Bryers, JD. Medical Biofilms, A Perspective. Biotechnology & Bioengineering, 100: 1–18. 2008.[PDF reprint]

Valdes TI, Ciridon W, Ratner BD, Bryers JD. Surface modification of a perfluorinated ionomer using a glow discharge deposition method to control protein adsorption. Biomaterials. 29(10):1356-1366, (2008).[PDF reprint]

Cheng G., Zhang Z., Chen S., Bryers J.D., Jiang, S., Inhibition of bacterial adhesion and biofilm formation on zwitterionic surfaces. Biomaterials, 28(29):4192-4199 (2007).[PDF reprint]

Bryers, J.D. and Ratner, B.D., Biomaterials approaches to combating oral biofilms and dental disease. BMC Oral Health. Jun 15;6 Suppl 1:S15. (2006).[PDF reprint]

Slayton, R.L., Bryers, J.D., and Milgrom, P., Biotech and biomaterials research to reduce the caries epidemic. BMC Oral Health. Jun 15;6 Suppl 1:S1. (2006).[PDF reprint]

Bryers, J.D., Jarvis, R. A., Lebo, J., Prudencio, A., Kyriakides, T. R., Uhrich, K., Biodegradation of poly(anhydride-esters) into non-steroidal anti-inflammatory drugs and their effect on Pseudomonas aeruginosa biofilms in vitro and on the foreign-body response in vivo, Biomaterials 27: 5039–5048, (2006).[PDF reprint]

Jarvis, R. A. and Bryers, J.D. Effects of Controlled Fibronectin Surface Orientation on Subsequent Staphylococcus epidermidis Adhesion, Journal of Biomedical Materials Research – A, 75A: 41–55, (2005).[PDF reprint]

Sun, D., Accavitti-Loper, M. A., and Bryers, J. D. Inhibition of Biofilm Formation by Monoclonal Antibodies against Staphylococcus epidermidis RP62A Accumulation-Associated Protein, Clinical and Diagnostic Laboratory Immunology, 12(1): 93-100 (2005). [PDF reprint]

Johnston, E. E., Bryers, J. D., and Ratner, B. D. Plasma Deposition and Surface Characterization of Oligoglyme, Dioxane, and Crown Ether Non-Fouling Thin Films, Langmuir, 21: 870-881 (2005).[PDF reprint]

Bryers, J. D. and Ratner, B. D., Bioinspired Implant Materials Befuddle Bacteria, ASM News, 70: 232-237 (2004).[PDF reprint]

Wagner, V. and Bryers, J. D. Poly(ethylene glycol)-polyacrylate copolymers modified to control adherent monocyte-macrophage physiology: Interactions with attaching Staphylococcus epidermidis or Pseudomonas aeruginosa bacteria, J. Biomedical Materials Research, 69A: 79-90, (2004).[PDF reprint]

Wagner, V., Koberstein, J., and Bryers, J. D. Linear- and Star-like PEG Surface Modifications of PEG-Poly(Acrylic acid) Co-polymers: Synthesis, Characterization, and Non-fouling aspects, Biomaterials, 25: 2247-2263, (2004).[PDF reprint]

Klueh, U., Bryers, J. D., and Kreutzer, D. L., Binding and Orientation of Fibronectin on Polystyrene Surfaces Using Immobilized Bacterial Adhesion-related Peptides, J. Biomedical Materials Research, 67A: 36-43, (2003).[PDF reprint]

Klueh, U., Seery, T., Castner, D. G., Bryers, J. D., and Kreutzer, D. L. Binding and orientation of fibronectin to silanated glass surfaces using immobilized bacterial adhesin-related peptides, Biomaterials, 24: 3877-3884, (2003).[PDF reprint]

Wagner, V. and Bryers, J. D. Monocyte/macrophage interactions with base and linear and star-like PEG-modified PEG-poly(acrylic acid) co-polymers, J. Biomedical Materials Research, 66A: 62–78, (2003). [PDF reprint]

Sanin, S. L., Sanin, F.D., and Bryers, J.D., Effect of Starvation on the Adhesive Properties of Xenobiotic Degrading Bacteria, Process Biochemistry, 38(6): 909-914, (2003).

