|
Books and Edited Volumes
| Laboratory Publications |
Laboratory Abstracts
1970s |
1980s |
1990s |
2000-
2000 |
2001 | 2002
| 2003 | 2004
| 2005 | 2006
| 2007 | In
Press and Submitted
2000
726. A.M. Lowman and N.A.
Peppas, “Molecular Analysis of Interpolymer
Complexation in Graft Copolymer Networks,”
Polymer, 41, 73-80 (2000). [PDF
Reprint]
727. C.S. Brazel and N.A.
Peppas, “Modelling of Drug Release from
Swellable Polymers,” Europ. J. Pharm. Biopharm.,
49, 47-58 (2000). [PDF
Reprint]
728. J. Zhang and N.A. Peppas,
“Synthesis and Characterization of pH- and
Temperature-Sensitive PMAA/PNIPAm
Interpenetrating Polymer Networks,”
Macromolecules, 33, 102-107 (2000). [PDF
Reprint]
729. C.M. Hassan, J.E. Stewart
and N.A. Peppas, “Diffusional Characteristics of
Freeze/Thawed PVA Hydrogels: Applications to
Protein Controlled Release from Multilaminate
Devices,” Europ. J. Pharm. Biopharm., 49,
161-166 (2000). [PDF
Reprint]
730. N.A. Peppas, “Intelligent
Hydrogels and their Biotechnological and
Separation Applications,” in G. Güven “Radiation
Synthesis of Intelligent Hydrogels and Membranes
for Separation Purposes,” 1-14, IAEA, Vienna,
2000.
731. K. Podual, F.J. Doyle, III,
and N.A. Peppas, “Preparation and
Characterization of the Dynamic Response of
Cationic Copolymer Hydrogels Containing Glucose
Oxidase,” Polymer, 41, 3975-3983 (2000). [PDF
Reprint]
732. Y. Huang, W. Leobandung, A.
Foss and N.A. Peppas, “Molecular Aspects of
Muco- and Bioadhesion: Tethered Structures and
Site-Specific Surfaces,” J. Controlled Release,
65, 63-71 (2000). [PDF
Reprint]
733. C.M. Hassan and N.A.
Peppas, “Cellular Freeze/Thawed PVA Hydrogels,”
J. Appl. Polym. Sci., 76, 2075-2079 (2000). [PDF
reprint]
734. N.A. Peppas, H. Ichikawa
and M. Torres-Lugo, “Cytotoxicity and Transport
Enhancement of Proteins Through Cell Monolayers
Using Novel pH-Sensitive Hydrogels,” Proceed.
World Meeting APV/APGI, 3, 201-202 (2000).
735. J. Siepmann, H. Kranz, N.A.
Peppas and R. Bodmeier, “Calculations of the
Required Size and Shape of HPMC Matrices to
Achieve Desired Drug Release Profiles,” Proceed.
World Meeting APV/APGI, 3, 203-204 (2000).
736. N.A. Peppas, E. Oral and
J.H. Ward, “Micropatterning and Molecular
Imprinting for Medical Applications,” Proceed.
Europ. Symp. Controlled Drug Delivery, 6, 21-22
(2000).
737. K. Podual, F.J. Doyle, III,
and N.A. Peppas, “Glucose-sensitivity of Glucose
Oxidase-containing Cationic Copolymer Hydrogels
Having Poly(ethylene glycol) Grafts,” J.
Controlled Release, 67, 9-17 (2000). [PDF
Reprint]
738. M. Torres-Lugo and N.A.
Peppas, “Transmucosal Delivery Systems for
Calcitonin: A Review,” Biomaterials, 21,
1191-1196 (2000). [PDF
Reprint]
739. C.M. Hassan and N.A.
Peppas, “Structure and Morphology of
Freeze/Thawed PVA Hydrogels,” Macromolecules,
33, 2472-2479 (2000). [PDF
Reprint]
740. N.A. Peppas, H. Ichikawa
and M. Torres-Lugo, “Cytotoxicity and Transport
Enhancement of Proteins Through Cell Monolayers
Using Novel pH-Sensitive Hydrogels,” Proceed.
World Meeting APV/APGI, 3, 201-202 (2000).
741. N.A. Peppas, P. Bures, W.
Leobandung and H. Ichikawa, “Hydrogels in
Pharmaceutical Formulations,” Eur. J. Pharm.
Biopharm.,50, 27-46 (2000). [PDF
Reprint]
742. K. Podual, F.J. Doyle, III,
and N.A. Peppas, “Dynamic Behavior of
Glucose-Oxidase-containing Microparticles of
Poly(ethylene glycol)-grafted Cationic Hydrogels
in an Environment of Changing pH,” Biomaterials,
21, 1439-1450 (2000). [PDF
Reprint]
743. C.M. Hassan, J.H. Ward and
N.A. Peppas, “Modeling of Crystal Dissolution of
Poly(vinyl alcohol) Gels Produced by
Freezing/Thawing Processes,” Polymer, 41,
6729-6739 (2000). [PDF
Reprint]
744. P. Colombo, R. Bettini and
N.A. Peppas, “Swelling Matrices for Controlled
Drug Delivery: Gel Layer Behavior, Mechanisms
and Optimal Performance,” Pharm. Sci. Techn.
Today, 3, 198-204 (2000).
745. J. Siepmann, H. Kranz, N.A.
Peppas and R. Bodmeier, “Calculation of the
Required Size and Shape of HPMC Matrices to
Achieve Desired Drug Release Profiles,” Intern.
J. Pharm. 201, 151-164 (2000). [PDF
Reprint]
746. E. Oral and N.A. Peppas,
“Molecularly Imprinted Hydrogels with
Polyfunctional Methacrylates,” in “Molecularly
Imprinted Polymer Science and Technology,” K.R.
Brain and C.J. Alexander, eds., 36, STS
Publishing, Cardiff, 2000.
747. M.E. Byrne, K. Park and
N.A. Peppas, “Non-Covalent Molecular Imprinting
of Glucose: Recognition in Aqueous Media,” in
“Molecularly Imprinted Polymer Science and
Technology,” K.R. Brain and C.J. Alexander,
eds., 111, STS Publishing, Cardiff, 2000.
748. J.H. Ward and N.A. Peppas,
“Kinetic Gelation Modeling of Controlled Radical
Polymerization,” Macromolecules, 33, 5137-5142
(2000). [PDF
Reprint]
749. J.H. Ward, R. Gomez, R.
Bashir and N.A. Peppas, “UV Free-Radical
Polymerization for Micropatterning Poly(ethylene
glycol)-Containing Films," Proceed. SPIE, 4097,
221-228 (2000).
750. C.M. Hassan and N.A.
Peppas, “Structure and Applications of
Poly(vinyl alcohol) Hydrogels Produced by
Conventional Crosslinking or by Freezing/Thawing
Methods,” Adv. Polym. Sci., 153, 37-65 (2000). [PDF
Reprint]
751. N.A. Peppas and J. Zhang,
“Diffusional Behavior in pH- and Temperature
Sensitive Interpenetrating Polymeric Networks
Used in Drug Delivery,” in “Biomaterials and
Drug Delivery Systems Towards the New
Millenium,” K.D. Park, I.C. Kwon, N. Yui,
S.Y.Jeong and K. Park, eds., 87-96, Seoul,
Korea, 2000.
752. P. Bures and N.A. Peppas,
“Molecular Dynamics of pH-Sensitive Hydrogels
Based on PAA,” Polym. Mater. Sci. Eng. Proceed.,
83, 506-507 (2000).
753. E. Oral and N.A. Peppas,
“Molecular Imprinting in Biological Systems,”
STP Pharma, 10, 261-267 (2000).
754. A.M. Lowman, B.A. Cowans
and N.A. Peppas, “Investigation of Interpolymer
Complexation in Swollen Polyelectroyte Networks
by Solid State NMR Spectroscopy,” J. Polym.
Sci., Polym. Phys, 38, 2823-2831 (2000). [PDF
Reprint]
755. E. Oral and N.A. Peppas,
“Molecularly Imprinted Polyfunctional
Methacrylates for Drug Delivery Applications,”
Proceed. Intern. Pharm. Technol. Symp., 10,
59-60 (2000).
756. R. Scott, J.H. Ward and
N.A. Peppas, “Development of Acrylate and
Methacrylate Polymer Networks for Controlled
Release by Photopolymerization Technology,” in
“Handbook of Pharmaceutical Controlled Release
Technology,” D.L. Wise, L. Brannon-Peppas, A.M.
Klibanov, R. Langer, A.G. Mikos, N.A. Peppas,
D.J. Trantolo, G.E. Wnek, and M.J. Yaszemski,
eds., 47-64, Dekker, New York, NY, 2000.
757. P. Colombo, P. Santi, N.A.
Peppas and R. Bettini, “Drug Release from
Swelling Controlled Systems,” in “Handbook of
Pharmaceutical Controlled Release Technology,”
D.L. Wise, L. Brannon-Peppas, A.M. Klibanov,
R.L. Langer, A.G. Mikos, N.A. Peppas, D.J.
Trantolo, G.E. Wnek, and M.J. Yaszemski,
eds.,183-209, Dekker, New York, NY, 2000.
758. N.A. Peppas, M.D. Little
and Y. Huang, “Bioadhesive Controlled Release
Systems,” in “Handbook of Pharmaceutical
Controlled Release Technology,” D.L. Wise, L.
Brannon-Peppas, A.M. Klibanov, R.L. Langer, A.G.
Mikos, N.A. Peppas, D.J. Trantolo, G.E. Wnek,
and M.J. Yaszemski, eds., 255-269, Dekker, New
York, NY, 2000
759. N.A. Peppas, Y. Huang, M.
Torres-Lugo, J.H. Ward and J. Zhang,
“Physicochemical Foundations and Structural
Design of Hydrogels in Medicine and Biology,”
Ann Revs. Biomed. Eng., 2, 9-29 (2000). [PDF
Reprint]
760. R.S. Parker, J.H. Ward,
F.J. Doyle III and N.A. Peppas, “Robust Control
in Diabetes Using a Physiological Model,” AIChE
J. 46, 2537-2549 (2000). [PDF
Reprint]
761. A. Streubel, J. Siepmann,
N.A. Peppas and R. Bodmeier, “Bimodal Drug
Release Achieved with Multilayer Matrix Tablets:
Transport Mechanisms and Device Design,” J.
