EUS-FNB vs. Single-incision Needle-knife (SINK) Biopsy for Gastrointestinal SELs

Sponsor

Unity Health Toronto (Other)

Overall Status

Unknown status

CT.gov ID

NCT02866045

Collaborator

(none)

104

Enrollment

Location

Arms

Duration (Months)

3.4

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Sub epithelial lesions (SELs) of the gastrointestinal (GI) tract are commonly identified during routine endoscopy. Most of these lesions are benign. However because there is the potential for malignant transformation it is important to correctly identify the lesion in order to determine if any further therapy and/or surveillance is necessary for the patient, particularly for gastrointestinal stromal tumors (GISTs).

Obtaining a definitive diagnosis for SELs is often difficult since biopsies of the normal overlying surface mucosal layer are typically normal. EUS-FNA is the standard method by which a biopsy-proven diagnosis is obtained for most SEL's. However, the yield for a definite diagnosis from EUS-FNA for SELs is often suboptimal. Recently a new biopsy method, called "single incision needle-knife" (SINK) was introduced that may prove more useful in determining a definitive diagnosis. Furthermore, recent advances in core biopsy needles for EUS offer the hope for improved outcomes with EUS-guided fine-needle biopsy (FNB). However, it remains unclear whether superior diagnostic outcomes are obtained using the new SINK biopsy method or using new EUS-FNB core needles.

Condition or Disease	Intervention/Treatment	Phase
Disorder of Upper Gastrointestinal Tract Gastrointestinal Stromal Tumors Gastrointestinal Neoplasms	Procedure: EUS-guided fine needle biopsy Procedure: Single incision needle knife biopsy	Phase 3

Detailed Description

Subepithelial lesions of the gastrointestinal (GI) tract are commonly identified during routine endoscopy. Most of these lesions are benign. However because there is the potential for malignant transformation it is important to correctly identify the lesion in order to determine if any further therapy and/or surveillance is necessary for the patient.

Leiomyoma, neural origin tumors, lipoma, duplication cyst, pancreatic rest, inflammatory fibroid polyp, granular cell tumor are considered benign SELs. Gastrointestinal stromal tumor, lymphoma, carcinoid, metastatic carcinoma, glomus tumor are malignant or potentially malignant lesions. Obtaining a diagnosis for SELs is often difficult since biopsies of the normal overlying surface mucosal layer are typically normal. Jumbo forceps biopsy, bite-on-bite technique with conventional biopsy forceps, endoscopic ultrasound (EUS) guided fine needle aspiration (FNA), fine needle biopsy (FNB), single incision needle-knife biopsy (SINK), and endoscopic resection allow sampling of deeper tissue layers and may provide a histologic diagnosis. However there are no standard biopsy methods to diagnose SELs.

Endoscopic ultrasound (EUS) is a helpful imaging diagnostic tool for the evaluation of SELs as it is capable of assessing its size, layer of origin, and echo patterns. However, it is not reliable enough to differentiate between benign and malignant SELs. The combination of EUS and fine needle aspiration (FNA) allows for cytologic diagnostic accuracy of about 80%. If a malignant tumor is suspected, tissue acquisition is important because the management may vary based on the type of SEL.

EUS-FNA enables a small needle to be passed into the lesion of interest under ultrasound guidance, obtaining cellular material for cytology analysis. Although previous reports show accuracy rates for EUS-FNA for SEL that range between 72% and 90% there often is a problem of inadequate cellular aspirates for additional immunocytochemical examination. This problem causes a miss rate of approximately 40% for additional immunocytochemical analyses that may be needed to reach a definitive diagnosis for GISTs, although the macroscopic appearance alone is often sufficient. Using a larger FNA needle to perform the biopsy seems to be a logical solution to this limitation. However, doing so has thus far not been shown to improve the adequacy of biopsy aspirates.

For this reason, core biopsy needles (EUS-FNB) have been developed in the hopes of obtaining core tissue for histology. The advantages of a biopsy core specimen are well known because the evaluation of tissue architecture increase the diagnostic yield compared to cytology obtained from FNA. In addition, a tissue core biopsy is critical to diagnose and characterize SELs by providing higher rates of immunohistological evaluation. Recently, a novel design core biopsy needle (Sharkcore, Medtronic) has been introduced with preliminary data suggesting superior diagnostic performance compared to previous versions of core biopsy needles. How this new needle performs in the diagnostic evaluation of SELs remains unclear.

