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3. Skeletal Phenotyping of Period‐1‐Deficient Melatonin‐Proficient Mice.

Author

Bahlmann, Olaf, Taheri, Shahed, Spaeth, Manuela, Schröder, Katrin, Schilling, Arndt F., Dullin, Christian, and Maronde, Erik

Subjects
*BONE density, *CLOCK genes, *MOLECULAR clock, *HINDLIMB, *BODY size
Abstract

In mice, variability in adult bone size and density has been observed among common inbred strains. Also, in the group of genes regulating circadian rhythmicity in mice, so called clock genes, changes in body size and skeletal parameters have been noted in knockout mice. Here, we studied the size and density of prominent bones of the axial and appendicular skeleton of clock gene Period‐1‐deficient (Per1‐/‐) mice by means of microcomputed tomography. Our data show shorter spinal length, smaller and less dense femora and tibiae, but no significant changes in the shape of the skull and the length of the head. Together with the significantly lower total body weight of Per1‐/‐ mice, we conclude that Per1‐deficiency in a melatonin‐proficient mouse strain is associated with an altered body phenotype with smaller appendicular (hind limb) bone size, shorter spine length and lower total body weight while normal head length and brain weight. The observed changes suggest an involvement of secondary bone mineralisation with impact on long bones, but lesser impact on those of the skull. Evidence and overall physiological implications of these findings are discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Generation and evaluation of input values for computational analysis of transport processes within tissue cultures

Author

Fattahi, Ehsan, Taheri, Shahed, Schilling, Arndt F., Becker, Thomas, and Pörtner, Ralf

Subjects
computational models, transport processes, experimental techniques, organotypic tissue cultures, Ingenieurwissenschaften [620], ddc:620, ddc:600, Technik [600], fluidics
Abstract

Techniques for tissue culture have seen significant advances during the last decades and novel 3D cell culture systems have become available. To control their high complexity, experimental techniques and their Digital Twins (modelling and computational tools) are combined to link different variables to process conditions and critical process parameters. This allows a rapid evaluation of the expected product quality. However, the use of mathematical simulation and Digital Twins is critically dependent on the precise description of the problem and correct input parameters. Errors here can lead to dramatically wrong conclusions. The intention of this review is to provide an overview of the state-of-the-art and remaining challenges with respect to generating input values for computational analysis of mass and momentum transport processes within tissue cultures. It gives an overview on relevant aspects of transport processes in tissue cultures as well as modelling and computational tools to tackle these problems. Further focus is on techniques used for the determination of cell-specific parameters and characterization of culture systems, including sensors for on-line determination of relevant parameters. In conclusion, tissue culture techniques are well-established, and modelling tools are technically mature. New sensor technologies are on the way, especially for organ chips. The greatest remaining challenge seems to be the proper addressing and handling of input parameters required for mathematical models. Following Good Modelling Practice approaches when setting up and validating computational models is, therefore, essential to get to better estimations of the interesting complex processes inside organotypic tissue cultures in the future.

Published
2022

7. Epigenetic mechanotransduction between chondrocytes and osteoblasts via extracellular vesicles

Author

Böker, Kai O., Shang, Xiaobin, Taheri, Shahed, Lehmann, Wolfgang, and Schilling, Arndt F.

Subjects
Medicine and health, Exosomes, extracellular vesicles, miRNA
Abstract

Objectives: Osteoarthritis (OA) is described as an inflammation of bone that has spread to the joint. A close physical connection between subchondral bone and cartilage suggests biochemical and molecular interaction pathways at the bone-cartilage interface. In addition, extracellular vesicles (EVs) [for full text, please go to the a.m. URL]

Published
2022
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8. MR-Imaging in Osteoarthritis: Current Standard of Practice and Future Outlook.

Author

Ehmig, Jonathan, Engel, Günther, Lotz, Joachim, Lehmann, Wolfgang, Taheri, Shahed, Schilling, Arndt F., Seif Amir Hosseini, Ali, and Panahi, Babak

