Nano-Bio-Chip Sensor Platform for Examination of Oral Exfoliative Cytology

Weigum, Shannon E.; Floriano, Pierre N.; Redding, Spencer W.; Yeh, Chih Ko; Westbrook, Stephen D.; McGuff, H. Stan; Lin, Alan; Miller, Frank R.; Villarreal, Fred; Rowan, Stephanie; Vigneswaran, Nadarajah; Williams, Michelle D.; McDevitt, John T.

doi:10.1158/1940-6207.capr-09-0139

Cited by 93 publications

(54 citation statements)

References 30 publications

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“…Application of nano-bio-chip sensor platform [7] and exfoliative cytology and paper-based Surface-enhanced Raman scattering (SERS) of plasmonic gold nanorods (GNRs) [8] are two recent tangible endeavor with promising clinical potential.…”

Section: Nano-drug Delivery In Dentistrymentioning

confidence: 99%

Periodontal Diseases and Recently Applied Nano-Technology: A Review Article

Iadiz¹,

Bamedi²,

Fakour³

2017

Health

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Nowadays, nano-technology is a promising option for scientists to enhance dental conditions and provide new techniques to offer a more reliable and comfortable therapeutic pickups. In this regard, there are different methods to manufacture novel nano-structured dental materials, and also modern drug delivery techniques. In this review article, all our efforts are based on the recently nano-dental approaches closely linked to treat or prevent some common dental diseases including tooth erosion, tooth sensitivity, periodontal disease, oral cancer, and so on. All the data and articles putted in this survey are gathered from Google Scholar, PubMed, and some dental databases.

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Section: Nano-drug Delivery In Dentistrymentioning

confidence: 99%

Periodontal Diseases and Recently Applied Nano-Technology: A Review Article

Iadiz¹,

Bamedi²,

Fakour³

2017

Health

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“…164,168,169 Another venture in the field of biochips comes from the work initiated by Weigum et al on the development of a diagnostic cytology-on-a-chip technique that rapidly detects premalignant and malignant cells with high sensitivity and specificity. 170,171 In their approach, they designed a sensor for the diag nostics of OSCC, which integrates multiple laboratory processes onto a microfluidic platform in three primary steps. First, an oral-cytology suspension is delivered to the sensor using pressure-driven flow, where any cells larger than the membrane-pore size are retained on the membrane surface.…”

Section: Biochips and Salivary Biomarkersmentioning

confidence: 99%

Nanotechnology in dentistry: prevention, diagnosis, and therapy

Neel¹,

Bozec

Pérez³

et al. 2015

IJN

101

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Nanotechnology has rapidly expanded into all areas of science; it offers significant alternative ways to solve scientific and medical questions and problems. In dentistry, nanotechnology has been exploited in the development of restorative materials with some significant success. This review discusses nanointerfaces that could compromise the longevity of dental restorations, and how nanotechnolgy has been employed to modify them for providing long-term successful restorations. It also focuses on some challenging areas in dentistry, eg, oral biofilm and cancers, and how nanotechnology overcomes these challenges. The recent advances in nanodentistry and innovations in oral health-related diagnostic, preventive, and therapeutic methods required to maintain and obtain perfect oral health, have been discussed. The recent advances in nanotechnology could hold promise in bringing a paradigm shift in dental field. Although there are numerous complex therapies being developed to treat many diseases, their clinical use requires careful consideration of the expense of synthesis and implementation.

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“…Thus, at today's medical environment, a histologic diagnosis is still imperative, and thus in order to optimally process any specimens in the near future, tools will need to be developed that are capable of allowing the evaluation of these cells at both the cytologic and molecular level. In order to circumvent the problem of enabling a diagnosis on small biopsy specimens all the while providing some material for molecular analysis, investigators have begun designing platforms capable of recovering specific subsets of cells from clinical specimens (Weigum, 2010, Wan, 2010, and Sun, 2010. These platforms are ideal for taking on the problems of small amounts of cells or tissues.…”

Section: Changes In the Clinical Arena Warranting Changes In Biospecimentioning

confidence: 99%

The Evolving Role of Tissue Biospecimens in the Treatment of Cancer

Mojica¹

2011

Current Cancer Treatment - Novel Beyond Conventional Approaches

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Nano-Bio-Chip Sensor Platform for Examination of Oral Exfoliative Cytology

Cited by 93 publications

References 30 publications

Periodontal Diseases and Recently Applied Nano-Technology: A Review Article

Periodontal Diseases and Recently Applied Nano-Technology: A Review Article

Nanotechnology in dentistry: prevention, diagnosis, and therapy

The Evolving Role of Tissue Biospecimens in the Treatment of Cancer

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