Single-incision needle-knife (SINK) biopsy is an alternative diagnostic method to acquire tissue samples. By using a conventional needle knife sphincterotome, the overlying mucosa of SELs is opened with a single linear incision of 10 mm and tissue samples are obtained by passing conventional biopsy forceps through the opening and deep into the tumor. According to a preliminary study by de la Serna Higuera et al, this technique provides sufficient tissue samples with high diagnostic yield of 92.8%. However, this biopsy method is only possible when a visible bulge from the SEL is apparent within the lumen of the gastrointestinal tract.

The investigators believe this technique offers the potential to obtain more substantial tissue samples that will be much more likely to provide a definitive diagnosis for subepithelial tumors. In addition, it is hoped that biopsy samples obtained via SINK will be better able to provide adequate tissue for determination of the mitotic rate of GIST tumors, which is a major predictor of malignant risk for these lesions. However, how the SINK method compares to the latest EUS-FNB core needles is unclear, both in terms of the diagnostic efficacy in obtaining the diagnosis and in terms of the safety profile of doing so.

The purpose of this study is to prospectively compare the efficacy and safety of EUS-FNB using the new SharkCore needle with SINK biopsy in patients with upper GI SELs. The results of the study will determine which method should be performed to confirm the diagnosis for SELs.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

104 participants

Allocation:

Randomized

Intervention Model:

Parallel Assignment

Masking:

Single (Participant)

Primary Purpose:

Diagnostic

Official Title:

Endoscopic Ultrasonography Guided Fine Needle Biopsy (EUS-FNB) vs. Single-incision Needle-knife (SINK) Biopsy for Diagnosis of Upper Gastrointestinal Subepithelial Lesions

Study Start Date :

May 1, 2016

Anticipated Primary Completion Date :

Apr 1, 2018

Anticipated Study Completion Date :

Dec 1, 2018

Arms and Interventions

Arm	Intervention/Treatment
Active Comparator: EUS-guided Fine Needle Biopsy EUS-FNB is performed using a 22 or 25 G SharkCore biopsy needle with a minimum of 3 passes into the lesion.	Procedure: EUS-guided fine needle biopsy EUS-FNB is performed using a 22 or 25 G core biopsy needle (SharkCore FNB, Medtronic, Fridley, MN) by standard linear EUS-guided technique. The needle tip has six cutting edge surfaces and an opposing bevel to catch tissue as it is sheared off, enabling cohesive units of tissue acquisition with minimal tissue fracturing. 3 separate passes will be done into the lesion. Additional passes may be made if clinically necessary. No suction will be applied on the first pass. If the FNB sample obtained is deemed to be inadequate, negative pressure (using the standard suction syringe) will be applied to the needle on additional passes. The histology and cytology specimens will be processed as per standard clinical care. Other Names: EUS-FNB
Experimental: Single incision needle knife biopsy SINK biopsy is performed under direct endoscopic visualization via EGD with a minimum of 3 biopsy samples obtained.	Procedure: Single incision needle knife biopsy For patients allocated to the SINK group, after EUS confirmation, the esophagogastroduodenoscopy (EGD) will be repeated to perform the SINK biopsy. Under direct endoscopic visualization, a 10 mm linear incision will be made to the surface of the SEL using a conventional needle-knife sphincterotome with standard blended electrocautery (Endocut mode - ERBE system USA, Marietta, GA). A conventional biopsy forceps will then be introduced through the incision deep into the mass to obtain at least 3 samples. The incision will then be closed using 1 to 3 endoclips for prophylaxis against subsequent bleeding. The biopsies will be placed in formalin as per standard surgical pathology protocol. Other Names: SINK

Arm

Intervention/Treatment

Active Comparator: EUS-guided Fine Needle Biopsy

EUS-FNB is performed using a 22 or 25 G SharkCore biopsy needle with a minimum of 3 passes into the lesion.

