Archives of Disease in Childhood, 1984, 59, 927-934 Relapsing acute and chronic pancreatitis A FORBES, J W C LEUNG, AND P B COTTON Department of Gastroenterology, Middlesex Hospital, London SUMMARY Twenty five children with non-traumatic relapsing acute or chronic pancreatitis who had been followed up from five months to seven years were studied. Seven had congenital anomalies, including two with choledochal cysts and four with pancreas divisum. Alcohol related disease was suspected in one child. The importance of diabetes in two patients and a positive family history in a further three is discussed, but in 12 children no association was found. Management was similar to that for adults. Surgical intervention was required in six patients, and percutaneous drainage of pseudocysts in a further three. Outcome has generally been good. Pancreatitis is unusual in children and has a different aetiological spectrum from that seen in adults. Trauma, drugs, and infection are relatively more common causes; gall stone and alcohol related disease are rarely seen.1 Most acute attacks are self limiting and do not result in permanent damage or disability. Over the past nine years we have studied 25 children with persisting problems due to relapsing acute and chronic pancreatitis. Patients and methods Twenty patients (11 boys, nine girls) between the ages of 3 and 15 years were investigated; the other five patients (three boys, two girls) were older when referred (age range 16 to 22 years) but had clear evidence of pancreatitis before the age of 16 (Tables 1 and 2). Assessment included a detailed family and personal enquiry searching particularly for a history of abdominal trauma, drug and alcohol consump- tion, mumps and other infections, and chest and metabolic diseases. Investigations included blood count (and eosinophil count), liver function tests, fasting lipids, sugar, amylase, and calcium. Viral titres and sweat tests were performed in many patients. All patients had plain abdominal radio- graphs and ultrasound scans and all but one under- went endoscopy with retrograde cholangio- pancreatography (ERCP).2 Pancreatitis was con- firmed by one or more of the following: pancreatic calcification or duct calculi; pancreatitis at lapar- otomy; at least one episode of typical pain requiring hospital admission with serum amylase concentra- tions greater than three times the upper limit of normal; or unequivocal changes on computed tomo- graphy, ultrasound scan, or endoscopic pancreato- gram. Most patients fulfilled several criteria. Follow up ranged from five months to seven years with a mean of 2-9 years since referral or last intervention, whichever was shorter. Clinical details The clinical features and duration of follow up are outlined in Tables 1 and 2 and aetiological factors are summarised in Table 3. Table 1 Children with congenital anomalies who had relapsing acute and chronic pancreatitis Case Anomaly Sex Age (years) at Acute Chronic Intervention Outcome Follow up No attacks pancreatitus (months) Onset Diagnosis 1 Choledochal cyst M 4 4 >5 + - Good 39 2 Choledochal cyst + surgery F 13 13 0 + See text Fair 12 3 Anomalous pancreas F 13 13 5 + - Good 48 4 Pancreas divisum F 13 13 2 + - Good 57 5 Pancreas divisum F 14 14 >5 - - Good 78 6 Pancreas divisum F 9 14 0 + - Good 11 7 Pancreas divisum + mumps F 5 5 2 - Good 45 927 on June 25, 2020 by guest. Protected by copyright. http://adc.bmj.com/ Arch Dis Child: first published as 10.1136/adc.59.10.927 on 1 October 1984. Downloaded from
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Relapsing acute and chronic pancreatitis · of some 1000 patients with chronic and relapsing pancreatitis investigatedbythis unitduringthesame period. Aetiological aspects. Most cases
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Archives of Disease in Childhood, 1984, 59, 927-934
Relapsing acute and chronic pancreatitisA FORBES, J W C LEUNG, AND P B COTTON
Department of Gastroenterology, Middlesex Hospital, London
SUMMARY Twenty five children with non-traumatic relapsing acute or chronic pancreatitis whohad been followed up from five months to seven years were studied. Seven had congenitalanomalies, including two with choledochal cysts and four with pancreas divisum. Alcohol relateddisease was suspected in one child. The importance of diabetes in two patients and a positivefamily history in a further three is discussed, but in 12 children no association was found.Management was similar to that for adults. Surgical intervention was required in six patients, andpercutaneous drainage of pseudocysts in a further three. Outcome has generally been good.
