TY - JOUR A1 - Liu, Yue A1 - Gould, Oliver E. C. A1 - Kratz, Karl A1 - Lendlein, Andreas T1 - On demand sequential release of (sub)micron particles controlled by size and temperature JF - Small : nano micro N2 - Polymeric devices capable of releasing submicron particles (subMP) on demand are highly desirable for controlled release systems, sensors, and smart surfaces. Here, a temperature-memory polymer sheet with a programmable smooth surface served as matrix to embed and release polystyrene subMP controlled by particle size and temperature. subMPs embedding at 80 degrees C can be released sequentially according to their size (diameter D of 200 nm, 500 nm, 1 mu m) when heated. The differences in their embedding extent are determined by the various subMPs sizes and result in their distinct release temperatures. Microparticles of the same size (D approximate to 1 mu m) incorporated in films at different programming temperatures T-p (50, 65, and 80 degrees C) lead to a sequential release based on the temperature-memory effect. The change of apparent height over the film surface is quantified using atomic force microscopy and the realization of sequential release is proven by confocal laser scanning microscopy. The demonstration and quantification of on demand subMP release are of technological impact for assembly, particle sorting, and release technologies in microtechnology, catalysis, and controlled release. KW - on demand particle release KW - temperature-memory effect KW - thermosensitive KW - polymer surface Y1 - 2022 U6 - https://doi.org/10.1002/smll.202104621 SN - 1613-6810 SN - 1613-6829 VL - 18 IS - 5 PB - Wiley-VCH CY - Weinheim ER - TY - JOUR A1 - Moradian, Hanieh A1 - Gossen, Manfred A1 - Lendlein, Andreas T1 - Co-delivery of genes can be confounded by bicistronic vector design JF - MRS Communications N2 - Maximizing the efficiency of nanocarrier-mediated co-delivery of genes for co-expression in the same cell is critical for many applications. Strategies to maximize co-delivery of nucleic acids (NA) focused largely on carrier systems, with little attention towards payload composition itself. Here, we investigated the effects of different payload designs: co-delivery of two individual "monocistronic" NAs versus a single bicistronic NA comprising two genes separated by a 2A self-cleavage site. Unexpectedly, co-delivery via the monocistronic design resulted in a higher percentage of co-expressing cells, while predictive co-expression via the bicistronic design remained elusive. Our results will aid the application-dependent selection of the optimal methodology for co-delivery of genes. KW - Molecular KW - Packaging KW - Protein Y1 - 2022 U6 - https://doi.org/10.1557/s43579-021-00128-7 SN - 2159-6859 SN - 2159-6867 VL - 12 IS - 2 SP - 145 EP - 153 PB - Springer CY - Heidelberg ER - TY - JOUR A1 - Mazurek-Budzyńska, Magdalena A1 - Behl, Marc A1 - Neumann, Richard A1 - Lendlein, Andreas T1 - 4D-actuators by 3D-printing combined with water-based curing JF - Materials today. Communications N2 - The shape and the actuation capability of state of the art robotic devices typically relies on multimaterial systems from a combination of geometry determining materials and actuation components. Here, we present multifunctional 4D-actuators processable by 3D-printing, in which the actuator functionality is integrated into the shaped body. The materials are based on crosslinked poly(carbonate-urea-urethane) networks (PCUU), synthesized in an integrated process, applying reactive extrusion and subsequent water-based curing. Actuation capability could be added to the PCUU, prepared from aliphatic oligocarbonate diol, isophorone diisocyanate (IPDI) and water, in a thermomechanical programming process. When programmed with a strain of epsilon(prog) = 1400% the PCUU networks exhibited actuation apparent by reversible elongation epsilon'(rev) of up to 22%. In a gripper a reversible bending epsilon'(rev)((be)(nd)()) in the range of 37-60% was achieved when the actuation temperature (T-high) was varied between 45 degrees C and 49 degrees C. The integration of actuation and shape formation could be impressively demonstrated in two PCUU-based reversible fastening systems, which were able to hold weights of up to 1.1 kg. In this way, the multifunctional materials are interesting candidate materials for robotic applications where a freedom in shape design and actuation is required as well