Controlled Release, 69, 455-468 (2000). [PDF
Reprint]
762. N.A. Peppas, “Design of
Advanced Biomaterials and Drug Delivery
Carriers,” Trans. World Biomater. Congress, 6,
544 (2000).
763. M. Torres-Lugo, H. Ichikawa
and N.A. Peppas, “Calcitonin Transport Through
Poly(methacrylic acid-PEG-Grafted Hydrogels
Using a CaCo-2 Cell Model,” Trans. World
Biomater. Congress, 6, 679 (2000).
764. E. Oral and N.A. Peppas,
“Patterning and Molecular Imprinting with
Polyfunctional Methacrylates,” Trans. World
Biomat. Congress, 6, 782 (2000).
765. J. Siepmann and N.A.
Peppas: “A New Mathematical Model to Predict
Drug Release from Hydrophilic Matrices: The
“Sequential Layers” Model”,” Proceed. Intern.
Symp. Control. Rel. Bioact. Mater., 27, 55-56
(2000).
766. N.A. Peppas: “Molecular
Design of New Bioamterials for Controlled
Release,” Proceed. Intern. Symp. Control. Rel.
Bioact. Mater., 27, 133-134 (2000).
767. P. Bures and N.A. Peppas:
“A New Dispersion Technique for Micro- and
Nanoparticle Formation of Drug Delivery Carriers
Based on Poly(acrylic acid),” Proceed. Intern.
Symp. Rel. Bioact. Mater., 27, 1102-1103 (2000).
768. Y. Huang, I. Szleifer and
N.A. Peppas, “New Biomedical Gel Materials with
Tethered Chains: Theory and Biological
Interactions,” Proceed. China/USA Chem. Eng.
Conf., 3, 08079-08080, (2000).
769. B. Kim and N.A. Peppas,
“Poly(ethylene glycol)-containing Hydrogels as
Insulin Delivery Carriers,” AAPS Pharm. Sci.,
S-2394 (2000).
770. P. Bures and N.A. Peppas,
“pH-Sensitive Drug Delivery Carriers Based on
Modified Poly(acrylic acid), AAPS Pharm. Sci.,
S-2395 (2000).
771. E. Oral and N.A. Peppas,
“Recognition Mechanisms of Molecularly Imprinted
Polymers: Smart Systems for Drug Delivery,” AAPS
Pharm. Sci., S-2401 (2000).
772. M.E. Byrne, K. Park and
N.A. Peppas, “Non-covalent Molecular Imprinting
of Glucose in Polar Protic Media,” AAPS Pharm.
Sci., S-2404 (2000).
773. C. Donini, D.N. Robinson
and N.A. Peppas, “Preparation and
Characterization of pH-Sensitive
Poly(methacrylic acid-g-Ethylene Glycol)
Microspheres for Oral Insulin Delivery,” AAPS
Pharm. Sci., S-3104 (2000).
774. J. Siepmann, A. Streubel,
N.A. Peppas and R. Bodmeier, “Drug Release
Mechanisms from HPMC Matrices,” AAPS Pharm.
Sci., S-3132 (2000).
775. H. Ichikawa, M. Torres-Lugo
and N.A. Peppas, “Novel pH-Sensitive Hydrogels
for Oral Peptide Delivery: In Vitro Evaluation
of their Cytocompatibility and Insulin-Transport
Enhancing Effect in Caco-2 cell Monolayers,”
AAPS Pharm. Sci., S-3287 (2000).
776. A.C. Foss and N.A. Peppas,”
Development and Cytotoxicity of Poly(methacrylic
acid-g-Poly(ethylene glycol)) Microparticles for
Use as Drug Carriers in Oral Delivery,” AAPS
Pharm. Sci., S-3290 (2000).
777. W. Leobandung, H. Ichikawa,
Y. Fukumori and N.A. Peppas, “Preparation of
Thermosensitive Hydrogel Nanoparticles
Containing Poly(ethylene glycol) for
Microencapsulation of Peptides in the Wurster
Coating Process,” AAPS Pharm. Sci., S-3358
(2000).
778. J.E. Witman, C.M. Hassan
and N.A. Peppas, “Multilaminate PVA Hydrogel
Systems as Protein Controlled Release Devices,”
AAPS Pharm. Sci., S-4050 (2000).
779. R. Bettini, A. Arduini, P.
Catellani, G. Massimo, N.A. Peppas and P.
Colombo, “Drug Volume Fraction Profiles in HPMC
Matrices by Image Analysis,” AAPS Pharm. Sci.,
S-4052 (2000).
780. Y. Huang, N.V. Efremova,
D.E. Leckband, and N.A. Peppas, “The Use of
Self-Assembled Monolayers to Study Mucoadhesio,”
AAPS Pharm. Sci., S-4072 (2000).
Return to top
2001
781. R.S. Parker, F.J. Doyle
III, and N.A. Peppas, “The Intravenous Route to
Blood Glucose Control,” IEEE Eng. Med. Biol.
Mag. 20, 65-73 (2001). [PDF
Reprint]
782. J.H. Ward and N.A. Peppas,
"Preparation of Controlled Release Systems by
Free-radical UV Polymerizations in the Presence
of a Drug," J. Controlled Release, 71, 183-192
(2001). [PDF
Reprint]
783. Y. Huang, I. Szleifer and
N.A. Peppas, “Gel-Gel Adhesion by Tethered
Polymers,” J. Chem. Phys., 114, 3809-3816
(2001). [PDF
Reprint]
784. R. Bettini, P.L. Catellani,
P. Santi, G. Massimo, N.A. Peppas and P.
Colombo, “Translocation of Drug Particles in
HPMC Matrix Gel Layer: Effect of Drug Solubility
and Influence on Release Rate,” J. Controlled
Release, 70, 383-391 (2001). [PDF
Reprint]
785. J. Siepmann and N.A.
Peppas, “Modeling of Drug Release from Delivery
Systems Based on Hydroxypropyl Methylcellulose
(HPMC),” Adv. Drug Deliv. Revs., 48, 139-157
(2001).
786. J. Siepmann and N.A.
Peppas, “Mathematical Modeling of Controlled
Drug Delivery,” Adv. Drug Deliv. Revs., 48,
137-138 (2001). [PDF
Reprint]
787. P. Bures, Y. Huang, E. Oral
and N.A. Peppas, “Surface Modifications and
Molecular Imprinting of Polymers in Medical and
Pharmaceutical Applications,” J. Contr. Rel.,
72, 25-33 (2001). [PDF
Reprint]
788. J.H. Ward, R. Bashir, and
N.A. Peppas, "Micropatterning of Biomedical
Polymer Surfaces by Novel UV Polymerization
Techniques," J. Biomed. Mat. Res., 56, 351-360
(2001). [PDF
Reprint]
789. J. Zhang and N.A. Peppas,
“Structure and Solute Size Exclusion of
Poly(methacrylic acid)/Poly(N-isopropyl
acrylamide) Interpenetrating Polymeric
Networks,” in “Polymeric Drugs and Drug Delivery
Systems,” R.M. Ottenbrite and S.W. Kim, eds.,
157-168 Technomic, Lancaster, PA, 2001.
790. B.S. Kim and N.A. Peppas,
“New Glucose-Containing Poly(methacrylic
acid-g-ethylene glycol) Hydrogels”, Polym.
Mater. Sci. Engin. Proceed., 85, 587-588 (2001).
791. A.C. Foss and N.A. Peppas,
“Acrylic-Based Copolymers for Oral Insulin
Delivery Systems,” Polym. Prepr., 42(2), 94-95
(2001).
792. E. Oral and N.A. Peppas,
“Macroscopic and Microscopic Investigations of
2?Hydroxyethyl Methacrylate Based Molecularly
Imprinted Networks,” Polym. Prepr., 42(2),
111-112 (2001).
793. J. Zhang and N.A. Peppas,
“Molecular Interactions in Poly(methacrylic
acid)/Poly(N-isopropyl acrylamide)
Interpenetrating Polymeric Networks,” J. Appl.
Polym. Sci., 82, 1077-1082 (2001). [PDF
Reprint]
794. J. Kristl, S. Baumgartner
and N.A. Peppas, “Molecular Characterization of
the Network Structure of Swollen Cellulose
Ethers Used for Controlled Release,” Scientia
Pharmac., 69, 202-203 (2001).
795. N.A. Peppas, “Gels for Drug
Delivery,” in “Encyclopedia of Materials:
Science and Technology,” 3492-3495, Elsevier,
Amsterdam, 2001.
796. N.A. Peppas and L.
Brannon-Peppas, “Drug Delivery Biomaterials,” in
“Encyclopedia of Materials: Science and
Technology,” 2351-2355, Elsevier, Amsterdam,
2001.
797. S.F. Badylak, K. Park, N.A.
Peppas, G. McCabe, M. Yoder, “Marrow-Derived
Cells Populate Scaffolds Composed of Xenogenic
Extracellular Matrix,” Experim. Hematology, 29,
1310-1318 (2001). [PDF
Reprint]
798. N.A. Peppas, B.S. Kim, C.
Donini, O. Sipahigil and W. Leobandung,
"Stimuli-sensitive Polymers for Oral and
Parenteral Administration," in "New Trends in
Polymers for Oral and Parenteral Administration:
From Design to Receptors," G. Barratt, D.
Duchêne, F. Fattal and J.Y. Legendre, eds.,
32-41, Editions de Santé, Paris, 2001.
799. H. Ichikawa and N. A.
Peppas, "Synthesis and Characterization of
pH-Responsive Nanosized Hydrogels of
Poly(methacrylic acid-g-ethylene glycol) for
Oral Peptide Delivery," in "New Trends in
Polymers for Oral and Parenteral Administration:
From Design to Receptors," G. Barratt, D.
Duchêne, F. Fattal and J.Y. Legendre, eds.,
261-264, Editions de Santé, Paris, 2001.