Subjects
MAGNETIC resonance imaging, OSTEOARTHRITIS, DEEP learning
Abstract

Osteoarthritis (OA) is a common degenerative joint disease that affects millions of people worldwide. Magnetic resonance imaging (MRI) has emerged as a powerful tool for the evaluation and monitoring of OA due to its ability to visualize soft tissues and bone with high resolution. This review aims to provide an overview of the current state of MRI in OA, with a special focus on the knee, including protocol recommendations for clinical and research settings. Furthermore, new developments in the field of musculoskeletal MRI are highlighted in this review. These include compositional MRI techniques, such as T2 mapping and T1rho imaging, which can provide additional important information about the biochemical composition of cartilage and other joint tissues. In addition, this review discusses semiquantitative joint assessment based on MRI findings, which is a widely used method for evaluating OA severity and progression in the knee. We analyze the most common scoring methods and discuss potential benefits. Techniques to reduce acquisition times and the potential impact of deep learning in MR imaging for OA are also discussed, as these technological advances may impact clinical routine in the future. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Reduced Cell Adhesion on LightPLAS-Coated Implant Surfaces in a Three-Dimensional Bioreactor System.

Author

Böker, Kai Oliver, Gätjen, Linda, Dölle, Christopher, Vasic, Katarina, Taheri, Shahed, Lehmann, Wolfgang, and Schilling, Arndt Friedrich

Subjects
CELL adhesion, TRAUMA surgery, CELL culture, SURFACE coatings, FLUID flow, WELL-being
Abstract

Most implants used in trauma surgery are made of steel and remain inside the body only temporarily. The strong tissue interaction of such implants sometimes creates problems with their explantation. Modified implant surfaces, which decrease tissue attachment, might allow an easier removal and therefore a better outcome. Such a modification must retain the implant function, and needs to be biocompatible and cost-effective. Here, we used a novel VUV-light (Vacuum-Ultraviolett)-based coating technology (LightPLAS) to generate coated stainless-steel plates. The tested LightPLAS coating only had an average thickness of around 335 nm, making it unlikely to interfere with implant function. The coated plates showed good biocompatibility according to ISO 10993-5 and ISO 10993-12, and reduced cell adhesion after four different time points in a 2D cell culture system with osteoblast-like MG-63 cells. Furthermore, we could show decreased cell adhesion in our 3D cell culture system, which mimics the fluid flow above the implant materials as commonly present in the in vivo environment. This new method of surface coating could offer extended options to design implant surfaces for trauma surgery to reduce cell adhesion and implant ingrowth. This may allow for a faster removal time, resulting in shorter overall operation times, thereby reducing costs and complication rates and increasing patient wellbeing. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Extracellular Vesicles Allow Epigenetic Mechanotransduction between Chondrocytes and Osteoblasts

Author

Shang, Xiaobin, Böker, Kai Oliver, Taheri, Shahed, Lehmann, Wolfgang, and Schilling, Arndt F.

Subjects
mechanical loading, Osteoblasts, microRNA, QH301-705.5, Cell Communication, Mechanotransduction, Cellular, Article, Coculture Techniques, Epigenesis, Genetic, Rats, cell–cell communication, Disease Models, Animal, MicroRNAs, osteoarthritis, Chemistry, Chondrocytes, Animals, Computer Simulation, Rats, Wistar, Biology (General), extracellular vesicles, QD1-999, Cells, Cultured
Abstract

MicroRNAs (miRNAs) can be transported in extracellular vesicles (EVs) and are qualified as possible messengers for cell-cell communication. In the context of osteoarthritis (OA), miR-221-3p has been shown to have a mechanosensitive and a paracrine function inside cartilage. However, the question remains if EVs with miR-221-3p can act as molecular mechanotransducers between cells of different tissues. Here, we studied the effect of EV-mediated transport in the communication between chondrocytes and osteoblasts in vitro in a rat model. In silico analysis (Targetscan, miRWalk, miRDB) revealed putative targets of miRNA-221-3p (CDKN1B/p27, TIMP-3, Tcf7l2/TCF4, ARNT). Indeed, transfection of miRNA-221-3p in chondrocytes and osteoblasts resulted in regulation of these targets. Coculture experiments of transfected chondrocytes with untransfected osteoblasts not only showed regulation of these target genes in osteoblasts but also inhibition of their bone formation capacity. Direct treatment with chondrocyte-derived EVs validated that chondrocyte-produced extracellular miR-221-3p was responsible for this effect. Altogether, our study provides a novel perspective on a possible communication pathway of a mechanically induced epigenetic signal through EVs. This may be important for processes at the interface of bone and cartilage, such as OA development, physiologic joint homeostasis, growth or fracture healing, as well as for other tissue interfaces with differing biomechanical properties.

