Multiple Functionalities of Polyelectrolyte Multilayer Films: New Biomedical Applications

Boudou, Thomas; Crouzier, Thomas; Ren, Keke; Blin, Guillaume; Picart, Catherine

doi:10.1002/adma.200901327

Cited by 695 publications

(720 citation statements)

References 306 publications

(322 reference statements)

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“…Nowadays these multilayer films are extensively used as reservoirs to host bioactive molecules aiming at biological applications. [6][7][8][9][10] A variety of molecules can be embedded into the films; they include small drugs and dyes, [11][12][13][14][15][16][17] proteins and peptides, [18][19][20][21] or nucleic acids. 22,23 Extensive reviews on the reservoir properties of the multilayers can be found elsewhere.…”

Section: Introductionmentioning

confidence: 99%

“…22,23 Extensive reviews on the reservoir properties of the multilayers can be found elsewhere. 6,7,10,24 Multilayers assembled from the biopolymers hyaluronic acid (HA) and poly-L-lysine (PLL) are some of the most studied systems. The HA/PLL multilayers are non-toxic for a variety of cell lines and have been employed to control cell adhesion via chemical or physical cues.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Temperature-induced molecular transport through polymer multilayers coated with PNIPAM microgels

Vikulina

Aleed

Paulraj

et al. 2015

Phys. Chem. Chem. Phys.

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Polyelectrolyte multilayers serve as effective reservoirs for bioactive molecules which are stored and released from the multilayers for cellular applications. However, control over the release without significantly affecting the multilayers and biomolecules is still a challenge. On the other hand, externally stimulated release would make the multilayers promising for the development of stimuli-sensitive planar carriers with release performance switched on demand. In this study soft composite films are designed by coating hyaluronic acid/poly-L-lysine (HA/PLL) multilayers with temperature responsive poly-(N-isopropylacrylamide) (PNIPAM) microgels. Microgels are flattened and immersed into the multilayers to maximize the number of contacts with the surrounding polyelectrolytes (HA and PLL). The microgel coating serves as an efficient switchable barrier for the PLL transport into the multilayers. PLL diffusion into the film is significantly hindered at room temperature but is dramatically enhanced at 40 1C above the volume phase transition temperature (VPTT) of PNIPAM at 32 1C associated with microgel shrinkage. Scanning force microscopy micrographs show that the mechanism of volume phase transition on soft surfaces cannot be directly deduced from the processes taking place at solid substrates.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Temperature-induced molecular transport through polymer multilayers coated with PNIPAM microgels

Vikulina

Aleed

Paulraj

et al. 2015

Phys. Chem. Chem. Phys.

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“…Enzymes can be encapsulated in such films and remain active for longer time durations than in solution [78]. Many bioapplications of PEM films are reported and have been reviewed [79,80]. Of particular interest is the finding that a change in the mechanical properties allows to fine tune not only the cellular adhesion [81], but also the level of nuclear expression of the adherent cells [82].…”

Section: Selected Applications Of Films Produced In a Sbs Mannermentioning

confidence: 99%

Deposition Mechanisms in Layer-by-Layer or Step-by-Step Deposition Methods: From Elastic and Impermeable Films to Soft Membranes with Ion Exchange Properties

Michel¹,

Toniazzo²,

Ruch³

et al. 2012

ISRN Materials Science

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The modification of solid-liquid interfaces with polyelectrolyte multilayer films appears as a versatile tool to confer new functionalities to surfaces in environmentally friendly conditions. Indeed such films are deposited by alternate dipping of the substrates in aqueous solutions containing the interacting species or spraying these solutions on the surface of the substrate. Spin coating is more and more used to produce similar films. The aim of this short review article is to provide an unifying picture about the deposition mechanisms of polyelectrolyte multilayer films. Often those films are described as growing either in a linear or in a supralinear growth regime with the number of deposited "layer pairs". The growth regime of PEM films can be controlled by operational parameters like the temperature or the ionic strength of the used solutions. The control over the growth regime of the films as a function of the number of deposition steps allows to control their functional properties: either hard and impermeable films in the case of linear growth or soft and permeable films in the case of supralinear growth. Such different properties can be obtained with a given combination of interacting species by changing the operational parameters during the film deposition.

