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EPIQ 5 Ultrasound Applications: Radiology, OB/GYN, Cardiac, Vascular, MSK, Pediatric, Elastography
Philips iU22 Features
Philips iU22 Imaging Modes
Steerable CW Doppler
Tissue Doppler Imaging (TDI)
Live xPlane imaging
Live volume imaging/Live 3D Echo
3D/4D and MPR imaging
Adaptive broadband flow imaging
Tissue Harmonic Imaging (THI)
Color Power Angio Imaging (CPA)
Freehand 3D volume and MPR imaging
Spatio-Temporal Image Correlation (STIC) imaging
Panoramic SonoCT imaging
Strain based elastography
Shear wave elastography
Philips iU22 Applications
Applications or Apps are the types of exams or studies that an ultrasound machine can do. More than this if an ultrasound machine supports a specific application it will have calculations, measurement and reporting software included to support those apps and make them useful in a clinical environment. The iU22 offers the widest range of supported applications compared to the more specialized iE33.
TCD: temporal and orbital
Gynecological and fertility
Small parts and superficial
Pediatric general imaging
The following are typical standard features on a Philips iU22 with G-cart hardware and the Vision 2012 software update. (the latest currently available in 2016)
- 20” Flat Panel LCD display monitor mounted on fully articulating extension arm
- PureWave crystal technology
- xMatrix probe compatibility
- Interactive graphical touch screen
- Fully adjustable control panel
- 2D Grayscale imaging
- Next generation SonoCT
- Elevation compound imaging
- XRES adaptive image processing
- Tissue aberration correction (TAC)
- Coded beamforming
- iSCAN intelligent optimization
- iFOCUS intelligent focusing technology
- iOPTIMIZE intelligent optimization
- QuickSAVE feature
- Cineloop review: real-time and duplex modes of up to 2,200 frames
- Exam management features
- Integrated DVD+/RW drive
- High Q automatic Doppler analysis
- Clinical option analysis packages
- Exam documentation
- Panoramic Imaging
- PureWave Crystal technology
- Panoramic SonoCT
- Advanced XRES
- Tissue Doppler Imaging (TDI)
- Basic 3D Imaging
- CW Doppler in Shared Service systems standard-option
- Tissue Harmonic Imaging (THI)
- Contrast Imaging
- Live 3D
- Live xPlane
- Elastography Strain-based
- Elastography Shear Wave
- ElastPQ US
- Auto Doppler
- SmartExam protocols
- Netlink DICOM 3.0
- Fusion Only
- Fusion and Navigation
- Query Retrieve
- Cardiac Motion/Mechanics Quantification (CMQ)
- Cardiac 3D Quantification (Cardiac 3DQ)
- General Imaging 3D Quantification (GI 3DQ)
- Strain Quantification (SQ)
- Region of Interest Quantification (ROI)
- Intima Media Thickness (IMT)
- MicroVascular Imaging (MVI)
- Elastography Analysis (EA)
- Elastography Quantification (EQ)
- Vascular Plaque Quantification (VPQ)
- Fetal Heart Navigator (FHN)
- TDI HighQ
- Automatic 3D Volume Measurement
- High-Q Automatic Doppler Analysis
- CMQ (cardiac motion quantification)
- Acquisition Protocol (Stress Echo)
- Small Parts
- Adult Cardiology
- Pediatric Cardiology
- Contrast – Cardiac
- Contrast – General Imaging
- TCD (transcranial Doppler)
- Premium Imaging
Philips iU22 Technology Definitions
xMatrix: xMatrix is a transducer technology introduced on the Philips iU22 that improves image quality and also allows for realtime views in multiple planes at once onscreen. It can also generate more accurate 4D images without the need of a mechanical scanhead.
Next Generation SonoCT: Advanced Real-time Compound Imaging on the Philips iU22 that obtains multiple coplanar, tomographic images from different viewing angles, then combines them into a single compound image at real-time frame rates.
XRES adaptive image processing: Real-time speckle reduction standard on the iU22 that also enhances edge definition.
iSCAN intelligent optimization: Automatic one-button global image optimization standard on the Philips iU22 through AI adjustment of TGC, Doppler and receiver gain, compression curve, Doppler PRF, and Doppler baseline.
iOPTIMIZE: Multiple technologies on the iU22 that provide a one-button approach to automatic and instant system adjustments to optimize performance for different patient sizes, flow states, and clinical requirements. A tissue specific imaging function adjusts over 4,000 parameters during the selection of a transducer or application.
iFOCUS: This intelligent focusing technology on the Philips iU22 provides automatic computation of beam characteristics for selected region of interest, and improve detailed resolution and tissue uniformity for selected area. The function decreases need for traditional focus controls.