Procedure: EUS-guided fine needle biopsy

EUS-FNB is performed using a 22 or 25 G core biopsy needle (SharkCore FNB, Medtronic, Fridley, MN) by standard linear EUS-guided technique. The needle tip has six cutting edge surfaces and an opposing bevel to catch tissue as it is sheared off, enabling cohesive units of tissue acquisition with minimal tissue fracturing. 3 separate passes will be done into the lesion. Additional passes may be made if clinically necessary. No suction will be applied on the first pass. If the FNB sample obtained is deemed to be inadequate, negative pressure (using the standard suction syringe) will be applied to the needle on additional passes. The histology and cytology specimens will be processed as per standard clinical care.

Other Names:

EUS-FNB

Experimental: Single incision needle knife biopsy

SINK biopsy is performed under direct endoscopic visualization via EGD with a minimum of 3 biopsy samples obtained.

Procedure: Single incision needle knife biopsy

For patients allocated to the SINK group, after EUS confirmation, the esophagogastroduodenoscopy (EGD) will be repeated to perform the SINK biopsy. Under direct endoscopic visualization, a 10 mm linear incision will be made to the surface of the SEL using a conventional needle-knife sphincterotome with standard blended electrocautery (Endocut mode - ERBE system USA, Marietta, GA). A conventional biopsy forceps will then be introduced through the incision deep into the mass to obtain at least 3 samples. The incision will then be closed using 1 to 3 endoclips for prophylaxis against subsequent bleeding. The biopsies will be placed in formalin as per standard surgical pathology protocol.

Other Names:

SINK

Outcome Measures

Primary Outcome Measures

Proportion of patients receiving a definitive histologic diagnosis for gastrointestinal SELs by single incision needle-knife biopsy (SINK biopsy) vs. EUS-guided fine needle biopsy (EUS-FNB). [24 months]
Percentage of patients in each group for whom the pathologist provides a definite histologic diagnosis based on the biopsy sample.

Secondary Outcome Measures

Adverse events with SINK biopsy vs. EUS-FNB [24 months]
Procedure time with SINK biopsy vs. EUS-FNB [24 months]
Proportion of patients receiving a definite OR suspicious diagnosis for gastrointestinal SELs using SINK biopsy vs. EUS-FNB [24 months]
Percentage of patients in each group for whom the pathologist provides a "definite" or "suspicious" histologic diagnosis based on the biopsy specimen.
Proportion of patients for whom a mitotic rate may be calculated for gastrointestinal stromal tumors (GISTs) using SINK biopsy vs. EUS-FNB [24 months]
Percentage of patients in each group with a diagnosis of GIST for whom a mitotic rate may be calculated by the pathologist from the biopsy specimen.

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years and Older

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Undergoing diagnostic endoscopy for gastrointestinal SELs
Tumor size ≥ 15 mm with endoscopically visible bulge
SELs in esophagus, stomach, or duodenum
Ability to sign the informed consent for diagnostic procedure

Exclusion Criteria:

Lesions not requiring pathological evaluation (e.g. lipoma, cyst, varices)
Underlying medical condition that contraindicates diagnostic endoscopy.
Bleeding diathesis
Inability to sign the informed consent.

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	St. Michael's Hospital	Toronto	Ontario	Canada	M5B 1W8

Sponsors and Collaborators

Unity Health Toronto

Investigators

Principal Investigator: Christopher Teshima, MD, PhD, Unity Health Toronto

Study Documents (Full-Text)

None provided.

More Information

Publications

Responsible Party:

Unity Health Toronto

ClinicalTrials.gov Identifier:

NCT02866045

Other Study ID Numbers:

16-030

First Posted:

Aug 15, 2016

Last Update Posted:

Aug 15, 2016

Last Verified:

Aug 1, 2016

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Keywords provided by Unity Health Toronto

Subepithelial lesions

Endoscopic Ultrasound-Guided Fine Needle Aspiration

Additional relevant MeSH terms:

Gastrointestinal Stromal Tumors

Gastrointestinal Neoplasms

Digestive System Neoplasms

Study Results

No Results Posted as of Aug 15, 2016