Pancreatitis is unusual in children and has a differentaetiological spectrum from that seen in adults.Trauma, drugs, and infection are relatively more
common causes; gall stone and alcohol relateddisease are rarely seen.1 Most acute attacks are selflimiting and do not result in permanent damage or
disability. Over the past nine years we have studied25 children with persisting problems due to relapsingacute and chronic pancreatitis.
Patients and methods
Twenty patients (11 boys, nine girls) between theages of 3 and 15 years were investigated; the otherfive patients (three boys, two girls) were older whenreferred (age range 16 to 22 years) but had clearevidence of pancreatitis before the age of 16 (Tables1 and 2). Assessment included a detailed family andpersonal enquiry searching particularly for a historyof abdominal trauma, drug and alcohol consump-tion, mumps and other infections, and chest andmetabolic diseases. Investigations included bloodcount (and eosinophil count), liver function tests,
fasting lipids, sugar, amylase, and calcium. Viraltitres and sweat tests were performed in many
patients. All patients had plain abdominal radio-graphs and ultrasound scans and all but one under-went endoscopy with retrograde cholangio-pancreatography (ERCP).2 Pancreatitis was con-
firmed by one or more of the following: pancreaticcalcification or duct calculi; pancreatitis at lapar-otomy; at least one episode of typical pain requiringhospital admission with serum amylase concentra-tions greater than three times the upper limit ofnormal; or unequivocal changes on computed tomo-graphy, ultrasound scan, or endoscopic pancreato-gram. Most patients fulfilled several criteria.
Follow up ranged from five months to seven years
with a mean of 2-9 years since referral or lastintervention, whichever was shorter.
Clinical details
The clinical features and duration of follow up are
outlined in Tables 1 and 2 and aetiological factorsare summarised in Table 3.
Table 1 Children with congenital anomalies who had relapsing acute and chronic pancreatitis
Case Anomaly Sex Age (years) at Acute Chronic Intervention Outcome Follow upNo attacks pancreatitus (months)
Onset Diagnosis
1 Choledochal cyst M 4 4 >5 + - Good 392 Choledochal cyst + surgery F 13 13 0 + See text Fair 123 Anomalous pancreas F 13 13 5 + - Good 484 Pancreas divisum F 13 13 2 + - Good 575 Pancreas divisum F 14 14 >5 - - Good 786 Pancreas divisum F 9 14 0 + - Good 117 Pancreas divisum + mumps F 5 5 2 - Good 45
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Uncertain 18Alcohol related 1With diabetes 2Family history 3No associations 12
Total 25
One also had mumps.
Congenital anomalies and pancreatitis. Sevenpatients had pancreatobiliary anomalies. Two hadcystic dilatation of the biliary tree with a longcommon biliary and pancreatic channel (Fig. 1).One of these has done well with conservativemanagement but the other (case 2) required mul-tiple operations including biliary revision andextensive distal pancreatic resection; she has sinceremained reasonably well on enzyme supplementsand has no diabetes. Duodenostomy was per-formed in infancy for duodenal obstructionattributed to an abnormally shaped pancreas in one
patient (case 3) who developed chronic pancreatitisin early adolescence; other aetiological factors are
absent and it is concluded that the underlying
anomaly (or related surgery) are responsible. Thispatient is well with dietary fat restriction.Four patients have the pancreas divisum anomaly
(Fig. 2); in three of these there is no other aetiologi-cal factor but in one (case 7) the first episode ofpancreatitis was associated with mumps contact, andlater titres were positive. Conservative managementhas been effective in all four.
