Introduction: The proportion of gastroduodenal ulcers caused by drugs is increasing. However, the risk of gastroduodenal ulcer from drugs other than nonsteroidal anti-inflammatory drugs (NSAIDs) and low-dose aspirin is unclear. An association between immunosuppressive drugs and gastroduodenal ulcers has been suggested. We aimed to identify the immunosuppressive drugs and clinical characteristics associated with gastroduodenal ulcers in post-liver transplant patients. Methods: The study investigated 119 patients who underwent esophagogastroduodenoscopy after liver transplantation, and 2 patients were excluded. Clinical characteristics, medications, and endoscopic images were retrospectively reviewed. Results: Among 117 post-living donor liver transplant recipients, gastroduodenal ulcers were found in 10 (9.2%) patients. The ulcer group had endoscopic gastritis more frequently (40%) compared with the non-ulcer group (10%). Logistic regression analysis revealed gastritis, NSAID use, and mycophenolate mofetil were risk factors in the post-liver transplant patients. Among 103 patients not on NSAIDs, 8 (7.8%) had peptic ulcer. The most common ulcer site and ulcer shape were the gastric antrum and a circular shape, respectively. All patients in the ulcer group were taking mycophenolate mofetil, which was the only immunosuppressive drug that showed a significant difference between the two groups. Five out of 8 ulcer patients (63%) were taking gastric acid suppressants, and gastroduodenal ulcers in post-liver transplant recipients were suggested to be refractory. Conclusion: Patients treated with immunosuppressive drugs after liver transplantation can develop gastroduodenal ulcers, even with gastric acid suppressant medication. Mycophenolate mofetil may increase the risk of gastroduodenal ulcers compared with other immunosuppressive drugs.

1.
Kamada
T
,
Satoh
K
,
Itoh
T
,
Ito
M
,
Iwamoto
J
,
Okimoto
T
.
Evidence-based clinical practice guidelines for peptic ulcer disease 2020
.
J Gastroenterol
.
2021
;
56
(
4
):
303
22
.
2.
Sugano
K
,
Tack
J
,
Kuipers
EJ
,
Graham
DY
,
El-Omar
EM
,
Miura
S
.
Kyoto global consensus report on Helicobacter pylori gastritis
.
Gut
.
2015
;
64
(
9
):
1353
67
.
3.
Malfertheiner
P
,
Krejs
GJ
.
50th anniversary of the EAGEN
.
Dig Dis
.
2020
38
Suppl 2
93
5
Peptic Ulcer: Chapter Closed?
4.
Malfertheiner
P
,
Megraud
F
,
O'Morain
CA
,
Gisbert
JP
,
Kuipers
EJ
,
Axon
AT
.
Management of Helicobacter pylori infection-the maastricht V/florence consensus report
.
Gut
.
2017
;
66
(
1
):
6
30
.
5.
Masclee
GM
,
Valkhoff
VE
,
Coloma
PM
,
de Ridder
M
,
Romio
S
,
Schuemie
MJ
.
Risk of upper gastrointestinal bleeding from different drug combinations
.
Gastroenterology
.
2014
;
147
(
4
):
784
92.e9
; quiz e13-4
6.
Tomizawa
M
,
Shinozaki
F
,
Hasegawa
R
,
Shirai
Y
,
Motoyoshi
Y
,
Sugiyama
T
.
Immunosuppressive agents are associated with peptic ulcer bleeding
.
Exp Ther Med
.
2017
;
13
(
5
):
1927
31
.
7.
Sonoda
A
,
Wada
K
,
Mizukami
K
,
Fukuda
K
,
Shuto
M
,
Okamoto
K
.
Deep ulcers in the ileum associated with mycophenolate mofetil
.
Intern Med
.
2017
;
56
(
21
):
2883
6
.
8.
Calmet
FH
,
Yarur
AJ
,
Pukazhendhi
G
,
Ahmad
J
,
Bhamidimarri
KR
.
