Read by QxMD icon Read


Xiaowei Wu, Shang Zheng, Yuanzhou Ye, Yuchen Wu, Kaili Lin, Jiansheng Su
The reconstruction of bone defects by guiding autologous bone tissue regeneration with artificial biomaterials is a potential strategy in the area of bone tissue engineering. The development of new polymers with good biocompatibility, favorable mechanical properties, and osteoinductivity is of vital importance. Graphene and its derivatives have attracted extensive interests due to the exceptional physiochemical and biological properties of graphene. In this study, poly(lactic-co-glycolic acid) (PLGA) films incorporated by graphene nanoplates were fabricated...
March 21, 2018: Biomaterials Science
Andrea Pacifici, Luigi Laino, Marco Gargari, Federico Guzzo, Andrea Velandia Luz, Antonella Polimeni, Luciano Pacifici
Nowadays, autograft and allograft techniques represent the main solution to improve bone repair. Unfortunately, autograft technique is expensive, invasive and subject to infections and hematoma, frequently affecting both donor sites and surgical sites. A recent advance in tissue engineering is the fabrication of cell-laden hydrogels with custom-made geometry, depending on the clinical case. The use of ECM (Extra-Cellular Matrix)-derived Hydrogels from bone tissue is the new opportunity to obtain good results in bone regeneration...
2018: International Journal of Medical Sciences
Cornelia Wiegand, Andrea Völpel, Andrea Ewald, Markko Remesch, Jan Kuever, Janine Bauer, Stefanie Griesheim, Carolin Hauser, Julian Thielmann, Silke Tonndorf-Martini, Bernd W Sigusch, Jürgen Weisser, Ralf Wyrwa, Peter Elsner, Uta-Christina Hipler, Martin Roth, Carolin Dewald, Claudia Lüdecke-Beyer, Jörg Bossert
Bactericidal materials gained interest in the health care sector as they are capable of preventing material surfaces from microbial colonization and subsequent spread of infections. However, commercialization of antimicrobial materials requires proof of their efficacy, which is usually done using in vitro methods. The ISO 22196 standard (Japanese test method JIS Z 2801) is a method for measuring the antibacterial activity of daily goods. As it was found reliable for testing the biocidal activity of antimicrobially active materials and surface coatings most of the laboratories participating in this study used this protocol...
2018: PloS One
Ahasan Habib, Venkatachalem Sathish, Sanku Mallik, Bashir Khoda
Three-dimensional (3D) bio-printing is a revolutionary technology to reproduce a 3D functional living tissue scaffold in-vitro through controlled layer-by-layer deposition of biomaterials along with high precision positioning of cells. Due to its bio-compatibility, natural hydrogels are commonly considered as the scaffold material. However, the mechanical integrity of a hydrogel material, especially in 3D scaffold architecture, is an issue. In this research, a novel hybrid hydrogel, that is, sodium alginate with carboxymethyl cellulose (CMC) is developed and systematic quantitative characterization tests are conducted to validate its printability, shape fidelity and cell viability...
March 20, 2018: Materials
Kosaku Sawada, Ken Nakahara, Maiko Haga-Tsujimura, Tateyuki Iizuka, Masako Fujioka-Kobayashi, Kensuke Igarashi, Nikola Saulacic
This study aimed to evaluate the impact of three types of block bone substitute material on bone formation and graft resorption in vivo. Standardized bone defects (n = 4 defects/animal) were created in the calvaria of nine dogs. Block bone substitutes made of deproteinized bovine bone mineral (DBBM), beta-tricalcium phosphate (β-TCP) and a mixture alpha-TCP and hydroxyapatite (α-TCP/HA) were inserted into the bone defects. A fourth defect was left untreated (empty). All sites were covered with a collagenous membrane...
March 20, 2018: Odontology
Xue Han, Xiao Kuang, Zhenjie Wang, Xinyu Wang, Hongzhuo Liu
BACKGROUND: Hydroxyapatite(HA) was emerging as the most promising biomaterial owing to its excellent bioactivity, biocompatibility, and high compressive strength for segmental bone defects. However, due to the lack of synergistic signals of osteogenic cells or growth factors, attempts concerning HA have not achieved ideal therapeutical effect. OBJECTIVE: This work was intended to combine HA particles with nerve growth factor (NGF) to co-accelerate the bone repair...
March 19, 2018: Current Drug Delivery
Yu Ke, Caikun Liu, Yanting Wang, Meng Xiao, Jiachen Fan, Pengcheng Fu, Shuhao Wang, Gang Wu
Cell-loaded carboxymethylcellulose (CMC) microspheres were generated via a flow focusing microfluidic device, with a final aim to obtain viable ATDC5 aggregates with sustained proliferation capacity. We synthesized various CMC with phenolic groups (CMC-Ph) and demonstrated that high CMC-Ph molecular weight, high CMC-Ph concentration (>0.8 g/ml) or long culturing period had obvious inhibition effect on ATDC5 proliferation, but low horseradish peroxidase concentration (HRP, <0.4 mg/ml) did not. CMC-Ph gels being obtained through HRP/H2 O2 reaction showed an enhancing strength and decreasing break stain as the molecular weight of CMC-Ph increased, along with a decreasing gelation time...
March 20, 2018: Artificial Cells, Nanomedicine, and Biotechnology
Feng Fu, Xiang Zhu, Zhe Qin, Jing-Jing Wang, Chao Xu, Li-Na Wang, Yue Tu, Sai Zhang, Rui-Xin Li, Xiao-Hong Li, Ming-Liang Zhao
