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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT02789371
Other study ID # S135
Secondary ID
Status Recruiting
Phase N/A
First received May 21, 2016
Last updated June 6, 2016
Start date May 2016
Est. completion date March 2018

Study information

Verified date June 2016
Source Huazhong University of Science and Technology
Contact Bin Cheng, Doctor
Phone 86-027-8366-3334
Email bcheng@tjh.tjmu.edu.cn
Is FDA regulated No
Health authority China: Ethics Committee
Study type Interventional

Clinical Trial Summary

The purpose of this study is to compare the diagnosis accuracy of modified wet suction technique and 5ml dry suction technique on solid occupying lesions.


Description:

Patients will be divided into two groups, arm A and arm B according to two different methods adopted in their first needle, which refers to the modified wet suction technique or 5ml dry suction technique.Take the solid occupying lesion diagnosis accuracy as the research major indicator to compare the the modified wet suction technique or 5ml dry suction technique as optimal efficiency test. Take classⅠerror, a=0.05, class II error, β=0.2, power=0.8, suppose that the diagnostic accuracy of dry suction technique to the solid occupying lesions is 75%, the diagnostic accuracy of modified wet suction technique to the solid occupying lesions is 85%, the minimum sample size are 248 patients with 5ml dry suction technique and 248 patients with modified wet suction technique, the 2x2 cross-over design is adopted, namely, each arm has 124 patients respectively. Considering factors including defluxion, 20% cases will be added to two arms, therefore, each arm has 148 patients respectively, the total number of patients is 296.

The statistics experts generated randomized serial numbers(001-296)according to same-size allocation ratio between arm A and arm B with Statistical Analysis System 9.2(SAS 9.2), a statistical software in the randomized block method. The serial numbers are the randomized grouping numbers for the trial patients, block capacity is 8, totally 37 randomized block. One copy send to trial centers for patient allocating, and the another copy be saved by the trial applicant unit. Every trail centers will be responsible for the screening of qualified patients, rank them in visit time to get the randomized grouping number so as to determine them goes to arm A or arm B .The research people and patients in all trial centers should not know the randomized grouping number and relevant arms. The arm name will be sealed under scratch card. Every trial patients will get a unique randomized number, and it will not change through out the whole trial.

Use the inclusion and exclusion criteria to observe the patients and do relative inspections, and confirm if the patients qualified or not to the trial. Record the result of last time test before the treatment. Although it is better to get the informed consent before doing all kinds of observation and tests, if for some reason, the medical imaging examination has completed,as long as the imaging examination was done within 3 weeks before the needle biopsy, it can still be collect as baseline data (imaging examination can be done at other hospitals, but the trial center should issue a new evaluation report 1 week before the patient join the trial group); other lab test items done at 2 weeks before the needle biopsy can still be collect as baseline data for pre-research use, but these tests should be done at the trail center hospital so as to guarantee the data trace ability.

The investigator will puncture the lesion for four needle passes for all of them:For Arm A,5ml dry suction technique is adopted in their first needle, then modified wet suction technique/5ml dry suction technique/modified wet suction technique is operated successively;For Arm B, modified wet suction technique is adopted in their first needle, then 5ml dry suction technique/ modified wet suction technique /5ml dry suction technique is operated successively.Well,the 5ml dry suction technique is conducted as follow:after the needle puncturing into the lesion under ultrasound scanning, remove the stylet and connect the needle to syringe with 5ml negative pressure aspiration, then the needle will be moved to-and-fro within the lesion 20 times. Suction will be released before the needle is withdrawn from the lesion.And the modified wet suction technique is conducted as follow:the needle whose stylet is pulled out will be flushed with 2ml saline solution before puncturing when the lesion has been found, then puncture into the lesions and replace syringe with 5ml negative pressure aspiration, then the needle will be moved to-and-fro within the lesion 20 times. Suction will be released before the needle is withdrawn from the lesion.If no core tissues obtained or the operator determine insufficient specimen according to Macroscopic rapid on-site(MOSE) after the operations above, then remedy procedures will be done, and the punctuation process should be continued with the appropriate punctuation methods until the satisfactory specimens are obtained.Experts in cytology and pathology evaluate the specimen quality and make a diagnosis under the condition that they do not know punctuation methods. The evaluation and diagnosis of each specimen are made by two experts independently. If the two experts hold different opinions, they will make a conclusion after full discussion. If there are two or more cytological smears with same punctuation method, the highest-rate smear should be taken as the standard smear.Follow up (outpatient follow up or telephone follow up) the patients at 1 week, 12 weeks and 36 weeks after the needle biopsy and collect the patients clinical data and confirm their final diagnosis.

