- Email: [email protected]
Prospective evaluation of a new biflanged metal stent for the treatment of pancreatic fluid collections (with videos)
Accepted Manuscript Prospective evaluation of a new biflanged metal stent for the treatment of pancreatic fluid collections (with videos) Shuntaro Mukai, MD, Takayoshi Tsuchiya, MD, Takao Itoi, MD, FASGE, Shujiro Tsuji, MD, Reina Tanaka, MD, Ryosuke Tonozuka, MD, Yuichi Nagakawa, MD, Kazuhiko Kasuya, MD, Masaaki Shimatani, MD, Atsushi Sofuni, MD PII:
S0016-5107(16)30806-9
DOI:
10.1016/j.gie.2016.11.025
Reference:
YMGE 10334
To appear in:
Gastrointestinal Endoscopy
Received Date: 10 September 2016 Accepted Date: 14 November 2016
Please cite this article as: Mukai S, Tsuchiya T, Itoi T, Tsuji S, Tanaka R, Tonozuka R, Nagakawa Y, Kasuya K, Shimatani M, Sofuni A, Prospective evaluation of a new biflanged metal stent for the treatment of pancreatic fluid collections (with videos), Gastrointestinal Endoscopy (2016), doi: 10.1016/ j.gie.2016.11.025. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.
ACCEPTED MANUSCRIPT
Prospective evaluation of a new biflanged metal stent for the treatment of
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pancreatic fluid collections (with videos)
Shuntaro Mukai, MD, [1] Takayoshi Tsuchiya, MD, [1] Takao Itoi, MD, FASGE, [1]
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Shujiro Tsuji, MD, [1] Reina Tanaka, MD, [1] Ryosuke Tonozuka, MD, [1] Yuichi
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Nagakawa, MD, [2] Kazuhiko Kasuya, MD, [2] Masaaki Shimatani, MD, [3] Atsushi
Sofuni, MD, [1]
Japan
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1. Department of Gastroenterology and Hepatology, Tokyo Medical University, Tokyo,
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2. Third Department of Surgery, Tokyo Medical University, Tokyo, Japan
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3. Third Department of Internal Medicine, Kansai Medical University, Osaka Japan
Corresponding author: Takao Itoi, MD, PhD, FASGE
Department of Gastroenterology and Hepatology, Tokyo Medical University
6-7-1 Nishishinjuku, Shinjuku-ku, Tokyo 160-0023, Japan
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Tel.: +81-3-3342-6111, Fax: +81-3-5381-6654
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E-mail: [email protected]
Abstract
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Background and Aims: EUS-guided transluminal drainage (EUS-TD) and sequential
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direct endoscopic necrosectomy (DEN) for pancreatic fluid collections (PFCs) using a
dedicated biflanged metal stent (BFMS) has been reported as a useful alternative to
using plastic stents or a conventional metal stent. However, current dedicated BFMSs
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have limitations. Recently, a new BFMS with solidly constructed biflanges and various
stent lengths matched to the PFC condition has been developed. Herein, we
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prospectively evaluated this new BFMS for the treatment of PFCs.
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Methods: From July 2015 to July 2016, EUS-TD using the new BFMS was performed
in 12 patients for PFCs (4 patients with pancreatic pseudocysts; 8 patients with
walled-off necrosis). When clinical resolution could not be achieved, DEN was
performed the following day.
Results: The stent was deployed successfully with a median procedure time of 16 min
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(range, 11-24 min) and with no procedure-related adverse events in all the patients
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(12/12, 100%). DEN via the stent was achieved in all the patients in whom they were
attempted (4/4,100%). Spontaneous stent migration or stent dislocation during DEN
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was not observed in any of the patients. Two WON patients died from spontaneous
pseudoaneurysm rupture and multiple organ failure. The PFCs in the other 10 patients
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completely resolved, and later the stent was removed with no difficulty in 9 patients
after a median time of 48 days (range, 30-180 days).
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Introduction
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Conclusions: The new BFMS is technically feasible and safe for the treatment of PFCs.
EUS-guided transluminal drainage (EUS-TD) and sequential direct endoscopic
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necrosectomy (DEN) for pancreatic fluid collections (PFCs) using a dedicated biflanged
metal stent (BFMS) has been reported as a useful alternative to using 1 or more plastic
stents or a conventional self-expandable biliary metal stent [1-7]. Current dedicated
BFMSs are divided into lumen-apposing metal stent (LAMS) and flared metal stent
(FMS) [8]. The LAMS has limitations in the case of a longer length between the gastric
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wall and the cyst wall because the stent length between biflanges is 1 cm. In contrast,
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the FMS has limitations in terms of a weak lumen-apposing force, leading to stent
migration because of the flared flanges. Recently, a new BFMS with solidly constructed
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biflanges and various stent lengths matched to the PFC condition has been developed.
