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1.
J Biomed Nanotechnol ; 12(5): 1035-47, 2016 May.
Artigo em Inglês | MEDLINE | ID: mdl-27305824

RESUMO

Implantable, near infrared (nIR) fluorescent nanosensors are advantageous for in vivo monitoring of biological analytes since they can be rendered selective for a particular target molecule while utilizing their unique optical properties and the nIR tissue transparency window for information transfer without an internal power source or telemetry. However, basic questions remain regarding the optimal encapsulation platform, geometrical properties, and concentration ranges required for high signal to noise ratio and effective detection through biological tissue. In this work, we systematically explore these variables quantitatively to optimize the performance of such optical nanosensors for biomedical applications. We investigate both alginate and polyethylene glycol (PEG) as model hydrogel systems, encapsulating d(GT)15 ssDNA-wrapped single-walled carbon nanotubes (SWNT) as model fluorescent nanoparticle sensors, responsive to riboflavin. Hydrogel sensors implanted 0.5 mm into thick tissue samples exhibit 50% reduction of initial fluorescence intensity, allowing an optical detection limit of 5.4 mm and 5.1 mm depth in tissue for alginate and PEG gels, respectively, at a SWNT concentration of 10 mg L(-1), and 785 nm laser excitation of 80 mW and 30 s exposure. These findings are supported with in vivo nIR fluorescent imaging of SWNT hydrogels implanted subcutaneously in mice. For the case of SWNT, we find that the alginate system is preferable in terms of emission intensity, sensor response, rheological properties, and shelf life.


Assuntos
Nanotubos de Carbono/química , Espectroscopia de Luz Próxima ao Infravermelho/métodos , Alginatos/química , Animais , Galinhas , Feminino , Fluorescência , Ácido Glucurônico/química , Ácidos Hexurônicos/química , Hidrogel de Polietilenoglicol-Dimetacrilato/química , Limite de Detecção , Glândulas Mamárias Animais , Conformação Molecular , Nanopartículas/química , Reologia
2.
Nat Nanotechnol ; 8(11): 873-80, 2013 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-24185942

RESUMO

Single-walled carbon nanotubes are particularly attractive for biomedical applications, because they exhibit a fluorescent signal in a spectral region where there is minimal interference from biological media. Although single-walled carbon nanotubes have been used as highly sensitive detectors for various compounds, their use as in vivo biomarkers requires the simultaneous optimization of various parameters, including biocompatibility, molecular recognition, high fluorescence quantum efficiency and signal transduction. Here we show that a polyethylene glycol ligated copolymer stabilizes near-infrared-fluorescent single-walled carbon nanotubes sensors in solution, enabling intravenous injection into mice and the selective detection of local nitric oxide concentration with a detection limit of 1 µM. The half-life for liver retention is 4 h, with sensors clearing the lungs within 2 h after injection, thus avoiding a dominant route of in vivo nanotoxicology. After localization within the liver, it is possible to follow the transient inflammation using nitric oxide as a marker and signalling molecule. To this end, we also report a spatial-spectral imaging algorithm to deconvolute fluorescence intensity and spatial information from measurements. Finally, we demonstrate that alginate-encapsulated single-walled carbon nanotubes can function as implantable inflammation sensors for nitric oxide detection, with no intrinsic immune reactivity or other adverse response for more than 400 days.


Assuntos
Técnicas Biossensoriais/instrumentação , Técnicas Biossensoriais/métodos , Nanotubos de Carbono/química , Animais , Materiais Biocompatíveis/química , Materiais Biocompatíveis/farmacocinética , DNA/química , Inflamação/patologia , Ligantes , Fígado/efeitos dos fármacos , Fígado/metabolismo , Camundongos , Óxido Nítrico/metabolismo , Polietilenoglicóis/química , Polietilenoglicóis/farmacocinética , Polímeros/química , Espécies Reativas de Nitrogênio/metabolismo
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