Idiopathic pancreatitis. No definite aetiology hasbeen established in 18 patients, but one drankmoderate amounts of alcohol, two have diabetes,and three have a family history.One boy aged 15 had drunk an average of two
pints of beer per day (approximately 40 g ethanol)for three years before presenting with chronicpancreatitis. In no other case was alcohol con-
sumption other than trivial, but two patients haddramatic precipitation of symptoms within a fewhours of minimal exposure.
In two boys aged 11 and 14 years, with poorlycontrolled diabetes and secondary hyperlipidaemia,pancreatic symptoms have been relieved with betterdiabetic control.Three patients had positive family histories for
pancreatitis (Fig. 3). One girl who presented at theage of 7 years with a five year history of abdominalpain had suffered two episodes of acute pancreatitis;
CaseNo
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Fig. 1 Pancreatitis with choledochal cyst.(a) Endoscopy with retrograde cholangiopancreatography showing a long common channel (large white arrow) with
strictured origin ofcommon bile duct (small white arrow), and pancreatic duct (black arrow).(b) Air cholangiogram showing gross cystic dilatation ofthe common bile duct (arrow).
there was pancreatic calcification and she subse-quently developed a pseudocyst. Operative manage-ment was successful and she remains well threeyears later. The second presented at the age of 5years after four episodes of acute pancreatitis, withchronic pancreatitis on ultrasound and ERCP. Hehas done well with conservative management (apartfrom two mild acute attacks) during almost threeyears of follow up. The third patient (whose fatherdied unexpectedly while on steroids for rheumatoidarthritis and was found to have haemorrhagicpancreatitis at necropsy) presented with a severeepisode of acute pancreatitis and developed apseudocyst which required prolonged percutaneousdrainage. Despite the finding of severe abnormalityat ultrasound and ERCP, she has been well overfollow up of five months.Thorough investigation showed no aetiological
factors in the remaining 12 patients. Sweat testshave not been performed in three who are all nowover 18 years of age and have no chest symptoms orevidence of malabsorption, making cystic fibrosismost unlikely. Ascariasis was felt to be adequatelyexcluded by the absence of eosinophilia or identifiedobstructing helminths.
Seven of this group have remained well with onlysingle acute exacerbations or minor chronic symp-toms. One patient with established chronic pan-creatitis subsequently developed an haemorrhagiccyst, spontaneous rupture of which necessitated anemergency Whipple's procedure; he has now beenpain free over seven years' follow up but malabsorp-tion, which was present preoperatively, remains amajor problem. The ninth patient had calcificchronic pancreatitis from the age of 10 years(Fig. 4); he developed a large pancreatic pseudo-cyst which lead to a Puestow procedure at the ageof 11 years, with good results.The remaining three patients presented to us with
pseudocysts after repeated episodes of acute pan-creatitis; investigations showed chronic pancreatitisin all cases. Two boys treated by percutaneouscyst aspiration were well at follow up at 21 and29 months. A girl who had had surgical cyst drain-age when aged 7 years had persistent symptoms,and ERCP at the age of 13 showed a pancreaticduct stricture. She eventually underwent distalpancreatectomy and removal of duct calculi at theage of 18 years, since when she has remainedwell.
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Fig. 2 Pancreas divisum.(a) Tiny ventral pancreatogram (arrowed), obtained after cannulating the main papilla of Vater.(b) Pancreatogram ofthe dorsal segment obtained by cannulating the accessory papilla (arrow). The endoscope has been
removed. The duct shows calibre irregularity indicating chronic pancreatitis.
Discussion
Advances in imaging techniques have made it easierto investigate and document pancreatitis at all ages.2Our patients have all been secondary referrals from
general paediatricians and surgeons. The series doesnot include patients with uncomplicated acute pan-creatitis or three children with traumatic pancreatitisseen during the same period, and thus comprises adifferent population from those studied by others,3-6
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H 6Fig. 3 Patients with positive family histories (index cases ringed).
perhaps explaining the relative paucity of caseswhere drugs or infections could be implicated.4These 25 children constitute a very small proportionof some 1000 patients with chronic and relapsingpancreatitis investigated by this unit during the sameperiod.