Published
2021

14. Laser Ablated Periodic Nanostructures on Titanium and Steel Implants Influence Adhesion and Osteogenic Differentiation of Mesenchymal Stem Cells

Author

Böker, Kai Oliver, Kleinwort, Frederick, Klein-Wiele, Jan-Hendrick, Simon, Peter, Jäckle, Katharina, Taheri, Shahed, Lehmann, Wolfgang, and Schilling, Arndt F.

Subjects
titanium, steel, implant, laser beam interference ablation, surface nano-topography, nano-topology, stem cell, bone, osteoblast, periodic nano-structures, lcsh:QH201-278.5, lcsh:T, lcsh:Technology, Article, lcsh:TA1-2040, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:Engineering (General). Civil engineering (General), lcsh:Microscopy, lcsh:TK1-9971, lcsh:QC120-168.85
Abstract

Metal implants used in trauma surgeries are sometimes difficult to remove after the completion of the healing process due to the strong integration with the bone tissue. Periodic surface micro- and nanostructures can directly influence cell adhesion and differentiation on metallic implant materials. However, the fabrication of such structures with classical lithographic methods is too slow and cost-intensive to be of practical relevance. Therefore, we used laser beam interference ablation structuring to systematically generate periodic nanostructures on titanium and steel plates. The newly developed laser process uses a special grating interferometer in combination with an industrial laser scanner and ultrashort pulse laser source, allowing for fast, precise, and cost-effective modification of metal surfaces in a single step process. A total of 30 different periodic topologies reaching from linear over crossed to complex crossed nanostructures with varying depths were generated on steel and titanium plates and tested in bone cell culture. Reduced cell adhesion was found for four different structure types, while cell morphology was influenced by two different structures. Furthermore, we observed impaired osteogenic differentiation for three structures, indicating reduced bone formation around the implant. This efficient way of surface structuring in combination with new insights about its influence on bone cells could lead to newly designed implant surfaces for trauma surgeries with reduced adhesion, resulting in faster removal times, reduced operation times, and reduced complication rates. Open-Access-Publikationsfonds 2020 peerReviewed

Published
2020

15. Current State of Bone Adhesives—Necessities and Hurdles

Author

Böker, Kai O., Richter, Katharina, Jäckle, Katharina, Taheri, Shahed, Grunwald, Ingo, Borcherding, Kai, von Byern, Janek, Hartwig, Andreas, Wildemann, Britt, Schilling, Arndt F., and Lehmann, Wolfgang

Subjects
adhesive, fracture, bioadhesive, bone, glue, osteosynthesis, Review
Abstract

The vision of gluing two bone fragments with biodegradable and biocompatible adhesives remains highly fascinating and attractive to orthopedic surgeons. Possibly shorter operation times, better stabilization, lower infection rates, and unnecessary removal make this approach very appealing. After 30 years of research in this field, the first adhesive systems are now appearing in scientific reports that may fulfill the comprehensive requirements of bioadhesives for bone. For a successful introduction into clinical application, special requirements of the musculoskeletal system, challenges in the production of a bone adhesive, as well as regulatory hurdles still need to be overcome. In this article, we will give an overview of existing synthetic polymers, biomimetic, and bio-based adhesive approaches, review the regulatory hurdles they face, and discuss perspectives of how bone adhesives could be efficiently introduced into clinical application, including legal regulations. Open-Access-Publikationsfonds 2019 peerReviewed

Published
2019

16. Graft copolymerization of acrylic acid on to styrene butadiene rubber (SBR) to improve morphology and mechanical properties of SBR/polyurethane blend.

Author

Taheri, Shahed, Hassani, Yones, Sadeghi, Gity Mir Mohamad, Moztarzadeh, Fathollah, and Li, Mei‐Chun

Subjects
COPOLYMERIZATION, ACRYLIC acid, POLYBUTADIENE, MECHANICAL properties of metals, POLYURETHANES
Abstract

ABSTRACT Graft copolymerization of acrylic acid (AA) on to styrene butadiene rubber (SBR) is carried out via free radical polymerization using benzoyl peroxide (BPO) as initiator. Graft yield ( GY) and graft efficiency ( GE) measurements reveal that the optimum grafting is achieved when 100 wt % of AA and 3 wt % of BPO are used for a reaction time of 6 h at 60 °C. The execution of the grafting process is confirmed through ATR-IR spectroscopy and DMTA analysis. Tan δ thermograms indicate that the graft copolymerization occurs in the styrene segments of the SBR backbone. An in situ polymerized, semicrystalline polyurethane (PU) is then used to prepare a series of SBR-g-PAA/PU blends. It is found that the SBR-g-PAA with the highest GY exhibits the best compatibility with PU matrix. One-phase morphology (SEM), as well as the appearance of only one glass transition (DMTA) verify the homogeneous miscibility of the modified blend compositions. Moreover, the integration of PUs crystalline structure into blends gives rise to elongation-induced crystallinity as the prominent phenomenon in tensile testing, which proves to synchronously enhance tensile strength, modulus, elongation at break, and toughness. © 2016 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2016, 133, 43699. [ABSTRACT FROM AUTHOR]

