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Technology Report

Programmable Nano-Bio-Chips: Multifunctional Clinical Tools for Use at The Point-Of-Care

Jesse V Jokerst1 Molecular Imaging Program at Stanford, Stanford University School of Medicine, 318 Campus Drive, Stanford, CA94305-5427, USA.;2 Brown-Wiess Professor of Bioengineering & Chemistry, Departments of Bioengineering & Chemistry, Rice University, 6100 Main Street, Houston, TX77005, USA.Correspondence[email protected]
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John T McDevitt2 Brown-Wiess Professor of Bioengineering & Chemistry, Departments of Bioengineering & Chemistry, Rice University, 6100 Main Street, Houston, TX77005, USA.Correspondence[email protected]
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Pages 143-155 | Published online: 21 Dec 2009

Bibliography

  • Hanash SM , PitteriSJ, FacaVM: Mining the plasma proteome for cancer biomarkers.Nature452(7187), 571–579 (2008).
  • Hunter DJ , KhouryMJ, DrazenJM: Perspective: letting the genome out of the bottle - will we get our wish?N. Engl. J. Med.358(2), 105–107 (2008).
  • Anderson NL , AndersonNG: The human plasma proteome. History, character, and diagnostic prospects.Mol. Cell. Proteomics1(11), 845–867 (2002).
  • Vitzthum F , BehrensF, AndersonNL, ShawJH: Proteomics: from basic research to diagnostic application. A review of requirements and needs.J. Proteome Res.4(4), 1086–1097 (2005).
  • Yager P , EdwardsT, FuEet al.: Microfluidic diagnostic technologies for global public health.Nature442(7101), 412–418 (2006).
  • Soper SA , BrownK, EllingtonAet al.: Point-of-care biosensor systems for cancer diagnostics/prognostics.Biosens. Bioelectron.21(10), 1932–1942 (2006).
  • Myers FB , LeeLP: Innovations in optical microfluidic technologies for point-of-care diagnostics.Lab Chip8(12), 2015–2031 (2008).
  • Ouellette AL , LiJJ, CooperDE, RiccoAJ, KovacsGTA: Evolving point-of-care diagnostics using up-converting phosphor bioanalytical systems.Anal. Chem.81(9), 3216–3221 (2009).
  • Osterfeld SJ , YuH, GasterRS, et al.: Multiplex protein assay based on real-time magnetic nanotag sensing. Proc. Natl Acad. Sci. USA105(52), 20637–20640 (2008).
  • Thorsen T , Maerkl Sebastian J, Quake Stephen R: Microfluidic large-scale integration. Science298(5593), 580–584 (2002).
  • Whitesides GM : The origins and the future of microfluidics.Nature442(7101), 368–373 (2006).
  • Vilkner T , JanasekD, ManzA: Micro total analysis systems. Recent developments.Anal. Chem.76(12), 3373–3385 (2004).
  • Mukhopadhyay R : Microfluidics: on the slope of enlightenment.Anal. Chem.81(11), 4169–4173 (2009).
  • Ligler FS : Perspective on optical biosensors and integrated sensor systems.Anal. Chem.81(2), 519–526 (2009).
  • Toriello NM , DouglasES, ThaitrongN, et al.: Integrated microfluidic bioprocessor for single-cell gene expression analysis. Proc. Natl Acad. Sci. USA105(51), 20173–20178 (2008).
  • Sia SK , KrickaLJ: Microfluidics and point-of-care testing.Lab Chip8(12), 1982–1983 (2008).
  • McCarley RL , VaidyaB, WeiSYet al.: Resist-free patterning of surface architectures in polymer-based microanalytical devices.J. Am. Chem. Soc.127(3), 842–843 (2005).
  • Madou M , ZovalJ, JiaGet al.: Lab on a CD.Annu. Rev. Biomed. Eng.8, 601–628 (2006).
  • Waggoner PS , CraigheadHG: Micro- and nanomechanical sensors for environmental, chemical, and biological detection.Lab Chip7(10), 1238–1255 (2007).
  • de Mello AJ , WoottonRCR: Chemistry at the crossroads.Nat. Chem.1(1), 28–29 (2009).
  • Sanhai WR , SakamotoJH, CanadyR, FerrariM: Seven challenges for nanomedicine.Nat. Nanotech.3(5), 242–244 (2008).
  • Melin J , QuakeSR: Microfluidic large-scale integration: the evolution of design rules for biological automation.Annu. Rev. Biophys. Biomol. Struc.36, 213–231 (2007).