Case Report Form(CRF) will be filled by the researchers, every involved patient must have the CRF filled. This will be audited by clinical monitor and handed over to data administrator to input and manage data, the first copy will be kept by the applicant, the second copy will go to the trial center, and the third copy will be kept by the trail researchers.The data input and management will be taken care by specially assigned person. In order to guarantee the data accuracy, data input will be done twice by two independent data administrators, by computerized and manual verifying, hand over the data to statistical experts to do blind check and statistic analyzing.For the questions and doubts within the case report form, the data administrator make DRQ and via the clinical monitor asking the researchers. The researchers will answer and feed back as soon as possible. According to the researchers answer, data administrator will do the data modifying, confirming or inputting, and when necessary send out DRQ again.After blind audition and confirming that the established data base is correct, major researchers, applicant and the statistic analyzing people lock the data. The locked data will not be changed, and the data base will be handed over to statistical analyzer to do the statistic analyze according to the statistic analyzing plan. Problems found after data locking can be modified during the statistic analyzing procedure.This will be done by specialized statistic analyzing people according to the predetermined statistic analyzing plan. The statistic analyze will be carried out according to intention principle confirmed full analysis set and per-protocol set principle. After completing the statistic analyzing, the statistic analyzer issue the statistic analysis report and send this to major researchers to write the study report.

Statistic analyzing plan:(1)General principle①All statistical tests were two-sided. P<0.05 is regarded that the difference is statistical significance.② Description of quantitative index will calculate the mean and the criteria deviation, description of classification index will describe the number and percentage of each type.(2) Statistical Analysis Method:① For measurement data, compare these data with baseline value during the screening period, adopt the deviation t-test, the variance analysis of cross-over experiment or the rank-sum test of cross-over experiment to make a comparison between these data and baseline value.② For enumeration data, adopt the paired x2-test(including CMH-x2 test) or Fisher's exact test to compare these data of each group.(3)Defluxion Analysis:The total defluxion rate of each group and the defluxion rate caused by adverse events are compared by x2-test or Fisher's exact test.(4)Analysis of baseline value balance:The indexes of some baseline values such as demographic data, vital signs, history of diseases and basic treatment are compared by group t-test and x2 test to measure the balance of each group. Baseline evaluation is made to full analysis set( FAS) and per-protocol set(PPS).(5)Validity Analysis:The primary index of validity analysis is the diagnostic accuracy of the 5ml dry pressure and modified wet pressure to the solid space-occupying lesions. The secondary indexes of validity analysis include the punctuation specimen quality of 5ml dry pressure and modified wet pressure, the diagnostic rate of the first needle of 5ml dry pressure / modified wet pressure and the incidence of complications for modified wet pressure and 5ml dry pressure. The rates of each two arms and Youden indexes are compared by the approximate normal z-test or the central-effect-considered Cochran Mantel Haenszel-x2(CMH-x2 )text.(6)Safety Analysis:The incidences of adverse events/ adverse reactions (including complications from punctuation) of each arm are compared by x2-test or Fisher's exact test and describe the adverse events occurred in this experiment by the list and the normal/abnormal changes of laboratory text results before and after test and the relationship between abnormal changes of laboratory text results and this diagnostic research.(7) All statistical analyses are completed by the professional statistical analysis software, SAS version 9.2.


