Neuron‐based microarray sensors for environmental sensing

Prasad, Shalini; Zhang, Xuan; Ozkan, Cengiz S.; Ozkan, Mihrimah

doi:10.1002/elps.200406066

Cited by 18 publications

(4 citation statements)

References 43 publications

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“…This has been explained in detail elsewhere for recordings from a micro-ordered substrate. 18,19 The process is similar in the case of the nanoporous substrate. Briefly, the porous alumina substrate was masked with a dark contact mask using conventional photolithography methods, and gold was vacuum-deposited on the exposed areas to fabricate measurement pads (10 mm Â 10 mm).…”

Section: Measurement Of Cellular Electrical Activitymentioning

confidence: 86%

“…Typically, they are based on the nominal molecular weight cutoff of the membrane; however, the nonuniformity in membrane architectures makes it difficult to define the absolute cutoff dimensions, as well as the channel length, pore sizes, and distribution. 18 Conversely, the integration of microfabrication and nanofabrication technologies allows precise control of the pore size, pore distribution, and diffusion path length. Therefore, due to the uniformity and known geometry of the nanoporous membrane developed using the two-step anodization technique; it is much more straightforward to determine important diffusion parameters.…”

Section: Nanoporous Membrane Diffusion Studiesmentioning

confidence: 99%

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Nanoporous Noninvasive Cellular Electrical Activity-Based Analysis Devices

Prasad

Quijano

2006

JALA: Journal of the Association for Laboratory Automation

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I n recent years, rapid advancements have been made in the biomedical applications of microtechnology and nanotechnology. While the focus of such technologies have been primarily on in vitro analytical and diagnostic tools, more recently in vivo therapeutic and sensing applications have gained attention. The long-term integration of cells with inorganic materials provides the basis for novel sensing platforms. The work presented here focuses on the ability to maintain cells long-term in nanoporous silicon-based microenvironments. This paper describes the creation of nanoporous, biocompatible, alumina membranes as a platform for incorporation into a cell-based device targeted for in situ recording of cellular electrical activity variations due to the changes associated with the surrounding microenvironments. Studies described herein focus on the interaction of nanoporous alumina substrates embedded in silicon patterned with cells of interest. The fidelity of such a system is demonstrated in terms of viability, proliferation, and functionality. The capability of such microfabricated nanoporous membranes, as in vitro for cell-based assays for sensing and drug delivery applications, is also demonstrated. It has potential in vivo application for therapeutic immunoisolation.

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Section: Measurement Of Cellular Electrical Activitymentioning

confidence: 86%

Section: Nanoporous Membrane Diffusion Studiesmentioning

confidence: 99%

Nanoporous Noninvasive Cellular Electrical Activity-Based Analysis Devices

Prasad

Quijano

2006

JALA: Journal of the Association for Laboratory Automation

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“…The FFT analysis identified the frequency at which the energy localization of the time domain signal occurred (Prasad et al, 2004). The FFT analysis identified the frequency at which the energy localization of the time domain signal occurred (Prasad et al, 2004).…”

Section: Data Processingmentioning

confidence: 99%

Nano Monitors for Identification of Vulnerable Cardio-vascular Plaque

2006

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We describe highly sensitive, non-invasive, label-free, electrical deection of protein biomarkers using nanoporous alumina membrane based electrochemical conductance based devices. The principle of operation of these sensors are based on electrochemical conductance varitions associated with the binding of antibody-antigen complexes to a metallic substrate.In these devices distinct pore clusters are selectively surface functionalized with specific antibodies, that are in turn are incorporated into micro scale arrays. Protein markers were routinely detected at nanomolar concentrations. This opens the potential for developing highly sensitive and selective biomarker detection assays in clinically relevant samples for diagnosis of complex disease state like vulnerable coronary plaque rupture that results in poor post surgical outcomes and other complex diseases.

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“…Understanding how neurons develop and organize into functional circuits and networks in vitro is not only of fundamental interest in neuroscience but also one of the cornerstones for potential future information technologies, such as neuron-based biosensors and artificial neuronal networks [1][2][3][4][5]. Patterning dissociated mammalian neurons and characterizing their functional connections have been one of the main approaches for these studies [6,7].…”

Section: Introductionmentioning

confidence: 99%

Development of neurons on micropatterns reveals that growth cone responds to a sharp change of concentration of laminin

et al. 2010

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In this report we fabricated laminin (LN) stripes on a background of poly-L-lysine as substrates for the growth of rat hippocampal neurons, and found that a sharp change of the concentration of LN guides the growth of neurites by leading the growth cones in a time- and space-dependent manner. The percentage of neurites that grow along the edge of LN stripes (where there is a sharp change of concentration) decreases as a function of the concentration of LN under a threshold value. The actin cytoskeleton plays an important role in the process of growth cone's response to the sharp change of concentration of LN on micropatterns. We believe that the findings here are useful for not only fundamental studies in neuroscience, but also helpful for the design of devices or chips for nervous prosthesis.

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Neuron‐based microarray sensors for environmental sensing

Cited by 18 publications

References 43 publications

Nanoporous Noninvasive Cellular Electrical Activity-Based Analysis Devices

Nanoporous Noninvasive Cellular Electrical Activity-Based Analysis Devices

Nano Monitors for Identification of Vulnerable Cardio-vascular Plaque

Development of neurons on micropatterns reveals that growth cone responds to a sharp change of concentration of laminin

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