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“…In simple terms, the proposed solution provided the structural support to the cells. The ECM-like structure play an important role in modulating numerous cellular functions including: cell adhesion, migration, proliferation and differentiation [20][21][22][23]. For this reason, the use of synthetic materials, like polyelectrolyte was proposed.…”

Section: An Important Aspect In the Development Of An Effective Treatmentioning

confidence: 99%

Bio-Inspiered Blood-Contacting Materials Elaborated For The Heart Assist System

Major¹

2015

Archives of Metallurgy and Materials

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I dedicate this work to my Father, who is also my Mentor.He has enabled me to execute my professional passion.The paper presents the main achievements of the author on the development of blood contacting materials. The main objective of the work is to elaborate materials dedicated for the heart support systems. Appropriately designed biomaterial surfaces enable fully controlled cellular differentiation, proliferation, and even restoration of the tissue structure on solids. The paper presents two approaches to modify the surface, which can control the life processes of tissue. The first solution considers the topography in the form of cell niches. The main objective of the study is a modified surface of thin films deposited on the polymer substrate constituting the microenvironment for the cells caused by residual stress and optimized stiffness of the surface using the plasma methods. The research hypothesis was the plasma surface modification method generating a controlled contribution of residual stress in the coating affect the surface topography in the form of nano-wrinkles similar to the niches in the tissue environment. Topography and stiffness of the surface coating allows the targeted cellular differentiation. The properly formed surface topography effectively inhibits blood clotting processes. The second solution considers implementation of self-organizing feature of extracellular matrix like coatings and selective cell mobilization. The multiscale analysis and phenomenologic description were performed to experimental research. For this purpose, the deposition method was based on electrostatic interactions in polyelectrolytes. This type of cell-polymer structure imitate the native structures.Keywords: Surface modification, cell-material interaction, tissue precursors, materials for regenerative medicine Praca przedstawia najważniejsze osiągniecia autora dotyczące rozwoju materiałów do kontaktu z krwią. Głównym celem prowadzonych prac są materiały o przeznaczeniu w komorach wspomagania serca. Odpowiednio zaprojektowana powierzchnia biomateriału umożliwia w pełni kontrolowane różnicowanie komórkowe, proliferację i nawet odtworzenie struktury tkanki na ciele stałym. W pracy przedstawiono dwa podejścia modyfikacji powierzchniowej, które pozwalają sterować procesami życio-wymi tkanki. Pierwszym rozwiązaniem są powłoki o topografii nisz komórkowych. Celem głównym badań jest zmodyfikowana powierzchnia materiałów cienkowarstwowych nałożonych na podłoże polimerowe stanowiąca mikrośrodowisko dla wychwytu i kontrolowanego różnicowania komórek uzyskane przez odpowiedni udział naprężeń własnych i zoptymalizowaną sztywność powierzchniową. Ukierunkowana mikrostrukturą i właściwościami powierzchniowymi monowarstwa hamuje procesy wykrzepiania krwi. Drugie rozwiązanie dotyczy powłok o strukturze macierzy zewnątrzkomórkowej. Celem badań jest wieloskalowa analiza i opis fenomenologiczny samoorganizujących się powłok z funkcją selektywnej mobilizacji komórkowej. Jest to nowoczesne podejście na poziomie badań eksperymentalnyc...

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Multiple Functionalities of Polyelectrolyte Multilayer Films: New Biomedical Applications

Cited by 695 publications

References 306 publications

Temperature-induced molecular transport through polymer multilayers coated with PNIPAM microgels

Temperature-induced molecular transport through polymer multilayers coated with PNIPAM microgels

Deposition Mechanisms in Layer-by-Layer or Step-by-Step Deposition Methods: From Elastic and Impermeable Films to Soft Membranes with Ion Exchange Properties

Bio-Inspiered Blood-Contacting Materials Elaborated For The Heart Assist System

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