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Herein, we prospectively evaluated this new BFMS for the treatment of PFCs.
Methods
The new BFMS (HANARO stent, MI Tech, Seoul, Korea) is a fully covered metal stent
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designed for EUS-TD, with a 14-mm-diameter lumen and a 20- or 30-mm-long body
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[Figure 1]. This stent is made of a self-expanding nitinol wire and is fully covered with
a silicon membrane to minimize leakage. Both the proximal and distal anchor flanges
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are designed to hold tissue layers tight and prevent stent migration. The diameter of a
flange is 24 mm. The large lumen diameter yields effective drainage, and the short body
length and the high stability enable the easy insertion of a standard upper endoscope
into the cyst for DEN. The delivery sheath is 10.2F and the delivery system is almost
identical to that of a conventional biliary metal stent.
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Our eligibility criteria for EUS-TD using the new BFMS in a pilot observational
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study were as follows: (1) the size of the pancreatic pseudocyst (PPC) or walled-off
necrosis (WON) is >30 mm, and (2) the distance between the GI tract and the cavity
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measured under EUS is <20 mm. EUS-TD using the new BFMS was performed in 12
consecutive patients who conformed to our eligibility criteria for PFCs (ie, 4 patients
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with PPCs; 8 patients with WON) [9] between July 2015 and July 2016 at Tokyo
Medical University Hospital. The clinical results were assessed prospectively.
This study was approved by our institutional review board and written informed
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consent was obtained from all the patients. This study was registered with the
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University Hospital Medical Information Network Clinical Trials Registry (Number
UMIN000021347). Data were collected in accordance with the provisions of the
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Declaration of Helsinki.
All procedures were performed using a conventional curved linear array
echoendoscope (GF-UCT240 or GF-UCT260; Olympus Medical Systems, Tokyo,
Japan). A 19-gauge fine-needle aspiration needle was used to puncture the PFC under
EUS-guidance. A 0.025-inch guidewire was inserted into the cyst to form several loops.
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Then, the tract was dilated using a 6F electrocautery dilator and a 4- to 6-mm dilating
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balloon. Finally, a stent was deployed under ultrasound, fluoroscopic, and endoscopic
guidance [Figure 2]. The placement of a 5F or 6F nasocystic catheter for irrigation was
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left to the operator’s discretion. Clinical resolution was defined as the disappearance of
symptoms, improvement in inflammation, and the shrinkage of the PFC cavity on CT.
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When clinical resolution could not be achieved within a few days (usually 3-7 days)
after EUS-TD, DEN was performed. A standard upper endoscope was directly advanced
insufflation.
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Results
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via the stent. Necrotic tissue was removed using a snare forceps during CO2
The patients and treatment results for PFCs are shown in Table 1. The stent was
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deployed successfully with a median procedure time of 16 min (range, 11-24 min) and
with no procedure-related adverse events in all the patients. Insertion of a standard
upper endoscope through the stent and DEN were achieved in all the patients in whom
they were attempted. Spontaneous stent migration or stent dislocation during the DEN
procedures was not observed in any of the patients. Two WON patients died from
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spontaneous
pseudoaneurysm
rupture
occurring
between
the
endoscopic
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necrosectomy sessions and from multiple organ failure although hemostasis was
achieved by coil embolization. The PFCs completely resolved in the other 10 patients,
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and later the stent was removed with no difficulty in 9 patients after a median time of 48
days (range, 30-180 days) except in 1 patient who had malignant pancreatic cancer with
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a poor prognosis. PFC recurrence or stent-related late adverse event was not observed
for a median follow-up time of 186 days (range, 43-396).
Discussion
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We demonstrated that EUS-TD using a new BFMS is an effective treatment approach
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for PFCs with high technical and clinical success rates. There were no procedure-related
adverse events with the deployment or removal of the new stent. Several investigators
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have reported that a dedicated BFMS is a useful device for PFC drainage under EUS
guidance in a pilot observational study because it may provide a better drainage owing
to its large bore and a better access route for additional procedures such as DEN than
traditional plastic stent placement [10-12]. Moreover, the use of a BFMS reduces the
procedure time and technical complexity because of its ease of placement. The major
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limitation of BFMSs is the cost, making its routine use controversial. However, this may
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be overcome by less need for a repeat intervention in complicated cases. Our previous
study showed no significant difference in the total procedure cost between a plastic stent
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and a BFMS in the treatment of complicated WON cases in which DEN was needed
[13].