PureWave Crystal technology: A breakthrough a single crystal technology for the Philips iU22 that allows greater acoustic efficiency and bandwidth that piezoelectric (Ceramic) technology.
xMatrix: This is a 2 dimensional element array technology for transducers introduced on the Philips iU22 that improves image quality and also allows for real time views in multiple planes at once onscreen. This the only solution enables to visualize a dynamic heart by 3 D in real time. It can also generate more accurate 4D images without the need of a mechanical scanhead.
iSCAN: This is an one-touch image optimization function for the iU22 in 2D mode and Doppler mode. It is available on all imaging transducers and operations in conjunction with SonoCT and XRES imaging.
SonoCT: This Philips real-time compound imaging helps eliminate virtually all clutter and artifacts. It automatically selects the number of steering angles (up to 9) based on user-selected resolution/frame rate (Res/Speed) conditions on all curved and linear array transducers. It operates in conjunction with tissue harmonic Imaging, XRES imaging, volume modes, and duplex Doppler.
Advanced XRES: On the iU22 this adaptive image processing helps eliminate virtually all speckle noise and enhances border definition on all imaging transducers.
iOPTIMIZE intelligent optimization: Multiple technologies used on the iU22 for a one-button approach to automatically and instantly adjusting system performance for different patient sizes, flow states, and clinical requirements. This is a tissue-specific imaging function that adjusts over 4,000 parameters during the selection of a transducer and/or application.
iFOCUS: On the Philips iU22 this intelligent focusing technology provides automatic computation of beam characteristics for a selected region of interest, and improves detailed resolution and tissue uniformity for a selected area. This decreases the need for traditional focus controls.
iCOMMAND intelligent voice control: A voice recognition engine for the Philips iU22. It adapts to user speech patterns and enchances performance with use creating a database of users for increased accuracy and flexibility. Wireless microphone technology is also supported.
Live xPlane: An advanced feature of xMatrix transducers that allows for 4D data sets to be captured and images of multiple planes to be displayed in realtime on the iU22.
Strain Quantification (SQ): This iU22 plugin is for the evaluation of regional myocardial function. It allows for the assessing of synchronicity and gives guidance during biventricular pacing procedures. SQ measures the myocardial velocity and derives the displacement-strain rate and strain along user-defined M-lines by Tissue Doppler imaging(TDI)
Auto Doppler: This feature automates repetitive tasks on the iU22 to speed up and simplify standard vascular exams. This reduces repetitive button pushes by an average of 67.9 percent.
SmartExam Protocols: This is a fully customizable protocol for any clinical application supported on the Philips iU22 with the flexibility to conduct the examination protocol in any sequence. It supports preset protocols for transthoracic and transesophageal cardiac and vascular exams based on industry and accreditation guidelines.
STIC: STIC or Spatio-Temporal Image Correlation automatically acquires a full cycle of fetal cardiac volume and is compatible with QLAB quantification software on the iU22.
Panoramic SonoCT: A real-time extended field-of-view composite imaging feature that enables a transducer to be moved along a large organ, stitching multiple images together to form one long image with an extremely wide field of view. It is available on linear and convex Philips iU22 transducers.
Strain based elastography: A non-invasive diagnostic technique displaying the relative elasticity of tissue stiffness compared to surrounding tissue by a real-time color map, superimposed on conventional gray scale image. Most malignant lesions have a harder or stiffer consistency than surrounding benign tissue. This change in stiffness can also be present in chronic or inflammatory diseases. To displace the underlying anatomical structures, Strain Elastography requires manual palpation by the user, or compression or decompression of the target produced by the patient respiration. On the Philips iU22 it is available for breast imaging on the L17-5, in the advanced breast TSI on the L12-5 transducer, and on the C10-3v for gynecological imaging.
Shear wave elastography: This iU22 technology allows the user to identify the tissue stiffness at a certain target area as well as providing the user with a quantitative measurement. The C5-1 probe is optimized for liver Shear Wave elastography. Unlike manual compression method of strain-based elastography, special ultrasound push pulses from the probe generates detection pulses used to calculate shear wave velocity.
QLAB: QLAB is an onboard quantification program that can also be used on a computer to analyze data. QLAB on the Philips iU22 has the following available plugins: 3DQ, IMT, FHN, MVI, EA, VPQ and ROI.
QLAB IMT: This iU22 QLAB tool makes measurement of intima media thickness in carotids and superficial vessels quick and consistent.
QLAB 3DQ GI: This QLAB tool on the Philips iU22 allows viewing, quantification, cropping, rotation, and measurements of 3D image data set.