Degradation rate is an important index for evaluating biomaterials. The authors' aim was to determine whether the degradation rate of biomaterials is different in distinct tissues and to clarify the underlying mechanism of degradation. The collagen-chitosan (CG-CS) composite scaffolds were prepared using freeze-drying technology. The porosity, water absorption and swelling ratio of the scaffolds were tested in vitro. The scaffolds were implanted into the subcutis, spinal cord and brain tissues of SD rats, the rate of degradation was assessed by continuous monitoring of weight loss, the pathological changes of target areas were observed by histological staining, and matrix metalloproteinase 9 (MMP-9) and lysozyme were detected at the rapid stage of degradation of the scaffolds...
March 19, 2018: Journal of Materials Science. Materials in Medicine
Yunlei Zhang, Wei Ji, Lian He, Yiyan Chen, Xuezhi Ding, Yunjun Sun, Shengbiao Hu, Huijun Yang, Weitao Huang, Youming Zhang, Fei Liu, Liqiu Xia
Purpose: Systemic administration of free chemotherapeutic drugs leads to severe toxic effects, and physiological characteristics of solid tumors restrain the drugs from reaching the hypoxic regions. E. coli Nissle 1917 (EcN) has been known to penetrate the barrier and proliferate in the interface between the viable and necrotic regions of tumors. This study aimed to fabricate a nanoscale minicell via genetic engineering of EcN for targeted delivery of chemotherapeutic drugs to the hypoxic regions of tumors for cancer therapy...
2018: Theranostics
Davoud Mozhdehi, Kelli M Luginbuhl, Joseph R Simon, Michael Dzuricky, Rüdiger Berger, H Samet Varol, Fred C Huang, Kristen L Buehne, Nicholas R Mayne, Isaac Weitzhandler, Mischa Bonn, Sapun H Parekh, Ashutosh Chilkoti
Post-translational modification of proteins is a strategy widely used in biological systems. It expands the diversity of the proteome and allows for tailoring of both the function and localization of proteins within cells as well as the material properties of structural proteins and matrices. Despite their ubiquity in biology, with a few exceptions, the potential of post-translational modifications in biomaterials synthesis has remained largely untapped. As a proof of concept to demonstrate the feasibility of creating a genetically encoded biohybrid material through post-translational modification, we report here the generation of a family of three stimulus-responsive hybrid materials-fatty-acid-modified elastin-like polypeptides-using a one-pot recombinant expression and post-translational lipidation methodology...
March 19, 2018: Nature Chemistry
Xiaofan Jin, Ingmar H Riedel-Kruse
Bacterial biofilms represent a promising opportunity for engineering of microbial communities. However, our ability to control spatial structure in biofilms remains limited. Here we engineer Escherichia coli with a light-activated transcriptional promoter (pDawn) to optically regulate expression of an adhesin gene (Ag43). When illuminated with patterned blue light, long-term viable biofilms with spatial resolution down to 25 μm can be formed on a variety of substrates and inside enclosed culture chambers without the need for surface pretreatment...
March 19, 2018: Proceedings of the National Academy of Sciences of the United States of America
Jinshan Guo, Wei Sun, Jimin Peter Kim, Xili Lu, Qiyao Li, Min Lin, Oliver Mrowczynski, Elias B Rizk, Juange Cheng, Guoying Qian, Jian Yang
Tissue adhesives play an important role in surgery to close wounds, seal tissues, and stop bleeding, but existing adhesives are costly, cytotoxic, or bond weakly to tissue. Inspired by the water-resistant adhesion of plant-derived tannins, we herein report a new family of bioadhesives derived from a facile, one-step Michael addition of tannic acid and gelatin under oxidizing conditions and crosslinked by silver nitrate. The oxidized polyphenol groups of tannic acid enable wet tissue adhesion through catecholamine-like chemistry, while both tannic acid and silver nanoparticles reduced from silver nitrate provide antimicrobial sources inherent within the polymeric network...
March 16, 2018: Acta Biomaterialia
Ashang Luwang Laiva, Rosanne M Raftery, Michael B Keogh, Fergal J O'Brien
Ensuring an adequate angiogenic response during wound healing is a prevailing clinical challenge in biomaterials science. To address this, we aimed to develop a pro-angiogenic gene-activated scaffold (GAS) that could activate MSCs to produce paracrine factors and influence angiogenesis and wound repair. A non-viral polyethyleneimine (PEI) nanoparticles carrying a gene encoding for stromal derived factor-1 alpha (SDF-1α) was combined with a collagen-chondroitin sulfate scaffold to produce the GAS. The ability of this platform to enhance the angiogenic potential of mesenchymal stem cells (MSCs) was then assessed...
March 16, 2018: International Journal of Pharmaceutics
Jiayin Fu, Dong-An Wang
Other than a few avascular tissues, almost all human tissues are connected to the systemic circulation via blood vessels that promote metabolism and function. Accordingly, engineered vascularization is a vital goal in tissue engineering for regenerative medicine. Endothelial cells (ECs) play a central role in vascularization with two significant specificities: physical interfaces between vascular stroma and blood, and phenotypic organ-specificity. Biomaterial scaffolding technologies that address these unique properties of ECs have been developed to promote the vascularization of various engineered tissues, and these have advanced from mimicking vascular architectures ex situ towards promoting spontaneous angiogenic remodeling in situ...
