A new Ultrasound modality: US Elastography

1. A new Ultrasound modality:US Elastography Joel Chabriais

2. Why Elastography? • In old Egypt, 5 000 years ago, physicians examined the different parts of the body to evaluate elasticity, they knew that a hard mass in an organ is pathologic. • In Greek ancient age, for Hippocratic medicine, palpating was an essential time of physical examination. • In 21st century, imaging take preeminent place in medicine and Elastography could be considered as an « imaging palpation »…

3. What is Elastography? • Elastography is an imaging technique to measure the stiffness of tissues. • Images are acquired before and after soft compression of tissues and the deformation is evaluated. • Initially elastography used manual compression and was only qualitative, now some methods appears to apply a non operator dependant compression.

4. Elastography and US • Elastography was developed first in the US field. • Three step approach: • Organs mechanically stressed by either external or internal forces. • Measurement of tissues movement induced. • Qualitative or quantitative evaluation of tissue elastic properties from the measured displacement of tissues.

5. Several Approaches • Manual compression by operator using the transducer (static elastography). • Organ compression by heartbeat or vascular pulsations. • Push pulse waves compression. • Supersonic shear waves.

6. s e Static Elastography Axial and lateral deformations after an axial constraint Courtesy of Dr Anne Tardivon - Institut Curie - Paris

7. 1 = Lesion distortion similar than in surrounding tissues 2 = Heterogeneous distortion versus surrounding tissues 3 = Lesion center distort less than surrounding tissues 4 = Whole the lesion distort less than surrounding tissues 5 = Whole the lesion and adjacent tissues distort less than surrounding tissues Ueno Staging

8. SCORE 4 SCORE 3 Fibroadenoma DCIS Courtesy of Dr Anne Tardivon - Institut Curie - Paris

9. IDC 14x8 mm 9x6 mm Fibroadenoma 6 x 5 mm 5 x 3 mm Courtesy of Dr Anne Tardivon - Institut Curie - Paris

10. IDC Courtesy of Dr Anne Tardivon - Institut Curie - Paris

11. 1 1.5 2.3 3.7 Static ElastographyDevelopment: Quantitative Analysis This measurement quantify elasticity correlation between two regions. The FLR is independent of the compression movement. The 1st region define the lesion and the 2d is the reference (fat). a b c d Mean Elasto Fat FLR= Mean Elasto Lesion Courtesy of Dr Anne Tardivon - Institut Curie - Paris

12. FLR=1.2 FLR=8.9 Tsukuba University Hospital, JAPAN Courtesy of Dr Anne Tardivon - Institut Curie - Paris

13. FLR 40 35 cut-off = 4.3 Specificity = 88.8% Sensitivity = 89.4% Exactitude = 89.0% Area under curve = 0.906 30 25 20 15 10 4.3 5 BENIGN MALIGN (Mean: 2.95) (Mean: 11.61) 155 lesions (108 Benign and 47 Malign) / 140 Patients Courtesy of Dr Anne Tardivon - Institut Curie - Paris

14. Elastography: improvements • Compression/Decompression Movements • Displacement speed measurement • Integral -> Elasticity • Elasto Q Mode • Information at decompression • Automatic selection of the best cycle • ROI on fat and lesion • Quantification Courtesy of Dr Anne Tardivon - Institut Curie - Paris

15. Courtesy of Dr Anne Tardivon - Institut Curie - Paris

16. Step 1: Volumetric force creation using ultrasound beam focus Step 2: Ultra fast imaging of the displacement generated by ultrasounds Step 3: Image acquisition and processing Ultrasound beam US images 4% -1% Agar-Gelatin Elastic phantom 1D Cross-correlation ~ 100 µs Texp=20 ms Uz(x,t) ~ 0.3 ms SuperSonic Elastography Acquisition time < 30 ms !! Courtesy of Dr Anne Tardivon - Institut Curie - Paris

17. Significant difference benign versus malign: Cancers: E = 170.1 ± 41.6 kPa Benign lesions: E = 53.5 ± 19.8 kPa Supersonic Elastography n= 36 Courtesy of Dr Anne Tardivon - Institut Curie - Paris

18. µ (kPa) IDC GRADE III µ (kPa) Fibrous Mastopathy Courtesy of Dr Anne Tardivon - Institut Curie - Paris

22. Fields of Application in Medicine • Breast • Thyroid • Liver • Prostate • …

23. Elastography in DICOM: Why? • Now, several vendors are coming on the market: • Until 2008: 1 vendor had products for sale. • 2008: 3 vendors. • 2009: several announcements  6 vendors or more. • … probably every US vendor at short term. • At this time, only secondary capture or US objects. • All specific information to elastography are lost.

24. Elastography in DICOM: Why? • More and more clinical applications. • New BI-RADS edition, planned for 2010, will take into account US elastography for breast imaging. • Users would like to be able to store elastography information in their PACS: • Additional attributes in US objects? • New objects? • Some pathology needs elastography follow-up:  Probably DICOM SR templates needed

25. Elastography in DICOM:Who is Concerned? • Elastography is US WG 12 • Elastography for Breast imaging  WG 15 • Elastography needs DICOM SR templates  WG 8 • Other?

26. Elastography in DICOM:How To Go Further? • A motion to ask the concerned WG to investigate the domain to determine if further works needed? • Report to DICOM Standards Committee? • …

27. US Elastography And after?

28. Clinical device with mechanical impulsion compression MRI Elasticity module (kPa)

29. …MRE* is coming!!! WG 16 wake-up… But it is another story… ;-) *Magnetic Resonance Elastography