Recruitment information / eligibility

Status Recruiting
Enrollment 296
Est. completion date March 2018
Est. primary completion date February 2018
Accepts healthy volunteers No
Gender Both
Age group 18 Years to 80 Years
Eligibility Inclusion Criteria:

1. Age >18 years old,<80 years old;

2. Gender: Male or Female;

3. The patients who have solid occupying pancreatic lesions and non-pancreatic lesions (the diameter>1cm) within the range of imaging examination(MRI?CT?B-type ultrasonography) and ultrasonic endoscope examination and should conduct the biopsy to identify lesion nature;

4. The patients who receive examinations in the research center;

5. The patients who sign the informed consent.

Exclusion Criteria:

1. Hemoglobin=8.0 g/dl;

2. Pregnant women;

3. The patients who have coagulation disorders(PLT<50,000/mm3,INR>1.5,roughly calculation, INR>1.5, is equivalent to PT>18 seconds);

4. The patients who took anticoagulants such as aspirin, warfarin in the latest week;

5. The patients who suffered from acute pancreatitis in the past two weeks;

6. The patients who have cardiopulmonary dysfunction, therefore cannot tolerate ultrasonic endoscope examination;

7. The patients who cannot sign the informed consent(such as patients who have mental disease or drug addiction and so on).

Study Design

Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Diagnostic


Intervention

Procedure:
the first pass is made with 5ml suction technique
the first pass is made with 5ml suction technique, then modified wet suction technique / 5ml suction technique/ modified wet suction technique is operated successively.
the first pass is made with modified wet suction technique
the first pass is made with modified wet suction technique, then 5ml suction technique/ modified wet suction technique/ 5ml suction technique is operated successively.

Locations

Country Name City State
China Tongji hospital, Tongji Medical College, Huazhong University of Science and Technology Wuhan Hubei

Sponsors (1)

Lead Sponsor Collaborator
Bin Cheng

Country where clinical trial is conducted

China, 

References & Publications (18)

Alatawi A, Beuvon F, Grabar S, Leblanc S, Chaussade S, Terris B, Barret M, Prat F. Comparison of 22G reverse-beveled versus standard needle for endoscopic ultrasound-guided sampling of solid pancreatic lesions. United European Gastroenterol J. 2015 Aug;3( — View Citation

Attam R, Arain MA, Bloechl SJ, Trikudanathan G, Munigala S, Bakman Y, Singh M, Wallace T, Henderson JB, Catalano MF, Guda NM. "Wet suction technique (WEST)": a novel way to enhance the quality of EUS-FNA aspirate. Results of a prospective, single-blind, r — View Citation

DeWitt J, Jowell P, Leblanc J, McHenry L, McGreevy K, Cramer H, Volmar K, Sherman S, Gress F. EUS-guided FNA of pancreatic metastases: a multicenter experience. Gastrointest Endosc. 2005 May;61(6):689-96. — View Citation

Fabbri C, Luigiano C, Maimone A, Tarantino I, Baccarini P, Fornelli A, Liotta R, Polifemo A, Barresi L, Traina M, Virgilio C, Cennamo V. Endoscopic ultrasound-guided fine-needle biopsy of small solid pancreatic lesions using a 22-gauge needle with side fe — View Citation

Furukawa H, Okada S, Kakizoe T. Early diagnosis of pancreatic cancer. Hepatogastroenterology. 1999 Jan-Feb;46(25):4-7. — View Citation

Furukawa H, Okada S, Saisho H, Ariyama J, Karasawa E, Nakaizumi A, Nakazawa S, Murakami K, Kakizoe T. Clinicopathologic features of small pancreatic adenocarcinoma. A collective study. Cancer. 1996 Sep 1;78(5):986-90. — View Citation

Gress FG, Hawes RH, Savides TJ, Ikenberry SO, Lehman GA. Endoscopic ultrasound-guided fine-needle aspiration biopsy using linear array and radial scanning endosonography. Gastrointest Endosc. 1997 Mar;45(3):243-50. — View Citation

Iglesias-Garcia J, Poley JW, Larghi A, Giovannini M, Petrone MC, Abdulkader I, Monges G, Costamagna G, Arcidiacono P, Biermann K, Rindi G, Bories E, Dogloni C, Bruno M, Dominguez-Muñoz JE. Feasibility and yield of a new EUS histology needle: results from — View Citation

Iwashita T, Nakai Y, Samarasena JB, Park do H, Zhang Z, Gu M, Lee JG, Chang KJ. High single-pass diagnostic yield of a new 25-gauge core biopsy needle for EUS-guided FNA biopsy in solid pancreatic lesions. Gastrointest Endosc. 2013 Jun;77(6):909-15. doi: — View Citation