800. M. Garcia, M. Torres-Lugo,
M. J. Alonso and N. A. Peppas, "Biointeractions
of pH-Sensitive Poly(methacrylic acid-g-ethylene
glycol) Hydrogel Microspheres with the Caco-2
Model Cell Line," in "New Trends in Polymers for
Oral and Parenteral Administration: From Design
to Receptors," G. Barratt, D. Duchêne, F. Fattal
and J.Y. Legendre, eds., 386-389, Editions de
Santé, Paris, 2001.
801. R.A. Scott and N.A. Peppas,
“Compositional Dependence of Copolymerization
Kinetics in an Intraocular Lens Formulation,”
Trans. Soc. Biomater., 27, 230 (2001).
802. T.D. Dziubla, A.M. Lowman
and N.A. Peppas, “Evaluation of Poly(ethylene
glycol)-Based Copolymers for Contact Lenses,”
Trans. Soc. Biomater., 27, 232 (2001).
803. N.A. Peppas, “Teaching of
Biomaterials Science and Engineering in a Modern
Engineering Curriculum,” Trans. Soc. Biomater.,
27, 67 (2001).
804. S. Baumgartner, J. Kristl
and N.A. Peppas, “Study of the Network Structure
of Swollen Cellulose Derivatives Used in
Pharmaceutical Applications,” Proceed. Intern.
Symp. Controlled Release Bioact. Mater., 28,
692-693 (2001).
805. T. Azzam, N.A. Peppas, W.
Leobandung, K.B. Keys and A.J. Domb, “Length and
Breadth Polyrotaxane Structures: A New Concept
in Three Dimensional Polymeric Systems for
Biomedical Applications,” Proceed. Intern. Symp.
Polym. Advanced Techn., 6, 186 (2001).
806. N.A. Peppas, M. Byrne, E.
Oral and D. Henthorn, “UV-Free Radical
Polymerizations for Micropatterning and
Microimprinting of Poly(ethylene
glycol)-Containing Films,” Proceed. Intern.
Symp. Polym. Advanced Techn., 6, 44 (2001).
807. J. Siepmann, A. Streubel,
R. Bodmeier, and N.A. Peppas, “The Sequential
Layer Model Quantifying Drug Release from
Hydrophilic Matrix Tablets:Experimental
Verification”, AAPS Pharm. Sci., 3 (2001).
Return to top
2002
808. M. Byrne, K. Park and N.A.
Peppas, “Molecular Imprinting within Hydrogels,”
Adv. Drug Deliv. Revs., 54, 149-161 (2002). [PDF
Reprint]
809. J.H. Ward, A. Shahar, and
N.A. Peppas, "Kinetics of "Living" Radical
Polymerizations of Multifunctional Monomers,"
Polymer, 43, 1745-1752 (2002). [PDF
Reprint]
810. Y. Huang, N. Efremova, N.A.
Peppas and D.E. Leckband, “Direct Measurement of
Interations Between Tethered PEG Chains and
Adsorbed Mucin Layers,” Langmuir, 18, 836-845
(2002). [PDF
Reprint]
811. Y. Huang, I. Szleifer and
N.A. Peppas, “A Molecular Theory of Polymer
Gels,” Macromolecules, 35, 1373-1380 (2002). [PDF
Reprint]
812. J. Siepmann, A. Streubel,
and N.A. Peppas, “Understanding and Predicting
Drug Delivery from Hydrophilic Matrix Tablets:
Using the Sequential Layer Model,” Pharm. Res.,
19, 306-314 (2002). [PDF
Reprint]
813. L. Brannon-Peppas and N.A.
Peppas, “Polymer Science of Controlled Release
Systems,” in “Controlled Release Systems,” A.Z.
Gürsoy, ed., 21-40, KSSD, Istanbul, 2002.
814. M.E. Byrne, D.B. Henthorn,
Y. Huang and N.A. Peppas, “Micropatterning
Biomimetic Materials for Bioadhesion and Drug
Delivery,” in “Biomimetic Materials and Design:
Biointerfacial Strategies, Tissue Engineering
and Targeted Drug Delivery”, A.K. Dillow and A.
Lowman, eds., 443-470 Dekker, New York, NY,
(2002).
815. M. Morishita, A.M. Lowman,
K. Takayama, T. Nagai and N.A. Peppas,
“Elucidation of the Mechanism of Incorporation
of Insulin in Controlled Release Systems Based
on Complexation Polymers,” J. Controlled
Release, 81, 25-32 (2002). [PDF
Reprint]
816. N.A. Peppas and Y. Huang,
“Polymers and Gels as Molecular Recognition
Agents,” Pharmac. Res., 19, 578-587 (2002). [PDF
Reprint]
817. M. Torres-Lugo, M. Garcia,
R. Record and N.A. Peppas, “Physicochemical
Behavior and Cytotoxic Effects of P(MAA-g-EG)
Nanospheres for Oral Delivery of Proteins,” J.
Controlled Release, 80, 197-205 (2002). [PDF
Reprint]
818. W. Leobandung, H. Ichikawa,
Y. Fukumori and N.A. Peppas, “Preparation of
Stable Insulin-loaded Nanospheres of
Poly(ethylene glycol) Macromers and N-isopropyl
Acrylamide,” J. Controlled Release, 80, 357-363
(2002). [PDF
Reprint]
819. E. Oral and N.A. Peppas,
“Molecular Imprinting with Small Molecules:
Effects on Polymerization, Material and
Imprinting Properties,” Polym. Prepr., 43(2),
393-394 (2002).
820. M. Torres-Lugo, M. García,
R. Record and N.A. Peppas, “pH-Sensitive
Hydrogels as Gastrointestinal Tract Absorption
Enhancers: Transport Mechanisms of Salmon
Calcitonin and Other Model Molecules using the
Caco-2 Cell Model,” Biotechnology Progress, 18,
612-616 (2002). [PDF
Reprint]
821. N.A. Peppas, “Advances in
Oral Protein Delivery,” Proceed. World Meeting
APGI/APV, 4, 1-2 (2002).
822. C. Donini, F. Giordano, P.
Colombo and N.A. Peppas, “Characterization and
Optimization of P(MAA-g-EG) Insulin-Loaded
Nanospheres,” Proceed. World Meeting APGI/APV,
4, 695-696 (2002).
823. H. Ichikawa, Y. Yamasaki,
N.A. Peppas, and Y. Fukumori, “Novel Core-Shell
Nanoparticles with Thermo- and pH-Responsive
Swelling Properties for Oral Peptide Delivery,”
Proceed. World Meeting APGI/APV, 4, 737-738
(2002).
824. T. Bussemer, N.A. Peppas
and R. Bodmeier, “Simulation of the Rupture of a
Pulsatile Drug Delivery System,” Proceed. World
Meeting APGI/APV, 4, 1541-1542 (2002).
825. E. Oral and N.A. Peppas,
“Template-sensitive Polymers for Biomimetic
Applications,” Trans. Soc. Biomater., 28, 74,
(2002).
826. M.E. Byrne, J.Z. Hilt, R.
Bashir, K. Park and N.A. Peppas, “Biomimetic
Materials for Selective Recognition and
Microsensing of Biologically Significant
Molecules,” Trans. Soc. Biomater., 28, 78
(2002).
827. N.A. Peppas, “Intelligent
Biomaterials in Protein Delivery, Molecular
Imprinting and Micropatterning,” Proceed.
Control. Rel. Society, 29 (2002).
828. T. Goto, M. Morishita, A.
Foss, N.A. Peppas, A.M. Lowman and K. Takayarma,
“In vivo Studies of Oral Insulin Delivery
Systems Based on Complexation Hydrogels,”
Proceed. Control. Rel. Society, 29, (2002).
829. D.N. Robinson and N.A.
Peppas, “Preparation and Characterization of
pH-Responsive Poly(methacrylic
acid-g-poly(ethylene glycol) Nanospheres,”
Macromolecules, 35, 3668-3674 (2002). [PDF
Reprint]
830. M. Torres-Lugo and N.A.
Peppas, “Preparation and Characterization of
P(MAA-g-EG) Nanospheres for Protein Delivery
Applications,” J. Nanoparticle Res., 4, 73-81
(2002). [PDF
Reprint]
831. J. Zhang and N.A. Peppas,
“Morphology of poly(methacrylic
acid)/Poly(N-isopropyl acrylamide)
Interpenetrating Polymeric Networks,” J. Biomat.
Sci., Polym. Ed., 13, 511-525 (2002). [PDF
Reprint]
832. C. Donini, P. Colombo, F.
Giordano, and N.A. Peppas, “The Role of
Preparation Conditions on Particle Size and
Redispersion Ability of P(MAA-g-EG)”
Nanospheres, AAPS Pharm. Sci., T3073 (2003).
833. M.E. Byrne, K. Park, and
N.A. Peppas, “Biomimetic Materials for Selective
Recognition of Biomolecules,” in J. McKittrick,
J. Aizenberg, J.M.M. Kittrick, C.A. Orme, P.
Vekilov, eds., “Biological and Biomimetic
Materials – Properties to Function,” 193-199,
Vol. 724, MRS, Pittsburgh, PA, 2002.
834. J.Z. Hilt, A.K. Gupta, R.
Bashir and N.A. Peppas, “A Microsensor Based on
a Microcentilever Patterned with an
Environmentally Sensitive Hydrogel,” in R.P.
Manginell, J.T. Borenstein, L.P. Lee, and P.J.
Hesketh, eds., “BioMEMS and Bionanotechnology”,
173-178, Vol. 729, MRS, Pittsburgh, PA, 2002.
835. J. Blanchette, K. Park, and
N.A. Peppas, “Oral Administration of
Chemotherapeutic Agents Using Complexation
Hydrogels,” in in J. McKittrick, J. Aizenberg,
J.M.M. Kittrick, C.A. Orme, P. Vekilov, eds.,
“Biological and Biomimetic Materials –
Properties to Function,” 215-220, Vol. 724, MRS,
Pittsburgh, PA, 2002.
836. N.A. Peppas, “Devices Based
on Intelligent Biopolymers for Oral Protein
Delivery,” Proceed. Intern. Pharm. Technol.
Symp., 11, 2-4 (2002).
837. E. Oral and N.A. Peppas,
“Recognition-based Hydrogel Networks as
Intelligent Drug Delivery Systems,” Proceed.