as for sustainable fastening systems. KW - 4D-actuation KW - 3D-printing KW - Ink KW - Gripper KW - Fastener Y1 - 2022 U6 - https://doi.org/10.1016/j.mtcomm.2021.102966 SN - 2352-4928 VL - 30 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Zhang, Shanshan A1 - Liu, Yue A1 - Machatschek, Rainhard Gabriel A1 - Lendlein, Andreas T1 - Ultrathin collagen type I films formed at the air-water interface JF - MRS advances : a journal of the Materials Research Society (MRS) N2 - Collagen-based biomaterials with oriented fibrils have shown great application potential in medicine. However, it is still challenging to control the type I collagen fibrillogenesis in ultrathin films. Here, we report an approach to produce cohesive and well-organized type I collagen ultrathin films of about 10 nm thickness using the Langmuir-Blodgett technique. Ellipsometry, rheology, and Brewster angle microscopy are applied to investigate in situ how the molecules behave at the air-water interface, both at room temperature and 37 degrees C. The interfacial storage modulus observed at room temperature vanishes upon heating, indicating the existence and disappearance of the network structure in the protein nanosheet. The films were spanning over holes as large as 1 mm diameter when transferred at room temperature, proving the strong cohesive interactions. A highly aligned and fibrillar structure was observed by atomic force microscopy (AFM) and optical microscopy. Y1 - 2022 U6 - https://doi.org/10.1557/s43580-021-00160-8 SN - 2059-8521 VL - 7 IS - 4 SP - 56 EP - 62 PB - Springer Nature Switzerland AG CY - Cham ER - TY - JOUR A1 - Hoffmann, Falk A1 - Machatschek, Rainhard Gabriel A1 - Lendlein, Andreas T1 - Analytical model and Monte Carlo simulations of polymer degradation with improved chain cut statistics JF - Journal of materials research : JMR N2 - The degradation of polymers is described by mathematical models based on bond cleavage statistics including the decreasing probability of chain cuts with decreasing average chain length. We derive equations for the degradation of chains under a random chain cut and a chain end cut mechanism, which are compared to existing models. The results are used to predict the influence of internal molecular parameters. It is shown that both chain cut mechanisms lead to a similar shape of the mass or molecular mass loss curve. A characteristic time is derived, which can be used to extract the maximum length of soluble fragments l of the polymer. We show that the complete description is needed to extract the degradation rate constant k from the molecular mass loss curve and that l can be used to design polymers that lose less mechanical stability before entering the mass loss phase. KW - Modeling KW - Degradable KW - Polymer KW - Molecular weight KW - Simulation Y1 - 2022 U6 - https://doi.org/10.1557/s43578-022-00495-4 SN - 0884-2914 SN - 2044-5326 VL - 37 IS - 5 SP - 1093 EP - 1101 PB - Springer CY - Heidelberg ER - TY - JOUR A1 - Sauter, Tilman A1 - Kratz, Karl A1 - Farhan, Muhammad A1 - Heuchel, Matthias A1 - Lendlein, Andreas T1 - Design and fabrication of fiber mesh actuators JF - Applied materials today N2 - Soft actuator performance can be tuned by chemistry or mechanical manipulation, but this adjustability is limited especially in view of their growing technological relevance. Inspired from textile engineering, we designed and fabricated fiber mesh actuators and introduced new features like anisotropic behavior and soft-tissue like elastic deformability. Design criteria for the meshes are the formation of fiber bundles, the angle between fiber bundles in different stacked layers and covalent crosslinks forming within and between fibers at their interfacial contact areas. Through crosslinking the interfiber bond strength increased from a bond transmitting neither axial nor rotational loads (pin joint) to a bond strength capable of both (welded joint). For non-linear elastic stiffening, stacked fiber bundles with four embracing fibers were created forming microstructural rhombus shapes. Loading the rhombus diagonally allowed generation of “soft tissue”-like mechanics. By adjustment of stacking angles, the point of strong increase in stress is tuned. While the highest stresses are observed in aligned and crosslinked fiber mats along the direction of the fiber, the strongest shape-memory actuation behavior is found in randomly oriented fiber mats. Fiber mesh