FosterPNMitchellCJRobertsonDRCHamiltonIIrvingHKelleherJProspective comparison of 3 non-invasive tests for pancreatic disease. BMJ1984; 289: 13–16.
2.
GoVLWDimagnoEP. Assessment of exocrine pancreatic function by duodenal intubation. Clin Gastroenterol1984; 13: 701–15.
3.
KoopH. Serum levels of pancreatic enzymes and their clinical significance. Clin Gastroenterol1984; 13: 739–61.
4.
EliasERedshawMWoodT. Diagnostic importance of changes in circulating concentrations of immunoreactive trypsin. Lancet1977; ii: 66–8.
5.
DandonaBEliasEBeckettAG. Serum trypsin concentrations in diabetes mellitus. BMJ1980; ii: 1125.
6.
LarnersCBHWJansenJBMJHafkenscheidJCMJongerinsCM. Evaluation of tests of exocrine and endocrine pancreatic function in older patients with cystic fibrosis. Pancreas1990; 5: 65–9.
7.
CrossleyJRElliotRBSmithPA. Dried blood spot screening for cystic fibrosis in the newborn. Lancet1979; i: 472–4.
8.
SlaffJWolfeMToskesP. Elevated fasting cholecystokinin levels in pancreatic exocrine impairment: Evidence to support feedback regulation. J Lab Clin Med1985; 105: 282–5.
9.
AllenJMPenkethARLAdrianTELeeYCSarsonDLHodsonMEAdult cystic fibrosis: Postprandial response of gut regulatory peptides. Gastroenterology1983; 85: 1379–83.
10.
AdrianTEBestermanHSMallinsonCNGaralotisCBloomSR. Impaired pancreatic polypeptide release in chronic pancreatitis with steatorrhoea. Gut1979; 28: 98–101.
11.
WormsleyKG. Pancreatic function tests. Clin Gastroenterol1972; 1: 27–51.
12.
OwyangCScarpelloJHVinikAI. Correlation between pancreatic enzyme secretion and plasma concentration of human pancreatic polypeptide in health and in chronic pancreatitis. Gastroenterology1982; 83: 55–62.
13.
SternAIHanskyJ. Secretin stimulated pancreatic polypeptide: A test for chronic pancreatitis. Aust NZ J Med1981; 11: 351–4.
DomschkeSHeptnerGKolbSSailerDSchneiderMUDomschkeW. Decrease in plasma amino acid level after secretin and pancreozymin as an indicator of exocrine pancreatic function. Gastroenterology1986; 90: 1031–8.
16.
GulloLPezzilliRVentrucciMBarbaraL. Caerulin induced plasma amino acid decrease: A simple, sensitive and specific test for pancreatic function. Gut1990; 31: 926–9.
17.
BarberoGSibingaMSMarinoGMSeibelR. Stool trypsin and chymotrypsin. Am J Dis Child1966; 112: 536–40.
18.
KasparPMollerGWahlefeldAW. New photometric assay for chymotrypsin in stool. Clin Chem1984; 30: 1753–7.
19.
FreiseJRanftUFrickeKSchmidtFW. Chronic pancreatitis: Sensitivity, specificity and predictive value of the pancreolauryl test. Z Gastroenterol1984; 22: 705–12.
20.
LankischPGOttoJBrauneisJHilgersRLembckeB. Detection of pancreatic steatorrhea by oral pancreatic function tests. Dig Dis Sci1988; 33: 1233–6.
21.
LesiCD'ErilGV MelziScottaMSZoniLMalagntiP. A new fecal chymotrypsin method for evaluating the exocrine pancreatic function in patients with different pancreatic diseases. Int J Pancreatol1988; 3: 203–8.
22.
LankischPG. Exocrine pancreatic function tests. Gut1981; 23: 777–98.
23.
ImondiARStradleyRPWolgemuthR. Synthetic peptides in the diagnosis of exocrine pancreatic function in animals. Gut1972; 13: 726–31.
24.
HoekFJ. The PABA test for evaluation of exocrine pancreatic function: A review of the literature. Neth J Med1988; 32: 143–56.
25.
LibeerJCScharpeSLVerkerkRMDeprettereAJSchepensPJ. Simultaneous determination of p-aminobenzoic acid, acetyl-p-aminobenzoic acid and p-aminohippuric acid in serum and urine by capillary gas chromatography with use of a nitrogen-phosphorous detector. Clin Chim Acta1981; 115: 119–23.
26.
ItoSMarutaKImaiYKatoTItoMNakajimaSUrinary p-aminobenzoic acid determined in the pancreatic function test by liquid chromatography, with electrochemical detection. Clin Chem1982; 28: 323–6.
27.