Intern. Pharm. Technol. Symp., 11, 67-68 (2002).
838. O. Sipahigil, A. Gürsoy, F.
Cakalagaoglu, and N.A. Peppas,
“Histopathological Evaluation of Drug Loaded
P(MAA?g-EG) Hydrogels,” Proceed. Intern. Pharm.
Technol. Symp., 11, 71-72 (2002).
839. S. Baumgartner, J. Kristl
and N.A. Peppas, “Network Structure of Cellulose
Ethers Used in Pharmaceutical Applications
during Swellling and at Equilibrium,” Pharm.
Res., 19, 1084-1090 (2002). [PDF
Reprint]
840. C. Donini, D.N. Robinson,
P. Colombo, F. Giordano and N.A. Peppas,
“Preparation of P(MAA-g-EG) Nanospheres for
Pharmaceutical Applications,” Intern. J.
Pharmac., 245, 83-91 (2002). [PDF
Reprint]
841. R. Bashir, J.Z. Hilt, A.
Gupta, O. Elibol and N.A. Peppas,
“Micromechanical Cantilever as an ultrasensitive
pH Microsensor,” Appl. Phys. Lett., 81,
3091-3093 (2002). [PDF
Reprint]
842. B. Kim and N.A. Peppas,
“Synthesis and Characterization of pH-Sensitive
Glycopolymers for Oral Drug Delivery Systems,”
J. Biomater. Sci., Polym. Ed., 13, 1271-1281
(2002). [PDF
Reprint]
843. O. Sipahigil, M.
Torres-Lugo and N.A. Peppas, “FTIR Spectroscopic
Analysis of Protein/Carrier Interactions in
Novel Protein Delivery Systems,” STP Pharma, 12,
345-350 (2002).
844. T. Azzam, N.A. Peppas, S.
Slomkowski and A.J. Domb, “Length and Breadth
Polyrotaxane Structures: A New Concept in Three
Dimensional Polymeric Systems,” Polym. Adv.
Technol., 13, 788-797 (2002).
845. M.E. Byrne, E. Oral, J.Z.
Hilt and N.A. Peppas, “Networks for Recognition
of Biomolecules: Molecular Imprinting and
Micropatterning Poly(ethylene glycol)-Containing
Films,” Polym. Adv. Technol., 13, 798-816
(2002). [PDF
Reprint]
846. B. Kim and N.A. Peppas,
“Complexation Phenomena in pH-Responsive
Copolymer Networks with Pendent Saccharides,”
Macromolecules, 35, 9545-9550 (2002). [PDF
Reprint]
Return to top
2003
847. N.A. Peppas, A. Argade and
S. Bhargava, “Preparation and Properties of
Poly(ethylene oxide) Star Polymers,” J. Appl.
Polym. Sci., 87, 322-327 (2003). [PDF
Reprint]
848. W. Leobandung, H. Ichikawa,
Y. Fukumori and N.A. Peppas, “Monodisperse
Nanoparticles of Poly(ethylene glycol) Macromers
and N-isopropyl Acrylamide for Biomedical
Applications,” J. Appl. Polym. Sci., 87,
1678-1684 (2003). [PDF
Reprint]
849. N. Bergmann and N.A.
Peppas, “Protein-Imprinted Polymeric
Microparticles for Tissue Engineering
Applications,” Trans. Soc. Biomater., 29, 457
(2003).
850. N. J. Kavimandan and N.A.
Peppas, “Insulin Transport Across Cell
Monolayers in the Presence of Complexation
Hydrogels,” Trans. Soc. Biomater., 29, 248
(2003).
851. J. Blanchette, K. Park, and
N.A. Peppas, “Use of Complexation Hydrogels for
Oral Administartion of Chemotherapeutic Agents”,
Trans. Soc. Biomat., 29, 246 (2003).
852. B. Kim, K. La Flamme and
N.A. Peppas, “Dynamic Swelling Behavior of
pH-Sensitive Anionic Hydrogels Used for Protein
Delivery,” J. Appl. Polym. Sci., 89, 1606-1613
(2003). [PDF
Reprint]
853. N. J. Kavimandan, N. A.
Peppas, M. Morishita, T. Goto, T. Nagai, and K.
Takayama, “Experimental Investigation of the
Effect of Complexation Hydrogels on Insulin
Transport Across Model Intestinal Cell
Monolayers”, Drug. Deliv. Syst., 18, 283 (2003).
854. M. Morishita, T. Goto, T.
Nagai, N.A. Peppas and K. Takayama, “Development
of Oral Insulin Delivery Systems and Evaluation
as Pharmaceutical Dosage Forms in Diabetic
Rats”, Drug. Deliv. Syst., 18, 282 (2003).
855. B. Kim and N.A. Peppas,
“Analysis of Molecular Interactions in
P(MAA-g-EG) Hydrogels,” Polymer, 44, 3701-3707
(2003). [PDF
Reprint]
856. J.H. Ward, K. Furman and
N.A. Peppas, “Effect of Monomer Type and
Dangling End Size on Polymer Network Synthesis,”
J. Applied Polymer Science, 89, 3506-3519
(2003). [PDF
Reprint]
857. J.Z. Hilt, A.K. Gupta, R.
Bashir and N.A. Peppas, “Ultrasensitive BioMEMs
Sensors Based on Microcantilevers Patterned with
Environmentally Responsive Hydrogels,” Biomed.
Microdevices, 5, 177-184 (2003). [PDF
Reprint]
858. A. Steubel, J. Siepmann, C.
Dietzsch, N. A. Peppas, and R. Bodmeier,
“Comparison of Low and High Molecular weight
HPMC Types: Drug and Polymer Release from Matrix
Tablets”, Proceed. Intern. Symp. Control. Rel.
Bioact. Mater., 30, 55-56 (2003).
859. J. Siepmann, A. Streubel,
N. A. Peppas, and R. Bodmeier, “Calculation of
the Erosion and Swelling Front Positions in
Swellable Controlled Release Tablets”, Proceed.
Intern. Symp. Control. Rel. Bioact. Mater., 30,
55-56 (2003).
860. O. Sipahigil, A Gürsoy, Y.
Okar, F. Çakalagaoglu, and N. A. Peppas, “Oral
Administration of P(MAA-g-EG) Particls to Rats:
Histological Characterization”, Proceed. Intern.
Symp. Control. Rel. Bioact. Mater., 30, 55-56
(2003).
861. T. Bussemer, N.A. Peppas
and R. Bodmeier, “Time-dependent Mechanical
Properties of Polymeric Coatings Used in
Rupturable Pulsatile Release Dosage Forms”, Drug
Dev. Ind. Pharm., 29, 623-630 (2003).
862. T. Bussemer, N.A. Peppas
and R. Bodmeier, “Evaluation of the Swelling,
Hydration and Rupturing Properties of the
Swelling Layer of a Rupturable Pulsatile Drug
Delivery System”, Europ. J. Pharm. Biopharm.,
56, 261-270 (2003). [PDF
Reprint]
863. B. Kim and N.A. Peppas,
“PEG-containing Hydrogel Micrparticles for Oral
Protein Delivery Applications,” Biomed.
Microdevices, 5, 333-341 (2003). [PDF
Reprint]
864. B. Kim and N.A. Peppas, “In
Vitro Release Behavior and Stability of Insulin
in Complexation Hydrogels as Oral Drug Delivery
Carriers,” Intern. J. Pharm., 266, 29-37 (2003).
[PDF
Reprint]
865. N.A. Peppas and M.E. Byrne,
“New Biomaterials for Intelligent Biosensing,
Recognitive Drug Delivery and Therapeutics”,
Bull. Gattefossé, 96, 23-35 (2003). [PDF
Reprint]
866. H. Ichikawa and N.A.
Peppas, “Novel Complexation Hydrogels for Oral
Peptide Delivery: In vitro Evaluation of their
Cytocompatibility and Insulin-Transport
Enhancing Effects Using Caco-2 Cell Monolayers,”
J. Biomed. Mater. Res., 67, 609-617 (2003). [PDF
Reprint]
867. J. Siepmann and N.A.
Peppas, “Elucidation of Water, Drug and Polymer
Transport in Swellable Matrix tablets Unders
Steric Restriction”, AAPS Pharm. Sci., W5155
(2003).
868. L. Serra and N.A. Peppas,
“Novel Poly(ethylene glycol) Containing Polymers
as Mucoadhesive Drug Delivery Systems”, AAPS
Pharm. Sci., M1302 (2003).
869. D.B. Henthorn, K. Park and
N.A. Peppas, “Templated Polymeric Networks for
Molecular Recognition: Simulation and
Experimental Correlations,” in AIChE
Proceedings, 2003.
870. N. J. Kavimandan and N.A.
Peppas, “Oral Delivery of Insulin Bioconjugates
Using Complexation Hydrogels,” in AIChE
Proceedings, 2003.
871. M.E. Byrne, J.Z. Hilt, N.A.
Peppas “Novel Biomimetic Polymer Networks:
Development and Application as Selective
Recognition Elements for Biomolecules at the
Micro/Nano-scale”, in AIChE Proceedings, 2003.
872. R. Langer and N.A. Peppas,
“Advances in Biomaterials, Drug Delivery, and
Bionanotechnology”, AIChE J., 49, 2990-3006
(2003). [PDF
Reprint]
Return to top
2004
873. J. Berger, M. Reist, J.M.
Mayer, O. Felt, N.A. Peppas, and R. Gurny,
“Structure and Interactions in Covalently and
Ionically Crosslinked Chitosan Hydrogels for
Biomedical Applications”, Europ. J. Pharm.
Biopharm., 57, 19-34 (2004). [PDF
Reprint]
874. E. Oral and N.A. Peppas,
“Responsive and Recognitive Hydrogels Using Star
Polymers,” J. Biomed. Mater. Res., 68A, 439-447
(2004). [PDF
Reprint]
875. A.C. Foss, T. Goto, M. Morishita and
N.A. Peppas, “Development of Acrylic-Based
Copolymers for Oral Insulin Delivery,” Europ. J.
Pharm. Biopharmac., 57, 163-169 (2004). [PDF
Reprint]
876. N.A. Peppas, “Hydrogels” in
“Biomaterials Science: An Introduction to
Materials in Medicine,” B.D. Ratner, A.S.