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The previously reported BFMSs are divided into 2 types: LAMS (AXIOS stent
and SPAXUS stent) and FMS (Niti-S; Nagi stent). FMS migration may be inevitable
because of its weak lumen-apposing function. This was shown in a multicenter national
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study conducted in Australia to evaluate FMS (Nagi stent) for EUS-TD which included
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54 cases of which 4 cases (7.4%) had stent migration during DEN and 6 cases (11.1%)
had spontaneous stent migration [14]. On the other hand, LAMS has a lower stent
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migration rate (1.1%-5%) than FMS (11.1%-19%) [6-8, 15, 16]. These data indicate that
the stability of LAMSs appears to be better than that of FMSs. The advantage of FMSs
is that the stent length between the 2 flanges is longer than that of LAMSs (20 or 30 mm
vs 10 mm); thus, the FMS is deployed safely in cases located at a long distance from the
GI tract. Moreover, the delivery system is almost identical to that of a conventional
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biliary metal stent, making it simple to use [7, 17].
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The new BFMS in this study (HANARO stent) has both advantages of the
LAMS and the FMS, the so-called “hybrid BFMS”. In our clinical experience (data not
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recorded), the radial force of the HANARO stent is comparable with that of existing
BFMSs. The lumen-apposing force of the HANARO stent may be weak compared with
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that of the AXIOS stent because the length between the 2 flanges of the HANARO stent
is longer than that of the AXIOS stent (20 or 30 mm vs 10 mm). On the other hand, the
AXIOS stent is not suitable in case of a longer distance (>20 mm) between the stomach
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and the cavity. The HANARO stent may have a similar or better lumen-apposing force
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than the SPAXUS stent because it has powerful flanges compared with the SPAXUS
stent despite having the same stent length (20 mm). The lumen-apposing force of the
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HANARO stent is better than that of the Nagi stent, which has only flared flanges. On
the other hand, the stability of the HANARO stent is equivalent to that of the AXIOS
stent because the anchor flanges of the HANARO stent are designed to hold tissue
layers tightly similarly to the AXIOS stent, preventing migration. Actually, stent
migration occurring spontaneously or during DEN was not observed in the present study.
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Because the stent body length is 20 or 30 mm and the delivery system is simple and
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similar to that of FMS, the stent adapts to various locations of the PFCs.
In 2 patients, severe bleeding in the WON cavity between DEN sessions
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occurred owing to the spontaneous rupture of the pseudoaneurysm. As the
pseudoaneurysm location was distinct from the stent, its occurrence was possibly a
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result of inflammation and not in relation with the stent. Although the clinical outcome
of WON has been improved by the development of DEN or a dedicated BFMS, several
adverse events may be inevitable during the endoscopic treatment course [18, 19]. In
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previous multicenter studies that included a large number of cases, the clinical success
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rate of EUS-TD and DEN using BFMS for WON has been reported to be approximately
80% to 90% [16,20]. The clinical success rate of 83% in the present study was within
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the clinical success range in these previous reports.
The limitations of this study include the absence of a control group and the small
case series being a prospective pilot study at a single institution. In addition, long-term
results including recurrence and late adverse events could not be evaluated. Furthermore,
all drainage procedures were performed via the transgastric route in the present study.
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Thus, the efficacy of the new BFMS for drainage via the transduodenal route could not
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be evaluated at this time.
In conclusion, the new BFMS is technically feasible and safe for the treatment
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of PFCs. Further studies using randomized-controlled, well-designed, adequately
required to validate its efficacy.
Acknowledgement
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powered studies comparing the new BFMS with previous BFMSs (LAMS or FMS) are
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We thank Dr. Edward Barroga, Associate Professor and Senior Medical Editor
from the Department of International Medical Communications of Tokyo Medical
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References
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University for editing the manuscript.
1) Binmoeller KF, Shah J. A novel lumen-apposing stent for transluminal drainage of nonadherent extraintestinal fluid collections. Endoscopy. 2011;43(4):337-42.
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2) Itoi T, Nageshwar Reddy D, Yasuda I. New fully-covered self-expandable metal stent for endoscopic ultrasonography-guided intervention in infectious walled-off
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4) Kawakami H, Itoi T, Sakamoto N. Endoscopic ultrasound-guided transluminal drainage for peripancreatic fluid collections: where are we now? Gut Liver.
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Pancreat Sci. 2014;21(10):E75-85. 6) Bapaye A, Itoi T, Kongkam P, et al. New fully covered large-bore wide-flare removable metal stent for drainage of pancreatic fluid collections: results of a
multicenter study. Dig Endosc. 2015;27(4):499-504.
