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Topic Review
Advances in Multifunctional Bioactive Coatings
This entry outlines the main materials used for metal implant manufacturing and some general coating techniques. It focuses on recent trends in the design and performance of biomedical coatings for metallic implants used for orthopedic and dental applications. The ways of improving the bioactive coating performance by incorporating bioactive moieties such as growth factors, osteogenic factors, immunomodulatory factors, antibiotics, or other drugs that are locally released in a controlled manner have also been addressed. The influence of the bioactive films on in vitro behavior of cells cultured on coated implants and in vitro/in vivo performance of the implant systems is underlined.
  • 1.0K
  • 04 Jan 2023
Topic Review
Supercritical Carbon-di-Oxide Technology for Polymeric-Particles
Supercritical carbon dioxide (SC-CO2)  based techniques can be exploited for the formulation of polymeric nanocarriers, limiting the use of toxic organic solvent. The currently approved FDA pharmaceutical polymers like PLA and PLGA particles can be obtained in the micro-and nanometer range by techniques that involve SC-CO2 as solvent (RESS, RESOLV), anti-solvent (SAS, SEDS, SAILA) or extractant (SFEE), depending on the SC-CO2 compatibility with the system materials and the final product.
  • 1.0K
  • 27 Apr 2021
Topic Review
Sutures' Structure and Application
With the increasing demand for wound healing around the world, the level of medical equipment is also increasing, but sutures are still the preferred medical equipment for medical personnel to solve wound closures. Compared with the traditional sutures, the nanofiber sutures produced by combining the preparation technology of drug-eluting sutures have greatly improved both mechanical properties and biological properties. Electrospinning technology has attracted more attention as one of the most convenient and simple methods for preparing functional nanofibers and the related sutures. Medical sutures refer to special medical threads used in surgery to stop bleeding, which can hold the surrounding tissues of the wound together or squeeze blood vessels to achieve hemostasis. For soft tissues such as skin, muscles, tendons and ligaments, the wound repair device used needs to be highly elastic and flexible. 
  • 1.0K
  • 07 May 2022
Topic Review
Translational Formulation Technologies for Cancer-Therapy
Over the past few decades, the field of cancer therapy has seen a significant change in the way in which formulations are designed and developed, resulting in more efficient products that allow us to ultimately achieve improved drug bioavailability, efficacy, and safety. However, although many formulations have entered the market, many others have fallen by the wayside leaving the scientific community with several lessons to learn.
  • 1.0K
  • 16 Nov 2020
Topic Review
Application of the Functionalized Bacterial Nanocellulose in Biosensors
A biosensor is an analytical device capable of transforming biochemical responses into measurable signals. Nanocellulose biosynthesized from bacteria, known as bacterial nanocellulose (BNC), is a potential alternative source to the other cellulose classes. Its high water-holding capacity, high degree of polymerization, intrinsic nanostructure, high crystallinity, high mechanical strength, and low cost and sustainable enhanced production contribute to its versatility. Studies have shown that these particular features of BNC, paired with its biocompatibility, make this material an attractive candidate for a wide array of applications (e.g., biomedical, pharmaceutical, biotechnology, cosmetics, food, textile, and even electronics). 
  • 1.0K
  • 06 Feb 2023
Topic Review
Ionic Liquid-Based Materials, Biomedical Applications
Ionic liquids (ILs) are being applied in a wide range of areas such as sensors and actuators. The increasing attention devoted to ILs is based on their unique properties and possible combination of different cations and anions, allowing the development of materials with specific functionalities and requirements for applications. In recent years, ILs have also been gaining attention in the biomedical field, where they allow important advances in novel pharmaceutics and medical strategies. 
  • 1.0K
  • 30 Sep 2021
Topic Review
Types of Membrane Vesicles Acting as Tumor Vaccines
Membrane vesicles, a group of nano- or microsized vesicles, can be internalized or interact with the recipient cells, depending on their parental cells, size, structure and content. Membrane vesicles fuse with the target cell membrane, or they bind to the receptors on the cell surface, to transfer special effects. Based on versatile features, they can modulate the functions of immune cells and therefore influence immune responses. In the field of tumor therapeutic applications, phospholipid-membrane-based nanovesicles attract increased interest. Academic institutions and industrial companies are putting in effort to design, modify and apply membrane vesicles as potential tumor vaccines contributing to tumor immunotherapy. 