Aetiological aspects. Most cases of relapsing acuteand chronic pancreatitis in adults can be attributedto alcohol abuse or gall stone disease. None of ourchildren had gall stones-these are rare in childhoodbut can cause pancreatitis.68 Substantial alcoholintake is unusual in children in Britain, although thisis perhaps a growing problem which may tend toaffect the incidence of pancreatitis in later agegroups.
Pancreatitis may be associated with metabolic
disease. Increased triglyceride concentrations (as infamilial hypertriglyceridaemia) may cause pan-creatitis, perhaps due to release of toxic free fattyacids within the gland. This may explain thepancreatitis seen in our children with poorly con-trolled diabetes. It is equally likely, however, thatthese children have combined exocrine and endo-crine disease since most poorly controlled diabeticsdo not develop pancreatitis. We saw no case of pan-creatitis associated with hypercalcaemia-thisoccurs rarely in children and is usually acute.Pancreatitis can be associated with a1 antitrypsindeficiency.9
Childhood pancreatitis has been described inassociation with a number of congenital malforma-tions including duodenal and gastric duplications,congenital pancreatic duct stenosis, and intrapapil-
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lary pancreatic duct diverticula.1"4 The overallincidence of seven children with congenital defectsamong 25 with pancreatitis in this series divergesstrikingly from adult experience.
Children with congenital bile duct cysts(choledochal cysts) have a long channel common tobiliary and pancreatic ducts, which may well explaintheir increased risk of pancreatitis. The most com-mon congenital anomaly is pancreas divisum, inwhich most of the pancreas drains through Santor-ini's duct and the accessory papilla.15 One of ourfour patients with pancreas divisum may also havehad mumps but this alone rarely leads to relapsingor chronic disease. No alternative aetiological fac-tors were identified in the others. Pancreas divisumoccurs in at least five per cent of the population andmany authorities believe that it can result in
obstructive pain and pancreatitis;15 16 the frequencyof 16% in this series adds some support to thishypothesis which we have explored more thoroughlyin adults.
Familial pancreatitis is now well recognised andsince the first kindred was described by Comfort in195217 more than 40 families with hereditary chronicpancreatitis have been recognised from many partsof the world. The true incidence is unknown.Stafford and Grand have recently reviewed thesalient features.9 The condition seems to be inher-ited as an autosomal dominant with variable pene-trance and clinical patterns are similar for differentmembers of the same kindred, with some differ-ences between families. There are twin peaks ofincidence at about the ages of 10 and 17 years (thelatter perhaps precipitated by alcohol) but patients
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may present in old age. Pancreatic calcificationoften occurs in the first decade. An association withabdominal carcinoma remains unconfirmed but mayexist in some kindreds.1820 Despite Kattwinckel'sassertion that hereditary chronic pancreatitis is thelikely diagnosis in childhood chronic pancreatitiswhen cystic fibrosis, trauma, and metabolic diseasehave been excluded,'8 we do not feel that we canassign this diagnosis to our three patients with apositive family history since their pedigrees are notconclusive.No cause is evident in many adults with pancreati-
tis; our children with idiopathic pancreatitis maywell represent the younger end of the same spec-trum. Autoimmune phenomena may be involved21and HLA associations have been suggested.22 Sinceincreasing alcohol consumption seems to have adirect, albeit exponential, relation to the incidenceof pancreatitis, it is to be expected that suchassociations are found in alcoholic and idiopathicchronic pancreatitis.23 24 Calcific pancreatitis ismore common in children in equatorial Africaand southern India and may be associated withmalnutrition.25 This type is rare in Westernchildren.26
Management and complications. Management hasbeen tailored to the individual case and we havefollowed the same somewhat arbitrary principlesused for adults. A strict low fat diet without alcoholwas recommended in every case. Some patientsseemed to benefit from enzyme supplements evenwhere exocrine insufficiency was not found.27 Per-sistent clinical steatorrhoea was a problem in onlyone patient (case 23) despite a full regimen ofpancreatic enzymes and dietary measures. He is theone patient in the series with growth retardation anddelayed puberty.Seven patients with pseudocysts were studied. In
children these usually result from trauma' 28 29 butour three traumatic cases were excluded. Two of thechildren had well documented chronic idiopathicpancreatitis before the development of their pseudo-cysts. The third had definite signs of chronicpancreatitis at presentation to us, with a previoushistory of acute pancreatitis complicated by pseudo-cyst which seemed to have resolved spontaneously.The remaining four developed pseudocysts shortlyafter acute (idiopathic) pancreatitis and three subse-quently had features of chronic pancreatitis despiteprompt cyst aspiration or drainage. All, however,remain well at follow up of more than one year.Chronic pancreatitis may follow acute pancreatitiscomplicated by pseudocyst in the absence of otherrecognised causes.23 Cooney advocated internalpseudocyst drainage for children;29 this is logical in
traumatic cases with duct damage but we recom-mend a trial of percutaneous aspiration in mostpatients when there is no duct obstruction.
