Tissue Engineering And Nanotheranostics

b2815 Tissue Engineering and Nanotheranostics “9.61x6.69”

234 Tissue Engineering and Nanotheranostics

nanocarriers to form polymerbased prodrugs help circumvent prob

lems associated with solubility of anticancer drugs.^1 03–105 The polymer

based prodrugs can also enhance bioavailability of drugs, improve

chemodrug pharmacokinetics and pharmacological properties

through unique features of passively intratumoral accumulation.^104

Representative of synthetic polymeric nanomaterials are mainly N(2

hydroxypropyl) Methacrylamide (HPMA), poly(glutamic acid)

(PGA), poly(lacticcoglycolic acid) (PLGA), polyglycolides (PGCA),

which are mostly biodegradable and biocompatible with the human

body. HPMA, a water soluble, biocompatible and nonimmunogenic

polymer, provides a large number of pendent functional groups in

HPMA copolymers for drugs conjugation.106–108 Activating or releas

ing the drugs from the polymer backbone within a targeted region

can be carried out by manipulation of their bond, a degradable linker.

PGA is naturally synthesized in microbial species. It is a highly anionic

polymer which exhibits excellent biocompatibility and noncytotoxicity.

Researchers developed a thiolated PGA nanogel for the delivery of

doxorubicin (DOX) to treat MCF7 cancer cells, showing controlled

drug release behavior and higher toxicity as compared to free DOX.^109

PLGA, a Food and Drug Administration (FDA) approved biodegrad

able and biocompatible copolymer, is synthesized from the two poly

mers of poly(lactic acid) (PLA) and polyglycolicacid (PGA).^110 Many

anticancer drugs can be conjugated or directly loaded with PLGA,

and the conjugated or loaded drugs release from the complex, slowly

and over time.111,112 Natural polymers are commonly classified in to

three major categories: polysaccharides, polypeptides and polynucleo

tides. Among them, chitosan is widely applied as the drug delivery

systems.^1 13–115 For example, Nogueira et al. produced chitosan nano

particles loaded with anticancer agent of methotrexate for effective

therapy of cancer.^116 Dextran is a water soluble polymeric saccharide.

Dextranbased nanocarriers have been explored in in vitro, in vivo

and most recently.117,118 Pullulan is a natural polysaccharide with bio

degradable, nontoxic, nonmutagenic, and noncarcinogenic proper

ties. Due to the low immunogenicity and satisfactory solubility in

aqueous and several organic solvents, it has been widely used for

cancer drug delivery.119,120

Tissue Engineering And Nanotheranostics

nanocarriers to form polymer­based prodrugs help circumvent prob­

lems associated with solubility of anticancer drugs.^1 03–105 The polymer­

based prodrugs can also enhance bioavailability of drugs, improve

chemo­drug pharmacokinetics and pharmacological properties

through unique features of passively intratumoral accumulation.^104

Representative of synthetic polymeric nanomaterials are mainly N­(2­

hydroxypropyl) Methacrylamide (HPMA), poly(glutamic acid)

(PGA), poly(lactic­co­glycolic acid) (PLGA), polyglycolides (PGCA),

which are mostly biodegradable and biocompatible with the human

body. HPMA, a water soluble, biocompatible and non­immunogenic

polymer, provides a large number of pendent functional groups in

HPMA copolymers for drugs conjugation.106–108 Activating or releas­

ing the drugs from the polymer backbone within a targeted region

can be carried out by manipulation of their bond, a degradable linker.

PGA is naturally synthesized in microbial species. It is a highly anionic

polymer which exhibits excellent biocompatibility and non­cytotoxicity.

Researchers developed a thiolated PGA nanogel for the delivery of

doxorubicin (DOX) to treat MCF­7 cancer cells, showing controlled

drug release behavior and higher toxicity as compared to free DOX.^109

PLGA, a Food and Drug Administration (FDA) approved biodegrad­

able and biocompatible copolymer, is synthesized from the two poly­