  • 1.0K
  • 28 Nov 2022
Topic Review
Core–Shell Structures with Fe3O4 Core for Biomedical Applications
Core–shell nanoparticles are functional materials with tailored properties, able to improve the requirements of various applications. Both core and shell components can be inorganic or organic, and there are numerous studies in this field regarding their synthesis methods, properties, and applications. 
  • 1.0K
  • 28 Jun 2023
Topic Review
Two-Dimensional Theranostic Nanomaterials in Cancer
As the combination of therapies enhances the performance of biocompatible materials in cancer treatment, theranostic therapies are attracting increasing attention rather than individual approaches.
  • 1.0K
  • 18 Feb 2021
Topic Review
Theranostic Applications of Nanodecoy for Diseases
Nanoparticles (NPs) designed for various theranostic purposes have hugely impacted scientific research in the field of biomedicine, bringing forth hopes of a future revolutionized area called nanomedicine. A budding advancement in this area is the conjugation of various cell membranes onto nanoparticles to develop biomimetic cells called ‘Nanodecoys’ (NDs), which can imitate the functioning of natural cells. This technology of coating cell membranes on NPs has enhanced the working capabilities of nano-based techniques by initiating effective navigation within the bodily system. Due to the presence of multiple functional moieties, nanoparticles coated with cell membranes hold the ability to interact with complex biological microenvironments inside the body with ease.
  • 1.0K
  • 10 Jan 2023
Topic Review
Sustainable Inks for Printed Electronics
The demand for electronics and, therefore, electronic waste, has increased. To reduce this electronic waste and the impact of this sector on the environment, it is necessary to develop biodegradable systems using naturally produced materials with low impact on the environment or systems that can degrade in a certain period. One way to manufacture these types of systems is by using printed electronics because the inks and the substrates used are sustainable. Printed electronics involve different methods of deposition, such as screen printing or inkjet printing. Depending on the method of deposition selected, the developed inks should have different properties, such as viscosity or solid content. To produce sustainable inks, it is necessary to ensure that most of the materials used in the formulation are biobased, biodegradable, or not considered critical raw materials.
  • 1.0K
  • 14 Jun 2023
Topic Review
Potential of Carbon-Based Nanocomposites
While conventional dental implants focus on mechanical properties, recent advances in functional carbon nanomaterials (CNMs) accelerated the facilitation of functionalities including osteoinduction, osteoconduction, and osseointegration. The surface functionalization with CNMs in dental implants has emerged as a novel strategy for reinforcement and as a bioactive cue due to their potential for mechanical reinforcing, osseointegration, and antimicrobial properties. Numerous developments in the fabrication and biological studies of CNMs have provided various opportunities to expand their application to dental regeneration and restoration. In this review, we discuss the advances in novel dental implants with CNMs in terms of tissue engineering, including material combination, coating strategies, and biofunctionalities. We present a brief overview of recent findings and progression in the research to show the promising aspect of CNMs for dental implant application. In conclusion, it is shown that further development of surface functionalization with CNMs may provide innovative results with clinical potential for improved osseointegration after implantation. 
  • 1.0K
  • 28 Sep 2021
Topic Review
Synthesis Techniques of Mixed-Doped Carbon Quantum Dots
In nanotechnology, the synthesis of carbon quantum dots (CQDs) by mixed doping with metals and non-metals has emerged as an appealing path of investigation. 
  • 1.0K
  • 25 Aug 2023
Topic Review
Type I AIE PSs for Antitumor Applications
In modern medicine, precision diagnosis and treatment using optical materials, such as fluorescence/photoacoustic imaging-guided photodynamic therapy (PDT), are becoming increasingly popular. Photosensitizers (PSs) are the most important component of PDT. Different from conventional PSs with planar molecular structures, which are susceptible to quenching effects caused by aggregation, the distinct advantages of AIE (aggregation-induced emission) fluorogens open up new avenues for the development of image-guided PDT with improved treatment accuracy and efficacy in practical applications. PDT has been actively used as a noninvasive treatment in clinical practice for some superficial skin cancers such as skin cancer and bladder cancer.  Although many PSs have been developed for tumor treatment, type II photosensitizers are predominant. Since type II photodynamic therapy is highly oxygen-dependent and its therapeutic effect on anaerobic tumors is inhibited, the development of low oxygen-dependent type I PDT can effectively mitigate this problem.