Published
2016
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17. The Interaction between microRNAs and the Wnt/β-Catenin Signaling Pathway in Osteoarthritis.

Author

Shang, Xiaobin, Böker, Kai Oliver, Taheri, Shahed, Hawellek, Thelonius, Lehmann, Wolfgang, and Schilling, Arndt F.

Subjects
CELLULAR signal transduction, MICRORNA, OSTEOARTHRITIS, PATHOGENESIS, NON-coding RNA, WNT signal transduction
Abstract

Osteoarthritis (OA) is a chronic disease affecting the whole joint, which still lacks a disease-modifying treatment. This suggests an incomplete understanding of underlying molecular mechanisms. The Wnt/β-catenin pathway is involved in different pathophysiological processes of OA. Interestingly, both excessive stimulation and suppression of this pathway can contribute to the pathogenesis of OA. microRNAs have been shown to regulate different cellular processes in different diseases, including the metabolic activity of chondrocytes and osteocytes. To bridge these findings, here we attempt to give a conclusive overview of microRNA regulation of the Wnt/β-catenin pathway in bone and cartilage, which may provide insights to advance the development of miRNA-based therapeutics for OA treatment. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Developmental Transformation and Reduction of Connective Cavities within the Subchondral Bone.

Author

Taheri, Shahed, Winkler, Thomas, Schenk, Lia Sabrina, Neuerburg, Carl, Baumbach, Sebastian Felix, Zustin, Jozef, Lehmann, Wolfgang, and Schilling, Arndt F.

Subjects
*OSTEOARTHRITIS, *BONE plates (Orthopedics), *JOINT injuries, *BONE marrow, *COMPUTED tomography
Abstract

It is widely accepted that the subchondral bone (SCB) plays a crucial role in the physiopathology of osteoarthritis (OA), although its contribution is still debated. Much of the pre-clinical research on the role of SCB is concentrated on comparative evaluations of healthy vs. early OA or early OA vs. advanced OA cases, while neglecting how pure maturation could change the SCB's microstructure. To assess the transformations of the healthy SCB from young age to early adulthood, we examined the microstructure and material composition of the medial condyle of the femur in calves (three months) and cattle (18 months) for the calcified cartilage (CC) and the subchondral bone plate (SCBP). The entire subchondral zone (SCZ) was significantly thicker in cattle compared to calves, although the proportion of the CC and SCBP thicknesses were relatively constant. The trabecular number (Tb.N.) and the connectivity density (Conn.D) were significantly higher in the deeper region of the SCZ, while the bone volume fraction (BV/TV), and the degree of anisotropy (DA) were more affected by age rather than the region. The mineralization increased within the first 250 µm of the SCZ irrespective of sample type, and became stable thereafter. Cattle exhibited higher mineralization than calves at all depths, with a mean Ca/P ratio of 1.59 and 1.64 for calves and cattle, respectively. Collectively, these results indicate that the SCZ is highly dynamic at early age, and CC is the most dynamic layer of the SCZ. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Electrospinning based biomaterials for biomimetic fabrication, bioactive protein delivery and wound regenerative repair.

Author

Dai X, Nie W, Shen H, Machens HG, Böker K, Taheri S, Lehmann W, Shen Y, and Schilling AF

Abstract

Electrospinning is a remarkably straightforward and adaptable technique that can be employed to process an array of synthetic and natural materials, resulting in the production of nanoscale fibers. It has emerged as a novel technique for biomedical applications and has gained increasing popularity in the research community in recent times. In the context of tissue repair and tissue engineering, there is a growing tendency toward the integration of biomimetic scaffolds and bioactive macromolecules, particularly proteins and growth factors. The design of 'smart' systems provides not merely physical support, but also microenvironmental cues that can guide regenerative tissue repair. Electrospun nanofibrous matrices are regarded as a highly promising tool in this area, as they can serve as both an extracellular matrix (ECM)-mimicking scaffold and a vehicle for the delivery of bioactive proteins. Their highly porous architecture and high surface-to-volume ratio facilitate the loading of drugs and mass transfer. By employing a judicious selection of materials and processing techniques, there is considerable flexibility in efficiently customizing nanofiber architecture and incorporating bioactive proteins. This article presents a review of the strategies employed for the structural modification and protein delivery of electrospun nanofibrous materials, with a focus on the objective of achieving a tailored tissue response. The article goes on to discuss the challenges currently facing the field and to suggest future research directions., (© The Author(s) 2024. Published by Oxford University Press.)