  • Holmesfarley SR , BainCD, WhitesidesGM: Wetting of functionalized polyethylene film having ionizable organic-acids and bases at the polymer water interface – relations between functional-group polarity, extent of ionization, and contact-angle with water.Langmuir4(4), 921–937 (1988).
  • Goluch ED , Nam J-M, Georganopoulou DG et al.: A bio-barcode assay for on-chip attomolar-sensitivity protein detection. Lab Chip6(10), 1293–1299 (2006).
  • Qin L , VermeshO, ShiQ, HeathJR: Self-powered microfluidic chips for multiplexed protein assays from whole blood.Lab Chip9(14), 2016–2020 (2009).
  • Srivastava N , BrennanJS, RenziRFet al.: Fully integrated microfluidic platform enabling automated phosphoprofiling of macrophage response.Anal. Chem.81(9), 3261–3269 (2009).
  • Chin CD , LinderV, SiaSK: Lab-on-a-chip devices for global health: Past studies and future opportunities.Lab Chip7(1), 41–57 (2007).
  • Kim JS , AndersonGP, EricksonJSet al.: Multiplexed detection of bacteria and toxins using a microflow cytometer.Anal. Chem.81(13), 5426–5432 (2009).
  • Walt DR : Chemistry: miniature analytical methods for medical diagnostics.Science308(5719), 217–219 (2005).
  • Cheng X , GuptaA, ChenCet al.: Enhancing the performance of a point-of-care CD4+ T-cell counting microchip through monocyte depletion for HIV/AIDS diagnostics.Lab Chip9(10), 1357–1364 (2009).
  • Maheswaran S , SequistLV, NagrathSet al.: Detection of mutations in EGFR in circulating lung-cancer.N. Engl. J. Med.359(4), 366–377 (2008).
  • Mukhopadhyay R : When microfluidic devices go bad.Anal. Chem.77(21), 429A–432A (2005).
  • Janasek D , FranzkeJ, ManzA: Scaling and the design of miniaturized chemical-analysis systems.Nature442(7101), 374–380 (2006).
  • Rodriguez WR , ChristodoulidesN, FlorianoPNet al.: A microchip CD4 counting method for HIV monitoring in resource-poor settings.PLoS Med.2(7), e182 (2005).
  • Jokerst JV , RaamanathanA, ChristodoulidesNet al.: Nano-bio-chips for high performance multiplexed protein detection: determinations of cancer biomarkers in serum and saliva using quantum dot bioconjugate labels.Biosens. Bioelectron.24(12), 3622–3629 (2009).
  • Jokerst JV , FlorianoPN, ChristodoulidesN, SimmonsGW, McDevittJT: Integration of semiconductor quantum dots into nano-bio-chip systems for enumeration of CD4+ T cell counts at the point-of-need.Lab Chip8(12), 2079–2090 (2008).
  • Goodey A , LavigneJJ, SavoySMet al.: Development of multianalyte sensor arrays composed of chemically derivitized polymeric microspheres localized in micromachined cavities.J. Am. Chem. Soc.123, 2559–2570 (2001).
  • Lavigne JJ , SavoyS, ClevengerMBet al.: Solution-based analysis of multiple analytes by a sensor array: toward the development of an ‘electronic tongue‘.J. Am. Chem. Soc.120(25), 6429–6430 (1998).
  • Kilby JSC : Turning potential into realities: the invention of the integrated circuit.ChemPhysChem2(8/9), 482–489 (2001).
  • Floriano P , ChristodoulidesN, MillerCet al.: Use of saliva-based nano-biochip tests for acute myocardial infarction at the point of care: a feasibility study.Clin. Chem.55(8), 1530–1538 (2009).
  • Weigum SE , FlorianoPN, ChristodoulidesN, McDevittJT: Cell-based sensor for analysis of EGFR biomarker expression in oral cancer. Lab Chip7(8), 995–1003 (2007).
  • Christodoulides N , FlorianoPN, AcostaSAet al.: Toward the development of a lab-on-a-chip dual-function leukocyte and C-reactive protein analysis method for the assessment of inflammation and cardiac risk.Clin. Chem.51(12), 2391–2395 (2005).
  • Ali MF , KirbyR, GoodeyAPet al.: DNA hybridization and discrimination of single-nucleotide mismatches using chip-based microbead arrays.Anal. Chem.75, 4732–4739 (2003).
