Topic Review
Polysaccharide- and Aliphatic Polyester-Based Packaging
Food packaging plays an imperative role in the food processing sector by safeguarding foods from their point of harvesting until the moment of consumption.
  • 14
  • 28 Mar 2024
Topic Review
Alternative Methods to Retting of Straw
Bast fibers, such as flax and hemp, have been used by humanity for thousands of years. In the case of processes other than dew or field retting, they can also follow field drying. In any case, the fiber plant straw is retted first in order to be able to carry out the subsequent mechanical fiber recovery by decortication, cleaning and, if necessary, opening of the coarse fiber bundles. This can be defined as primary processing of bast fiber straw. The retting process involves the controlled decomposition of those substances that bind the fiber containing tissues to the other components of the stalk as well as the fibers to each other (to form so called bundles). It is described as one of the most important steps in the whole supply chain of fibers from bast fiber plants such as hemp and flax since it affects both the ease of performing the subsequent mechanical processing steps as well as the quality of the resulting fibers.
  • 18
  • 27 Mar 2024
Topic Review
Properties of Seashells
Researchers around the world have conducted extensive experiments with waste seashells in the form of seashell aggregates and seashell powder. The physical, mechanical, and durability properties of seashell concrete are largely determined by the properties of the aggregates and powders that make up the shell.
  • 39
  • 21 Mar 2024
Topic Review
Peptide for Bone and Cartilage Regeneration
The healing of osteochondral defects (OCDs) that result from injury, osteochondritis, or osteoarthritis and bear lesions in the cartilage and bone, pain, and loss of joint function in middle- and old-age individuals presents challenges to clinical practitioners because of non-regenerative cartilage and the limitations of current therapies. Bioactive peptide-based osteochondral (OC) tissue regeneration is becoming more popular because it does not have the immunogenicity, misfolding, or denaturation problems associated with original proteins. 
  • 35
  • 19 Mar 2024
Topic Review
DNA-Based Artificial Transmembrane Channels for Biomedical Applications
Biomolecular channels on the cell membrane are essential for transporting substances across the membrane to maintain cell physiological activity. Artificial transmembrane channels used to mimic biological membrane channels can regulate intra/extracellular ionic and molecular homeostasis, and they elucidate cellular structures and functionalities. Due to their program design, facile preparation, and high biocompatibility, DNA nanostructures have been widely used as scaffolds for the design of artificial transmembrane channels and exploited for ionic and molecular transport and biomedical applications. DNA-based artificial channels can be designed from two structural modules: DNA nanotubes/nanopores as transport modules for mass transportation and hydrophobic segments as anchor modules for membrane immobilization. 
  • 28
  • 19 Mar 2024
Topic Review
Biomedical Applications of Poly(Propylene Carbonate)
Poly(propylene carbonate) (PPC) is an emerging “carbon fixation” polymer that holds the potential to become a “biomaterial of choice” in healthcare owing to its good biocompatibility, tunable biodegradability and safe degradation products. Several physical, chemical and biological modifications of PPC have been achieved by introducing biocompatible polymers, inorganic ions or small molecules, which can endow PPC with better cytocompatibility and desirable biodegradability, and thus enable various applications. Indeed, a variety of PPC-based degradable materials have been used in medical applications including medical masks, surgical gowns, drug carriers, wound dressings, implants and scaffolds. 
  • 39
  • 15 Mar 2024
Topic Review
Characteristics of Collagen
Collagen (CLG) is a structural protein composed of amino acids that create collagen fibers, characterized by exceptional strength and high elasticity. This protein is composed of three left-handed α polypeptides that wind around themselves and their axis to form a right-handed superhelix. Its structure varies depending on its functions and place of occurrence. CLG is one of the most important proteins in the human body because it is responsible for maintaining the appropriate structure of tissues and organs and constitutes as much as one-third of the total body protein mass. It occurs, among the main organs in the body that provide appropriate elasticity and strength. It is also an essential building block of the skin; without CLG, it would not be able to perform its functions properly.
  • 42
  • 14 Mar 2024
Topic Review
Biomedical Applications of Bimetallic Coordination Polymers
Bimetallic coordination polymers (CPs) have two different metal ions as connecting nodes in their polymer structure. The synthesis methods of bimetallic CPs are mainly categorized into the one-pot method and post-synthesis modifications according to various needs. Compared with monometallic CPs, bimetallic CPs have synergistic effects and excellent properties, such as higher gas adsorption rate, more efficient catalytic properties, stronger luminescent properties, and more stable loading platforms, which have been widely applied in the fields of gas adsorption, catalysis, energy storage as well as conversion, and biosensing.
  • 35
  • 06 Mar 2024
Topic Review
Cardiomyocytes Contractile Activity on Poly(vinyl-alcohol)/Bioglass Electrospun Scaffolds
Tissue scaffolds are generally used as three-dimensional structural supports destined to mimic the morphological structure and function in regeneration processes. Still, beyond this, they are expected to perform the physiological functions for which each tissue or organ is intended. In the case of cardiac tissue, it brings oxygen through the blood to each part of the body through the contraction of the cardiac muscle cells (cardiomyocytes). This contraction is neurologically stimulated through a voltage and calcium-dependent process denominated excitation-contraction coupling, which is mediated by several factors. In this sense, the composition of the scaffold becomes relevant.
  • 57
  • 05 Mar 2024
Topic Review
3D-(Bio)printed Hydrogels as Wound Dressings
Wound healing is a physiological process occurring after the onset of a skin lesion aiming to reconstruct the dermal barrier between the external environment and the body. Depending on the nature and duration of the healing process, wounds are classified as acute (e.g., trauma, surgical wounds) and chronic (e.g., diabetic ulcers) wounds. The latter take several months to heal or do not heal (non-healing chronic wounds), are usually prone to microbial infection and represent an important source of morbidity since they affect millions of people worldwide. Typical wound treatments comprise surgical (e.g., debridement, skin grafts/flaps) and non-surgical (e.g., topical formulations, wound dressings) methods. Modern experimental approaches include among others three dimensional (3D)-(bio)printed wound dressings.
  • 47
  • 29 Feb 2024
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