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Zheng
Ming Lei1, Dai Yu Li1, Jing Li1, Qing Wang1,
Kai He1, Shi Lin Zheng1 and
Yong Gui Gan1
1Department
of Hepatobiliary Surgery, Affiliated Hospital of Luzhou Medical
College, Luzhou 646000, Sichuan Province, China
Zheng Ming Lei, graduated from West China Medical University as a
master
in 1990, now associate professor of hepatobiliary surgery, having 29
papers pub
lished.
Supported by the Science Fund of Department of Health, Sichuan Pr
ovince, No.9241-920054
Correspondence to: Zheng Ming Lei, Department of Hepatobiliary
Surgery, Affiliated Hospital of Luzhou Medical College, Luzhou City
646000, Sichuan Province, China
Received:
1999-05-09
Accepted: 1999-12-19
Subject
headings: pancreatic
insufficiency/diagnosis; aminoaci
d consumption test; cerulein
cholelithiasis
Lei
ZM, Li DY, Li J, Wang Q, He K, Zheng SL, Gan YG. Diagnostic value of
amino acid consumption test on exocrine pancreatic insufficiency.
World J Gastroentero,
2000;6(2):290-292
INTRODUCTION
Amino acid consumption test (AACT) has a high sensitivity and
specificity in evaluating exocrine pancreatic insufficiency[1,2],
but its diagnostic value to exocrine pancreatic insufficiency in
Chinese has not been well understood. In this study, the oral
reagent stimulating pancreatic secretion (O-AACT) was used instead
of cerulein (I-AACT) for amido acid consumption test and the
dignostic efficiency of O-AACT was evaluated and compared with I-AACT
on the exocrine pancreatic insufficiency in Chinese.
MATERIALS AND METHODS
General data
A total of 176 volunteers and patients, divided into three
groups, were studied after giving written informed consent.
Group
1. Normal coutrols consisting of 12 males and 8 females, aged 20-51
years. None of them had evidence of digestive diseases, and were
alcoholics.
Group
2. Cholelithiasis group consisting of 31 males and 45 females, aged
22-60 years, including 44 cases with gallstone, 5 with common bile
duct stone and 27 with intrahepatic lithiasis. Those who had any
evidence of pancreatitis, acute cholangitis, or diabetes mellitus
had been excluded.
Group
3. Pancreatic disease group consisting of 49 males and 31 females,
aged 23-71 years, including 28 cases of pancreatic cancer, 19 of
peri-ampulla of vater tumor, 12 of chronic pancreatitis (CP)
complicated with pancreatic cysts, 12 with common bile duct cyst
complicated with CP, and 9 of CP. Those diagnoses were supported by
the typical clinical manifestations and based on generally accepted
morphologic alteration suggestive of pancreatic disease found in at
least one o
f the following procedures: CT, surgery and/or pathology.
All
patients received I-AACT and N-benzoyl-L-tyrosyl-para-aminobenzoic
acid (purchased from Chongqing Medicine Industrial Laboratory) test
(BT-PABA test). Among them, 12 in Group 1, 36 in Group 2 and 48 in
Group 3, were also examined by O-
AACT. Each test was made at an interval of two or three days.
Gallbladder volume was determined by ultrasonography (US) at 0, 30,
45, 60, 90 and 120min in 6 volunteers in Group 1 after drinking one
of the three kinds of reagents stimulating pancreatic secretion at
an interval of two days.
Methods
BT-PABA test This test was performed according to Imondi′s
method[3].
The cut off limit for normal results was 45.0% of the orall
y administered dose.
I-AACT test According to Gullo′s
method[2],
the test
was made in the morning after an overnight fast. Each of 176
subjects received a
continuous intravenous infusion of cerulein (50ng/kg·h) (Purchased
from Si
gma Com., USA.) for an hour dissolved in 0.9% NaCl solution. During
each study blood samples for amino acid determination were taken
before the infusion was started at 0min and during the infusion at
45min, 60min and 30min after the infusion was stopped. Total plasma
amino acid was estimated by the sodium-β-naphthoquinone-4-sulfonate
salt colorimetric method. The individual basal amino acid level was
taken as 100% standard for final calculations, the relative
reduction rate of the amino acid levels at each time was calculated.
Decrease by over 14.0% in plasma amino acid concentration was used
as an normal limit index of pancreatic function.