Hoffman, F.J. Schoen and J.E. Lemons, eds., 2nd
edition, 100-107, Academic Press, New York, NY,
2004. [PDF
Reprint]
877. N.A. Peppas and R. Langer,
“Origins and Development of Biomedical
Engineering within Chemical Engineering”, AIChE
J., 50, 536-546 (2004). [PDF
Reprint]
878. N.A. Peppas and W.
Leobandung, “Stimuli-sensitive Hydrogels in
Chronotherapeutic Applications”, J. Biomater.
Sci., Polym. Ed., 15, 125-144 (2004). [PDF
Reprint]
879. K. Nakamura, R.J. Murray,
J.I. Joseph, N.A. Peppas, M. Morishita and A.M.
Lowman: “Oral Insulin Delivery Using P(MAA-g-EG)
Hydrogels: Effects of Network Morphology on
Insulin Delivery Characteristics”, J. Controlled
Release, 95, 589-599 (2004). [PDF
Reprint]
880. N.A. Peppas, “Kinetics of
Smart Hydrogels”, in “Reflexive Polymers and
Hydrogels: Understanding and Designing
Fast-responsive Polymeric Systems”, N. Yui, R.
Mrsny and K. Park, eds., 99- 113, CRC Press,
Boca Raton, FL, 2004. [PDF
Reprint]
881. J. O. Blanchette, N.
Kavimandan and N.A. Peppas, “Principles of
Transmucosal Delivery of Therapeutic Agents”,
Biomedicine & Pharmacotherapy, 58, 142-151
(2004).
882. A.C. Foss and N.A. Peppas,
“Investigation of the Cytotoxicity and Insulin
Transport of Acrylic-based Copolymer Protein
Delivery Systems in Contact with Caco-2
Cultures,” Europ. J. Pharm. Biopharm.., 57,
447-455 (2004). [PDF
Reprint]
883. J.E. López and N.A. Peppas,
“Cellular Evaluation of Insulin Transmucosal
Delivery,” J. Biomater. Sci., Polym. Ed., 15,
385-396 (2004). [PDF
Reprint]
884. A.M. Lowman, T.D. Dziubla,
P. Bures and N.A. Peppas, “Structural and
Dynamic Response of Neutral and intelligent
Networks in Biomedical Environments”, in N.A.
Peppas and M.V. Sefton, eds., “Molecular and
Cellular Foundations of Biomaterials”, 75-130,
Academic Press, New York, 2004.
885. M. Morishita, T. Goto, N.A.
Peppas, J.I. Joseph, M.C. Torjman, C. Munsick,
K. Nakamura, K. Takayama and A.M. Lowman,
“Mucosal Insulin Delivery Systems Based on
Complexation Polymer Hydrogels: Effect of
Particle Size on Insulin Enteral Absorption”, J.
Controlled Release, 97, 115-124 (2004). [PDF
Reprint]
886. N.A. Peppas, “Devices Based
on Intelligent Biopolymers for Oral Protein
Delivery,” Intern. J. Pharmac., 277, 11-17
(2004). [PDF
Reprint]
887. N.A. Peppas, K.M. Wood and
J.O. Blanchette, “Hydrogels for Oral Delivery of
Therapeutic Proteins”, Expert Opin. Biol. Ther.,
4, 881 – 887 (2004). [PDF
Reprint]
888. H. Chiba, M. Morishita,
N.A. Peppas, A.M. Lowman, T. Nagai and K.
Takayama, “Application of Complexation Hydrogels
to Oral Delivery Systems for peptode and Protein
Drugs”, Proceed. Intern. Symp. Control. Rel.
Bioact. Mater., 31, 3 (2004).
889. T. Yamagata, M. Morishita,
N.J. Kavimandan, N.A. Peppas, T. Nagai and K.
Takayama, “Characterization of Insulin
Protection Properties of Complexation Hydrogels
in Gastric and Intestinal Enzyme Fluids”,
Proceed. Intern. Symp. Control. Rel. Bioact.
Mater., 31, 483 (2004).
890. T. Goto, M. Morishita, N.J.
Kavimandan, N.A. Peppas, T. Nagai and K.
Takayama, “Gastrointestinal Transit of
Mucoadhesive Complexation Hydrogels in Rats”,
Proceed. Intern. Symp. Control. Rel. Bioact.
Mater., 31, 53 (2004).
891. M. Morishita, T. Goto, A.M.
Lowman, N.A. Peppas, T. Nagai and K. Takayama,
“Successful Oral Insulin Carrier Systems Based
on complexation Polymer Hydrogels: Single and
Multiple Administration Studies in Type I and II
Diabetic Rats”, Proceed. Intern. Symp. Control.
Rel. Bioact. Mater., 31, 39 (2004).
892. J.O. Blanchette and N.A.
Peppas, “Cellular and Molecular Evaluation of
Novel Carriers for Oral Chemotherapy”, Proceed.
Intern. Symp. Control. Rel. Bioact. Mater., 31,
436 (2004).
893. J.E. López and N.A. Peppas,
“Effect of PEG Molecular Weight and
Microparticle Size on Oral Insulin Delivery from
P(MAA-g-EG) Microparticles,” Drug Develop. Ind.
Pharm, 30, 497-504 (2004).
894. N.A. Peppas,
“Bionanotechnology in Drug Delivery and
intelligent Therapeutic Systems, Drug Deliv.
Systems, 19, 200 (2004).
895. E. Oral and N.A. Peppas,
“Dynamic Studies of Molecular Imprinting
Polymerizations”, Polymer, 45, 6163-6173 (2004).
896. N.A. Peppas, “Intelligent
Therapeutics: Biomimetic Systems and
Nanotechnology in Drug Delivery”, Adv. Drug
Deliv. Revs., 56, 1529-1531 (2004).
897. N.A. Peppas and J. H. Ward:
“Biomimetic Materials and Micropatterned
Structures Using Iniferters”, Adv. Drug Deliv.
Revs., 56, 1587-1597 (2004). [PDF
Reprint]
898. N.A. Peppas and Y. Huang,
“Nanoscale Technology of Mucoadhesive
Interactions”, Adv. Drug Deliv. Revs., 56,
1675-1687 (2004). [PDF
Reprint]
899. N.A. Peppas, “Is There a
Future in Glucose-sensitive, Responsive Insulin
Delivery?”, J. Drug Deliv. Sci. Techn., 14,
247-256 (2004). [PDF
Reprint]
900. N.A. Peppas and R.E.P.
Simmons, “Mechanistic Analysis of Protein
Delivery from Porous PVA Systems”, J. Drug
Deliv. Sci. Techn., 14, 285-289 (2004). [PDF
Reprint]
901. N.A. Peppas and D.
Tennenhouse, “Semicrystalline Poly(vinyl
alcohol) Films and their Blends with
Poly(acrylic acid) and Poly(ethylene glycol) for
Drug Delivery Applications”, J. Drug Deliv. Sci.
Techn., 14, 291-297 (2004). [PDF
Reprint]
902. N. Bergmann and N.A.
Peppas, “Investigation of Degradable, Imprinted
Microspheres for the Development of a Tissue
Engineering Scaffold”, in “Biomaterials in
Regenerative Medicine”, M.V. Sefton, ed., SFB,
Philadelphia, PA, 2004.
903. K. Podual, F. Doyle III and
N.A. Peppas, “Modeling of Water Transport in and
Release from Glucose-sensitive,
Swelling-controlled Release Systems Based on
P(DEAEM-g-EG)”, Ind. Eng. Chem. Res., 43,
7500-7512 (2004).
904. J. Z. Hilt, M. E. Byrne and
N.A. Peppas, “Biomimetic Polymers in Drug
Delivery and Sensing Applications: Effect of
Network Molecular Structure on Recognition
Properties”, in N.A. Peppas, K. Anseth, A.K.
Dillow and C.E. Schmidt, eds., Advances in
Biomaterials, Bionanotechnology, Biomimetic
Systems and Tissue Engineering, 41-43, AIChE,
New York, NY, 2004.
905. N.A. Peppas, “Theory and
Applications of Intelligent Biomaterials”, in
N.A. Peppas, K. Anseth, A.K. Dillow and C.E.
Schmidt, eds., Advances in Biomaterials,
Bionanotechnology, Biomimetic Systems and Tissue
Engineering, 73-75, AIChE, New York, NY, 2004.
906. N.A. Peppas, N.M. Bergmann,
E.H. Lauten and J.Z. Hilt, “The Future of
Intelligent Therapeutics”, in N.A. Peppas, K.
Anseth, A.K. Dillow and C.E. Schmidt, eds.,
Advances in Biomaterials, Bionanotechnology,
Biomimetic Systems and Tissue Engineering,
87-89, AIChE, New York, NY, 2004.
907. N.J. Kavimandan and N.A.
Peppas, “Complexation Hydrogels as Oral Delivery
Vehicles for Insulin-Transferrin Conjugates”, in
N.A. Peppas, K. Anseth, A.K. Dillow and C.E.
Schmidt, eds., Advances in Biomaterials,
Bionanotechnology, Biomimetic Systems and Tissue
Engineering, 179-181, AIChE, New York, NY, 2004.
908. N.M. Bergmann and N.A.
Peppas, “Biomimetic, Molecularly Imprinted
Hydrogels for Recognition and Capture of High
Molecular Weight Proteins”, in N.A. Peppas, K.
Anseth, A.K. Dillow and C.E. Schmidt, eds.,
Advances in Biomaterials, Bionanotechnology,
Biomimetic Systems and Tissue Engineering, 1-3,
AIChE, New York, NY, 2004.
909. T.G. Farmer, T.F. Edgar and
N.A. Peppas, ‘Modeling and Control of the
Behavior of Glucose sensing Devices”, in N.A.
Peppas, K. Anseth, A.K. Dillow and C.E. Schmidt,
eds., Advances in Biomaterials,
Bionanotechnology, Biomimetic Systems and Tissue
Engineering, 231-234, AIChE, New York, NY, 2004.
910. M. Fukuda, N.A. Peppas and
J. McGinity, “Influence of Electrolytes on the
Dissolution Properties of Chlorpheniramine
Maleate from Hot-Melt Extruded Tablets
Containing Chitosan and an Anionic Polymer”,
AAPS Pharm. Sci., M1302 (2004).