Klueh, U., Goralnick, S., Bryers, J. D., and Kreutzer, D. L. Binding and Orientation of Fibronectin on Surfaces using Collagen Related Peptides, Student Research Award in the Master of Science Degree Candidate Category, 27th Annual Meeting of the Society of Biomaterials, J. Biomedical Materials Research, 56(3): 307-323, (2001).[PDF reprint]

Klueh, U., Wagner, V., Kelly, S., Johnson, A., and Bryers, J. D. Efficacy of Silver-coated Fabric to Prevent Bacterial Colonization and Subsequent Device-based Infection, J. Biomedical Materials Research (Applied Biomaterials), 53: 621-631, (2000).

Hendricks, S. K., Kwok, C. S., Shen, M., Horbett, T. A., B. D. Ratner, and Bryers, J. D. Plasma-deposited Membranes for Controlled Release of Antibiotic to Prevent Bacterial Adhesion and Biofilm Formation, J. Biomedical Materials Research, 50: 160-170, (2000).

Kwok, C. S., Wan, C., Hendricks, S. K., Bryers, J. D., Horbett, T. A., and Ratner, B. D. Design of Infection-resistant Antibiotic-releasing Polymers: I. Fabrication and Formulation. J. Controlled Release, 62 (3): 289-299. (1999).

Bryers, J. D. and Drummond, F. Local Mass Transfer Coefficients in Bacterial Biofilm Using Fluorescence Recovery After Photobleaching (FRAP), Biotechnology & Bioengineering, 60: 462-473, (1998).

Sharp, R. S., Bryers, J. D., and Jones, W. G. Activity and Stability of a Recombinant Plasmid-borne TCE Degradative Pathway in Biofilm Cultures, Biotechnology & Bioengineering, 59: 318-327, (1998).

Beaudoin, D., Bryers, J. D., Cunningham, A. B., and Peretti, S. W. Mobilization of Broad Host Range Plasmid from Pseudomonas putida to Established Biofilm of Bacillus azotoformans. I. Experiments, Biotechnology & Bioengineering, 57: 272-279, (1998).

Beaudoin, D., Bryers, J. D., Cunningham, A. B., and Peretti, S. W. Mobilization of Broad Host Range Plasmid from Pseudomonas putida to Established Biofilm of Bacillus azotoformans. II. Modeling, Biotechnology & Bioengineering, 57: 280-286, (1998).

Sharp, R. S., Bryers, J. D., Jones, W. A., and Shields, M. A. Activity and Stability of a Recombinant Plasmid-borne TCE Degradative Pathway in Suspended Cultures, Biotechnology & Bioengineering, 57: 287-296, (1998).

Bryers, J. D. and Hendricks, S. Bacterial Infection of Biomaterials: Experimental Protocol for In Vitro Adhesion Studies, Annals of the New York Academy of Sciences, 831: 127-137, (1997).

Mirpuri, R., Jones, W. A., and Bryers, J. D. A Comparison of Toluene Degradation Kinetics by Planktonic and Biofilm Cells of Pseudomonas putida 54G, Biotechnology & Bioengineering, 53: 535-546, (1997).

Osswald, P., Courtes, R., Bauda, P., Block, J. C., Bryers, J. D. and Sunde, E. Xenobiotic Biodegradation Test Using Attached Bacteria in Synthetic Seawater, Ecotoxicology & Environmental Safety, 31: 211 - 217, (1995).

Bryers, J. D. and Huang, C-T. Recombinant Plasmid Retention and Expression in Bacterial Biofilm Cultures, Water Science Technol., 31: 105-115, (1995).

Bryers, J. D. and Sanin, S. Resuscitation of Starved Ultra-Micro Bacteria for Improved Bioremediation, Annals of New York Academy of Sciences, 745: 61-76, (1994).

Huang, C-. T., Peretti, S. W., and Bryers, J. D., Induced Protein Expression in Biofilm Cultures of Recombinant E. coli DH5α (pMJR1750), Biotechnology Letters, 16: 903-908, (1994).

Huang, C-. T., Peretti, S. W., and Bryers, J. D., Effects of Medium Carbon to Nitrogen Ratio on Biofilm Formation and Plasmid Stability, Biotechnology & Bioengineering, 44: 329-336, (1994).

Bryers, J. D., Biofilms and the Technological Implications of Microbial Cell Adhesion, Colloids & Surfaces-B: Biointerfaces, 2: 9-23, (1994).

