Nanotechnology-based drug delivery systems for treatment of oral cancer: a review

Calixto, Giovana Maria Fioramonti; Fonseca-Santos, Bruno; Chorilli, Marlus; Bernegossi, Jéssica

doi:10.2147/ijn.s61670

Cited by 143 publications

(84 citation statements)

References 195 publications

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“…24 Among all drug-delivery nanosystems, the liquid-crystalline system (LCS) has received considerable attention, because of its excellent potential to control the release of a wide range of biomolecules, including peptides. [25][26][27] The LCS also stands out because it is formed by surfactants that form lamellar, hexagonal, and cubic crystalline liquid mesophases, by the gradual addition of solvents, such as water. The lamellar mesophase is a one-dimensional structure formed by parallel and planar layers of surfactant bilayers separated by layers of solvent.…”

Section: Calixto Et Almentioning

confidence: 99%

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Development and characterization of p1025-loaded bioadhesive liquid-crystalline system for the prevention of <em>Streptococcus mutans </em>biofilms

Calixto¹,

Duque²,

Aida³

et al. 2017

IJN

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Formation of a dental biofilm by Streptococcus mutans can cause dental caries, and remains a costly health problem worldwide. Recently, there has been a growing interest in the use of peptidic drugs, such as peptide p1025, analogous to the fragments 1025–1044 of S. mutans cellular adhesin, responsible for the adhesion and formation of dental biofilm. However, peptides have physicochemical characteristics that may affect their biological action, limiting their clinical performance. Therefore, drug-delivery systems, such as a bioadhesive liquid-crystalline system (LCS), may be attractive strategies for peptide delivery. Potentiation of the action of LCS can be achieved with the use of bioadhesive polymers to prolong their residence on the teeth. In line with this, three formulations – polyoxypropylene-(5)-polyoxyethylene-(20)-cetyl alcohol, oleic acid, and Carbopol C974P in different combinations (F1C, F2C, and F3C) were developed to observe the influence of water in the LCS, with the aim of achieving in situ gelling in the oral environment. These formulations were assessed by polarized light microscopy, small-angle X-ray scattering, rheological analysis, and in vitro bioadhesion analysis. Then, p1025 and a control (chlorhexidine) were incorporated into the aqueous phase of the formulation (F + p1025 and F + chlorhexidine), to determine their antibiofilm effect and toxicity on epithelial cells. Polarized light microscopy and small-angle X-ray scattering showed that F1C and F2C were LCS, whereas F3C was a microemulsion. F1C and F2C showed pseudoplastic behavior and F3C Newtonian behavior. F1C showed the highest elastic and bioadhesive characteristics compared to other formulations. Antibiofilm effects were observed for F + p1025 when applied in the surface-bound salivary phase. The p1025-loaded nanostructured LCS presented limited cytotoxicity and effectively reduced S. mutans biofilm formation, and could be a promising p1025-delivery strategy to prevent the formation of S. mutans dental biofilm.

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Section: Calixto Et Almentioning

confidence: 99%

“…From these data, the formulations F1C, F2C, and F3C were selected for physicochemical characterization. 26 structural features of the formulations…”

mentioning

confidence: 99%

Development and characterization of p1025-loaded bioadhesive liquid-crystalline system for the prevention of <em>Streptococcus mutans </em>biofilms

Calixto¹,

Duque²,

Aida³

et al. 2017

IJN

Self Cite

View full text Add to dashboard Cite

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“…72 Although small NPs (< 500 nm) can be efficiently internalized by local DCs, active targeting of designed NPs through molecular recognition, i.e., ligand-receptor interaction or antibody-antigen recognition, has been shown to be efficient in codelivering Ags and other stimulatory molecules to specific DC population. 73,74 Particulate delivery systems including virus vectors, whole-cell vaccines, virosomes, immunostimulating complexes (ISCOMs), virus-like particles (VLPs) and other biodegradable nanocarriers can carry specific ligands and thereby increase interaction with target cells as compared to soluble antigens. For example, Cruz et al investigated three distinct cell-surface receptors expressed on DCs as targets for pegylated poly(lactic-coglycolic acid) (PLGA) NPs: i) CD40, a TNF-a family receptor with known DC activating properties after binding to its specific ligand; ii) DEC-205, a C-type lectin receptor, and iii) CD11c, integrin receptor.…”

Section: Nps Target Dcsmentioning

confidence: 99%

Potential applications of nanoparticles in cancer immunotherapy

Jia

Omri

Krishnan

et al. 2016

Human Vaccines & Immunotherapeutics

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In recent years considerable progress has been made in the field of cancer immunotherapy whereby treatments that modulate the body's own immune system are used to combat cancer. This has the potential to not only elicit strong anti-cancer immune responses which can break pre-existing tolerance and help promote tumor regression, but could also induce immunological memory which may help prevent tumor recurrence. In order to ensure effective delivery of immunotherapeutic agents, such as vaccines, checkpoint inhibitors, chemotherapeutic agents and nucleic acids, a safe and effective delivery system is often required. One such approach is the use of multifunctional nanoparticles (NPs), such as liposomes, polymers, micelles, dendrimers, inorganic NPs, and hybrid NPs, which have the potential to combine the delivery of a diverse range of therapeutic immunomodulators thereby increasing the efficacy of tumor cell killing. This review focuses on recent progress in NP-mediated immunotherapy for the treatment of cancer.

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“…As per the documented literature, there are more in vitro and animal studies with very few clinical studies elucidating the therapeutic effects of nanoparticles in oral cancer. [35] The usage of nanostructures like quantum dots (QDs) (nanoparticles with quantum confinement properties, like size-tunable light emission) along with magnetic resonance imaging, can be widely applied in diagnosis and imaging of the tumor. Later, QDs-photosenstizers complexes as Photodynamic therapeutic agents was put forward by Samia et al which can mediate the targeted cellular destruction.…”

Section: Nanodiamondsmentioning

confidence: 99%

Nano drug delivery in oral cancer therapy: An emerging avenue to unveil

Dathar¹,

Dental²

2015

JMRPS

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Oral cancer is one of the most threatening diseases impairing the quality of life of the patient. Though many strategies are being employed for treatment of oral cancer, the eventual goal to cure cancer still remains elusive. Various drug delivery systems have been practiced to achieve better success in improving the survival rate of the patient. Until date, targeted drug delivery systems via nanoparticles are expected to be promising multi-functional platform in cancer therapeutics. The present article is a brief review of unique properties of nanoparticles and various nano drug delivery systems in oral cancer therapy.

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Nanotechnology-based drug delivery systems for treatment of oral cancer: a review

Cited by 143 publications

References 195 publications

Development and characterization of p1025-loaded bioadhesive liquid-crystalline system for the prevention of <em>Streptococcus mutans </em>biofilms

Development and characterization of p1025-loaded bioadhesive liquid-crystalline system for the prevention of <em>Streptococcus mutans </em>biofilms

Potential applications of nanoparticles in cancer immunotherapy

Nano drug delivery in oral cancer therapy: An emerging avenue to unveil

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