Porous silicon for cancer therapy: From fundamental research to the clinic

Adi Tzur-Balter; Giorgi Shtenberg; Ester Segal

doi:10.1515/revce-2015-0001

Porous silicon for cancer therapy: From fundamental research to the clinic

Adi Tzur-Balter, Giorgi Shtenberg, Ester Segal

Biotechnology and Food Engineering

Technion - Israel Institute of Technology

Research output: Contribution to journal › Review article › peer-review

Abstract

Porous silicon (PSi) has emerged over the past decade as a promising biomaterial for nanomedicine in general and cancer nanomedicine in particular. PSi offers a unique combination of properties, including large surface area and porous volume, biocompatibility, degradability in vivo into non-toxic silicic acid species, as well as its wealth of intrinsic optical properties (e.g., luminescence, photonic). This arsenal of properties together with the ability to tailor the PSi nanostructure and surface characteristics have led to an immense research effort directed at the development of PSi-based platforms for biomedical applications. After a brief introduction of the biology of cancer and currently practiced therapies, we provide an updated review of the progress of PSi-based platforms for cancer therapy and imaging.

Original language	English
Pages (from-to)	193-207
Number of pages	15
Journal	Reviews in Chemical Engineering
Volume	31
Issue number	3
DOIs	https://doi.org/10.1515/revce-2015-0001
State	Published - 1 Jun 2015

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

cancer
drug delivery
porous silicon

All Science Journal Classification (ASJC) codes

General Chemical Engineering

Access to Document

10.1515/revce-2015-0001

Cite this

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title = "Porous silicon for cancer therapy: From fundamental research to the clinic",

abstract = "Porous silicon (PSi) has emerged over the past decade as a promising biomaterial for nanomedicine in general and cancer nanomedicine in particular. PSi offers a unique combination of properties, including large surface area and porous volume, biocompatibility, degradability in vivo into non-toxic silicic acid species, as well as its wealth of intrinsic optical properties (e.g., luminescence, photonic). This arsenal of properties together with the ability to tailor the PSi nanostructure and surface characteristics have led to an immense research effort directed at the development of PSi-based platforms for biomedical applications. After a brief introduction of the biology of cancer and currently practiced therapies, we provide an updated review of the progress of PSi-based platforms for cancer therapy and imaging.",

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author = "Adi Tzur-Balter and Giorgi Shtenberg and Ester Segal",

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T2 - From fundamental research to the clinic

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AU - Shtenberg, Giorgi

AU - Segal, Ester

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Y1 - 2015/6/1

N2 - Porous silicon (PSi) has emerged over the past decade as a promising biomaterial for nanomedicine in general and cancer nanomedicine in particular. PSi offers a unique combination of properties, including large surface area and porous volume, biocompatibility, degradability in vivo into non-toxic silicic acid species, as well as its wealth of intrinsic optical properties (e.g., luminescence, photonic). This arsenal of properties together with the ability to tailor the PSi nanostructure and surface characteristics have led to an immense research effort directed at the development of PSi-based platforms for biomedical applications. After a brief introduction of the biology of cancer and currently practiced therapies, we provide an updated review of the progress of PSi-based platforms for cancer therapy and imaging.

AB - Porous silicon (PSi) has emerged over the past decade as a promising biomaterial for nanomedicine in general and cancer nanomedicine in particular. PSi offers a unique combination of properties, including large surface area and porous volume, biocompatibility, degradability in vivo into non-toxic silicic acid species, as well as its wealth of intrinsic optical properties (e.g., luminescence, photonic). This arsenal of properties together with the ability to tailor the PSi nanostructure and surface characteristics have led to an immense research effort directed at the development of PSi-based platforms for biomedical applications. After a brief introduction of the biology of cancer and currently practiced therapies, we provide an updated review of the progress of PSi-based platforms for cancer therapy and imaging.

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KW - drug delivery

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DO - 10.1515/revce-2015-0001

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JO - Reviews in Chemical Engineering

JF - Reviews in Chemical Engineering

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ER -

Porous silicon for cancer therapy: From fundamental research to the clinic

Abstract

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Keywords

All Science Journal Classification (ASJC) codes

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