  • 1.0K
  • 12 Jan 2023
Topic Review
Ionic Liquids for Biodegradable Polymeric Materials
Measures to endorse the adoption of eco-friendly biodegradable plastics as a response to the scale of plastic pollution have created a demand for innovative products from materials from Nature. Ionic liquids (ILs) have the ability to disrupt the hydrogen bonding network of biopolymers, increase the mobility of biopolymer chains, reduce friction, and produce materials with various morphologies and mechanical properties. Due to these qualities, ILs are considered ideal for plasticizing biopolymers, enabling them to meet a wide range of specifications for biopolymeric materials.
  • 1.0K
  • 07 Feb 2024
Topic Review
Algal Biopolymers
Algae can produce a broad variety of biopolymers. Algae are diverse photosynthetic organisms that can be classified into various groups, including green algae, red algae, and brown algae. Algal biopolymers can be extracted from different parts of algae, such as the cell walls or intracellular compartments.
  • 1.0K
  • 26 Feb 2024
Topic Review
Biomimetic ECM-based 3D muscular scaffolds
Severe muscle injuries are a real clinical issue that still needs to be successfully addressed. Tissue engineering can represent a potential approach for this aim, but effective healing solutions have not been developed yet. In this regard, novel experimental protocols tailored to a biomimetic approach can thus be defined by properly systematizing the findings acquired so far in the biomaterials and scaffold manufacturing fields. In order to plan a more comprehensive strategy, the extracellular matrix (ECM), with its properties stimulating neomyogenesis and vascularization, should be considered as a valuable biomaterial to be used to fabricate the tissue-specific three-dimensional structure of interest. The skeletal muscle decellularized ECM can be processed and printed, e.g., by means of stereolithography, to prepare bioactive and biomimetic 3D scaffolds, including both biochemical and topographical features specifically oriented to skeletal muscle regenerative applications. This paper aims to focus on the skeletal muscle tissue engineering sector, suggesting a possible approach to develop instructive scaffolds for a guided healing process.
  • 1.0K
  • 21 Oct 2020
Topic Review
Chemical Modification of Cellulose
Cellulose is a widely studied natural polymer due to its availability, biodegradability, non-toxicity, and ease of chemical modification. Currently, cellulose has many applications in science and technology, but it has vast relevance in biomedical applications, such as a protective coating for wound dressing in skin burns, and injuries to avoid bacterial infections. This chapter describes some properties of cellulose such as structure, and biocompatibility. Besides this chapter also describes some methods used to endow cellulose with antimicrobial activity by means of the addition of biocidal groups as N-halamines, quaternary ammonium salts, nanoparticles, enzymes, or through the incorporation of antibiotics for controlled drug delivery.
  • 1.0K
  • 17 Mar 2025
Topic Review
Polysaccharide-Based Biodegradable Films
Packaging can mitigate the physical, chemical, and microbiological phenomena that affects food products’ quality and acceptability. However, the use of conventional packaging from non-renewable fossil sources generates environmental damage caused by the accumulation of non-biodegradable waste. Biodegradable films emerge as alternative biomaterials which are ecologically sustainable and offer protection and increase food product shelf life.
  • 1.0K
  • 01 Dec 2022
Topic Review
Isolation, Characterization, Modification, and Applications of PMS
Proso millet starch (PMS) as an unconventional and underutilized millet starch is becoming increasingly popular worldwide due to its health-promoting properties. PMS can be isolated from proso millet grains by acidic, alkaline, or enzymatic extraction. PMS exhibits typical A-type polymorphic diffraction patterns and shows polygonal and spherical granular structures with a granule size of 0.3–17 µm. PMS is modified by chemical, physical, and biological methods. The native and modified PMS are analyzed for swelling power, solubility, pasting properties, thermal properties, retrogradation, freeze–thaw stability, and in vitro digestibility.
  • 1.0K
  • 03 Jul 2023
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