Bryers, J. D., Evaluation of the Effectiveness Factor for a Multiple Species Biofilm, Biofouling, 6: 363-380, (1993).

Bryers, J. D., The Biotechnology of Interfaces, Journal of Applied Bacteriology, Symposium Supplement, 74: 98S-109S, (1993).

Bryers, J. D., Bacterial Biofilms, Current Opinion in Biotechnology, Biochemical Engineering, M. L. Yarmush and H. Pedersen, (Eds.), Current Biology Ltd., London 4: 197-204, (1993).

Huang, C-. T., Peretti, S. W., and Bryers, J. D., Plasmid Retention and Cloned Gene Expression in Suspended Versus Biofilm Cultures of E. coli DH5α (pMJR1750), Biotechnology & Bioengineering, 41: 211 - 220, (1993).

Banks, M. K. and Bryers, J. D., Microbial Deposition Rates onto Clean Glass and Pure Culture Bacterial Biofilm Surfaces, Biofouling, 6: 81-86, (1992).

Bryers, J. D., Westcott, R. W., and Sayles, G. D. Post translational Limitations to Methanol Oxidase Activity in the Methylotrophic Yeast, Hansenula polymorpha, as Determined from Single Growth Rate Perturbations, Biotechnology Progress, 8: 226-232, (1992).

Huang, C-T., Peretti, S. W., and Bryers, J. D., Use of Flow Cell Reactors to Quantify Biofilm Formation Kinetics, Biotechnology Techniques, 6 (3): 193-198, (1992).

Bryers, J. D., Understanding and Controlling Detrimental Bioreactor Biofilms, Trends in Biotechnology, 9: 422-426, (1991).

Banks, M. K. and Bryers, J. D., Bacterial Species Dominance Within a Binary Culture Biofilm, Applied & Environmental Microbiology, 57: 1974-1979, (1991).

Bryers, J. D., Yeh, T. and Schweickart, R. W., Diauxic Metabolism in the Methylotrophic Yeast Hansenula polymorpha during Repeated Transients in System Dilution Rate, Enzyme and Microbial Technology, 13: 412-418, (1991).

Bryers, J. D. and Yeh, T., A Flow Cytometry Analysis of Batch and Continuous Culture Transient Diauxic Growth in Hansenula polymorpha, Bioprocess Engineering, 6: 75-82, (1991).

Applegate, D. H. and Bryers, J. D., Effects of Carbon and Oxygen Limitations and Calcium Concentrations on Biofilm Removal Processes, Biotechnology & Bioengineering, 37: 17-25, (1991).

Banks, M. K. and Bryers, J. D., Cryptic Growth Within a Binary Bacterial Culture, Applied Microbiology & Biotechnology, 33: 596-601, (1990).

Bryers, J. D. and Yeh, T., Diauxic Metabolism of Hansenula polymorpha: Steady- and Unsteady-State Considerations, Annals of the New York Academy Sciences, 589: 315-332, (1990).

Bryers, J. D., Biologically Active Surfaces: Processes Governing the Formation and Persistence of Biofilms, Biotechnology Progress, 3 (2): 57-68, (1987).

Mason, C. A., Hamer, G., and Bryers, J. D., The Death and Lysis of Microorganisms in Environmental Processes, FEMS Microbiological Reviews, 39: 373-401, (1986).

Mason, C. A., Bryers, J. D., and Hamer, G., Activity, Death and Lysis during Microbial Growth in a Chemostat. Chemical Engineering Communications, 45: 163-176. (1986).

Bryers, J. D., Stability Analysis of a Binary Culture Chemostat Experiencing Biofilm Formation, Bioprocess Engineering, 1: 3-11, (1986).

Bryers, J. D. Biofilm Formation and Chemostat Dynamics: Pure and Mixed Culture Considerations, Biotechnology and Bioengineering, 26: 948-958, (1984).

Bryers, J. D. and Characklis, W. G., Processes Governing Early Biofilm Formation, Biotechnology and Bioengineering, 24: 2451-2476, (1982).

Characklis, W. G., Trulear, M. G., Bryers, J. D., and Zelver, N., Dynamics of Biofilm Processes: Methods. Water Research, 16: 1207-1216, (1982).