911. M. Fukuda, N.A. Peppas, J.
McGinity, “Design of pH and Buffer-species
Independent Sustained Release Hot-Melt Extruded
Tablets: Application of Inter- and
Intra-Molecular Hydrogelation”, AAPS Pharm.
Sci., M1302 (2004).
912. N.A. Peppas, ‘Molecular
Design and Cellular Response of Novel
Intelligent Mucoadhesive Carriers for Oral
Delivery of Proteins”, in “Biomaterials for Drug
Delivery: Architecture and Application of
Biomaterials and Biomolecular Materials”, W. M.
Saltzman, A. Chilkoti, D. Luo and K. Uhrich,
eds., MRS Proceedings, 381-392, Materials
Research Society, Pittsburgh, PA, 2004.
913. N.A.Peppas and
D.B.Henthorn, “Molecular Simulations of
Recognitive Polymer Networks Prepared by
Biomimetic Configurational Imprinting as
Responsive Biomaterials”, in, “Molecularly
Imprinted Materials”, P. Kofinas, B. Sellergren,
and M. J. Roberts, eds, MRS Proceedings Volume
787, 7-16, Materials Research Society,
Pittsburgh, PA, 2004.
Return to top
2005
914. K. Podual and N. A. Peppas,
“Relaxational Behavior and Swelling-pH Master
Curves of Poly(diethylaminoethyl
methacrylate-g-ethylene glycol) Hydrogels”,
Polym. Intern., 54, 581-593 (2005). [PDF
Reprint]
915. L. Serra Bigas, J. Doménech
Berrozpe and N. A. Peppas, “Diseño y síntesis de
hidrogeles acrílicos modificados para la
liberación controlada de fármacos”, Proceed.
Spanish Society Industrial Galenic Pharm., 7,
271-273 (2005).
916. J. O. Blanchette and N. A.
Peppas, “Cellular Evaluation of Oral
Chemotherapy Carriers”, J. Biomed. Mater. Res.,
72A, 381-388 (2005). [PDF
Reprint]
917. J. O. Blanchette and N. A.
Peppas, “Oral Chemotherapeutic Delivery: Design
and Cellular Response”, Ann. Biomed. Eng., 33,
142-149 (2005). [PDF
Reprint]
918. N.A. Peppas, “Intelligent
Therapeutics and Nanoscale Delivery: Impact on
Absorption and Transport”, Proceed. World Conf.
Drug Absorp. Transp. Deliv., 3, 18-20 (2005). [PDF
Reprint]
919. M. Morishita, T. Goto, N.A.
Peppas and K. Takayama, “Formulation
Optimization for Oral Peptide and protein
Delivery”, Proceed. World Conf. Drug Absorp.
Transp. Deliv., 3, 28-30 (2005).
920. L. Serra, J. Doménech
Berrozpe and N. A. Peppas, “Improved Absorption
of Therapeuic Agents Through Acrylic-based
Biohydrogels: Investigation of the in vitro
Release Properties and Cytocompatibility”,
Proceed. World Conf. Drug Absorp. Transp.
Deliv., 3, 109 (2005).
921. K. Wood and N.A. Peppas,
“In vitro Investigation of lectin Functionalized
Complexation Hydrogels for Oral Protein
Delivery”, Proceed. World Conf. Drug Absorp.
Transp. Deliv., 3, 111 (2005).
922. O. Fisher and N.A. Peppas,
“Poly(methacrylic acid-g-ethylene glycol)
Microparticles as Modulators of Tight Junction
Morphology”, Proceed. World Conf. Drug Absorp.
Transp. Deliv., 3, 127 (2005). [PDF
Reprint]
923. N. Bergmann and N.A.
Peppas, “Biomimetic Imprinted Microparticles for
the Recognition and Capture of Serum Proteins,”
Trans. Soc. Biomater., 30, 62-63 (2005).
924. J. B. Thomas and N.A.
Peppas, “Mucoadhesive Characteristics of
Biomaterials Containing the Adhesion Promoter
PEG,” Trans. Soc. Biomater., 30, 180-181 (2005).
925. K. Wood and N.A. Peppas,
“Molecular Design and Evaluation of Complexation
Hydrogels as Advanced oral protein Delivery
Systems,” Trans. Soc. Biomater., 30, 179-180
(2005).
926. N.A. Peppas, “Hydrogels as
Biomaterials: Infinite Possibilities in
Bionanotechnology, Drug Delivery, Biological
Recognition and Tissue Engineering,” Trans. Soc.
Biomater., 30, 2-3 (2005). [PDF
Reprint]
927. N. A. Peppas, “Recognitive
and Diagnostic Polymer Networks: Formation,
Simulations and Thermodynamics”, Proceed, Europ.
Polym. Congress, 4916-4919 (2005).
928. N.A. Peppas, “Smart Drug
Delivery and Bionanotechnology”, in
“Microencapsulation”, P. Colombo, ed., 1-2,
Tefarco, Parma, 2005. [PDF
Reprint]
929. E. H. Lauten and N. A.
Peppas, “Configurational Biomimetic Imprinting
of Angiotensin II for Novel Drug Delivery
Systems”, in “Microencapsulation”, P. Colombo,
ed., 43-44, Tefarco, Parma, 2005.
930. N. M. Bergmann, E. H.
Lauten and N. A. Peppas, “Intelligent
Biomaterials for Drug Delivery: Combining
Molecular Recognition with Drug Delivery”, Drug
Deliv: Systems & Sci., 4, 35-40 (2005). [PDF
Reprint]
931. J. Z. Hilt and N. A.
Peppas, “Microfabricated Drug Delivery Devices”,
Intern. J. Pharm., 306, 15-23 (2005). [PDF
Reprint]
932. S. Venkatesh, M. E. Byrne,
N. A. Peppas and J. Z. Hilt, “Applications of
Biomimetic Systems in Drug Delivery”, Expert
Opin. Drug Deliv., 2, 1085-1096 (2005).
933. D.E. Owens III and N.A.
Peppas, "Temperature-Sensitive Polymer-Gold
Nanocomposites as Intelligent Therapeutic
Systems”, in “Advances in Bionanotechnology”,
N.A. Peppas and J.Z. Hilt, eds., 223-227, AIChE,
New York, NY, 2005.
934. U. G. Spizzirri and N. A.
Peppas, “Structural Analysis and Diffusional
Behavior of Molecularly Imprinted Polymer
Networks for Cholesterol Recognition”, Chem.
Mater., 17, 6719-6727 (2005). [PDF
Reprint]
935. N. A. Peppas, “Bioadhesive
Drug Delivery Systems”, Tüftad Haberler, 12
(3-4), 4-8 (2005).
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2006
936. J. B. Thomas, N. A. Peppas,
M. Sato and T. J. Webster, “Nanotechnology and
Biomaterials” in “Nanomaterials Handbook”, Y.
Gogotsi, ed., 605-636, CRC Taylor and Francis,
Boca Raton, FL, 2006. [PDF
Reprint]
937. D. E. Owens III and N. A.
Peppas, “Opsonization, Biodistribution and
Pharmacokinetics of Polymeric Nanoparticles”,
Intern. J. Pharm., 307, 93-102 (2006). [PDF
Reprint]
938. J. B. Thomas, C. M. Creecy,
J. W. McGinity and N. A. Peppas, “Synthesis and
Properties of Lightly Crosslinked
Poly((meth)acrylic acid) Microparticles Prepared
by Free Radical Precipitation Polymerization”,
Polym. Bull., 57, 11-20 (2006). [PDF
Reprint]
939. T. Goto, M. Morishita, N.J.
Kavimandan, N.A. Peppas, and K. Takayama,
“Gastrointestinal Transit and Mucoadhesive
Characteristics of Complexation Hydrogels in
Rats”, J. Pharm. Sci., 95, 462-469 (2006). [PDF
Reprint]
940. M. Fukuda, N. A. Peppas and
J. W. McGinity, “Properties of Sustained Release
Hot-melt Extruded Tablets Containing Chitosan
and Xanthan Gum”, Intern. J. Pharm., 310, 90-100
(2006). [PDF
Reprint]
941. A. Besheer, K. M. Wood, N.
A. Peppas and K. Mäder, “Loading and Mobility of
Spin-Labeled Insulin in Physiologically
Responsive Complexation Hydrogels Intended for
Oral Administration”, J. Controlled Release,
111, 73-80 (2006). [PDF
Reprint]
942. E. Losi, R. Bettini, P.
Santi, F. Sonvico, G. Colombo, K. Lofthus, P.
Colombo and N.A. Peppas, “Assemblage of Novel
Release Modules for the Development of Adaptable
Drug Delivery Systems”, J. Controlled Release,
111, 212-218 (2006). [PDF
Reprint]
943. N. A. Peppas and B. Kim,
“Stimuli-sensitive Protein Delivery Systems”, J.
Drug Deliv. Sci. Techn., 16, 11-18 (2006). [PDF
Reprint]
944. M. Morishita, T. Goto, K.
Takayama, and N. A. Peppas, “Oral Insulin
Delivery Systems Based on Complexation Polymer
Hydrogels”, J. Drug Deliv. Sci. Techn., 16,
19-24 (2006). [PDF
Reprint]
945. M. Morishita, T. Goto, K.
Nakamura, A. M. Lowman, K. Takayama and N.A.
Peppas, “Novel Oral Insulin Delivery Systems
Based on Complexation Polymer Hydrogels: Single
and Multiple Administration Studies in Type 1
and 2 Diabetic Rats”, J. Controlled Release.,
110, 587-594 (2006). [PDF
Reprint]
946. L. Serra, J. Doménech and
N. A. Peppas, “Design of Poly(ethylene
glycol)-tethered Copolymers as Novel
Mucoadhesive Drug Delivery Systems”, Europ. J.
Pharm. Bioph., 63, 11-18 (2006). [PDF
Reprint]
947. J. B. Thomas and N. A.
Peppas, “Adhesives”, in G. E. Wnek and G.L.
