Biosensors and Biomaterials Laboratory
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Research Projects
Publications
Department of Biological Engineering
College of Engineering
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Publications

33.   C. L. Bratcher, S. A. Grant, J. T. Vassalli, C. L. Lorenzen..  Enhanced efficiency of capillary-based biosensor over an optical fiber biosensor for detecting calpastatin.  Accepted with revisions in Biosensors & Bioelectronics.  Jan, 2008.

32.   R. C. Stringer, D. Hoehn, SA. Grant. Quantum Dot-Based Biosensor for Detection of Human Cardiac Troponin I Using a Liquid-Core Waveguide.  Accepted with revision in IEEE Sensors, Jan. 2008.

31.   Costello, C.R., D.B. Fox, S.L. Bachman, B.J. Ramshaw, S.A. Grant.   Extracellular Matrix Crosslinked with Functionalized Nanomaterials: Novel Bionanocomposite Scaffolds for Soft Tissue Repair Applications.  Accepted with revisions in Journal of Biomedical Materials Research A, Dec. 2007.

30.   Costello, C.R., A.K. White, J.E. Jouret, S.L. Bachman, B.J. Ramshaw, D.S. Cleveland, T.S. Loy, S.A. Grant.  Development of an Acellular Porcine Tendon as a Scaffold for Soft Tissue Repair Applications.  Submitted to Tissue Engineering, Oct. 2007.

29.   M. Dweik and S. Grant.  NIR FRET Fluorophores for Use as an Implantable Glucose Biosensor.  Submitted to Sensor Letters.  October, 2007.

28.   R. C. Stringer, S. Schommer, D. Hoehn, S.A. Grant.  Development of an Optical Biosensor using Gold Nanoparticles and Quantum Dots for the detection of Porcine Reproductive and Respiratory Syndrome virus.  Submitted to Sensors & Actuators B, Nov. 2007.

27.   C. L. Bratcher, S. A. Grant, R. C. Stringer, C. L. Lorenzen. Correlation between a Novel Calpastatin Biosensor and Traditional Calpastatin Assay Techniques.  Accepted with revisions in Biosensors and Bioelectronics.  October, 2007.

26.   Thomas, Theodore, Lela Riley, Dave Grant, and S.A. Grant.  Development of a Capillary                Biosensor for Helicobacter hepaticus .  Sensor Letters, 398-404, 2007.

25.   Timothy M. Saettele, Sharon L. Bachman, Corey R. Costello, S.A. Grant, Dan Kolder, Bruce J. Ramshaw,  Use of Porcine Dermal Collagen as a Prosthetic Mesh in a Contaminated Field for Ventral Hernia Repair: A Case Report.  Hernia.  In print, published online by http://www.springerlink.com/content/u317x22v22631m18/?p=0c2506e562d04fd686422379abc31879&pi=2  02/06/07.

24.   Costello, C.R., S.L. Bachman, B.R. Ramshaw, S.A. Grant.  Materials Characterization of Explanted Heavyweight Polypropylene Hernia Meshes.  Journal of Biomedical Materials Research B  In print, published on-line : http://www3.interscience.wiley.com/cgi-bin/fulltext/114112675/HTMLSTART?CRETRY=1&SRETRY=0  02/06/07.

23.   Costello, C.R., S.L. Bachman, S.A. Grant, D.S. Cleveland, T.S. Loy, B.R. Ramshaw. Characterization of Heavyweight and Lightweight Polypropylene Prosthetic Mesh Explants from a Single Patient.  Published on line in Surgical Innovation.  http://sri.sagepub.com/cgi/content/abstract/14/3/168  Oct. 2007.

22.   Grant, S.A., C. Weilbaecher, and DJ Lichlyter.  Development of a Protease Biosensor Utilizing Silica Nanobeads, Sensors & Actuators B, 121(2): 482-489, 2007.

21.        Bhattacharya, S., Y. Gao, V. Korampally, M.T. Othaman, S.A.Grant, K. Gangopadhyay, S. Gangopadhyay.  Mechanics of plasma exposed SOG (Spin-on-Glass) and PDMS (Poly dimethyl Siloxane) surfaces and their impact on bond strength.  Applied Surface Science, 253:4220-4225, 2007.

20.        Bhattacharay, Y. Gao, S. V. Korampally, M.T. Othman, S.A. Grant, S. Kleiboeker, K. Gangopadhyay, S. Gangopadhyay.  Optimization of design and fabrication processes for realization of a PDMS-SOG-Silicon DNA amplification chip.  JMEMS, 16(2):401-410, 2007.

