时间:2024-12-26
Kazuya Matsumoto,Yohei Takeda,Takumi Onoyama,Soichiro Kawata,Hiroki Kurumi,Hiroki Koda,Taro Yamashita,Hajime Isomoto
Abstract
Key words: Endoscopic ultrasound-guided fine-needle aspiration biopsy;Cytology;Pathology;Pancreatobiliary diseases;Subepithelial lesions;Lymph nodes
In patients with difficult to reach lesions,where no histo-cytological tissue is obtainable,diagnosis has conventionally been determined using imaging techniques.Endoscopic ultrasonography (EUS) is a widely accepted modality for detecting pancreatobiliary diseases and,for visualizing lesions more precisely than other imaging modalities.
EUS has two different shaped scopes,radial and longitudinal.The radial EUS has a viewing angle of 360 degrees,so the positional relationship with surrounding organs can be easily understood.On the other hand,the longitudinal EUS has the advantage that the relationship between the lesion and the blood vessel can be easily grasped since the blood vessel is easily matched with the axis of the scope and endoscopic ultrasound-guided fine-needle aspiration biopsy (EUS-FNA) can be carried out.Following a basic investigation by Haradaet al[1]in 1991 using dogs,EUS-FNA was first clinically applied to subepithelial lesions (SEL) of the stomach[2],followed by use in cases with pancreatic cancer,resulting in qualified pathological diagnoses.With its usefulness confirmed,EUS-FNA is currently used worldwide before determining a treatment strategy for various diseases[3].
We have also selected treatments based on a pathological diagnosis using EUSFNA for diseases in the gastrointestinal area,mainly pancreatobiliary disease,but also cervical spine chordoma,adenocarcinoma of the lung,and metastasis of liver neuroendocrine tumors to lymph nodes of the bifurcation of the common iliac artery(Figure 1 A-C).Currently,there are many different puncture needles available on the market that improve lesion accessibility and puncture performance,and devices have been developed that even beginners can use (Table 1).
However,according to the (first and second) “Survey on actual condition of pancreatic tumor diagnosis in Tottori Prefecture”[4],the proportion of cases that have been diagnosed with unresectable progressive pancreatic cancer and were undergoing chemotherapy where pathological evidence was acquired by EUS-FNA was 65% in the first survey (2009-2011,n= 272),but failed to improve in the second survey at 59%(2012-2014,n= 339).The number of facilities in Japan where EUS-FNA is performed is increasing,but remains at only about 1/6 when compared to facilities performing endoscopic retrograde cholangiopancreatography (ERCP).Facilities should be more proactive and include EUS-FNA to ensure treatments are more suitable for diseases.
Many prospective studies and meta-analyses that have evaluated the selection of a procedure or device for EUS-FNA have assessed factors that affect diagnostic power(Table 2).More specifically,it has been reported that regarding scopes,a cap-attached forward-viewing echoendoscope is useful for EUS-FNA of small SEL[5].Regarding needle diameter and the stylet,the presence or absence of a stylet has no impact on the diagnostic power of EUS-FNA[6];where no stylet is present,a 22-G needle and 25-G needle have equivalent diagnostic power[7].A meta-analysis showed that 25-G needles have significantly better sensitivity for pancreatic tumors than 22-G needles[8]and 19-G needles have a significantly better correct diagnostic rate for pancreatic tumors than 22-G needles[9].In terms of the shape of the needle tip,one meta-analysis has reportedly shown that the number of punctures is reduced using puncture needles with a side hole[10]and that EUS-guided through-the-needle forceps biopsy is useful[11].With regard to the method of aspiration,there are some scattered reports on pancreatic tumors,where wet suction[12]and a high negative pressure provided improved cellularity compared to the typical methods[13].It has also been reported that there is no difference between the stylet slow-pull and standard suction in diagnostic power[14].Reports on puncture methods have stated that fanning lowers the number of punctures[15],and that the door-knock technique yields improved cellularity in transgastric punctures when compared to the typical methods[16].Regarding post-puncture treatment,it has also been reported in a meta-analysis that rapid on-site evaluation (ROSE) was useful[17].In addition,EUS-FNA combined with ROSE and fine-needle biopsy have equivalent diagnostic power[18],in which macroscopic on-site quality evaluation (MOSE) is useful[19].Cellvizio[20]and TSCI[21]are also reportedly useful devices to assist with post-puncture treatment.