FHN: Fetal Heart Navigator on the Philips iU22 allows doctors to acquire a fetal heart volume scan in as little as two seconds
QLAB VPQ: Vascular Plaque quantification is an application on the Philips iU22 that uses 3D technology to examine arteries and determine the risk of stroke or cardiovascular disease, measure how much plaque is present and the percentage of vessel reduction.
QLAB ROI: A plugin within QLAB on the iU22 that uses contrast and 2D imaging to increase the consistency and reliability of acoustic measurements.
EA Elastography Analysis: A QLAB tool on the iU22 for strain based elastography analysis and decision-making.
QLAB MVI: MicroVascular Imaging on the Philips iU22 maps contrast agent progression, measuring frame-to-frame changes, suppressing background tissue and capturing additional data that make it significantly easier to visualize the vessels.
Philips iU22 ports
4 active transducer ports
4 USB ports
One 3-lead ECG input
Philips iU22 Accessories
Philips iU22 Accessories
Sony UPD-897MD Digital Black & white thermal printer
Sony UPD-898MD Digital Black & white thermal printer
Sony UPX-898MD Digital Black & white thermal printer
Sony UPD-25MD Digital Color thermal printer
Mitsubishi P95DW Digital Black & white thermal printer
Mitsubishi CP30DW Digital Color thermal printer
Sony DVO-1000 DVD Recorder
CIVCO disposable biopsy guides (for Convex, Linear and Endo-cavity transducers)
Philips iU22 Supplies
Sony UPP-110HG thermal printing paper
Sony UPC-21L color thermal printing pack
Mitsubishi CK30L printing paper
Mitsubishi K95HG high gloss thermal printing paper
Philips iU22 Probes / Transducers
4D Convex V6-2 [ 2 – 6 MHz ] 192 elements, 100° field of view
4D Linear VL13-5 [ 5 – 13 MHz ] 192 elements, 38mmR
4D Endovaginal 3D9-3v [ 3 – 9 MHz ] 128 elements, 164° field of view
Linear L9-3 [ 3 – 9 MHz ] 160 elements, 38mmR
Linear L12-5 50 mm [ 5 – 12 MHz ] 256 elements, 50mmR
Linear L17-5 [ 5 – 17 MHz ] 288 elements, 38.9mmR
Intraoperative Linear L15-7io [ 7 – 15 MHz ] 128 elements, 23mmR
Convex C5-1 [ 1 – 5 MHz ] 160 elements, 96° field of view, PureWave Crystal Technology
Convex C5-2 [ 2 – 5 MHz ] 128 elements, 115° field of view
Microconvex C8-5 [ 5 – 8 MHz ] 128 elements, 120° field of view, Pediatric imaging
Convex C9-4 [ 4 – 9 MHz ] 192 elements, 108° field of view
Endovaginal C8-4v [ 4 – 8 MHz ] End-fire sector, 128 elements, 11mmR, 160° field of view
Endocavitary C9-5ec [ 5 – 9 MHz ] End-fire sector, 128 elements, 8mmR, 173° field of view
Endovaginal C10-3v [ 3 – 10 MHz ] End-fire sector, 128 elements, 11.5mmR, 164° field of view
Cardiac Sector S3-1 [ 1 – 3 MHz ] 96 elements, 90° field of view, adult cardiac sector
Cardiac Sector S4-1 [ 1 – 4 MHz ] 96 elements, 90° field of view, adult cardiac sector
Cardiac Sector S5-1 [ 1 – 5 MHz ] 80 elements, 90° field of view, PureWave crystal technology
TEE S7-2omni [ 2 – 7 MHz ] 64 elements, 90° field of view, Transesophageal TEE
TEE S7-2 [ 2 – 7 MHz ] 64 elements, 90° field of view, Transesophageal TEE
xMATRIX X3-1 [ 1 – 3 MHz ] 2,400 element/.s, 90° field of view
xMATRIX X5-1 [ 1 – 5 MHz ] 3,040 elements, 100° field of view, PureWave crystal technology
xMATRIX X6-1 [ 1 – 6 MHz ] 9,212 elements, 100° field of view, PureWave crystal technology
xMATRIX X7-2 [ 2 – 7 MHz ] 2,500 elements, 90° field of view, PureWave crystal technology
xMATRIX TEE X7-2t [ 2 – 7 MHz ] 2,500 elements, 90° field of view, PureWave crystal technology
Pedoff (PW Transducer) D2TCC [ 2 MHz ] Transcranial Doppler applications
Pedoff (CW Transducer) D2CWC [ 2 MHz ] Adult cardiology applications
Pedoff (CW Transducer) D5CWC [ 5 MHz ] Deep venous and arterial applications