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7) Itoi T, Binmoeller KF, Shah J, et al. Clinical evaluation of a novel lumen-apposing metal stent for endosonography-guided pancreatic pseudocyst and gallbladder
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8) Mukai S, Itoi T, Sofuni A, Tsuchiya T, Gotoda T, Moriyasu F. Clinical evaluation of endoscopic ultrasonography-guided drainage using a novel flared-type biflanged
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9) Banks PA, Bollen TL, Dervenis C, et al. Classification of acute pancreatitis 2012: revision of the Atlanta classification and definitions by international consensus. Gut.
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AM, Pérez-Miranda M. Endosonography-guided drainage of pancreatic fluid
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11)Singhal S, Rotman SR, Gaidhane M, et al. Pancreatic fluid collection drainage by endoscopic ultrasound: an update. Clin Endosc. 2013;46:506-14.
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covered self-expanding metal stents. Clin Gastroenterol Hepatol. 2015;13:747-52.
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13)Mukai S, Itoi T, Baron TH, Sofuni A, Itokawa F, Kurihara T, Tsuchiya T, Ishii K,
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Tsuji S, Ikeuchi N, Tanaka R, Umeda J, Tonozuka R, Honjo M, Gotoda T, Moriyasu
F, Yasuda I. Endoscopic ultrasound-guided placement of plastic vs. biflanged metal
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14)Chandran S, Efthymiou M, Kaffes A, et al. Management of pancreatic collections with a novel endoscopically placed fully covered self-expandable metal stent: a
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15)Rinninella E, Kunda R, Dollhopf M, et al. EUS-guided drainage of pancreatic fluid
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collections using a novel lumen-apposing metal stent on an electrocautery-enhanced
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2015;82:1039-46.
16)Siddiqui AA, Adler DG, Nieto J, et al. EUS-guided drainage of peripancreatic fluid collections and necrosis by using a novel lumen-apposing stent: a large retrospective,
multicenter U.S. experience (with videos). Gastrointest Endosc. 2016;83(4):
699-707.
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17)Yamamoto N, Isayama H, Kawakami H, et al. Preliminary report on a new, fully covered, metal stent designed for the treatment of pancreatic fluid collections.
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Gastrointest Endosc. 2013;77:809-14.
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19)Yasuda I, Nakashima M, Iwai T et al. Japanese multicenter experience of endoscopic necrosectomy for infected walled-off pancreatic necrosis: the JENIPaN
study. Endoscopy. 2013;45:627-63.
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20)Sharaiha RZ, Tyberg A, Khashab MA, et al. Endoscopic therapy with lumen-apposing metal stents is safe and effective for patients with pancreatic
necrosis.
Clin
Gastroenterol
Hepatol.
2016
May
14.
pii:
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walled-off
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S1542-3565(16)30196-3.
Figure legends
Figure 1. The new fully covered biflanged metal stent (HANARO stent, MI Tech, Seoul,
Korea)
Figure 2. Transgastric EUS-guided drainage using the new biflanged metal stent
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a. The distal flange was deployed under EUS and fluoroscopic guidance.
Figure 3.
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b. After the stent placement, the necrotic fluid was drained through the stent.
Endoscopic necrosectomy through the new biflanged metal stent
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a. A standard upper endoscope was directly advanced via the stent.
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b. Necrotic tissue was removed using a snare forceps.
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Patient
Age
no.
(y)/sex
Disease
Maximum Stent size of
size
PFC
(mm)
Access route Technical Procedure Full expansion success
time
after
(min)
placement Yes
Additional Adverse events
Clinical
Stent
procedure
success
removal (days)
(mm) 96
30
Transgastric Yes
17
2
36/M
Sterile PPC
54
30
Transgastric Yes
16
3
68/M
Infected PPC
73
30
Transgastric Yes
16
4
77/F
Infected PPC
115
30
Transgastric Yes
5
80/M
Sterile WON
95
30
6
44/M
Infected WON
73
20
7
79/M
Infected WON
106
30
8
75/M
Infected WON
129
30
No
Yes
180
No
No
Yes
42
Yes
No
No
Yes
46
17
Yes
No
No
Yes
Remained
Transgastric Yes
11
Yes
No
No
Yes
37
Transgastric Yes
11
Yes
No
No
Yes
48
Transgastric Yes
15
Yes
DEN
No
Yes
58
Transgastric Yes
15
Yes
DEN
Rupture of
Death
N/A
Death
N/A
Yes
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No
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Sterile PPC
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65/M
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1
pseudoaneurysm
9
50/M
Infected WON
200
30
Transgastric Yes
25
Yes
DEN
Rupture of pseudoaneurysm
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64/M
Infected WON
128
30
Transgastric Yes
18
No
No
No
Yes
63
DEN
No
Yes
60
Additional No
Yes
40
Additional balloon 11
67/M
Infected WON
147
30
Transgastric Yes
15
Yes
12
81/F
Infected WON
105
20
Transgastric Yes
13
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dilation
Yes
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Table 1. Patients and treatment data for pancreatic fluid collections
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drainage
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PFC, pancreatic fluid collection; PPC, pancreatic pseudocyst; WON, walled-off necrosis; DEN, direct endoscopic necrosectomy; N/A, not available
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Author contributions study design, data analysis, and script preparation: Shuntaro Mukai, Takao Itoi; endoscopic procedures: Takayoshi Tsuchiya , Shujiro Tsuji, Reina Tanaka, Ryosuke Tonozuka, Atsushi Sofuni ; data collection: Shuntaro Mukai ; manuscript supervisors: Yuichi Nagakawa, Takao Itoi, Kazuhiro Kasuya, Masaaki Shimatani. All authors have read and approved the submitted version of the paper.
