforation more often results in appreciablepneumoperitoneum.

Bicycle accidents are by far the most common cause of pancreatic injuries in children, accounting for 42-75% of cases. ⁹ ¹⁰ Unlike the situation in adults, the injury is an isolated onein 62-73% of paediatric cases. ⁹ ¹⁰ Diagnosis may also be delayedas there is usually no major blood loss. Injuries range from minorcontusions or lacerations to major ductal injuries and transectionsthat result in the formation of pseudocysts. Patients with majorinjuries characteristically have a persistently high serum amylaseconcentration.¹¹

In 5 to 9 year olds, cycling is the major single activity, apart from playing, which results in injuries.¹² Cycling accountsfor 48% of injuries to children on public roads.¹² Bicycle accidentsin which there is a history of trauma from the handlebars areparticularly associated with severe abdominal injuries as theforce of impact is applied via the small cross sectional areaof the end of the handlebars. ¹ ¹³ A study of 813 childrenwho presented to hospital with bicycle related injuries foundthat life threatening intra-abdominal injuries occurred in 10of 21 children who had sustained handlebar trauma.¹ There isoften discordance between the apparently minor circumstances ofthese accidents and the seriousness of the injuriessustained.

Because the initial clinical and radiological signs are often misleading, general practitioners and casualty staff need tohave a high index of suspicion when first assessing children whohave sustained trauma from bicycle handlebars. Abdominal ultrasonographycan be a useful non-invasive investigation in these children.It may show free peritoneal fluid without concomitant solid organinjury in cases of gastrointestinal tract perforations,⁸ andit may detect specific anatomic lesions of the pancreas.¹⁴ However,ultrasound findings may be normal in the early period after thetrauma and intra-abdominal injury cannot therefore be excludedin all cases. ⁸ ¹¹ Frequently repeated clinical examinationremains the most important tool for early diagnosis; we recommenda period of observation for all children who have symptoms aftersuch an injury, and review by a senior doctor beforedischarge.

Acknowledgments

We thank Mr S Paterson-Brown, consultant hepatobiliary surgeon at the Royal Infirmary of Edinburgh, for help in managing case1.

Contributors: JPHL researched and wrote the paper. GJE assisted with data collection and contributed to writing the paper. FDM and JDO supplied clinical details of the patients. FDM, who supervised and gave guidance on the writing of the paper, acts as guarantor.

Footnotes

Funding:None.

Competing interests: Nonedeclared.

References

Top
Case reports
Discussion
References

1. Acton CH, Thomas S, Clark R, Pitt WR, Nixon JW, Leditschke JF. Bicycle incidents in children $---$ abdominal trauma and handlebars. Med J Aust 1994; 160: 344-346[Medline].

2. Ciftci AO, Tanyel FC, Salman AB, Buyukpamukcu N, Hicsonmez A. Gastrointestinal tract perforation due to blunt abdominal trauma. Pediatr Surg Int 1998; 13: 259-264[CrossRef][Medline].

3. Ruess L, Sivit CJ, Eichelberger MR, Gotschall CS, Taylor GA. Blunt abdominal trauma in children: impact of CT on operative and nonoperative management. Am J Roentgenol 1997; 169: 1011-1014[Abstract/Free Full Text].

4. Clarnette TD, Beasley SW. Handlebar injuries in children: patterns and prevention. Aust N Z J Surg 1997; 67: 338-339[Medline].

5. Albanese CT, Meza MP, Gardner MJ, Smith SD, Rowes MI, Lynch JM. Is computed tomography a useful adjunct to the clinical examination for the diagnosis of pediatric gastrointestinal perforation from blunt abdominal trauma in children. J Trauma 1996; 40: 417-421[Medline].

6. Brown RA, Bass DH, Rode H, Millar AJ, Cywes S. Gastrointestinal tract perforation in children due to blunt abdominal trauma. Br J Surg 1992; 79: 522-524[Medline].

7. Schenk 3rd WG, Lonchyna V, Moylan JA. Perforation of the jejunum from blunt abdominal trauma. J Trauma 1983; 23: 54-56[Medline].

8. Ulman I, Avanoglu A, Ozcan C, Demircan M, Ozok G, Erdener A. Gastrointestinal perforations in children: a continuing challenge to nonoperative treatment of blunt abdominal trauma. J Trauma 1996; 41: 110-113[Medline].

9. Bass J, Di Lorenzo M, Desjardins JG, Grignon A, Ouimet A. Blunt pancreatic injuries in children: the role of percutaneous external drainage in the treatment of pancreatic pseudocysts. J Pediatr Surg 1988; 23: 721-724[CrossRef][Medline].

