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YY/T 1676-2020 PDF in English


YY/T 1676-2020 (YY/T1676-2020, YYT 1676-2020, YYT1676-2020)
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Standards related to (historical): YY/T 1676-2020

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YY/T 1676-2020: PDF in English (YYT 1676-2020)

YY/T 1676-2020 YY PHARMACEUTICAL INDUSTRY STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 11.040.55 C 41 Ultrasound endoscope 超声内窥镜 ISSUED ON: MARCH 31, 2020 IMPLEMENTED ON: OCTOBER 01, 2022 Issued by: National Medical Products Administration Table of Contents Foreword ... 3  Introduction ... 4  1 Scope ... 5  2 Normative references ... 5  3 Terms and definitions ... 6  4 Requirements ... 6  5 Test methods ... 8  Annex A (informative) Technical requirements for phantom and/or test piece 15  Ultrasound endoscope 1 Scope This Standard specifies terms and definitions, requirements and test methods of the ultrasonic endoscope related to the ultrasonic performance part. This Standard is applicable to ultrasound endoscope and ultrasound probe that extends into the body through the endoscope tube. NOTE: There are many types of ultrasound transducers for current ultrasound endoscopes and ultrasound probes, such as single element rotation, ring array and convex array. This Standard does not consider the appearance and structure of the probe. The test method of parameters takes the rotation of single element, ring array and convex array imaging as examples. If necessary, more complex designs can also use the basic methods described in this Standard. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. GB 9706.1, Medical electrical equipment - Part 1: General requirements for safety GB 9706.9, Medical electrical equipment - Part 2-37: Particular requirements for the safety of ultrasonic medical diagnostic and monitoring equipment GB 10152, B mode ultrasonic diagnostic equipment GB/T 14710, Environmental requirement and test methods for medical electrical equipment YY/T 0108, Testing methods for M-mode of ultrasonic diagnostic equipment YY 0767, Ultrasonic color flow imaging systems YY/T 1279, Test method for performance of three-dimensional ultrasonography YY/T 1420, Environmental requirement and test methods for medical ultrasonic equipment 4.5 Blind zone The blind zone shall meet the requirements published by the manufacturer in the accompanying documents. 4.6 Slice thickness If applicable, the slice thickness shall meet the requirements published by the manufacturer in the accompanying documents. 4.7 Accuracy of horizontal geometric position accuracy For single-element rotating probe, the accuracy of lateral geometric position shall be ≤10%. For ring array probe and convex array probe, the accuracy of horizontal geometric position shall be ≤5%. 4.8 Accuracy of longitudinal geometric position For single-element rotating probe, the accuracy of longitudinal geometric position shall be ≤10%. For ring array probe and convex array probe, the accuracy of longitudinal geometric position shall be ≤5%. 4.9 Perimeter and area measurement deviation If applicable, the deviation of perimeter and area measurement shall be within ±20%, or meet the requirements published by the manufacturer in the accompanying documents. 4.10 M mode performance indicators For type-B ultrasound probes with M mode, the performance indicators of its M mode shall meet the requirements published by the manufacturer in the accompanying documents. 4.11 3D imaging performance For equipment with 3D imaging function, its 3D imaging performance indicators (if applicable) shall meet the requirements specified in YY/T 1279. 4.12 Geometric position accuracy in pullback direction If applicable, the geometric position accuracy in pullback direction shall meet the requirements published by the manufacturer. 4.13 Ultrasound imaging geometric distortion Turn on the device under test. Align the probe at the longitudinal depth target group. Under the specified setting conditions, keep the target line image clearly visible. Slightly move the probe. Observe the target line where the image can be resolved farthest from the probe surface. The distance between the target line and the probe surface is the detection depth of the probe. 