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Acronyms
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EUS-TD, EUS-guided transluminal drainage; DEN, direct endoscopic necrosectomy; PFC, pancreatic fluid collection; BFMS, biflanged metal stent; LAMS, lumen-apposing metal stent; FMS, flared metal stent; PPC, pancreatic pseudocyst; WON, walled-off
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necrosis
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IRB and Patient Consent Declaration This study was approved by our institutional review board (Tokyo Medical University No. 3141) and written informed consent was obtained from all the patients. This study was registered with the University Hospital Medical Information Network Clinical Trials Registry (Number UMIN000021347). Data was collected in accordance with the provisions of the Declaration of Helsinki.
S0016-5107(16)30806-9
DOI:
10.1016/j.gie.2016.11.025
Reference:
YMGE 10334
To appear in:
Gastrointestinal Endoscopy
Received Date: 10 September 2016 Accepted Date: 14 November 2016
Please cite this article as: Mukai S, Tsuchiya T, Itoi T, Tsuji S, Tanaka R, Tonozuka R, Nagakawa Y, Kasuya K, Shimatani M, Sofuni A, Prospective evaluation of a new biflanged metal stent for the treatment of pancreatic fluid collections (with videos), Gastrointestinal Endoscopy (2016), doi: 10.1016/ j.gie.2016.11.025. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.
ACCEPTED MANUSCRIPT
Prospective evaluation of a new biflanged metal stent for the treatment of
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pancreatic fluid collections (with videos)
Shuntaro Mukai, MD, [1] Takayoshi Tsuchiya, MD, [1] Takao Itoi, MD, FASGE, [1]
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Shujiro Tsuji, MD, [1] Reina Tanaka, MD, [1] Ryosuke Tonozuka, MD, [1] Yuichi
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Nagakawa, MD, [2] Kazuhiko Kasuya, MD, [2] Masaaki Shimatani, MD, [3] Atsushi
Sofuni, MD, [1]
Japan
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1. Department of Gastroenterology and Hepatology, Tokyo Medical University, Tokyo,
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2. Third Department of Surgery, Tokyo Medical University, Tokyo, Japan
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3. Third Department of Internal Medicine, Kansai Medical University, Osaka Japan
Corresponding author: Takao Itoi, MD, PhD, FASGE
Department of Gastroenterology and Hepatology, Tokyo Medical University
6-7-1 Nishishinjuku, Shinjuku-ku, Tokyo 160-0023, Japan
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Tel.: +81-3-3342-6111, Fax: +81-3-5381-6654
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E-mail: [email protected]
Abstract
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Background and Aims: EUS-guided transluminal drainage (EUS-TD) and sequential
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direct endoscopic necrosectomy (DEN) for pancreatic fluid collections (PFCs) using a
dedicated biflanged metal stent (BFMS) has been reported as a useful alternative to
using plastic stents or a conventional metal stent. However, current dedicated BFMSs
TE D
have limitations. Recently, a new BFMS with solidly constructed biflanges and various
stent lengths matched to the PFC condition has been developed. Herein, we
EP
prospectively evaluated this new BFMS for the treatment of PFCs.
AC C
Methods: From July 2015 to July 2016, EUS-TD using the new BFMS was performed
in 12 patients for PFCs (4 patients with pancreatic pseudocysts; 8 patients with
walled-off necrosis). When clinical resolution could not be achieved, DEN was
performed the following day.
Results: The stent was deployed successfully with a median procedure time of 16 min
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(range, 11-24 min) and with no procedure-related adverse events in all the patients
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(12/12, 100%). DEN via the stent was achieved in all the patients in whom they were
attempted (4/4,100%). Spontaneous stent migration or stent dislocation during DEN
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was not observed in any of the patients. Two WON patients died from spontaneous
pseudoaneurysm rupture and multiple organ failure. The PFCs in the other 10 patients
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completely resolved, and later the stent was removed with no difficulty in 9 patients
after a median time of 48 days (range, 30-180 days).