Published
2024
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20. β2-Adrenoceptor Deficiency Results in Increased Calcified Cartilage Thickness and Subchondral Bone Remodeling in Murine Experimental Osteoarthritis.

Author

Rösch G, Muschter D, Taheri S, El Bagdadi K, Dorn C, Meurer A, Zaucke F, Schilling AF, Grässel S, Straub RH, and Jenei-Lanzl Z

Subjects
Animals, Biomarkers, Cartilage, Articular diagnostic imaging, Disease Models, Animal, Disease Susceptibility, Enzyme-Linked Immunosorbent Assay, Gene Expression, Genetic Predisposition to Disease, Immunohistochemistry, Leptin blood, Male, Mice, Mice, Knockout, Osteoarthritis, Knee diagnostic imaging, Osteoarthritis, Knee metabolism, Osteoblasts metabolism, Osteophyte genetics, Osteophyte metabolism, Receptors, Adrenergic, beta-2 genetics, Receptors, Adrenergic, beta-2 metabolism, Severity of Illness Index, Synovitis diagnosis, X-Ray Microtomography, Bone Remodeling genetics, Cartilage, Articular metabolism, Cartilage, Articular pathology, Osteoarthritis, Knee etiology, Osteoarthritis, Knee pathology, Receptors, Adrenergic, beta-2 deficiency
Abstract

Purpose: Recent studies demonstrated a contribution of adrenoceptors (ARs) to osteoarthritis (OA) pathogenesis. Several AR subtypes are expressed in joint tissues and the β2-AR subtype seems to play a major role during OA progression. However, the importance of β2-AR has not yet been investigated in knee OA. Therefore, we examined the development of knee OA in β2-AR-deficient ( Adrb2 -/- ) mice after surgical OA induction., Methods: OA was induced by destabilization of the medial meniscus (DMM) in male wildtype (WT) and Adrb2 -/- mice. Cartilage degeneration and synovial inflammation were evaluated by histological scoring. Subchondral bone remodeling was analyzed using micro-CT. Osteoblast (alkaline phosphatase - ALP) and osteoclast (cathepsin K - CatK) activity were analyzed by immunostainings. To evaluate β2-AR deficiency-associated effects, body weight, sympathetic tone (splenic norepinephrine (NE) via HPLC) and serum leptin levels (ELISA) were determined. Expression of the second major AR, the α2-AR, was analyzed in joint tissues by immunostaining., Results: WT and Adrb2 -/- DMM mice developed comparable changes in cartilage degeneration and synovial inflammation. Adrb2 -/- DMM mice displayed elevated calcified cartilage and subchondral bone plate thickness as well as increased epiphyseal BV/TV compared to WTs, while there were no significant differences in Sham animals. In the subchondral bone of Adrb2 -/- mice, osteoblasts activity increased and osteoclast activity deceased. Adrb2 -/- mice had significantly higher body weight and fat mass compared to WT mice. Serum leptin levels increased in Adrb2 -/- DMM compared to WT DMM without any difference between the respective Shams. There was no difference in the development of meniscal ossicles and osteophytes or in the subarticular trabecular microstructure between Adrb2 -/- and WT DMM as well as Adrb2 -/- and WT Sham mice. Number of α2-AR-positive cells was lower in Adrb2 -/- than in WT mice in all analyzed tissues and decreased in both Adrb2 -/- and WT over time., Conclusion: We propose that the increased bone mass in Adrb2 -/- DMM mice was not only due to β2-AR deficiency but to a synergistic effect of OA and elevated leptin concentrations. Taken together, β2-AR plays a major role in OA-related subchondral bone remodeling and is thus an attractive target for the exploration of novel therapeutic avenues., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Rösch, Muschter, Taheri, El Bagdadi, Dorn, Meurer, Zaucke, Schilling, Grässel, Straub and Jenei-Lanzl.)

Published
2022
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