Light-sensitive lipid-based nanoparticles for drug delivery: design principles and future considerations for biological applications

Yavlovich, Amichai; Smith, Brandon; Gupta, K. C.; Blumenthal, Robert; Puri, Anu

doi:10.3109/09687688.2010.507788

Cited by 149 publications

(115 citation statements)

References 126 publications

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“…Photosensitizers, when incorporated into nanoparticles, can sometimes be used to trigger release the encapsulated contents upon NIR irradiation 211, 212, 213. It has been demonstrated that liposomes incorporating porphyrin‐phospholipid (PoP) can be permeabilized by NIR light, releasing variable cargos such as Dox, calcein, sulforhodamine B, and gentamicin 208.…”

Section: Nanoparticle‐mediated Cptmentioning

confidence: 99%

“…Most nanoparticles currently being used are successful by reducing side‐effects or as a means to solubilize hydrophobic drugs to induce fewer side effects 24. However, there has been significant preclinical work focused on developing new strategies for improving the delivery and efficacy of drugs using nanoparticles that are responsive to external stimuli such as heat,25, 26, 27, 28 light,29, 30, 31, 32, 33 ultrasound34 or tumor environment factors such as lower pH35, 36, 37, 38 or expression of certain enzymes 39, 40…”

Section: Introductionmentioning

confidence: 99%

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Chemophototherapy: An Emerging Treatment Option for Solid Tumors

et al. 2016

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Near infrared (NIR) light penetrates human tissues with limited depth, thereby providing a method to safely deliver non‐ionizing radiation to well‐defined target tissue volumes. Light‐based therapies including photodynamic therapy (PDT) and laser‐induced thermal therapy have been validated clinically for curative and palliative treatment of solid tumors. However, these monotherapies can suffer from incomplete tumor killing and have not displaced existing ablative modalities. The combination of phototherapy and chemotherapy (chemophototherapy, CPT), when carefully planned, has been shown to be an effective tumor treatment option preclinically and clinically. Chemotherapy can enhance the efficacy of PDT by targeting surviving cancer cells or by inhibiting regrowth of damaged tumor blood vessels. Alternatively, PDT‐mediated vascular permeabilization has been shown to enhance the deposition of nanoparticulate drugs into tumors for enhanced accumulation and efficacy. Integrated nanoparticles have been reported that combine photosensitizers and drugs into a single agent. More recently, light‐activated nanoparticles have been developed that release their payload in response to light irradiation to achieve improved drug bioavailability with superior efficacy. CPT can potently eradicate tumors with precise spatial control, and further clinical testing is warranted.

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Section: Nanoparticle‐mediated Cptmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Chemophototherapy: An Emerging Treatment Option for Solid Tumors

et al. 2016

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“…Successful disruption of the vesicles could be demonstrated after irradiation with UV-light by electron microscopy and dynamic lights scattering data. The design of photocleavable liposomes for drug delivery using different photolabile groups has been reported in several publications (15,16) . Dvir et al presented a simple proof of concept by carboxylated polystyrene nanoparticles labeled with the unspecifi c amino acid sequence YIGSR, which adheres to β 1 integrins present on most cell surfaces (4,17) .…”

Section: Application Of Light In Nanomedicine Light For Triggered Relmentioning

confidence: 99%

“…The caging groups are either covalently attached to the phosphate backbone or terminal phosphates or on the nucleotide bases to inhibit the further process of RNA induced silencing (Figure 2). The fi rst report of caged siRNA has been described by Shah et al using 1-(4, 5-dimethoxy-2-nitrophenyl)ethyl (DMNPE) attached to the phosphate backbone which only showed a 3 % caging effi ciency (15,16,24) . Caging of guanosine and thymidin bases by attaching 2-(2-nitrophenyl)propy (NPP) groups has been reported by Mikat and Heckel (25) .…”

Section: Light Induced Gene Expression and Control Of Gene Silencingmentioning

confidence: 99%

Why not just switch on the light?: light and its versatile applications in the field of nanomedicine

Lehner¹,

Hunziker²

2016

Nano Online

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Over the last decade, the emerging fi eld of nanomedicine has undergone rapid progresses. Different internal and external stimuli like pH, temperature, radiation, ultrasound or light have been introduced to expand the diagnostic and therapeutic options of various applications within the fi eld. This review focuses on the novel application of light in the fi eld of nanomedicine as a mechanism to control drug delivery, release and biochemical and genetic functionality at the target. The fi eld of functional nanomaterials for medicine, and in particular of light responsive nanocarriers, polymers and biomolecules offer new therapeutic options but also requires substantial further research to render this approach broadly applicable in clinical practice.

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“…The use of nanocarriers that can be remotely disassembled to release RA with spatial and temporal resolution are of high therapeutic value [15,16]. Even if LR-NP distribute to other tissues, RA will be released only upon light stimulation, bypassing possible side effects [17].…”

Section: Introductionmentioning

confidence: 99%