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Introduction
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Conclusions: The new BFMS is technically feasible and safe for the treatment of PFCs.
EUS-guided transluminal drainage (EUS-TD) and sequential direct endoscopic
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necrosectomy (DEN) for pancreatic fluid collections (PFCs) using a dedicated biflanged
metal stent (BFMS) has been reported as a useful alternative to using 1 or more plastic
stents or a conventional self-expandable biliary metal stent [1-7]. Current dedicated
BFMSs are divided into lumen-apposing metal stent (LAMS) and flared metal stent
(FMS) [8]. The LAMS has limitations in the case of a longer length between the gastric
3
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wall and the cyst wall because the stent length between biflanges is 1 cm. In contrast,
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the FMS has limitations in terms of a weak lumen-apposing force, leading to stent
migration because of the flared flanges. Recently, a new BFMS with solidly constructed
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biflanges and various stent lengths matched to the PFC condition has been developed.
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Herein, we prospectively evaluated this new BFMS for the treatment of PFCs.
Methods
The new BFMS (HANARO stent, MI Tech, Seoul, Korea) is a fully covered metal stent
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designed for EUS-TD, with a 14-mm-diameter lumen and a 20- or 30-mm-long body
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[Figure 1]. This stent is made of a self-expanding nitinol wire and is fully covered with
a silicon membrane to minimize leakage. Both the proximal and distal anchor flanges
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are designed to hold tissue layers tight and prevent stent migration. The diameter of a
flange is 24 mm. The large lumen diameter yields effective drainage, and the short body
length and the high stability enable the easy insertion of a standard upper endoscope
into the cyst for DEN. The delivery sheath is 10.2F and the delivery system is almost
identical to that of a conventional biliary metal stent.
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Our eligibility criteria for EUS-TD using the new BFMS in a pilot observational
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study were as follows: (1) the size of the pancreatic pseudocyst (PPC) or walled-off
necrosis (WON) is >30 mm, and (2) the distance between the GI tract and the cavity
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measured under EUS is <20 mm. EUS-TD using the new BFMS was performed in 12
consecutive patients who conformed to our eligibility criteria for PFCs (ie, 4 patients
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with PPCs; 8 patients with WON) [9] between July 2015 and July 2016 at Tokyo
Medical University Hospital. The clinical results were assessed prospectively.
This study was approved by our institutional review board and written informed
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consent was obtained from all the patients. This study was registered with the
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University Hospital Medical Information Network Clinical Trials Registry (Number
UMIN000021347). Data were collected in accordance with the provisions of the
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Declaration of Helsinki.
All procedures were performed using a conventional curved linear array
echoendoscope (GF-UCT240 or GF-UCT260; Olympus Medical Systems, Tokyo,
Japan). A 19-gauge fine-needle aspiration needle was used to puncture the PFC under
EUS-guidance. A 0.025-inch guidewire was inserted into the cyst to form several loops.
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Then, the tract was dilated using a 6F electrocautery dilator and a 4- to 6-mm dilating
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balloon. Finally, a stent was deployed under ultrasound, fluoroscopic, and endoscopic
guidance [Figure 2]. The placement of a 5F or 6F nasocystic catheter for irrigation was
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left to the operator’s discretion. Clinical resolution was defined as the disappearance of
symptoms, improvement in inflammation, and the shrinkage of the PFC cavity on CT.
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When clinical resolution could not be achieved within a few days (usually 3-7 days)
after EUS-TD, DEN was performed. A standard upper endoscope was directly advanced
insufflation.
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Results
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via the stent. Necrotic tissue was removed using a snare forceps during CO2
The patients and treatment results for PFCs are shown in Table 1. The stent was
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deployed successfully with a median procedure time of 16 min (range, 11-24 min) and
with no procedure-related adverse events in all the patients. Insertion of a standard
upper endoscope through the stent and DEN were achieved in all the patients in whom
they were attempted. Spontaneous stent migration or stent dislocation during the DEN
procedures was not observed in any of the patients. Two WON patients died from
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spontaneous
pseudoaneurysm
rupture
occurring
between
the
endoscopic
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necrosectomy sessions and from multiple organ failure although hemostasis was
achieved by coil embolization. The PFCs completely resolved in the other 10 patients,
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and later the stent was removed with no difficulty in 9 patients after a median time of 48
days (range, 30-180 days) except in 1 patient who had malignant pancreatic cancer with
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a poor prognosis. PFC recurrence or stent-related late adverse event was not observed
for a median follow-up time of 186 days (range, 43-396).