actuators controlled by temperature are of high significance as soft robot skins and as for active patches supporting tissue regeneration. Y1 - 2022 U6 - https://doi.org/10.1016/j.apmt.2022.101562 SN - 2352-9407 VL - 29 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Tartivel, Lucile A1 - Blocki, Anna M. A1 - Braune, Steffen A1 - Jung, Friedrich A1 - Behl, Marc A1 - Lendlein, Andreas T1 - An Inverse shape-memory hydrogel scaffold switching upon cooling in a tissue-tolerated temperature range JF - Advanced materials interfaces N2 - Tissue reconstruction has an unmet need for soft active scaffolds that enable gentle loading with regeneration-directing bioactive components by soaking up but also provide macroscopic dimensional stability. Here microporous hydrogels capable of an inverse shape-memory effect (iSME) are described, which in contrast to classical shape-memory polymers (SMPs) recover their permanent shape upon cooling. These hydrogels are designed as covalently photo cross-linked polymer networks with oligo(ethylene glycol)-oligo(propylene glycol)-oligo(ethylene glycol) (OEG-OPG-OEG) segments. When heated after deformation, the OEG-OPG-OEG segments form micelles fixing the temporary shape. Upon cooling, the micelles dissociate again, the deformation is reversed and the permanent shape is obtained. Applicability of this iSME is demonstrated by the gentle loading of platelet-rich plasma (PRP) without causing any platelet activation during this process. PRP is highly bioactive and is widely acknowledged for its regenerative effects. Hence, the microporous inverse shape-memory hydrogel (iSMH) with a cooling induced pore-size effect represents a promising candidate scaffold for tissue regeneration for potential usage in minimally invasive surgery applications. KW - active scaffold KW - critical micellation temperature KW - hydrogel KW - inverse KW - shape-memory effect KW - platelet-rich plasma Y1 - 2022 U6 - https://doi.org/10.1002/admi.202101588 SN - 2196-7350 VL - 9 IS - 6 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Lau, Skadi A1 - Gossen, Manfred A1 - Lendlein, Andreas A1 - Jung, Friedrich T1 - Differential sensitivity of assays for determining vein endothelial cell senescence JF - Clinical hemorheology and microcirculation : blood flow and vessels N2 - In vivo endothelialization of polymer-based cardiovascular implant materials is a promising strategy to reduce the risk of platelet adherence and the subsequent thrombus formation and implant failure. However, endothelial cells from elderly patients are likely to exhibit a senescent phenotype that may counteract endothelialization. The senescence status of cells should therefore be investigated prior to implantation of devices designed to be integrated in the blood vessel wall. Here, human umbilical vein endothelial cells (HUVEC) were cultivated up to passage (P) 4, 10 and 26/27 to determine the population doubling time and the senescence status by four different methods. Determination of the senescence-associated beta-galactosidase activity (SA-beta-Gal) was carried out by colorimetric staining and microscopy (i), as well as by photometric quantification (ii), and the expression of senescence-associated nuclear proteins p16 and p21 as well as the proliferation marker Ki67 was assessed by immunostaining (iii), and by flow cytometry (iv). The population doubling time of P27-cells was remarkably greater (103 +/- 65 h) compared to P4-cells (24 +/- 3 h) and P10-cell (37 +/- 15 h). Among the four different methods tested, the photometric SA-beta-Gal activity assay and the flow cytometric determination of p16 and Ki67 were most effective in discriminating P27-cells from P4- and P10-cells. These methods combined with functional endothelial cell analyses might aid predictions on the performance of implant endothelialization in vivo. KW - Ageing KW - population doubling time KW - senescence-associated KW - beta-galactosidase KW - cell cycle inhibitors KW - p16 KW - p21 KW - Ki67 Y1 - 2022 U6 - https://doi.org/10.3233/CH-211294 SN - 1386-0291 SN - 1875-8622 VL - 81 IS - 3 SP - 191 EP - 203 PB - IOS Press CY - Amsterdam ER - TY - JOUR A1 - Tarazona Lizcano, Natalia Andrea A1 - Machatschek, Rainhard Gabriel A1 - Balcucho, Jennifer A1 - Castro-Mayorga, Jinneth Lorena A1 - Saldarriaga, Juan Francisco A1 - Lendlein, Andreas T1 - Opportunities and challenges for integrating the development of sustainable polymer