Bowlin, ed., “Encyclopedia of Biomaterials and
Biomedical Engineering”, Dekker, New York, NY,
2006. [PDF
Reprint]
948. N. A. Peppas and C.D.
Bures, “Glucose-Responsive Hydrogels”, in G. E.
Wnek and G.L. Bowlin, ed., “Encyclopedia of
Biomaterials and Biomedical Engineering”,
Dekker, New York, NY, 2006. [PDF
Reprint]
949. N. A. Peppas and J. Zhang,
“Interpenetrating Polymeric Networks”, in G. E.
Wnek and G.L. Bowlin, ed., “Encyclopedia of
Biomaterials and Biomedical Engineering”,
Dekker, New York, NY, 2006. [PDF
Reprint]
950. N. A. Peppas and C. Donini,
“Protein Delivery Systems”, in G. E. Wnek and
G.L. Bowlin, ed., “Encyclopedia of Biomaterials
and Biomedical Engineering”, Dekker, New York,
NY, 2006. [PDF
Reprint]
951. K. M. Wood, G. Stone and N.
A. Peppas, “Lectin Functionalized Complexation
Hydrogels for Oral Protein Delivery”, Proceed.
Europ. Symp. Controlled Drug Deliv., 9, 180-183
(2006).
952. H. Lauten, J. Ng, and N.A.
Peppas, “Selective Recognition of Angiotensin II
for Novel Drug Delivery Systems”, Proceed.
Europ. Symp. Controlled Drug Deliv., 9, (2006).
[PDF
Reprint]
953. D. E. Owens III and N.A.
Peppas, “Integration of Thermally Responsive
Nanosphere Hydrogels with Gold Nanoparticles for
Intelligent Therapeutic Applications” Trans.
Soc. Biomater., 31, 150-151 (2006).
954. T. S. Karande, J.
Mahavedan, N.A. Peppas, W. Sun, D.D. Dean and
C.M. Agrawal “Effect of Scaffold Architecture on
Diffusion of Oxygen in Tissue Engineering
Constructs” Trans. Soc. Biomater., 31, 182-183
(2006).
955. N.A. Peppas and J.Z. Hilt,
“Intelligent Polymeric Networks in Biomolecular
Sensing”, in R. Bashir and S. Wereley, eds.,
Handbook of BioMEMs and Biomedical
Nanotechnology”, 117-131, Klouwer, Amsterdam,
2006. [PDF
Reprint]
956. N.A. Peppas, J.Z. Hilt, A.
Khademhosseini and R. Langer, “Hydrogels in
Biology and Medicine: From Fundamentals to
Bionanotechnology”, Adv. Mater., 18, 1345-1360
(2006). [PDF
Reprint]
957. T. Yamagata, M. Morishita,
N.J. Kavimandan, K. Nakamura, Y. Fukuoka, K.
Takayama and N.A. Peppas, “Characterization of
Insulin Protection Properties of Complexation
Hydrogels in Gastric and Intestinal Enzyme
Fluids”, J. Controlled Release, 112. 343-349
(2006). [PDF
Reprint]
958. E. Oral and N.A. Peppas,
“Hydrophilic Molecularly Imprinted
PHEMA-Polymers”, J. Biomed. Mater. Res., 78A,
205-210 (2006). [PDF
Reprint]
959. N. J. Kavimandan, E. Losi,
and N. A. Peppas, “Novel Delivery System Based
on Complexation Hydrogels as Delivery Vehicles
for Insulin-Transferrin Conjugates”,
Biomaterials, 27, 3846-3854 (2006). [PDF
Reprint]
960. N.A. Peppas, O.Z. Fisher,
K. M. Wood and N. Kavimandan, “Molecular Design
and Celular Studies of Oral Protein Delivery”,
Proceed. Intern. Symp. Rel. Bioact. Mater., 33,
66 (2006).
961. D. E. Owens III, J.K. Eby,
Y. Jian, and N.A. Peppas, “Externally triggered
Metal-Polymer Nanocomposites for Controlled
Release Applications”, Proceed. Intern. Symp.
Rel. Bioact. Mater., 33, 339 (2006).
962. A. Besheer, K. M. Wood,
N.A. Peppas, and K. Mäder, “Loading and Mobility
of Spin-Labeled Insulin in Repsonsive
Complexation Hydrogels- An ESR Study”, Proceed.
Intern. Symp. Rel. Bioact. Mater., 33, 446
(2006).
963. M. Fukuda, D. Miller, N.A.
Peppas and J. McGinity, “Influence of Sulfobutyl
Ether Beta-Cyclodextrin on the Dissolution
Properties of a Poorly Soluble drug from
Extrudates Prepared by Hot-Melt Extrusion”, AAPS
PharmSci, T3235 (2006).
964. J.B. Thomas and N. A.
Peppas, “Dynamics of Tethered Biomaterials and
their Development into pH Responsive
Mucoadhesive Oral Drug Delivery Systems”, AAPS
PharmSci, T3093 (2006).
965. D. Carr and N.A. Peppas,
“pH-Sensitive Complexation Hydrogels for the
Oral Delivery of Proteins”, AAPS PharmSci, W4218
(2006).
966. L. Serra, J. Doménech and
N. A. Peppas, “Drug Transport Mechanisms in and
Release Kinetics from Molecularly Designed
P(Acrylic Acid-g-Ethylene Glycol) Hydrogels”,
Biomaterials, 27, 5440-5451 (2006). [PDF
Reprint]
967. N.A. Peppas, “Vecteurs de
médicaments innovants et intelligents: Leur
applications pharmaceutiques”, Ann. Pharm. Fr,
64, 260-275 (2006).
968. M. Morishita and N. A.
Peppas, “Is the Oral Route Possible for Peptide
and Protein Drug Delivery?”, Drug Discovery
Today, 11, 905- 910 (2006). [PDF
Reprint]
969. A. Besheer, K.M. Wood, N.A.
Peppas and K. Mäder, “Loading and Mobility of
Spin-Labeled Insulin in Responsive Complexation
Hydrogels- An ESR Study”, Proceed. Polypharma,
1, P05 (2006).
970. N. A. Peppas and N. J.
Kavimandan, “Nanoscale Analysis of Protein and
Peptide Absorption: Insulin Absorption Uisng
Complexation and pH-Sensitive Hydrogels as
Delivery Vehicles”, Europ. J. Pharm. Sci., 29,
183-197 (2006). [PDF
Reprint]
971. M. Fukuda, N.A. Peppas and
J.W. McGinity, “Floating Hot-Melt Extruded
Tablets for Gastroretentive Controlled Drug
Release System”, J. Controlled Release, 115,
121-129 (2006). [PDF
Reprint]
972. N.A. Peppas, “Intelligent
Biomaterials as Pharmaceutical Carriers in
Microfabricated and Nanoscale Devices”, MRS
Bulletin, 31, 888-893 (2006). [PDF
Reprint]
973. K. M. Wood, G. Stone and N.
A. Peppas, “Lectin Functionalized Complexation
Hydrogels for Oral Protein Delivery”, J.
Controlled Rel., 116, 66-68 (2006). [PDF
Reprint]
974. A. Vasudev, C. Bayer and
N.A. Peppas, “Microcantilever-Based Sensors”,
Proceed NNIN REU, 98-99 (2006). [PDF
Reprint]
975. N. J. Kavimandan, E. Losi,
J. J. Wilson, J. S. Brodbelt and N. A. Peppas,
“Synthesis and Characterization of
Insulin-Transferrin Conjugates”, Bioconjugate
Chem., 17, 1376-1384 (2006). [PDF
Reprint]
976. J. Z. Hilt, M. E. Byrne and
N. A. Peppas, “Microfabrication of Intelligent
Biomimetic Networks for Recognition of
D-Glucose”, Chem. Mater. 18, 5869-5875 (2006). [PDF
Reprint]
977. K.M. Wood, G. Stone and
N.A. Peppas, “In vitro Investigation of Oral
Insulin Delivery Systems Using Lectin
Functionalzed Complexation Hydrogels”, in
Advances in Medical Engineering, Drug Delivery
Systems and Therapeutic Systems, N.A. Peppas,
A.S. Hoffman, T. Kanamori and K. Tojo, eds.,
75-83, AIChE, New York, NY, 2006.
978. J. B. Thomas, J. H.
Tingsanchali, C. M. Creecy, A. M. Rosales, J. W.
McGinity, and N. A. Peppas, “Tethered pH
Responsive Biomaterials for Mucoadhesive Oral
Controlled Release Drug Delivery Systems”, in
Advances in Medical Engineering, Drug Delivery
Systems and Therapeutic Systems, N.A. Peppas,
A.S. Hoffman, T. Kanamori and K. Tojo, eds.,
249-254, AIChE, New York, NY, 2006.
979. D.E. Owens III, Y. Jian,
and N.A. Peppas, “Thermally-responsive
Interpenetrating Polymer Network Nanoparticles”,
in Advances in Medical Engineering, Drug
Delivery Systems and Therapeutic Systems, N.A.
Peppas, A.S. Hoffman, T. Kanamori and K. Tojo,
eds., 145-149, AIChE, New York, NY, 2006.
980. E.H. Lauten and N.A.
Peppas, “Selective Recognition of Angiotensin
II”, in Advances in Medical Engineering, Drug
Delivery Systems and Therapeutic Systems, N.A.
Peppas, A.S. Hoffman, T. Kanamori and K. Tojo,
eds., 163-166, AIChE, New York, NY, 2006.
981. O. Z. Fisher, M. Lin and
N.A. Peppas, “Characterizing Transport
Enhancement by P(MAA-g-EG) Drug Carriers in the
Presence of Mucus”, in Advances in Medical
Engineering, Drug Delivery Systems and
Therapeutic Systems, N.A. Peppas, A.S. Hoffman,
T. Kanamori and K. Tojo, eds., 262-269, AIChE,
New York, NY, 2006.
982. N.A.
Peppas, “Bionanotechnology and Responsive, Biomimetic Drug Delivery Systems”, NEPTIS
Proceed., 15, 1-7 (2006).
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2007
983. N.A. Peppas, “Concepts of
Medical Chronobiology, Chronopharmacology and
Chronotherapeutics as the Basis for Applications
of Drug Delivery Technology”, in N.A. Peppas,
J.Z. Hilt and J.B. Thomas, eds, Nanotechnology
in Therapeutics: Current Technology and
Applications, 3-23, Horizon Press, Norfolk, UK,
2007.