Discussion
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We demonstrated that EUS-TD using a new BFMS is an effective treatment approach
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for PFCs with high technical and clinical success rates. There were no procedure-related
adverse events with the deployment or removal of the new stent. Several investigators
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have reported that a dedicated BFMS is a useful device for PFC drainage under EUS
guidance in a pilot observational study because it may provide a better drainage owing
to its large bore and a better access route for additional procedures such as DEN than
traditional plastic stent placement [10-12]. Moreover, the use of a BFMS reduces the
procedure time and technical complexity because of its ease of placement. The major
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limitation of BFMSs is the cost, making its routine use controversial. However, this may
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be overcome by less need for a repeat intervention in complicated cases. Our previous
study showed no significant difference in the total procedure cost between a plastic stent
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and a BFMS in the treatment of complicated WON cases in which DEN was needed
[13].
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The previously reported BFMSs are divided into 2 types: LAMS (AXIOS stent
and SPAXUS stent) and FMS (Niti-S; Nagi stent). FMS migration may be inevitable
because of its weak lumen-apposing function. This was shown in a multicenter national
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study conducted in Australia to evaluate FMS (Nagi stent) for EUS-TD which included
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54 cases of which 4 cases (7.4%) had stent migration during DEN and 6 cases (11.1%)
had spontaneous stent migration [14]. On the other hand, LAMS has a lower stent
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migration rate (1.1%-5%) than FMS (11.1%-19%) [6-8, 15, 16]. These data indicate that
the stability of LAMSs appears to be better than that of FMSs. The advantage of FMSs
is that the stent length between the 2 flanges is longer than that of LAMSs (20 or 30 mm
vs 10 mm); thus, the FMS is deployed safely in cases located at a long distance from the
GI tract. Moreover, the delivery system is almost identical to that of a conventional
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biliary metal stent, making it simple to use [7, 17].
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The new BFMS in this study (HANARO stent) has both advantages of the
LAMS and the FMS, the so-called “hybrid BFMS”. In our clinical experience (data not
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recorded), the radial force of the HANARO stent is comparable with that of existing
BFMSs. The lumen-apposing force of the HANARO stent may be weak compared with
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that of the AXIOS stent because the length between the 2 flanges of the HANARO stent
is longer than that of the AXIOS stent (20 or 30 mm vs 10 mm). On the other hand, the
AXIOS stent is not suitable in case of a longer distance (>20 mm) between the stomach
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and the cavity. The HANARO stent may have a similar or better lumen-apposing force
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than the SPAXUS stent because it has powerful flanges compared with the SPAXUS
stent despite having the same stent length (20 mm). The lumen-apposing force of the
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HANARO stent is better than that of the Nagi stent, which has only flared flanges. On
the other hand, the stability of the HANARO stent is equivalent to that of the AXIOS
stent because the anchor flanges of the HANARO stent are designed to hold tissue
layers tightly similarly to the AXIOS stent, preventing migration. Actually, stent
migration occurring spontaneously or during DEN was not observed in the present study.
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Because the stent body length is 20 or 30 mm and the delivery system is simple and
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similar to that of FMS, the stent adapts to various locations of the PFCs.
In 2 patients, severe bleeding in the WON cavity between DEN sessions
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occurred owing to the spontaneous rupture of the pseudoaneurysm. As the
pseudoaneurysm location was distinct from the stent, its occurrence was possibly a
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result of inflammation and not in relation with the stent. Although the clinical outcome
of WON has been improved by the development of DEN or a dedicated BFMS, several
adverse events may be inevitable during the endoscopic treatment course [18, 19]. In
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previous multicenter studies that included a large number of cases, the clinical success
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rate of EUS-TD and DEN using BFMS for WON has been reported to be approximately
80% to 90% [16,20]. The clinical success rate of 83% in the present study was within
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the clinical success range in these previous reports.
The limitations of this study include the absence of a control group and the small
case series being a prospective pilot study at a single institution. In addition, long-term
results including recurrence and late adverse events could not be evaluated. Furthermore,
all drainage procedures were performed via the transgastric route in the present study.
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Thus, the efficacy of the new BFMS for drainage via the transduodenal route could not
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be evaluated at this time.
In conclusion, the new BFMS is technically feasible and safe for the treatment
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of PFCs. Further studies using randomized-controlled, well-designed, adequately
required to validate its efficacy.
Acknowledgement
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powered studies comparing the new BFMS with previous BFMSs (LAMS or FMS) are
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We thank Dr. Edward Barroga, Associate Professor and Senior Medical Editor
from the Department of International Medical Communications of Tokyo Medical
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References
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University for editing the manuscript.