LawsonNBergJDChesnerI. Liquid-chromatographic determination of p-aminobenzoic acid in plasma to evaluate exocrine pancreatic function. Clin Chem1985; 31: 1073–5.
28.
BergJDChesnerIMLawsonN. Practical assessment of the NBT-PABA pancreatic function test using high performance liquid chromatography determination of PABA in urine. Ann Clin Biochem1985; 22: 586–90.
29.
BergJDChesnerIMAllen-NarkerRACBuckleyBMLawsonN. Exocrine pancreatic function as determined in a same-day test with use of Bentiromide and p-aminosalicylic acid. Clin Chem1986; 32: 1010–12.
30.
HoekFJVan der BerghFAJTMKleinJT ElhorstMeijerJLTimmerETytgatGNJ. Improved specificity of the PABA test with p-amino-salicylic acid (PAS). Gut1987; 28: 468–73.
31.
LangCGyrKTonkoIConenDStalderGA. Value of serum PABA as a pancreatic function test. Gut1984; 25: 508–12.
32.
TannerARRobinsonDP. Pancreatic function testing: Serum PABA measurement is a reliable and accurate measurement of exocrine function. Gut1988; 29: 1736–40.
33.
KoranGWeizmanZForstnerGMacleodSMDuriePR. Altered PABA pharmacokinetics in cystic fibrosis. Implications for bentiromide test. Dig Dis Sci1985; 30: 928–32.
34.
HoekFJTytgatGNJ. Further evidence for the influence of intraduodenal pH on the PABA test. Clin Chim Acta1984; 142: 287–92.
35.
PembertonWLobleyRW. Hydrolysis of benzoyl-tyrosyl-p-aminobenzoic acid by a human intestinal microvillar peptidase. Biochem Soc Trans1985; 13: 175–6.
36.
LangCGyrKStalderGAGillessenD. Assessment of exocrine pancreatic function by oral administration of NBT-PABA: 5 years clinical experience. Br J Surg1981; 68: 771–5.
37.
ScharpeSIllianoL. Two indirect tests of exocrine function evaluated. Clin Chem1987; 33: 5–12.
38.
CavalliniGPiubelloWBroccoGVantiniIBeniniLChechGReliability of the Bz-Ty-PABA and the pancreolauryl test in the assessment of exocrine pancreatic function. Digestion1983; 27: 129–37.
39.
MalisFKasafirekEFricPKorbavaL. An oral test of pancreatic chymotrypsin activity using N-acetyl-L-tyrosyl-p-amino benzoic acid in rats. J Clin Chem Clin Biochem1976; 14: 499–500.
40.
BoydEJCummingJGRCuschieriAWoodRAWormsleyKG. Prospective comparison of the fluorescein-dilaurate test with the secretin-cholecystokinin test for pancreatic exocrine function. J Clin Pathol1982; 35: 1240–3.
41.
KayGHinePBraganzaJ. The Pancreolauryl Test. A method of assessing the combined functional efficacy of pancreatic esterase and bile salts in vivo?Digestion1982; 24: 241–5.
42.
ReddyNKKaurVBamberyPChawlaYDilawariJB. Pancreolauryl pancreatic function test [Letter]. Gastroenterology1989; 96: 1377–8.
43.
BruggeWRGoffJSAllenNCPodellERAllenRH. Development of a dual label Schilling Test for pancreatic exocrine function based on the differential absorption of cobalamin bound to intrinsic factor and R protein. Gastroenterology1970; 78: 937–49.
44.
ChenWLMorishitaREguchiTKawaiTSakaiMTateishiHClinical usefulness of the dual-label Schilling Test for pancreatic exocrine function. Gastroenterology1989; 96: 1337–45.
45.
LeungJWCFrostRABurgessKBraganzaJMSlaterDMCottonPB. Modified dual label Schilling test for pancreatic exocrine function. Clin Chim Acta1988; 174: 93–100.
46.
Levy-GigiCMandelowitzNPeledYAyalonDGilatT. Is the fat breath test effective in the diagnosis of fat malabsorption and pancreatic disease?Digestion1978; 18: 76–85.
47.
GoffJS. Two-stage triolein breath test differentiates pancreatic insufficiency from other causes of malabsorption. Gastroenterology1982; 83: 44–6.
48.
VantrappenGRRutgeertsPJGhoosYFHieleMI. Mixed triglyceride breath test. A non-invasive test of pancreatic lipase activity in the duodenum. Gastroenterology1989; 96: 1126–34.
49.
AdlungJGrazikowskeH. Diagnosis of fat absorption with 14C-tripalmitate/3H-palmitic acid. Scand J Gastroenterol1979; 14: 587–92.