O-AACT Oral reagent stimulating pancreatic secretion was used
instead of infusion cerulein in AACT, the other procedure was
similar to I-AACT
. The oral reagent stimulating pancreatic secretion consists mainly
of: A. Salad oil 1mL/kg, 0.1mol/L HCl 0.2mL/kg, saccharos
e 0.5g/kg added with water to 100mL.B. Salad oil 1.5mL/kg, 0.1mol/L
HCl 0.2mL/kg, sacchar
ose 0.5g/kg, added with water to 200mL.-C. Salad oil 2.0mL/kg,
0.1mol/L, HCl 0.2mL/kg, saccharose 0.5g/kg added with water to
200mL.
Gallbladder volume Gallbladder volume (Cllipsoid formula V=0
.52×l×b×h)-was measured by US each time before and after drinking
the reag
ent stimulating pancreatic secretion.
Statistical
analyses were made using Chi-square test, and analysis of variance.
RESULTS
The change of plasma amino acid level in I-AACT
Basal amino acid (AA) levels of all subjects varied between
1.12mmol/L
and 6.8mmol/L. During intravenous infusion of cerulein, the levels
of p
lasma AA in all subjects of three groups gradually decreased, the
13,45 and 5 c
ases had relative decline rate over 14.0% in Groups 1-3 at 45min
respectively,
and 18, 68 and 11 cases at 60min. Thereafter, plasma AA levels
returned slowly
toward initial AA values. The relative decline rate of plasma AA
levels of 8 cas
es in Group 2 and 67 cases in Group 3 were still lower than 14.0% at
90min.
The selection of oral reagent stimulating pancreatic secretion
When reagent A or B was selected, all volunteers, except two people
who had slight flatulency, could drink all the reagent without
discomfort. But after drinking a cup of reag
ent C, three volunteers had vomit and exited from the study, and
gallbladder contraction occurred earlier in other three volunteers
(Table 1). Reagent A was finally selected as the reagent stimulating
pancreatic secretion in O-AACT because it caused steady gallbladder
constriction.
Table 1 Gallbladder volume change after taking reagent (mean±SD,
ml)
|
Time
|
Reagent
A n=6
|
Reagent
B n=6
|
Reagent
C n=3
|
|
0min
|
17.22±3.55
|
16.58±3.04
|
14.97±5.23
|
|
30min
|
12.85±6.34
|
13.78±2.69
|
8.87±2.10
|
|
45min
|
12.12±2.25a
|
13.27±2.96
|
8.70±1.13
|
|
60min
|
9.68±3.30a
|
6.71±2.66a
|
12.03±3.05
|
|
90min
|
6.28±3.51a
|
4.93±1.89a
|
13.97±9.06
|
|
120min
|
12.27±5.42
|
11.40±4.79
|
15.47±5.94
|
aP<0.05
in comparison with 0min in the same group. Analys
is of variance: FA=4.2799 (F45=8.8133, F60=14.4901,
F90=28.7727), FB=12.1610 (F60=35.8538,
F90=63.6581)
The change of plasma amino acid level in O-AACT
During O-AACT, plasma AA levels gradually decreased, then
returned slowly towar
d initial AA values. The change was similar to that in I-AACT (Table
2).
Table 2 The change of plasma amino acid level in O-AACT and I-AACT
(mean±SD,
mmol/L)
|
AACT
|
Time
(min)
|
Group
1 (n=12)
|
Group
2 (n=36)
|
Group
3 (n=48)
|
|
I-AACT
|
0
|
4.23±0.78
|
4.64±1.49
|
3.91±1.32
|
|
45
|
3.13±0.068a1
|
3.53±1.49a6
|
3.65±1.19
|
|
60
|
2.68±0.85a2
|
3.09±1.21a7
|
3.49±1.19
|
|
90
|
3.67±0.90
|
4.08±1.47
|
3.66±1.24
|
|
O-AACT
|
0
|
4.24±1.19
|
4.67±1.45
|
3.99±1.26
|
|
45
|
2.73±0.99a3
|
4.05±1.43
|
3.57±1.24b1
|
|
60
|
2.05±0.94a4
|
3.01±1.17a8
|
3.60±1.20b2
|
|
90
|
2.94±1.12a5
|
3.84±1.49a9
|
3.89±1.29
|
aP<0.05,
in comparison with 0min in the same group and the same method.
Analysis of variance:
a1F=13.679, a2F=21.45, a3F=11.487, a4F=25.095,
a5F=7.637, a6F=9.938, a7F=23.792, a8F=28.622,
a9F=5.799.
bP<0.05,
in comparison with Group 1, analysis of variance:
b1F=4.746, b2F=17.379.
Comparison of the diagnostic value of BT-PABA, O-AACT and I-AACT
Table 3 shows the number of cases of each group diagnosed as
exocrine pa
ncreatic insufficiency by BT-PABA, O-AACT or I-AACT. The diagnostic
value of
BT-PABA, O-AACT and I-AACT to exocrine pancreatic insufficiency is
summarized
in Table 4.
