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Types of transducers in ultrasound diagnostic
1. [ Types of transducers in ultrasound diagnostic ]
Supervised By DR. Ehab Barakat
Eng:- Abdallah Yousry
Eng:- Karim saied
Eng :- Abdelrahman Samir
Allied Medical Science
Medical equipment technology
Biomedical equipment (1)
Name:-
Mohamed Morsy ElSaied (51015312)
2. Introduction
2018/2019
An ultrasound transducer, also called a probe, is a device that produces sound waves
that bounce off body tissues and make echoes.
The transducer also receives the echoes and sends them to a computer that uses them
to create an image called sonogram.
ultrasound transducer is a very important part of the ultrasound machine and a core
part of the signal transmission chain for image reconstruction. Moreover, it is the
fundamental determinant of image quality.
The essential element of each ultrasound transducer is a piezoelectric crystal. It serves
to generate as well as receive ultrasound waves.
3. 2018/2019
You can find ultrasound transducers in different shapes, sizes, and with diverse
features. That is because you need different specifications for maintaining image
quality across different parts of the body.
Transducers can be either passed over the surface of
the body – external transducers or can be inserted
into an orifice, such as the rectum or vagina
these are internal transducers.
4. The ultrasound transducers differ in construction based on
2018/2019
1. Piezoelectric crystal arrangement
2. Aperture (footprint)
3. Frequency
5. Types of ultrasound transducers
2018/2019
1. Linear Transducers
the piezoelectric crystal arrangement is linear, the shape of the beam is
rectangular, and the near-field resolution is good
The footprint, frequency, and applications of the linear transducer depend on
whether the product is for 2D or 3D imaging.
I. The linear transducer for 2D imaging has a
wide footprint and its central
frequency is 2.5Mhz – 12Mhz.
6.
2018/2019
You can use this transducer for various applications, such as:
Vascular examination
Venipuncture, blood vessel visualization
Breast
Thyroid
Tendon, arthrogenousimage of linear probe
Rectangular Beam Shape
Intraoperative, laparoscopy
The thickness measurement of body fat and musculus for daily health care
check and locomotive syndrome check
Photoacoustic imaging, ultrasonic velocity change imaging
7.
2018/2019
II. The linear transducer for 3D imaging has a wide footprint and a central frequency of
7.5Mhz – 11Mhz.
You can use this transducer for various applications, such as:
Breast
Thyroid
Arteria carotis of vascular application
8.
2018/2019
2. Convex Transducers
The convex ultrasound transducer type is also called the curved transducer
because the piezoelectric crystal arrangement is curvilinear.
the beam shape is convex and the transducer is good for in-depth examinations,
even though the
image resolution decreases when the depth increases.
The footprint, frequency, and applications
also depend on whether
the product is for 2D or 3D imaging.
9.
2018/2019
I. The convex transducer for 2D imaging has a wide footprint and its central frequency is
2.5MHz – 7.5MHz. You can use this transducer for various applications, such as:
Abdominal examinations
Transvaginal and trDiagnosis of organs
ansrectal examinations
II. The convex transducer for 3D imaging has a wide field of view and a central
frequency of 3.5MHz – 6.5MHz. You can use it for abdominal examinations.
In addition to the convex transducers,
there is a subtype called micro convex. It has a much smaller footprint and typically,
physicians would use it in neonatal and paediatrics applications. .
10.
2018/2019
3. Phased Array Transducers
This transducer is named after the piezoelectric crystal arrangement which is
called phased-array and it is the most commonly used crystal Phased Array
transducer has a small footprint and low frequency (its central frequency is
2Mhz – 7.5Mhz)
The beam point is narrow but it expands depending on the applied frequency.
Furthermore, the beam shape is almost triangular and the near-field resolution
is poor.
You can use this transducer for various applications,
such as:
Cardiac examinations
Abdominal examinations
Brain examinations
11.
2018/2019
4. Pencil transducers
also called CW Doppler probes, are utilized to measure blood flow and
speed of sound in blood. This probe has a small footprint and uses low
frequency (typically 2Mhz– 8Mhz).
12.
2018/2019
5. Endocavitary transducers
These probes provide you with the opportunity to perform internal
examinations of the patient. Therefore, they are designed to fit in specific body
orifices. The endocavitary transducers include endovaginal, endorectal, and
endocavity transducers. Typically, they have small footprints and the frequency
varies in the range of 3.5Mhz – 11.5Mhz
13.
2018/2019
6. Transesophageal (TEE) transducers
It has a small footprint and is used for internal examinations. It is often
employed in cardiology to obtain a better image of the heart through the
oesophagus. The frequency is middle, in the range of 3Mhz – 10Mhz.
14.
2018/2019
7. 4D transducer
3D imaging allows fetal structures and internal anatomy to be visualized as
static 3D images. However, 4D ultrasound allows us to add live streaming
video of the images, showing the motion of the fetal heart wall or valves, or
blood flow in various vessels. It is thus 3D ultrasound in live motion. It uses
either a 2D transducer which rapidly acquires
20-30 volumes or a matrix array 3D transducer is used.
15.
2018/2019
4D ultrasound has the same advantages as 3D, while also allowing us to study the
motion of various moving organs of the body. Its clinical applications are still being
studied. At present it is mostly used to provide fetal keepsake videos, a use which is
discouraged by most medical watchdog sites.