High-frequency ultrasound for monitoring changes in liver tissue during preservation

Currently the only method to assess liver preservation injury is based on liver appearance and donor medical history. Previous work has shown that high-frequency ultrasound could detect ischemic cell death due to changes in cell morphology. In this study, we use high-frequency ultrasound integrated...

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Veröffentlicht in:	Physics in medicine & biology 2005-01, Vol.50 (2), p.197-213
Hauptverfasser:	Vlad, Roxana M, Czarnota, Gregory J, Giles, Anoja, Sherar, Michael D, Hunt, John W, Kolios, Michael C
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Sprache:	eng
Schlagworte:	Animals Image Interpretation, Computer-Assisted - methods Ischemia - diagnostic imaging Liver - blood supply Liver - diagnostic imaging Organ Preservation - adverse effects Organ Preservation - methods Rats Rats, Wistar Reproducibility of Results Sensitivity and Specificity Severity of Illness Index Ultrasonography
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container_title	Physics in medicine & biology
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creator	Vlad, Roxana M Czarnota, Gregory J Giles, Anoja Sherar, Michael D Hunt, John W Kolios, Michael C
description	Currently the only method to assess liver preservation injury is based on liver appearance and donor medical history. Previous work has shown that high-frequency ultrasound could detect ischemic cell death due to changes in cell morphology. In this study, we use high-frequency ultrasound integrated backscatter to assess liver damage in experimental models of liver ischemia. Ultimately, our goal is to predict organ suitability for transplantation using high-frequency imaging and spectral analysis techniques. To examine the effects of liver ischemia at different temperatures, livers from Wistar rats were surgically excised, immersed in phosphate buffer saline and stored at 4 and 20 degrees C for 24 h. To mimic organ preservation, livers were excised, flushed with University of Wisconsin (UW) solution and stored at 4 degrees C for 24 h. Preservation injury was simulated by either not flushing livers with UW solution or, before scanning, allowing livers to reach room temperature. Ultrasound images and corresponding radiofrequency data were collected over the ischemic period. No significant increase in integrated backscatter (approximately 2.5 dBr) was measured for the livers prepared using standard preservation conditions. For all other ischemia models, the integrated backscatter increased by 4-9 dBr demonstrating kinetics dependent on storage conditions. The results provide a possible framework for using high-frequency imaging to non-invasively assess liver preservation injury.
doi_str_mv	10.1088/0031-9155/50/2/002
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No significant increase in integrated backscatter (approximately 2.5 dBr) was measured for the livers prepared using standard preservation conditions. For all other ischemia models, the integrated backscatter increased by 4-9 dBr demonstrating kinetics dependent on storage conditions. 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Previous work has shown that high-frequency ultrasound could detect ischemic cell death due to changes in cell morphology. In this study, we use high-frequency ultrasound integrated backscatter to assess liver damage in experimental models of liver ischemia. Ultimately, our goal is to predict organ suitability for transplantation using high-frequency imaging and spectral analysis techniques. To examine the effects of liver ischemia at different temperatures, livers from Wistar rats were surgically excised, immersed in phosphate buffer saline and stored at 4 and 20 degrees C for 24 h. To mimic organ preservation, livers were excised, flushed with University of Wisconsin (UW) solution and stored at 4 degrees C for 24 h. Preservation injury was simulated by either not flushing livers with UW solution or, before scanning, allowing livers to reach room temperature. Ultrasound images and corresponding radiofrequency data were collected over the ischemic period. No significant increase in integrated backscatter (approximately 2.5 dBr) was measured for the livers prepared using standard preservation conditions. For all other ischemia models, the integrated backscatter increased by 4-9 dBr demonstrating kinetics dependent on storage conditions. 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No significant increase in integrated backscatter (approximately 2.5 dBr) was measured for the livers prepared using standard preservation conditions. For all other ischemia models, the integrated backscatter increased by 4-9 dBr demonstrating kinetics dependent on storage conditions. The results provide a possible framework for using high-frequency imaging to non-invasively assess liver preservation injury.</abstract><cop>England</cop><pub>IOP Publishing</pub><pmid>15742939</pmid><doi>10.1088/0031-9155/50/2/002</doi><tpages>17</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Image Interpretation, Computer-Assisted - methods Ischemia - diagnostic imaging Liver - blood supply Liver - diagnostic imaging Organ Preservation - adverse effects Organ Preservation - methods Rats Rats, Wistar Reproducibility of Results Sensitivity and Specificity Severity of Illness Index Ultrasonography
title	High-frequency ultrasound for monitoring changes in liver tissue during preservation
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