Layfield LJ, Schmidt RL, Hirschowitz SL, Olson MT, Ali SZ, Dodd LL. Significance of the diagnostic categories "atypical" and "suspicious for malignancy" in the cytologic diagnosis of solid pancreatic masses. Diagn Cytopathol. 2014 Apr;42(4):292-6. doi: 10 — View Citation

Lee JK, Choi JH, Lee KH, Kim KM, Shin JU, Lee JK, Lee KT, Jang KT. A prospective, comparative trial to optimize sampling techniques in EUS-guided FNA of solid pancreatic masses. Gastrointest Endosc. 2013 May;77(5):745-51. doi: 10.1016/j.gie.2012.12.009. E — View Citation

Nguyen TQ, Kalade A, Prasad S, Desmond P, Wright G, Hart D, Conron M, Chen RY. Endoscopic ultrasound guided fine needle aspiration (EUS-FNA) of mediastinal lesions. ANZ J Surg. 2011 Jan;81(1-2):75-8. doi: 10.1111/j.1445-2197.2010.05266.x. — View Citation

Ogura T, Yamao K, Sawaki A, Mizuno N, Hara K, Hijioka S, Niwa Y, Tajika M, Kondo S, Shimizu Y, Bhatia V, Higuchi K, Hosoda W, Yatabe Y. Clinical impact of K-ras mutation analysis in EUS-guided FNA specimens from pancreatic masses. Gastrointest Endosc. 201 — View Citation

Puli SR, Batapati Krishna Reddy J, Bechtold ML, Ibdah JA, Antillon D, Singh S, Olyaee M, Antillon MR. Endoscopic ultrasound: it's accuracy in evaluating mediastinal lymphadenopathy? A meta-analysis and systematic review. World J Gastroenterol. 2008 May 21 — View Citation

Puri R, Vilmann P, Saftoiu A, Skov BG, Linnemann D, Hassan H, Garcia ES, Gorunescu F. Randomized controlled trial of endoscopic ultrasound-guided fine-needle sampling with or without suction for better cytological diagnosis. Scand J Gastroenterol. 2009;44 — View Citation

Sadeghi A, Mohamadnejad M, Islami F, Keshtkar A, Biglari M, Malekzadeh R, Eloubeidi MA. Diagnostic yield of EUS-guided FNA for malignant biliary stricture: a systematic review and meta-analysis. Gastrointest Endosc. 2016 Feb;83(2):290-8.e1. doi: 10.1016/j — View Citation

Savides TJ, Donohue M, Hunt G, Al-Haddad M, Aslanian H, Ben-Menachem T, Chen VK, Coyle W, Deutsch J, DeWitt J, Dhawan M, Eckardt A, Eloubeidi M, Esker A, Gordon SR, Gress F, Ikenberry S, Joyce AM, Klapman J, Lo S, Maluf-Filho F, Nickl N, Singh V, Wills J, — View Citation

Villa NA, Berzosa M, Wallace MB, Raijman I. Endoscopic ultrasound-guided fine needle aspiration: The wet suction technique. Endosc Ultrasound. 2016 Jan-Feb;5(1):17-20. doi: 10.4103/2303-9027.175877. — View Citation

* Note: There are 18 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary the overall diagnostic accuracy of modified wet suction technique and 5ml dry suction technique to the solid occupying lesions The investigators' primary outcome measure is to compare the overall diagnostic accuracy of modified wet suction technique and dry suction technique to the solid occupying lesions. 18 months No
Secondary the diagnostic accuracy of modified wet suction technique and 5ml dry suction technique to the benign and malignant solid occupying pancreatic lesions and non-pancreatic lesions respectively. The investigators'secondary outcome measure is to compare the diagnostic accuracy of modified wet suction technique and 5ml dry suction technique to the benign and malignant solid occupying pancreatic lesions and non-pancreatic lesions respectively. 18 months No
Secondary Blood contamination and cellularity in specimens obtained by modified wet suction technique and 5ml dry suction technique The investigators'secondary outcome measure is to compare the cellularity and blood cell contamination of the solid occupying lesions with modified wet suction technique and 5ml dry suction technique. 18 months No
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