Table 3 The number of cases in each group diagnosed as exocrine
pa
ncreatic insufficiency
|
%
|
Group
1
|
Group
2
|
Group
3
|
|
O-AACT
|
12
|
36
|
48
|
|
>14.0%
|
11
|
30
|
13
|
|
14.0%
|
1
|
6
|
35a
|
|
I-AACT
|
20
|
76
|
80
|
|
>14.0%
|
20
|
68
|
13
|
|
>14.0%
|
0
|
8
|
67b
|
|
BT-PABA
|
20
|
76
|
80
|
|
>45.0%
|
20
|
62
|
16
|
|
>45.0%
|
0
|
14
|
64c
|
P<0.05
in comparison with groups 1 and 2. Chi-square test (χ
2): a=33.439, b=102.208, c=77.848.
Table 4 The diagnostic value of BT-PABA, O-AACT and I-AACT in
exocrine pancreatic insufficiency
|
|
Sensitivity(%)
|
Specificity(%)
|
Accuracy(%)
|
|
O-AACT
|
72.9
|
85.4
|
79.2
|
|
I-AACT
|
83.8
|
91.7
|
88.1
|
|
BT-PABA
|
80.0
|
85.4
|
83.0
|
Chi-square
test: P>0.05.
DISCUSSION
Exocrine pancreatic function test is generally divided into
direct test (e.g., pancreozymin secretin test, cerulein test, etc.)
and indirect test (pancreolauryl test, BT-PABA test, etc.). Although
it is more sensitive and accurate in diagnosis of exocrine
pancreatic insufficiency, the direct test is not widely used in
clinical practice because it is complex, time consuming, and
bringing more sufferings to patients. Indirect test is simple, but
with low specificity and accuracy in diagnosis of exocrine
pancreatic insufficiency. Domschke detected the change of plasma AA
level before and after intravenous infusion of cholecystokinin and
secretin to diagnose exocrine pancreatic insufficiency, and the
accuracy being 91.0%, which was confirmed further by Gullo who used
cerulein instead of cholecystikinin and secretin stimulating
pancreatic secretion.
The
diagnostic value of AACT in exocrine pancreatic insufficiency in
Chinese has not been well understood because of the difference in
race, living custom, geography, and the high fat and protein food
and higher incidence of chronic pancreatitis in Europe and America,
but more carbohydrate food and lower incidence of chronic
pancreatitis in this country. Our study shows that the diagnositic
accuracy of AACT for exocrine pancreatic insufficiency in Chinese
was similar to that in European and American people. But attention
should be paid to the following points: ①
The relative decline rate over 14.0% of plasma AA was found only in
13 and 45 cases of Groups 1 and 2 during intravenous infusion of
cerulein at 45min, and in 18 and 68 cases at 60min, the maximum
decrease of plasma AA occurred later than that of Gullo′s
report. Therefore, the results should be analyzed in combination at
45min, 60min and 90min. ②
Venous blood should be collected gently to avoid hemolysis.
Incorrect deproteinization or not done in time will lead to bias in
results.
To further reduce the test cost and illumed by the idea of
Lundh test, we used oral reagent free from amino acid instead of
intravenous infusion of cerulein in AACT. Because the volunteers
would not like intubation in duodenum, gallbladder contraction
function was observed after drinking of reagent A to view indirectly
the effect of the oral reagent stimulating pancreatic secretion,
based on the theory that hydrochloric acid and fat stimulate bile
and pancreatic fluid secretion, and gallbladder contraction.
In
this study, we found that O-AACT, based on the same design theory of
I-AACT, is simple, inexpensive and easy to accept and plays a good
screening role in evaluating severe exocrine pancreatic
insufficiency. But whether it is applicable to diagnosis for slight
and moderate exocrine pancreatic insufficiency should be further
studied.
REFERENCES
1 Schmidt J,
Lewandrowsi K, Warshaw SL, Compton CC, Rattner DW. Morphometric
characteristics and homogeneity of
a new model of acute pancreatitis in the rats.Int J
Pancreatol,1992;12:41-51
2 Kusterer K, Enghoffer M, Zendler S,Dlochle C,
Usadel KH. Microcirculatory changes in sodium taurocholate
induced
pancreatitis
in rats. Am J Physiol, 1991;260:G346-356
3 Klar E, Messmer K, Warshaw AL, Herfarth C.
Pancreatic ischemia in experimental pancreatitis:
mechanism,
significance and therapy. Br J Surg, 1990;77:1205-1210
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