TY - JOUR
T1 - Combination of HIFU therapy with contrast-enhanced sonography for quantitative assessment of therapeutic efficiency on tumor grafted mice
AU - Rouffiac, Valérie
AU - Duret, Jean Sébastien
AU - Péronneau, Pierre
AU - Dehez, Nathalie
AU - Opolon, Paule
AU - Roche, Alain
AU - Lassau, Nathalie
PY - 2006/5/1
Y1 - 2006/5/1
N2 - The objective was to evaluate treatment efficiency of a new high-intensity focused ultrasound (HIFU) prototype combining a therapeutic transducer with a sonographic probe. The optimal HIFU sequence was defined on ex vivo samples before in vivo evaluation of tumor ablation was performed by perfusion quantification after contrast agent injection. The original feature of this prototype is a 9-MHz sonographic probe in a HIFU device and connected to an Aplio (Toshiba®) sonograph. Acoustical power and treatment time were determined on ex vivo livers to generate 1-cm-long lesions. Lesion reproducibility was assessed for the power and treatment time selected. The gap between lesions and HIFU displacement shot procedures were optimized to ablate a 1-cm3 volume. The optimized protocol was applied to five murine tumors in vivo. Tumor ablation was quantified according to (1) contrast uptake (CU) after HIFU using perfusion software (Toshiba®) in "vascular recognition imaging" mode and Sonovue (Bracco®) contrast agent, and (2) the percentage of necrosis quantified on histologic slides. Ex vivo results: optimized settings, at 442 W/cm2 applied during three cycles (3 s on/5 s off) generated 10 identical elementary lesions measuring 9.78 (±0.66) * 2.11 (±0.33) mm2. A 4-mm gap between adjacent lesions and a 2-min pause between shot lines were found optimal. In vivo results: 60 % (±22) mean reduction in CU after HIFU and tumor necrosis histologically estimated at 58 % (±5.7) were quantified for the five animals. The therapeutic potential of this HIFU prototype was demonstrated in vivo through objective quantification of tumor ablation based on CU. (E-mail: [email protected]).
AB - The objective was to evaluate treatment efficiency of a new high-intensity focused ultrasound (HIFU) prototype combining a therapeutic transducer with a sonographic probe. The optimal HIFU sequence was defined on ex vivo samples before in vivo evaluation of tumor ablation was performed by perfusion quantification after contrast agent injection. The original feature of this prototype is a 9-MHz sonographic probe in a HIFU device and connected to an Aplio (Toshiba®) sonograph. Acoustical power and treatment time were determined on ex vivo livers to generate 1-cm-long lesions. Lesion reproducibility was assessed for the power and treatment time selected. The gap between lesions and HIFU displacement shot procedures were optimized to ablate a 1-cm3 volume. The optimized protocol was applied to five murine tumors in vivo. Tumor ablation was quantified according to (1) contrast uptake (CU) after HIFU using perfusion software (Toshiba®) in "vascular recognition imaging" mode and Sonovue (Bracco®) contrast agent, and (2) the percentage of necrosis quantified on histologic slides. Ex vivo results: optimized settings, at 442 W/cm2 applied during three cycles (3 s on/5 s off) generated 10 identical elementary lesions measuring 9.78 (±0.66) * 2.11 (±0.33) mm2. A 4-mm gap between adjacent lesions and a 2-min pause between shot lines were found optimal. In vivo results: 60 % (±22) mean reduction in CU after HIFU and tumor necrosis histologically estimated at 58 % (±5.7) were quantified for the five animals. The therapeutic potential of this HIFU prototype was demonstrated in vivo through objective quantification of tumor ablation based on CU. (E-mail: [email protected]).
KW - Contrast agent
KW - Doppler ultrasound
KW - HIFU ablation
KW - Treatment efficiency
UR - http://www.scopus.com/inward/record.url?scp=33646129655&partnerID=8YFLogxK
U2 - 10.1016/j.ultrasmedbio.2006.02.1403
DO - 10.1016/j.ultrasmedbio.2006.02.1403
M3 - Article
C2 - 16677932
AN - SCOPUS:33646129655
SN - 0301-5629
VL - 32
SP - 729
EP - 740
JO - Ultrasound in Medicine and Biology
JF - Ultrasound in Medicine and Biology
IS - 5
ER -