Endoscopic and histological features of mycophenolate mofetil colitis in patients after solid organ transplantation
.
Ann Gastroenterol
.
2015
;
28
(
3
):
366
73
.
9.
Kayawake
H
,
Chen-Yoshikawa
TF
,
Motoyama
H
,
Hamaji
M
,
Nakajima
D
,
Aoyama
A
.
Gastrointestinal complications after lung transplantation in Japanese patients
.
Surg Today
.
2018
;
48
(
9
):
883
90
.
10.
Telkes
G
,
Peter
A
,
Tulassay
Z
,
Asderakis
A
.
High frequency of ulcers, not associated with Helicobacter pylori, in the stomach in the first year after kidney transplantation
.
Nephrol Dial Transplant
.
2011
;
26
(
2
):
727
32
.
11.
Abbass
A
,
Khalid
S
,
Boppana
V
,
Hanson
J
,
Lin
H
,
McCarthy
D
.
Giant gastric ulcers: an unusual culprit
.
Dig Dis Sci
.
2020
;
65
(
10
):
2811
7
.
12.
Kato
T
,
Yagi
N
,
Kamada
T
,
Shimbo
T
,
Watanabe
H
,
Ida
K
.
Diagnosis of Helicobacter pylori infection in gastric mucosa by endoscopic features: a multicenter prospective study
.
Dig Endosc
.
2013
;
25
(
5
):
508
18
.
13.
Schmeding
M
,
Kiessling
A
,
Neuhaus
R
,
Heidenhain
C
,
Bahra
M
,
Neuhaus
P
.
Mycophenolate mofetil monotherapy in liver transplantation: 5-year follow-up of a prospective randomized trial
.
Transplantation
.
2011
;
92
(
8
):
923
9
.
14.
Broen
JC
,
van Laar
JM
.
Mycophenolate mofetil, azathioprine and tacrolimus: mechanisms in rheumatology
.
Nat Rev Rheumatol
.
2020
;
16
(
3
):
167
78
.
15.
Parfitt
JR
,
Jayakumar
S
,
Driman
DK
.
Mycophenolate mofetil-related gastrointestinal mucosal injury: variable injury patterns, including graft-versus-host disease-like changes
.
Am J Surg Pathol
.
2008
;
32
(
9
):
1367
72
.
16.
Nguyen
T
,
Park
JY
,
Scudiere
JR
,
Montgomery
E
.
Mycophenolic acid (cellcept and myofortic) induced injury of the upper GI tract
.
Am J Surg Pathol
.
2009
;
33
(
9
):
1355
63
.
17.
Iida
M
,
Fukuda
T
,
Ikegame
K
,
Yoshihara
S
,
Ogawa
H
,
Taniguchi
S
.
Use of mycophenolate mofetil in patients received allogeneic hematopoietic stem cell transplantation in Japan
.
Int J Hematol
.
2011
;
93
(
4
):
523
31
.
18.
Mizokami
Y
,
Narushima
K
,
Shiraishi
T
,
Otsubo
T
,
Narasaka
T
,
Matsuoka
T
.
Non-Helicobacter pylori ulcer disease in rheumatoid arthritis patients receiving long-term NSAID therapy
.
J Gastroenterol
.
2000
35
Suppl 12
38
41
.
19.
Nishizawa
T
,
Sakitani
K
,
Suzuki
H
,
Yamakawa
T
,
Takahashi
Y
,
Yamamichi
N
.
A combination of serum anti-Helicobacter pylori antibody titer and Kyoto classification score could provide a more accurate diagnosis of H pylori
.
United European Gastroenterol J
.
2019
;
7
(
3
):
343
8
.
20.
Toyoshima
O
,
Nishizawa
T
,
Koike
K
.
Endoscopic Kyoto classification of Helicobacter pylori infection and gastric cancer risk diagnosis
.
World J Gastroenterol
.
2020
;
26
(
5
):
466
77
.
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