Localized doxorubicin chemotherapy with a biopolymeric nanocarrier improves survival and reduces toxicity in xenografts of human breast cancer

Shuang Cai; Sharadvi Thati; Taryn R. Bagby; Hassam Mustafa Diab; Neal M. Davies; Mark S. Cohen; M. L. Forrest

doi:10.1016/j.jconrel.2010.04.006

Localized doxorubicin chemotherapy with a biopolymeric nanocarrier improves survival and reduces toxicity in xenografts of human breast cancer

Shuang Cai, Sharadvi Thati, Taryn R. Bagby, Hassam Mustafa Diab, Neal M. Davies, Mark S. Cohen, M. L. Forrest

Research output: Contribution to journal › Article › peer-review

Abstract

Patients with metastatic breast cancer have a five-year survival rate of 27% compared to 98% for localized cancer, and the presence of even a few cancer cells in lymph nodes, known as isolated tumor cells or nanometastases, significantly increases the risk of relapse in the absence of aggressive treatment. Therefore, diagnosis and treatment of lymphatic metastases in early breast cancer plays an important role in patient survival. Here, we demonstrate the first description of a delivery system for localized doxorubicin chemotherapy to the breast tissue. The hyaluronan-doxorubicin nanoconjugate exhibits a sustained release characteristic in vitro and in vivo in the breast tissues of rodents bearing human breast cancer xenografts. In addition, the conjugate reduces dose-limiting cardiac toxicity with minimal toxicity observed in normal tissues. Finally, the conjugate dramatically inhibits breast cancer progression in vivo, leading to an increased survival rate. Thus, localized chemotherapy to the breast lymphatics with a nanocarrier may represent an improved strategy for treatment of early stage breast cancers.

Original language	English (US)
Pages (from-to)	212-218
Number of pages	7
Journal	Journal of Controlled Release
Volume	146
Issue number	2
DOIs	https://doi.org/10.1016/j.jconrel.2010.04.006
State	Published - Sep 2010
Externally published	Yes

Keywords

Breast cancer
Doxorubicin
Localized chemotherapy
Polymeric drug carrier

ASJC Scopus subject areas

Pharmaceutical Science

Online availability

10.1016/j.jconrel.2010.04.006

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title = "Localized doxorubicin chemotherapy with a biopolymeric nanocarrier improves survival and reduces toxicity in xenografts of human breast cancer",

abstract = "Patients with metastatic breast cancer have a five-year survival rate of 27% compared to 98% for localized cancer, and the presence of even a few cancer cells in lymph nodes, known as isolated tumor cells or nanometastases, significantly increases the risk of relapse in the absence of aggressive treatment. Therefore, diagnosis and treatment of lymphatic metastases in early breast cancer plays an important role in patient survival. Here, we demonstrate the first description of a delivery system for localized doxorubicin chemotherapy to the breast tissue. The hyaluronan-doxorubicin nanoconjugate exhibits a sustained release characteristic in vitro and in vivo in the breast tissues of rodents bearing human breast cancer xenografts. In addition, the conjugate reduces dose-limiting cardiac toxicity with minimal toxicity observed in normal tissues. Finally, the conjugate dramatically inhibits breast cancer progression in vivo, leading to an increased survival rate. Thus, localized chemotherapy to the breast lymphatics with a nanocarrier may represent an improved strategy for treatment of early stage breast cancers.",

keywords = "Breast cancer, Doxorubicin, Localized chemotherapy, Polymeric drug carrier",

author = "Shuang Cai and Sharadvi Thati and Bagby, {Taryn R.} and Diab, {Hassam Mustafa} and Davies, {Neal M.} and Cohen, {Mark S.} and Forrest, {M. L.}",

note = "Funding Information: This work was supported by awards from the National Institutes of Health ( R21 CA132033 and P20 RR015563 ), the American Cancer Society ( RSG-08-133-01-CDD ), the Susan G. Komen Foundation ( KG090481 ), and an Eli Lilly Predoctoral Fellowship to SC. ",

year = "2010",

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T1 - Localized doxorubicin chemotherapy with a biopolymeric nanocarrier improves survival and reduces toxicity in xenografts of human breast cancer

AU - Cai, Shuang

AU - Thati, Sharadvi

AU - Bagby, Taryn R.

AU - Diab, Hassam Mustafa

AU - Davies, Neal M.

AU - Cohen, Mark S.

AU - Forrest, M. L.

N1 - Funding Information: This work was supported by awards from the National Institutes of Health ( R21 CA132033 and P20 RR015563 ), the American Cancer Society ( RSG-08-133-01-CDD ), the Susan G. Komen Foundation ( KG090481 ), and an Eli Lilly Predoctoral Fellowship to SC.

PY - 2010/9

Y1 - 2010/9

N2 - Patients with metastatic breast cancer have a five-year survival rate of 27% compared to 98% for localized cancer, and the presence of even a few cancer cells in lymph nodes, known as isolated tumor cells or nanometastases, significantly increases the risk of relapse in the absence of aggressive treatment. Therefore, diagnosis and treatment of lymphatic metastases in early breast cancer plays an important role in patient survival. Here, we demonstrate the first description of a delivery system for localized doxorubicin chemotherapy to the breast tissue. The hyaluronan-doxorubicin nanoconjugate exhibits a sustained release characteristic in vitro and in vivo in the breast tissues of rodents bearing human breast cancer xenografts. In addition, the conjugate reduces dose-limiting cardiac toxicity with minimal toxicity observed in normal tissues. Finally, the conjugate dramatically inhibits breast cancer progression in vivo, leading to an increased survival rate. Thus, localized chemotherapy to the breast lymphatics with a nanocarrier may represent an improved strategy for treatment of early stage breast cancers.

AB - Patients with metastatic breast cancer have a five-year survival rate of 27% compared to 98% for localized cancer, and the presence of even a few cancer cells in lymph nodes, known as isolated tumor cells or nanometastases, significantly increases the risk of relapse in the absence of aggressive treatment. Therefore, diagnosis and treatment of lymphatic metastases in early breast cancer plays an important role in patient survival. Here, we demonstrate the first description of a delivery system for localized doxorubicin chemotherapy to the breast tissue. The hyaluronan-doxorubicin nanoconjugate exhibits a sustained release characteristic in vitro and in vivo in the breast tissues of rodents bearing human breast cancer xenografts. In addition, the conjugate reduces dose-limiting cardiac toxicity with minimal toxicity observed in normal tissues. Finally, the conjugate dramatically inhibits breast cancer progression in vivo, leading to an increased survival rate. Thus, localized chemotherapy to the breast lymphatics with a nanocarrier may represent an improved strategy for treatment of early stage breast cancers.

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KW - Localized chemotherapy

KW - Polymeric drug carrier

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Localized doxorubicin chemotherapy with a biopolymeric nanocarrier improves survival and reduces toxicity in xenografts of human breast cancer

Abstract

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