Table1 List of endoscopic ultrasound-guided fine-needle aspiration biopsy needles
More widespread use of EUS-FNA in pathological diagnoses will require establishing simpler techniques that are easy,even for doctors with little experience with such cases,based on the factors that affect the diagnostic power of EUS-FNA.
EUS-FNA is fundamentally indicated for all diseases where collecting cells from the lesion makes it possible to determine a treatment strategy.Specific examples include histological evidence of cancer when chemotherapy or chemoradiotherapy is being selected,differential diagnosis of benignancy/malignancy (selecting surgery/nonsurgery,selecting a surgical procedure,determining whether or not follow-up observation is possible for disease where differentiating between benignancy/malignancy is challenging),and accurate diagnosis of the degree of progression of malignant tumors (lymph node metastasis,low volume of ascites).Initially,pancreatic lesions,lymph nodes,and SEL were considered to be covered,but recently biliary tract disease,lung tumors,head and neck tumors,and gastrointestinal lesions where biopsy using a conventional endoscope does not yield a diagnosis have also been included.Lesions 10 mm in size or less have previously been regarded as posing a challenge for sample collection,but improvements in puncture needle visibility,puncture performance,and sample collection ability have recently brought about diagnostic power with a sensitivity of 89.3% and a correct diagnosis rate of 91.7% for pancreatic tumors,where the lesion is smaller than 10 mm[22].
Procedural adverse events with EUS-FNA include abdominal pain,bleeding,dissemination,pancreatitis,and infectious disease[23].Piriform sinus injuries caused by scope insertion in the pre-stage of EUS-FNA occur at a frequency of 0.06% (4/4894)[24],as does digestive tract perforation,at 0.02% (2/10941)[25,26].Preventing piriform sinus injury requires careful,gentle insertion with observation inside the mouth.Gastrointestinal tract perforation is often found to occur mainly during insertion into the descending part of the duodenum,and insertion should be performed while the gastrointestinal lumen is being checked to prevent complications.
Figure1 Imaging findings and pathological diagnosis using endoscopic ultrasound-guided fine-needle aspiration biopsy in diseases outside the biliary/pancreatic area.
EUS-FNA is contraindicated if bleeding diathesis is observed,EUS fails to clearly render the lesion,or there is a strong risk of EUS-FNA causing a procedural accident.With regard to dissemination due to EUS-FNA,there is believed to be a risk of dissemination even with solid tumors,such as invasive ductal carcinoma of the pancreas;this,though possible,does not affect the survival rate[27].With solid pancreatic tumors,invasive ductal carcinoma of the pancreas has a frequency of less than 80%[23],and thus the benefit of acquiring pathological evidence before deciding on a treatment strategy outweighs the risk of dissemination.Countries across the world vary significantly regarding whether EUS-FNA is indicated for pancreatic cystic lesions such as intraductal papillary mucinous neoplasms (IPMN) or mucinous cystic neoplasms[28].One report on the usefulness of EUS-FNA for pancreatic cyst lesions included an analysis of cells obtained in a facility with ample experience with EUS-FNA,and diagnosis by cytology yielded diagnostic value for cases with relatively small BD-IPMN where there were no “worrisome features”.Another study where diagnosis of high-grade epithelial atypia or high-grade dysplasia of cells in the mucinous cystic fluid had a sensitivity of 72% and a positive predictive value of 80%,30% more cancers were detected in small branch duct-IPMN cases than “worrisome features”[28].Reported complications for pancreatic cysts include intracystic hemorrhage[29]and dissemination.With regard to dissemination in particular,one report[30]recommends not performing EUS-FNA on cysts because of a “high-risk stigmata” or “worrisome features”,for fear that the puncture could cause cystic fluid to leak out,resulting in peritoneal dissemination,or could allow cancer to invade the gastric wall at the puncture route.However,another report[31]has indicated that preoperative EUS-FNA performed on patients with IPMN was not linked to anyincrease in dissemination.Thus,cytological analysis by EUS-FNA of pancreatic cyst lesions should only be performed at facilities with plenty of experience,and increasing the use of this method will require accumulating data pertaining to diagnostic power and safety.