Surgery was required in five of our children;overall results have been good (Table 2). Severalauthors have made recommendations concerningthe surgical approach in hereditary chronic pan-creatitis. Pancreatojejunostomy is advocated forchildren with dilated ducts; poor results may followpartial pancreatectomy or sphincterotomy alone,and total pancreatectomy is reserved for patientswith end stage disease.30 31
We thank the many surgeons and paediatricians who referredpatients to us, Dr W R Lees and Mr R C G Russell for their skilledassistance, and Dr C G D Brook for helpful discussion.
References
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3 Sibert JR. Pancreatitis in children. A study in the north ofEngland. Arch Dis Child 1975;50:443-8.Jordan SC, Ament ME. Pancreatitis in children and ado-lescents. J Pediatr 1977;91:211-6.Frey C, Redo SF. Inflammatory lesions of the pancreas ininfancy and childhood. Pediatrics 1963;32:93-102.
6 Hendren WH, Greep JM, Patton AS. Pancreatitis in childhood;experience with 15 cases. Arch Dis Child 1965;40:132-45.
8 Auldist AW. Pancreatitis and choledocholithiasis in childhood.J Pediatr Surg 1972;7:78.
9 Stafford RJ, Grand RJ. Hereditary disease of the exocrinepancreas. Clin Gastroenterol 1982;11:141-70.
10 Case records of the Massachusetts General Hospital (Case17-1964). N Engl J Med 1964;270:736-42.Williams WH, Hendren WH. Intrapancreatic duodenal duplica-tion causing pancreatitis in a child. Surgery 1971;69:708-15.
12 Case records of the Massachusetts General Hospital. (Case48-1982). N Engl J Med 1982;307:143843.
13 Turner LJ. Chronic pancreatitis and congenital strictures of thepancreatic duct. Am J Surg 1983;145:582-4.
14 Hatfield ARW, Dent DM, Marks IN. An intrapapillary pan-creatic duct diverticulum: a rare but surgically correctable causeof juvenile pancreatitis. Br J Surg 1982;69:430-1.
5 Cotton PB. Congenital anomaly of pancreas divisum as a causeof obstructive pain and pancreatitis. Gut 1980;21:105-14.
'6 Sahel J, Cross RC, Bourry J, Sarles H. Clinicopathologicalconditions associated with pancreas divisum. Digestion1982;23:1-8.
'7 Comfort MW, Steinberg AG. Pedigree of a family withhereditary chronic relapsing pancreatitis. Gastroenterology1952;21:54-63.
'8 Kattwinckel J, Lapey A, Sant'Agnese PA, di Edwards WA.Hereditary pancreatitis; three new kindreds and a critical reviewof the literature. Pediatrics 1973;51:55-69.Sibert JR. Hereditary pancreatitis in England and Wales. J MedGenet 1978;15:189-201.
20 Case records of the Massachusetts General Hospital. (Case25-1972). N Engl J Med 1972;286:1353.
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