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Ultrasound drug targeting to tumors with thermosensitive liposomes

Ultrasound drug targeting to tumors with thermosensitive liposomes
Ultrasound drug targeting to tumors with thermosensitive liposomes

Induction of local tissue hyperthermia is emerging as a valuable tool in cancer therapy, as temperatures between 39-43°C are sufficient to trigger release of drug from thermosensitive liposomes (TSL), but is not harmful to normal tissue. Despite significant advances in spatial and dynamic control of ultrasound, temperature profiles in heated tissues are never homogenous, and an ideal TSL should achieve complete local release over the entire hyperthermia range. We have developed a TSL exhibiting a sensitive temperature release profile (39-43°C) with excellent stability at 37°C. We prepared a TSL composed of DPPC lipid and Brij78 surfactant, and loaded this hyperthermia-activated-cytotoxic (HaT) TSL with doxorubicin (DOX). EMT-6 breast tumors located on a Balb/c mouse footpad were instantaneously heated to 42-43°C using a 3.9 MHz planar transducer: body temperature did not elevate above 37°C, and complete remission of the EMT-6 breast cancer tumors was observed. Mice treated with standard DOX chemotherapy (at same 10 mg/kg dose as HaT) did not exhibit any tumor inhibition effects compared to control mice. By histological examination, no physiological damage to normal tissues was induced by ultrasound heating, and mice treated with HaT DOX regained normal tissue appearance and function posttreatment. This study confirms the benefit of coupling ultrasound induced hyperthermia with a sensitive TSL formulation.

cancer, hyperthermia, thermosensitive liposome, ultrasound
1948-5719
IEEE
Ernsting, Mark J.
9e64eeae-7374-44df-a9cd-5e1b26c94e20
Worthington, Arthur
7ff1c846-f8f9-49df-b34a-4f065c08456f
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Tagami, Tatsuaki
0e56cc6b-7fbe-4b02-8cc9-ef8dd5fee818
Kolios, Michael C.
524bd088-1670-4d3c-9817-5298a4b1eebd
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d
Ernsting, Mark J.
9e64eeae-7374-44df-a9cd-5e1b26c94e20
Worthington, Arthur
7ff1c846-f8f9-49df-b34a-4f065c08456f
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Tagami, Tatsuaki
0e56cc6b-7fbe-4b02-8cc9-ef8dd5fee818
Kolios, Michael C.
524bd088-1670-4d3c-9817-5298a4b1eebd
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d

Ernsting, Mark J., Worthington, Arthur, May, Jonathan P., Tagami, Tatsuaki, Kolios, Michael C. and Li, Shyh Dar (2011) Ultrasound drug targeting to tumors with thermosensitive liposomes. In 2011 IEEE International Ultrasonics Symposium: IUS 2011. IEEE. 4 pp . (doi:10.1109/ULTSYM.2011.0001).

Record type: Conference or Workshop Item (Paper)

Abstract

Induction of local tissue hyperthermia is emerging as a valuable tool in cancer therapy, as temperatures between 39-43°C are sufficient to trigger release of drug from thermosensitive liposomes (TSL), but is not harmful to normal tissue. Despite significant advances in spatial and dynamic control of ultrasound, temperature profiles in heated tissues are never homogenous, and an ideal TSL should achieve complete local release over the entire hyperthermia range. We have developed a TSL exhibiting a sensitive temperature release profile (39-43°C) with excellent stability at 37°C. We prepared a TSL composed of DPPC lipid and Brij78 surfactant, and loaded this hyperthermia-activated-cytotoxic (HaT) TSL with doxorubicin (DOX). EMT-6 breast tumors located on a Balb/c mouse footpad were instantaneously heated to 42-43°C using a 3.9 MHz planar transducer: body temperature did not elevate above 37°C, and complete remission of the EMT-6 breast cancer tumors was observed. Mice treated with standard DOX chemotherapy (at same 10 mg/kg dose as HaT) did not exhibit any tumor inhibition effects compared to control mice. By histological examination, no physiological damage to normal tissues was induced by ultrasound heating, and mice treated with HaT DOX regained normal tissue appearance and function posttreatment. This study confirms the benefit of coupling ultrasound induced hyperthermia with a sensitive TSL formulation.

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More information

Published date: 2011
Venue - Dates: 2011 IEEE International Ultrasonics Symposium, IUS 2011, , Orlando, FL, United States, 2011-10-18 - 2011-10-21
Keywords: cancer, hyperthermia, thermosensitive liposome, ultrasound

Identifiers

Local EPrints ID: 455585
URI: http://eprints.soton.ac.uk/id/eprint/455585
DOI: doi:10.1109/ULTSYM.2011.0001
ISSN: 1948-5719
PURE UUID: 59f3ac05-7ecc-4f5d-b5bf-b218af4204f5
ORCID for Jonathan P. May: ORCID iD orcid.org/0000-0003-1651-130X

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Date deposited: 28 Mar 2022 16:38
Last modified: 17 Mar 2024 03:53

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Contributors

Author: Mark J. Ernsting
Author: Arthur Worthington
Author: Jonathan P. May ORCID iD
Author: Tatsuaki Tagami
Author: Michael C. Kolios
Author: Shyh Dar Li

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