March 16, 2018: Trends in Biotechnology
Syuuhei Komatsu, Yui Ikedo, Taka-Aki Asoh, Ryo Ishihara, Akihiko Kikuchi
Organic-inorganic CaCO3 capsules were prepared by crystallization of CaCO3 on Pickering emulsion prepared using coacervate droplets made from thermoresponsive and degradable poly(2-methylene-1,3-dioxepane-co-2-hydroxyethyl acrylate) (poly(MDO-co-HEA)) in sole aqueous medium. The diameters of CaCO3-based Pickering emulsion could be controlled by varying several parameters: diameter of CaCO3 powders, initial polymer concentration, and copolymer composition. The CaCO3 Pickering emulsion was able to load low-molecular-weight hydrophobic substances at temperatures above the lower critical solution temperature (LCST) due to formation of polymer-concentrated phases, i...
March 19, 2018: Langmuir: the ACS Journal of Surfaces and Colloids
Myeongsang Lee, Hyunsung Choi, Gwonchan Yoon, Sungsoo Na
Experimental force spectroscopy has been effectively utilized for measuring structural characterization of biomolecules and mechanical properties of biomaterials. Specifically, atomic force microscopy (AFM) has been widely used to portray biomolecular characterization in single-molecule experiment by observing the unfolding behavior of the proteins. Not only the experimental techniques enable us to characterize globular protein, but computational methods like molecular dynamics (MD) also gives insight into understanding biomolecular structures...
March 12, 2018: Journal of Molecular Graphics & Modelling
O Guillaume, R Pérez-Tanoira, R Fortelny, H Redl, T F Moriarty, R G Richards, D Eglin, A Petter Puchner
The incidence of mesh-related infection after abdominal wall hernia repair is low, generally between 1 and 4%; however, worldwide, this corresponds to tens of thousands of difficult cases to treat annually. Adopting best practices in prevention is one of the keys to reduce the incidence of mesh-related infection. Once the infection is established, however, only a limited number of options are available that provides an efficient and successful treatment outcome. Over the past few years, there has been a tremendous amount of research dedicated to the functionalization of prosthetic meshes with antimicrobial properties, with some receiving regulatory approval and are currently available for clinical use...
March 12, 2018: Biomaterials
Adriely Goes, Gregor Fuhrmann
Biogenic and biomimetic therapeutics are a relatively new class of systems that are of physiological origin and/or take advantage of natural pathways, or aim at mimicking these to improve selective interaction with target tissue. The number of biogenic and bioengineered avenues for drug therapy and diagnostics has multiplied over the past years for many applications, indicating the high expectations associated with this biological route. Nevertheless, the use of "bio"-related approaches for treating or diagnosing infectious diseases is still rare...
March 19, 2018: ACS Infectious Diseases
Mitchell S Weisenberger, Tara L Deans
Synthetic biologists use engineering principles to design and construct genetic circuits for programming cells with novel functions. A bottom-up approach is commonly used to design and construct genetic circuits by piecing together functional modules that are capable of reprogramming cells with novel behavior. While genetic circuits control cell operations through the tight regulation of gene expression, a diverse array of environmental factors within the extracellular space also has a significant impact on cell behavior...
March 19, 2018: Journal of Industrial Microbiology & Biotechnology
Sidónio C Freitas, Alejandra Correa-Uribe, M Cristina L Martins, Alejandro Pelaez-Vargas
Implant-based therapy is a mature approach to recover the health conditions of patients affected by edentulism. Thousands of dental implants are placed each year since their introduction in the 80s. However, implantology faces challenges that require more research strategies such as new support therapies for a world population with a continuous increase of life expectancy, to control periodontal status and new bioactive surfaces for implants. The present review is focused on self-assembled monolayers (SAMs) for dental implant materials as a nanoscale-processing approach to modify titanium surfaces...
2018: International Journal of Dentistry
Fetch more papers »
Fetching more papers... Fetching...
Read by QxMD. Sign in or create an account to discover new knowledge that matter to you.
Remove bar
Read by QxMD icon Read

Search Tips

Use Boolean operators: AND/OR

diabetic AND foot
diabetes OR diabetic

Exclude a word using the 'minus' sign

Virchow -triad

Use Parentheses

water AND (cup OR glass)

Add an asterisk (*) at end of a word to include word stems

Neuro* will search for Neurology, Neuroscientist, Neurological, and so on

Use quotes to search for an exact phrase

"primary prevention of cancer"
(heart or cardiac or cardio*) AND arrest -"American Heart Association"