10. Takishima T, Sugimoto K, Asari Y, Kikuno T, Hirata M, Kakita A, et al. Characteristics of pancreatic injury in children: a comparison with such injury in adults. J Pediatr Surg 1996; 31: 896-900[CrossRef][Medline].

11. Smith SD, Nakayama DK, Gantt N, Lloyd D, Rowe MI. Pancreatic injuries in childhood due to blunt trauma. J Pediatr Surg 1988; 23: 610-614[CrossRef][Medline].

12. Hilbers J. Annual report of the Western Australian childhood injury surveillance system for the year 1989. Perth, WA: Child Accident Prevention Foundation of Australia, 1990.

13. Winston FK, Shaw KN, Kreshak AA, Schwarz DF, Gallagher PR, Cnaan A. Hidden spears: handlebars as injury hazards to children. Pediatrics 1998; 102: 596-601[Abstract/Free Full Text].

14. Gorenstein A, O'Halpin D, Wesson DE, Daneman A, Filler RM. Blunt injury to the pancreas in children: selective management based on ultrasound. J Pediatr Surg 1987; 22: 1110-1116[Medline].

(Accepted 8 June 2000)

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1.	Acton CH, Thomas S, Clark R, Pitt WR, Nixon JW, Leditschke JF. Bicycle incidents in children $---$ abdominal trauma and handlebars. Med J Aust 1994; 160: 344-346[Medline].
2.	Ciftci AO, Tanyel FC, Salman AB, Buyukpamukcu N, Hicsonmez A. Gastrointestinal tract perforation due to blunt abdominal trauma. Pediatr Surg Int 1998; 13: 259-264[CrossRef][Medline].
3.	Ruess L, Sivit CJ, Eichelberger MR, Gotschall CS, Taylor GA. Blunt abdominal trauma in children: impact of CT on operative and nonoperative management. Am J Roentgenol 1997; 169: 1011-1014[Abstract/Free Full Text].
4.	Clarnette TD, Beasley SW. Handlebar injuries in children: patterns and prevention. Aust N Z J Surg 1997; 67: 338-339[Medline].
5.	Albanese CT, Meza MP, Gardner MJ, Smith SD, Rowes MI, Lynch JM. Is computed tomography a useful adjunct to the clinical examination for the diagnosis of pediatric gastrointestinal perforation from blunt abdominal trauma in children. J Trauma 1996; 40: 417-421[Medline].
6.	Brown RA, Bass DH, Rode H, Millar AJ, Cywes S. Gastrointestinal tract perforation in children due to blunt abdominal trauma. Br J Surg 1992; 79: 522-524[Medline].
7.	Schenk 3rd WG, Lonchyna V, Moylan JA. Perforation of the jejunum from blunt abdominal trauma. J Trauma 1983; 23: 54-56[Medline].
8.	Ulman I, Avanoglu A, Ozcan C, Demircan M, Ozok G, Erdener A. Gastrointestinal perforations in children: a continuing challenge to nonoperative treatment of blunt abdominal trauma. J Trauma 1996; 41: 110-113[Medline].
9.	Bass J, Di Lorenzo M, Desjardins JG, Grignon A, Ouimet A. Blunt pancreatic injuries in children: the role of percutaneous external drainage in the treatment of pancreatic pseudocysts. J Pediatr Surg 1988; 23: 721-724[CrossRef][Medline].
10.	Takishima T, Sugimoto K, Asari Y, Kikuno T, Hirata M, Kakita A, et al. Characteristics of pancreatic injury in children: a comparison with such injury in adults. J Pediatr Surg 1996; 31: 896-900[CrossRef][Medline].
11.	Smith SD, Nakayama DK, Gantt N, Lloyd D, Rowe MI. Pancreatic injuries in childhood due to blunt trauma. J Pediatr Surg 1988; 23: 610-614[CrossRef][Medline].
12.	Hilbers J. Annual report of the Western Australian childhood injury surveillance system for the year 1989. Perth, WA: Child Accident Prevention Foundation of Australia, 1990.
13.	Winston FK, Shaw KN, Kreshak AA, Schwarz DF, Gallagher PR, Cnaan A. Hidden spears: handlebars as injury hazards to children. Pediatrics 1998; 102: 596-601[Abstract/Free Full Text].
14.	Gorenstein A, O'Halpin D, Wesson DE, Daneman A, Filler RM. Blunt injury to the pancreas in children: selective management based on ultrasound. J Pediatr Surg 1987; 22: 1110-1116[Medline].