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2) Itoi T, Nageshwar Reddy D, Yasuda I. New fully-covered self-expandable metal stent for endoscopic ultrasonography-guided intervention in infectious walled-off
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7) Itoi T, Binmoeller KF, Shah J, et al. Clinical evaluation of a novel lumen-apposing metal stent for endosonography-guided pancreatic pseudocyst and gallbladder
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13)Mukai S, Itoi T, Baron TH, Sofuni A, Itokawa F, Kurihara T, Tsuchiya T, Ishii K,
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Tsuji S, Ikeuchi N, Tanaka R, Umeda J, Tonozuka R, Honjo M, Gotoda T, Moriyasu
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15)Rinninella E, Kunda R, Dollhopf M, et al. EUS-guided drainage of pancreatic fluid
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17)Yamamoto N, Isayama H, Kawakami H, et al. Preliminary report on a new, fully covered, metal stent designed for the treatment of pancreatic fluid collections.
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19)Yasuda I, Nakashima M, Iwai T et al. Japanese multicenter experience of endoscopic necrosectomy for infected walled-off pancreatic necrosis: the JENIPaN
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20)Sharaiha RZ, Tyberg A, Khashab MA, et al. Endoscopic therapy with lumen-apposing metal stents is safe and effective for patients with pancreatic
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Clin
Gastroenterol
Hepatol.
2016
May
14.
pii:
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walled-off
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S1542-3565(16)30196-3.
Figure legends
Figure 1. The new fully covered biflanged metal stent (HANARO stent, MI Tech, Seoul,
Korea)
Figure 2. Transgastric EUS-guided drainage using the new biflanged metal stent
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a. The distal flange was deployed under EUS and fluoroscopic guidance.
Figure 3.
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b. After the stent placement, the necrotic fluid was drained through the stent.
Endoscopic necrosectomy through the new biflanged metal stent
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a. A standard upper endoscope was directly advanced via the stent.
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b. Necrotic tissue was removed using a snare forceps.
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Patient
Age
no.
(y)/sex
Disease
Maximum Stent size of
size
PFC
(mm)
Access route Technical Procedure Full expansion success
time
after
(min)
placement Yes
Additional Adverse events
Clinical
Stent
procedure
success
removal (days)
(mm) 96
30
Transgastric Yes
17
2
36/M
Sterile PPC
54
30
Transgastric Yes
16
3
68/M
Infected PPC
73
30
Transgastric Yes
16
4
77/F
Infected PPC
115
30
Transgastric Yes
5
80/M
Sterile WON
95
30
6
44/M
Infected WON
73
20
7
79/M
Infected WON
106
30
8
75/M
Infected WON
129
30
No
Yes
180
No
No
Yes
42
Yes
No
No
Yes
46
17
Yes
No
No
Yes
Remained
Transgastric Yes
11
Yes
No
No
Yes
37
Transgastric Yes
11
Yes
No
No
Yes
48
Transgastric Yes
15
Yes
DEN
No
Yes
58
Transgastric Yes
15
Yes
DEN
Rupture of
Death
N/A
Death
N/A
Yes
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No
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Sterile PPC
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65/M
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pseudoaneurysm
9
50/M
Infected WON
200
30
Transgastric Yes
25
Yes
DEN
Rupture of pseudoaneurysm
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64/M
Infected WON
128
30
Transgastric Yes
18
No
No
No
Yes
63
DEN
No
Yes
60
Additional No
Yes
40
Additional balloon 11
67/M
Infected WON
147
30
Transgastric Yes
15
Yes
12
81/F
Infected WON
105
20
Transgastric Yes
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dilation
Yes
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Table 1. Patients and treatment data for pancreatic fluid collections
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drainage
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PFC, pancreatic fluid collection; PPC, pancreatic pseudocyst; WON, walled-off necrosis; DEN, direct endoscopic necrosectomy; N/A, not available
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Author contributions study design, data analysis, and script preparation: Shuntaro Mukai, Takao Itoi; endoscopic procedures: Takayoshi Tsuchiya , Shujiro Tsuji, Reina Tanaka, Ryosuke Tonozuka, Atsushi Sofuni ; data collection: Shuntaro Mukai ; manuscript supervisors: Yuichi Nagakawa, Takao Itoi, Kazuhiro Kasuya, Masaaki Shimatani. All authors have read and approved the submitted version of the paper.
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Acronyms
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EUS-TD, EUS-guided transluminal drainage; DEN, direct endoscopic necrosectomy; PFC, pancreatic fluid collection; BFMS, biflanged metal stent; LAMS, lumen-apposing metal stent; FMS, flared metal stent; PPC, pancreatic pseudocyst; WON, walled-off
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IRB and Patient Consent Declaration This study was approved by our institutional review board (Tokyo Medical University No. 3141) and written informed consent was obtained from all the patients. This study was registered with the University Hospital Medical Information Network Clinical Trials Registry (Number UMIN000021347). Data was collected in accordance with the provisions of the Declaration of Helsinki.