1. Transcostal Histotripsy Ablation in an In Vivo Acute Hepatic Porcine Model
- Author
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Timothy J. Ziemlewicz, Allison C. Rodgers, Emily A. Knott, Annie M. Zlevor, Timothy L. Hall, Eli Vlaisavljevich, John F. Swietlik, Xaiofei Zhang, Fred T. Lee, Zhen Xu, Katherine C. Longo, and Paul F. Laeseke
- Subjects
medicine.medical_specialty ,Lung ,Ablation Techniques ,business.industry ,medicine.medical_treatment ,Ultrasound ,Ablation ,Histotripsy ,medicine.anatomical_structure ,Edema ,medicine ,Radiology, Nuclear Medicine and imaging ,Histopathology ,medicine.symptom ,Cardiology and Cardiovascular Medicine ,Nuclear medicine ,business ,Ablation zone - Abstract
To determine whether histotripsy can create human-scale transcostal ablations in porcine liver without causing severe thermal wall injuries along the beam path. Histotripsy was applied to the liver using a preclinical prototype robotic system through a transcostal window in six female swine. A 3.0 cm spherical ablation zone was prescribed. Duration of treatment (75 min) was longer than a prior subcostal treatment study (24 min, 15 s) to minimize beam path heating. Animals then underwent contrast-enhanced MRI, necropsy, and histopathology. Images and tissue were analyzed for ablation zone size, shape, completeness of necrosis, and off-target effects. Ablation zones demonstrated complete necrosis with no viable tissue remaining in 6/6 animals by histopathology. Ablation zone volume was close to prescribed (13.8 ± 1.8 cm3 vs. prescribed 14.1 cm3). Edema was noted in the body wall overlying the ablation on T2 MRI in 5/5 (one animal did not receive MRI), though there was no gross or histologic evidence of injury to the chest wall at necropsy. At gross inspection, lung discoloration in the right lower lobe was present in 5/6 animals (mean size: 1 × 2 × 4 cm) with alveolar hemorrhage, preservation of blood vessels and bronchioles, and minor injuries to pneumocytes noted at histology. Transcostal hepatic histotripsy ablation appears feasible, effective, and no severe injuries were identified in an acute porcine model when prolonged cooling time is added to minimize body wall heating.
- Published
- 2021