984. N.A. Peppas and D.N.
Robinson, “Nanospheres of Intelligent Networks
for Biomedical and Drug Delivery Applications”
in N.A. Peppas, J.Z. Hilt and J.B. Thomas, eds,
Nanotechnology in Therapeutics: Current
Technology and Applications, 361-379, Horizon
Press, Norfolk, UK, 2007.
985. N.A. Peppas and C. Donini,
“Nanoparticulate Structures in Diabetes
Treatment” in N.A. Peppas, J.Z. Hilt and J.B.
Thomas, eds, Nanotechnology in Therapeutics:
Current Technology and Applications, 407-430,
Horizon Press, Norfolk, UK, 2007.
986. J.O. Blanchette and N.A.
Peppas, “Nanotechnology and Cancer Therapy” in
N.A. Peppas, J.Z. Hilt and J.B. Thomas, eds,
Nanotechnology in Therapeutics: Current
Technology and Applications, 287-313, Horizon
Press, Norfolk, UK, 2007.
987. S. Seidlits and N.A.
Peppas, “Star Polymers and Dendrimers in
Nanotechnology and Drug Delivery” in N.A.
Peppas, J.Z. Hilt and J.B. Thomas, eds,
Nanotechnology in Therapeutics: Current
Technology and Applications, 317-348, Horizon
Press, Norfolk, UK, 2007.
988. P. Bures and N.A. Peppas,
“Ionic Nanoparticulate Systems for Drug
Delivery” in N.A. Peppas, J.Z. Hilt and J.B.
Thomas, eds, Nanotechnology in Therapeutics:
Current Technology and Applications, 349-360,
Horizon Press, Norfolk, UK, 2007.
989. D. Henthorn, Y. Zheng and
N.A. Peppas, “Synthetic ligand-receptor
Interactions in Delivery Systems” in N.A.
Peppas, J.Z. Hilt and J.B. Thomas, eds,
Nanotechnology in Therapeutics: Current
Technology and Applications, Horizon Press,
Norfolk, UK, 2007.
990. Y. Huang and N.A. Peppas,
“Nanoscale Analysis of Mucus-Carrier
Interactions for Improved Drug Absorption” in
N.A. Peppas, J.Z. Hilt and J.B. Thomas, eds,
Nanotechnology in Therapeutics: Current
Technology and Applications, 109-129, Horizon
Press, Norfolk, UK, 2007.
991. H. Bodugoz, O. Güven and N.
A. Peppas, “Glucose Recognition Capabilities of
HEMA-based Hydrogels Containing PEG Chains”, J.
Appl. Polym. Sci., 103, 432-441 (2007). [PDF
Reprint]
992. N.A. Peppas, “Drug Delivery
Using Smart Polymers: Recent Advances”, in B.
Mattiason and I. Galaev, eds., Smart Polymers:
Production, Stuy and Applications in
Biotechnology and Biomedicine, 331-358, Taylor
and Francis, Boca Raton, FL, 2007.
993. N.A.
Peppas, “Bionanotechnology and Responsive,
Biomimetic Drug Delivery Systems”, in
“Nanotechnology in Life Sciences”, 1-7, Nisshin
Engineering, Osaka, Japan, 2007.
994. N.A.
Peppas, “Nanotechnology and Intelligent
Response: What Have They Done for Biomaterials
Lately?” Trans. Soc. Biomat., 32, 1 (2007).
995. D.A.
Carr, M.C. Boudes, O.Z. Fisher and N.A. Peppas,
“Growth Hormone Release from pH-Sensitive
Complexation Hydrogels”, Trans. Soc. Biomat.,
32, 249 (2007).
996. C.L. Bayer and N.A.
Peppas, “Characterization of Hydrogel-Conductive
Polymer Recognitive Interpenetrating Networks”,
Trans. Soc. Biomat., 32, 402 (2007).
997. N.A. Peppas, K.M. Wood
and J.B. Thomas, “Membranes in Controlled
Release”, in K.V. Peinemann and S. Pererira
Nunes, eds, Membrane Technology, Vol 1.,
Membranes for Life Science, 175-190, Wiley-VCH,
Weinheim, 2007.
998. N.A. Peppas, “Le plus ça
change… Nanotechnology and Bioengineering in an
Evolving Chemical Engineering World”, Proceed.
Greek ChE Meeting, 9(A), 17-26 (2007).
999. T. Farmer, N.A. Peppas
and T. Edgar, “Design of A Polymeric Insulin
Infusion System For Blood Glucose Control”,
Proceed. Amer. Control Conf, 1, 607-612 (2007).
1000. J.B.
Thomas, J. Tingsanchali, A. Rosales, C.M.
Creecy, J. W. McGinity and N.A. Peppas,
“Dynamics of Poly(ethylene glycol)-Tethered, pH
Responsive Biomaterials”, Polymer, 48,
5042-5048 (2007).
1001. D.B. Henthorn and N.A. Peppas, "Molecular
Simulations of Recognitive Behavior of
Molecularly Imprinted Intelligent Polymeric
Networks", Ind. Eng. Chem. Res., 46, 6084-6091
(2007). [PDF
Reprint]
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In
press and Submitted
1002. H.
Chiba, M. Morishita, N.J. Kavimandan, N.A.
Peppas, and K. Takayama, “Application of
Complexation Hydrogels to Oral Delivery Systems
for Peptide and Protein Drugs.”, (submitted).
1003. N.J. Kavimandan and N. A. Peppas, “Experimental
Investigation of Transport Mechanisms of Insulin
Across the Cell Monolayer”, Europ. J. Pharm.
Bioph., (submitted).
1004. L.
Serra, J. Doménech and N. A. Peppas, “Molecular
Dynamics of Mucoadhesive Drug Delivery Systems”,
Exp. Opinion Drug Deliv., (in press).
1005. D. E.
Owens III, J. K. Eby, Y. Jian and N. A. Peppas,
“Temperature-Responsive Polymer-Gold
Nanocomposites as Intelligent Therapeutic
Systems”, J. Biomed. Mater. Res., (published on
line).
1006. J.B.
Thomas, J. W. McGinity and N.A. Peppas,
“Molecular Aspects of Mucoadhesive Carrier
Development for Drug Delivery and Improved
Absorption”, Pharm. Res. (submitted).
1007. M Wood,
GM Stone and NA Peppas, “Wheat Germ Agglutinin
Functionalized Complexation Hydrogels for Oral
Insulin Delivery”, Biomacromolecules,
(submitted).
1008. KM Wood,
GM Stone and NA Peppas, “Insulin Transport in
Caco-2 and Caco2/HT29-MTX Co-cultured Cells in
the Presence of Wheat Germ
Agglutinin-Functionalized Complexation
Hydrogels”, Biomaterials, (submitted).
1009. N.M.
Bergmann and N.A. Peppas, “Molecularly Imprinted
Polymers with Specific Recognition for
Proteins”, Progr. Polym. Sci., (in press).
1010. M. E.
Byrne, J. Z. Hilt and N. A. Peppas,
“Recognitive Biomimetic Networks with Moiety
Imprinting for Intelligent Drug Delivery”, J.
Biomed. Mater. Res., (published on line).
1011. D.E.
Owens III, Y. Jian, J.E. Fang, B.V. Slaughter
and N.A. Peppas, “Thermally-responsive swelling
properties of polyacrylamide/poly(acrylic acid)
interpenetrating polymer network nanoparticles”,
Macromolecules, (in press).
1012. M.
Fukuda, D. A. Miller, N. A. Peppas and J. W. McGinity, “Influence of Sulfobutyl Ether
β-Cyclodextrin (Captisol®) On The Dissolution
Properties Of A Poorly Soluble Drug From
Extrudates Prepared By Hot-Melt Extrusion”, Int.
J. Pharm. (in press).
1013. N.A.
Peppas, "Poly(N-isopropyl acrylamide)," in
J.E. Mark, ed., Polymer Data Handbook, Second
edition, Oxford University Press, New York, in
press.
1014. N.A.
Peppas, "Poly(2-hydroxy ethyl methacrylate),"
in J.E. Mark, ed., Polymer Data Handbook, Second
edition, Oxford University Press, New York, in
press.
1015. T.
Tuesca, K. Nakamura, M. Morishita, J. J. Joseph,
N.A. Peppas and A.M. Lowman, “Complexation
Hydrogels for Oral Insulin Delivery: Effects of
Polymer Dosing on In Vivo Efficacy", J. Pharm.
Sci., (in press).
1016. T. G.
Farmer Jr. , T. F. Edgar, and N. A. Peppas,
“Pharmacokinetic Modelling of the
Glucoregulatory System”, Europ. J. Pharm.
Biopharm., (submitted).
1017. T.G.
Farmer Jr, T.F. Edgar and N.A. Peppas, "The
Future of Open and Closed-Loop Insulin Delivery
for Diabetes Mellitus", J. Pharm. Pharmacol.,
(submitted).
1018. T.G.
Farmer Jr, T.F.Edgar and N.A. Peppas, “Parameter
set Uniqueness and Confidence Limits in Model
Identificatin of Diabetic Patient Models”,
Diabetes Techn. Therap., (submitted).
1019. L. L.
Lao, S. S. Venkatraman and Nicholas A. Peppas,
“A Novel Model and Experimental Analysis of
Hydrophilic and Hydrophobic Agent Release from
Biodegradable Polymers”, J. Biomed. Mater. Res.,
(submitted)
1020. M.H.
Smolensky and N.A. Peppas, "Chronobiology, Drug
Delivery and Chronotherapeutics", Adv. Drug
Deliv. Revs., (in press)
1021. T.G.
Farmer, T.F. Edgar and N.A. Peppas, "In
Vivo Simulations of pH-Responsive Cationic
Hydrogels in Diabetic Patients", Ind. Eng. Chem.
Res.. (submitted)
1022. N.M. Bergmann and N.A.
Peppas, "Configurational Biomimetic Imprinting
for Protein Recognition: Structural
Characteristics of Recognitive Hydrogels", Ind.
Eng. Chem. Res., (submitted).
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