Table2 Factors affecting diagnostic power of endoscopic ultrasound-guided fine-needle aspiration biopsy and evidence
EUS-FNA is absolutely contraindicated if there is a high risk of a procedural accident.Specifically,in the presence of significant respiratory fluctuations,where the puncture needle could cause organ damage,or blood vessels clearly present on the puncture line[32].Here,we describe cases of difficult EUS-FNA that we have experienced,where an innovative technique enabled us to ensure the puncture route and perform EUSFNA to reach a pathological diagnosis.
The “abdominal compression” method,where respiratory fluctuations are limited by manual compression of the abdomen.
Light manual compression of the upper abdomen in cases with significant respiratory fluctuations restricts the breadth of the respiratory fluctuations,which makes puncturing easier.However,excessive compression of the abdomen creates an oppressive suffocating sensation that temporarily elevates the patient’s breathing,which may cause the position of the needle to fluctuate,requiring careful attention.
The “pull-out” method to prevent punctures in the main pancreatic duct.
It is difficult to ensure the normal transgastric puncture route in cases where invasive ductal carcinoma of the pancreas produces expansion/meandering of the main pancreatic duct (Figure 2 A).However,scanning after the scope has been pulled out from the duodenum makes it possible to ensure a safe puncture route to the lesion while still avoiding the main pancreatic duct (Figure 2 B).Scope manipulation to ensure the puncture route may be useful in some cases,but even minute fluctuations in the position of the scope may create an offset in ultrasound images,and thus,a scope operation requires meticulous attention.
The “blood vessel push-aside” method to ensure the puncture route while also displacing blood vessels around the lesion.
Figure2 Case of main pancreatic duct dilatation,where rendering using the “pull-out” method ensured the puncture route.
In a case with distal cholangiocarcinoma,a puncture by EUS-FNA appeared to be difficult due to the presence of several blood vessels around the lesion (Figure 3 A).Lifting the raising base and applying an up-angle while also pushing the puncture needle up against the far side of the blood vessels (left side as seen in the EUS image),made it possible to push the blood vessels aside to follow the puncture route (Figure 3 B-D).Tissue could be collected by the door-knocking method,with attention being paid to the portal vein located deep in the lesion.
“Skewering + respiratory fluctuations” making the puncture with a puncture needle and respiratory fluctuations.
In this case with a mass measuring 7 mm in the tail of the pancreas (Figure 4 A and B),a skewering method (Figure 4 C and D) was applied,but it was difficult to ensure the stroke width because of the adjacent location of the kidneys.There were also significant respiratory fluctuations.With the needle tip retained at the same position after puncture of the mass,respiratory fluctuations were preventedviafanning,enabling extensive tissue collection (Figure 4 E and F).In this case,sample tissue was also collected for immunohistological staining even though the needle was not stroked,yielding a diagnosis of neuroendocrine tumor of the pancreas (Figure 4 G and H).
Previous reports state that EUS-FNA has a sensitivity of approximately 85%-89% for pancreatic disease[23],25%-100% for biliary duct disease[33-36],and a diagnostic power of 85.7% to 86.0% for SEL[37,38].Techniques that are reportedly useful for supplementing this diagnostic power include pancreatic juice cytology for pancreatic disease[39-41],transpapillary bile duct biopsy,and bile cytology for biliary tract disease[42-44],and EUS-FNA with a forward-viewing linear echoendoscope for SEL[45],as well as endoscopic submucosal dissection and endoscopic snare resection[46-49].
Although the number of facilities practicing EUS-FNA has been on the rise in recent years,some facilities may still perceive hurdles in implementing EUS-FNA,perhaps due to the impression that the procedure is difficult.EUS-FNA provides treatment choices based on pathological diagnosis not only in the gastrointestinal area but also in many more areas.This is a technique where diagnostic power improves by simple solutions for the puncture method or the specimen treatment method after puncturing,and a greater number of facilities should be more proactive in performing EUS-FNA in the future.
Figure3 Distal cholangiocarcinoma where the “blood vessel push-aside” method made it possible to ensure the puncture route.
Figure4 Pancreatic tail neuroendocrine tumor where the “skewering + respiratory fluctuations” method made it possible to ensure the puncture route.
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