5.4 Lateral resolution Turn on the device under test. Align the probe at a specific depth of the lateral resolution target group. Under the specified setting conditions, keep the target line image clearly visible. Slightly move the probe. The minimum distance between two target lines that can be separately displayed as two echo signals is the lateral resolution at that depth. For different nominal detection depths, it is recommended to measure the lateral resolution according to the following depth positions: a) When nominal detection depth is ≥3cm, it is specified by the manufacturer. Measure at two positions within 1/2 and outside 1/2 of the nominal detection depth. Take odd centimeters; b) When 1cm≤nominal detection depth< 3cm, only measure the lateral resolution at the detection depth of 1cm; c) When nominal detection depth is < 1cm, a measurement location is specified by the manufacturer. 5.5 Axial resolution Turn on the device under test. Align the probe to a target group of axial resolution at a specific depth. Under the specified setting conditions, keep the target line image clearly visible. Slightly move the probe. The minimum distance between two target lines that can be separately displayed as two echo signals is the axial resolution at that depth. For different nominal detection depths, it is recommended to measure the axial resolution according to the following depth positions: a) When nominal detection depth is ≥3cm, measure outside the lateral resolution measurement position; b) When 1cm≤nominal detection depth< 3cm, only measure the axial resolution of the detection depth < 2cm; c) When nominal detection depth is < 1cm, a measurement location is specified by the manufacturer. 5.6 Blind zone to an appropriate value. The accuracy of lateral geometric position is usually expressed as a percentage. 5.9 Accuracy of longitudinal geometric position Turn on the tested type-B ultrasound. Align the probe to the longitudinal linear target group. Under the specified setting conditions, keep the target group image clearly visible. Use the device's ranging function. In the full screen range according to the longitudinal known distance, calculate the accuracy of axial geometric position according to formula (1). The accuracy of longitudinal geometric position is usually expressed as a percentage. 5.10 Perimeter and area measurement deviation Turn on the device under test. Scan the horizontal and vertical linear target groups with the probe. Under the specified setting conditions, keep the target group image clearly visible. Maintain the center of the target group in the center of the field of view. Draw a closed figure (rectangular or circular) in an area approximately equal to 75% of the field of view in the center of the display. Measure the perimeter and the area. Calculate the error according to formula (1). 5.11 M mode performance indicators The performance test of the equipment M mode is carried out in accordance with the provisions of YY/T 0108. 5.12 3D imaging performance The test method for 3D imaging performance is implemented in accordance with YY/T 1279. 5.13 Geometric position accuracy in pullback direction Turn on the device under test. Measure two target lines with known distances at the middle of the pullback area specified by the manufacturer. Under the specified setting conditions, keep the target group image clearly visible. Use the device's ranging function to measure. Calculate the geometric position accuracy in the pullback direction according to formula (1). The geometric position accuracy in the pullback direction is usually expressed as a percentage. During the test, the pullback speed of the ultrasonic transducer assembly shall be recorded. Annex A (informative) Technical requirements for phantom and/or test piece A.1 Phantom A.1.1 Technical requirements for general phantom During the tests in 5.2~5.16, the technical parameters of the phantom used for testing are as follows: Sound velocity of tissue-like materials: (1540±10)m/s (23°C±3°C); Sound attenuation of tissue-like materials: (0.7±0.05)dB/(cm·MHz) (23°C±3°C); Nylon target line diameter: (0.3±0.05) mm; Target line position tolerance: ±0.1mm; Distance between adjacent target lines in longitudinal linear target group: 10mm; Distance between adjacent target lines in horizontal linear target group: 10mm or 20mm. The depth of the resolution target group shall be able to meet the test needs. A.1.2 Technical requirements for slice thickness phantom During the test in 5.7, the technical parameters of the phantom used for testing are as follows: Background sound velocity of tissue-like material: (1540±10)m/s(23°C±3°C); Background sound attenuation of tissue-like materials: (0.7±0.05)dB/(cm·MHz)( 23°C±3°C); Scattering target layer thickness: no more than 0.4mm. A.1.3 Technical requirements for phantom for volume measurement During the test in 5.12, the technical parameters of the phantom used for testing are as follows: Sound velocity of background material: (1540±10)m/s (23°C±3°C); ......
 
Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.