19.   Grant, S.A., B. Heits, S. Kleiboeker, Development of an Optical Biosensor Utilizing Gold Nanoparticles to Detect PRRSv.  Sensor Letters,  4(3):246-252; 2006.

18.   Haidekker MA, LW Boettcher J. Suter, R. Rone, A. Viehmann, and S.A. Grant, Influence of gold nanoparticles on collagen fibril morphology quantified using transmission electron microscopy and image analysis, BMC Medical Imaging, 6:4, 2006.

17.   Ko, Sungho and S.A. Grant. A novel FRET-based optical fiber biosensor for rapid detection of Salmonella Typhimurium.  Biosensors & Bioelectronics., 21:1283-1290, 2006.

16.   Grant, S.A.  Sensor Compatibility.  Book chapter found in Encyclopedia of Sensors, ed. Grimes, Dickey, and Pishko, American Scientific Publishers, 2005.

15.   Grant, S.A., Mary E. Pierce, Darcy J. Lichlyter, and David A. Grant.  (Invited paper) Effects of Immobilization on a FRET Immunosensor for the Detection of Myocardial Infarction. Analytical and Bioanalytical Chemistry. 381(5): 1012-1018, 2005.

14.   Grant, S.A., Richard Stringer, Seth Studer, Darcy Lichlyter, and Carol Lorenzen.  Viability of a Novel Biosensor Technique to Detect Calpastatin.  Biosensors and Bioelectronics, 21:438-444 2005.

13.   Grant, S.A., Darcy J. Lichlyter, Fabio Gallazzi, Susan Lever, and Orhan Soykan.  A Novel Sensing Technique to Detect Thrombin Enzymes.  Sensor Letters. 2(3-4):164-170, 2004.

12.   Grant, S.A., Mary E. Fryer, Darcy J. Lichlyter, and Orhan Soykan.  Investigation a of a FRET Immunosensor Technique for the Detection of Troponin T and I.  Sensors Letters.  2(1): 58-63, 2004.

11.   Lichlyter, D, S.A. Grant, and O. Soykan.  Development of a RET Immunosensor.  Biosensors and Bioelectronics, 19(3):219-226, 2003.

10.   Ko, S. and S.A. Grant.   Development of a novel FRET method for detection of Listeria or Salmonella.  Sensors and Actuators B, 96(1-2): 372-378, 2003.

9.     Grant, S.A. and J. Xu.  Development of a FRET biosensor for the detection of HIV.  IEEE Sensors, 2(5):409-415, 2002.

8.     Xu, J., S.A. Grant, and R Pastel.  Patterning of bio-molecules by laser guidance in hollow-core optical fibers.  IEEE Transaction in Biomedical Engineering.  50(1): 126-8, 2003.

7.     Grant, S.A., J. Xu, E. Bergeron, J. Mroz, Development of dual receptor biosensors:  an analysis of FRET pairs.  Biosensors & Bioelectronics.  16(4-5):231-237, 2001.

6.     Grant, S.A., K. Bettencourt, P. Krulevitch, J. Hamilton, and R.S. Glass.  In Vitro and In Vivo Measurements of Fiber Optic and Electrochemical Sensors to Monitor Brain Tissue pH. Sensors & Actuators B.  72:174-179, 2001.

5.     Grant, S.A., K. Bettencourt, P. Krulevitch, J. Hamilton, and R Glass.  Development of fiber optic and electrochemical pH sensors to monitor brain tissue. Critical Reviews in Biomedical Engineering.  28:159-163, 2000.

4.     Grant, S.A., J. Satcher, K. Bettencourt, and RS Glass.  Development of sol-gel based fiber optic nitrogen dioxide gas sensors.  Sensors and Actuators B: Chemical, 69:132-137, 2000.

3.     Grant S.A. and RS Glass.  Sol-gel fiber optic D dimer sensor to monitor stroke patients.  IEEE Trans. on BME, 46:1207-1211, 1999.

2.     Grant S.A. and RS Glass.  Development of a fiber optic pH sensor to monitor stroke patients.  Sensors & Actuators B,  45:35-42, 1997.

1.     Grant S.A., A Soufiane, G Shirk, SW Martin.  Degradation of silica optical fibers in contact with tissue.  Lasers in Surgery and Medicine,  21(N1):65-71, 1997.

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