materials within an international circular (bio)economy concept JF - MRS energy & sustainability : science & technology & socio-economics & policy N2 - The production and consumption of commodity polymers have been an indispensable part of the development of our modern society. Owing to their adjustable properties and variety of functions, polymer-based materials will continue playing important roles in achieving the Sustainable Development Goals (SDG)s, defined by the United Nations, in key areas such as healthcare, transport, food preservation, construction, electronics, and water management. Considering the serious environmental crisis, generated by increasing consumption of plastics, leading-edge polymers need to incorporate two types of functions: Those that directly arise from the demands of the application (e.g. selective gas and liquid permeation, actuation or charge transport) and those that enable minimization of environmental harm, e.g., through prolongation of the functional lifetime, minimization of material usage, or through predictable disintegration into non-toxic fragments. Here, we give examples of how the incorporation of a thoughtful combination of properties/functions can enhance the sustainability of plastics ranging from material design to waste management. We focus on tools to measure and reduce the negative impacts of plastics on the environment throughout their life cycle, the use of renewable sources for their synthesis, the design of biodegradable and/or recyclable materials, and the use of biotechnological strategies for enzymatic recycling of plastics that fits into a circular bioeconomy. Finally, we discuss future applications for sustainable plastics with the aim to achieve the SDGs through international cooperation.
Leading-edge polymer-based materials for consumer and advanced applications are necessary to achieve sustainable development at a global scale. It is essential to understand how sustainability can be incorporated in these materials via green chemistry, the integration of bio-based building blocks from biorefineries, circular bioeconomy strategies, and combined smart and functional capabilities. KW - biomaterial KW - degradable KW - functional KW - life cycle assessment KW - renewable KW - sustainability Y1 - 2022 U6 - https://doi.org/10.1557/s43581-021-00015-7 SN - 2329-2229 SN - 2329-2237 VL - 9 IS - 1 SP - 28 EP - 34 PB - Springer Nature CY - London ER - TY - JOUR A1 - Moradian, Hanieh A1 - Roch, Toralf A1 - Anthofer, Larissa A1 - Lendlein, Andreas A1 - Gossen, Manfred T1 - Chemical modification of uridine modulates mRNA-mediated proinflammatory and antiviral response in primary human macrophages JF - Molecular therapy N2 - In vitro transcribed (IVT)-mRNA has been accepted as a promising therapeutic modality. Advances in facile and rapid production technologies make IVT-mRNA an appealing alternative to protein- or virus-based medicines. Robust expression levels, lack of genotoxicity, and their manageable immunogenicity benefit its clinical applicability. We postulated that innate immune responses of therapeutically relevant human cells can be tailored or abrogated by combinations of 5'-end and internal IVT-mRNA modifications. Using primary human macrophages as targets, our data show the particular importance of uridine modifications for IVT-mRNA performance. Among five nucleotide modification schemes tested, 5-methoxy-uridine outperformed other modifications up to 4-fold increased transgene expression, triggering moderate proinflammatory and non-detectable antiviral responses. Macrophage responses against IVT-mRNAs exhibiting high immunogenicity (e.g., pseudouridine) could be minimized upon HPLC purification. Conversely, 5'-end modifications had only modest effects on mRNA expression and immune responses. Our results revealed how the uptake of chemically modified IVT-mRNA impacts human macrophages, responding with distinct patterns of innate immune responses concomitant with increased transient transgene expression. We anticipate our findings are instrumental to predictively address specific cell responses required for a wide range of therapeutic applications from eliciting controlled immunogenicity in mRNA vaccines to, e.g., completely abrogating cell activation in protein replacement therapies. Y1 - 2022 U6 - https://doi.org/10.1016/j.omtn.2022.01.004 SN - 2162-2531 VL - 27 SP - 854 EP - 869 PB - Cell Press CY - Cambridge ER -