  • Agnew HD , RohdeRD, MillwardSWet al.: Iterative in situ click chemistry creates antibody-like protein-capture agents.Angew. Chem. Int. Ed.48(27), 4944–4948 (2009).
  • Christodoulides N , DharshanP, WongJet al.: A microchip-based assay for interleukin-6.Meth. Mol. Bio.385, 131–144 (2007).
  • Gustavsson P-E , Axelsson A, Larsson P-O: Superporous agarose beads as a hydrophobic interaction chromatography support. J. ChromatographyA 830(2), 275–284 (1999).
  • McCleskey SC , GriffinMJ, SchneiderSE, McDevittJT, AnslynEV: Differential receptors create patterns diagnostic for ATP and GTP.J. Am. Chem. Soc.125(5), 1114–1115 (2003).
  • Wright AT , AnslynEV, McDevittJT: A differential array of metalated synthetic receptors for the analysis of tripeptide mixtures.J. Am. Chem. Soc.127(49), 17405–17411 (2005).
  • Christodoulides N , MohantyS, MillerCS, et al.: Application of microchip assay system for the measurement of C-reactive protein in human saliva. Lab Chip5(3), 261–269 (2005).
  • Jackson DJ , NaberJF, RousselTJ, et al.: Portable high-voltage power supply and electrochemical detection circuits for microchip capillary electrophoresis. Anal. Chem.75(14), 3643–3649 (2003).
  • Christodoulides N , FlorianoPN, MillerCSet al.: Lab-on-a-chip methods of point-of-care measurements of salivary biomarkers of periodontitis.Ann. NY Acad. Sci.1098, 411–428 (2007).
  • Christodoulides N , TranM, FlorianoPNet al.: A microchip-based multianalyte assay system for the assessment of cardiac risk.Anal. Chem.74(13), 3030–3036 (2002).
  • Curey T , GoodeyA, TsaoAet al.: Characterization of multicomponent monosaccharide solutions using an enzyme-based sensor array.Anal. Biochem.293(2), 178–184 (2001).
  • Goodey A , LavigneJJ, SavoySMet al.: Development of multianalyte sensor arrays composed of chemically derivatized polymeric microspheres localized in micromachined cavities.J. Am. Chem. Soc.123(11), 2559–2570 (2001).
  • Goodey AP , McDevittJT: Multishell microspheres with integrated chromatographic and detection layers for use in array sensors.J. Am. Chem. Soc.125(10), 2870–2871 (2003).
  • Kirby R , ChoEJ, GehrkeBet al.: Aptamer-based sensor arrays for the detection and quantitation of proteins.Anal. Chem.76(14), 4066–4075 (2004).
  • Wong DT : Salivary diagnostics powered by nanotechnologies, proteomics and genomics.JADA137(3), 313–321 (2006).
  • Herr AE , HatchAV, ThrockmortonDJet al.: Microfluidic immunoassays as rapid saliva-based clinical diagnostics.Proc. Natl Acad. Sci. USA104(13), 5268–5273 (2007).
  • Cohen J : Monitoring treatment: at what cost?Science304(5679), 1936–1936 (2004).
  • CDC: 1997 revised guidelines for performing CD4+ T-cell determinations in persons infected with human immunodeficiency virus (HIV). MMWR Morb. Mortal. Wkly. Rep.46(RR-2), 1–29 (1997).
  • Rodriguez WR , ChristodoulidesN, FlorianoPNet al.: A microchip CD4 counting method for HIV monitoring in resource-poor settings.PloS Med.2(7), 663–672 (2005).
  • Floriano PN , ChristodoulidesN, RomanoviczDKet al.: Membrane-based on-line optical analysis system for rapid detection of bacteria and spores.Biosens. Bioelectron.20(10), 2079–2088 (2005).
  • Ginsburg PB , StrunkBC, BankerMI, CooksonJP: Tracking health care costs: continued stability but at high rates in 2005.Health Aff.25(6), w486-w495 (2006).
  • Kineiko RW , FloeringDA, MorrisseyM: Laboratory evaluation of the Boehringer Mannheim ‘Hitachi 705’ automatic analyzer.Clin. Chem.29(4), 688–691 (1983).
  • Erickson KA , WildingP: Evaluation of a novel point-of-care system, the i-STAT portable clinical analyzer.Clin. Chem.39(2), 283–287 (1993).
  • Fulton RJ , McDadeRL, SmithPL, KienkerLJ, KettmanJR Jr: Advanced multiplexed analysis with the FlowMetrix system. Clin. Chem.43(9), 1749–1756 (1997).

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