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76 Result(s)
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Life Sciences
Biomaterials
Biotechnology
Chemistry/Food Science, general
Regenerative Medicine/Tissue Engineering
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Book
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Chapter
Nanoparticles for Tissue Engineering: Type, Properties, and Characterization
The multidisciplinary area of tissue engineering unifies various fields such as medical biology, engineering, and material science that focus on develo** biological alternatives to increase the functions of ...
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Chapter
Application of Nanoparticles in Soft Tissue Engineering
Tissue engineering is an interdisciplinary approach that integrates several fields of study such as biology, biochemistry, chemistry, nanotechnology, engineering, and material science. Three components are com...
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Chapter
Biomimetic via Exosome Mimetics in Regenerative Medicine and Therapeutics
Over the years, the field of regenerative medicine and therapeutics has witnessed several modifications in terms of the delivery vehicle used and their complex engineering to achieve the targeted drug/cargo de...
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Chapter
Strategies to Improve Delivery of Bioactive Agents
The delivery of bioactive agents/drugs in disease therapy and its improper disposal is one of the major causes of the constant rise in pollution levels. The majority of these factors depend upon alternative ap...
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Role of Polymeric Nanomaterial in Regenerative Medicine and Stem Cell Biology
The combination of nanoparticles (NPs) and stem cells have been extensively investigated in regenerative medicine. Different types of NPs have been designed using various strategies that work very proficiently...
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Challenges and Future Prospect of Nanoparticles in Tissue Engineering
Tissue engineering (TE) is a process where the damaged tissues and organs are recovered in a natural process using the patient’s physiological system. This involves fully repairing or regenerating damaged orga...
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3D Bioprinting: A Short Overview and Future Prospects in Healthcare Engineering
The introduction of 3D Bioprinting in the fields of tissue engineering (TE) and regenerative medicine (RM) has significantly improved our ability to emulate the complex structural and functional organization o...
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Book
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Chapter
Nanoparticles and Bioceramics Used in Hard Tissue Engineering
Tissue engineering is an interdisciplinary field. Despite the name, most tissue engineering does not involve traditional engineering. Tissue engineering is about restoring tissue damaged by trauma or disease t...
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Biomimetic Biomaterials in the Tissue Engineering Perspective
The aim of tissue engineering is to regenerate or replace functional tissues and organs. Biomaterials play a crucial role as scaffolding structures to realize the very aim of tissue engineering. Biomimetic mat...
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3D and 4D Nanoprinting for Tissue Regeneration
In recent years, to deliver an effective transplantation process and develop better disease models, considerable efforts are devoted to advancing innovative techniques and strategies for tissue regeneration. N...
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Chapter
Biomimetic Nanosystems in Targeted Drug Delivery
Nanotechnology in cancer has been a boon to the translational science bringing advantages to the conventional drug delivery approaches. There are different types of nanoparticles such as liposomes, dendrimers,...
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Nanotechnology and Its Applications in Molecular Detection
Nanotechnology deals with the manipulation of single atoms and molecules to build devices of nano- or microscale to use for various purposes in several fields. Through its unique properties, it has unraveled a...
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Mechanical Characterization of Additive Manufactured Polymeric Scaffolds for Tissue Engineering
In the last decades, tissue engineering has become a promising and important field of research that is opening new perspectives for the treatment of tissue diseases or injuries. Scaffold-guided tissue engineer...
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Lung-on-a-Chip Models of the Lung Parenchyma
Since the publication of the first lung-on-a-chip in 2010, research has made tremendous progress in mimicking the cellular environment of healthy and diseased alveoli. As the first lung-on-a-chip products have...
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Acute and Chronic Wound Management: Assessment, Therapy and Monitoring Strategies
The dynamic nature of the wound healing is a well-studied process. With the rapid evolution of healthcare science, efforts are being made to design newer therapies, along with advancement in the available tech...
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Understanding and Engineering the Pulmonary Vasculature
Blood vessels play essential roles in regulating embryonic organogenesis and adult tissue homeostasis. The inner lining of blood vessels is covered by vascular endothelial cells, which exhibit tissue-specific ...
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Hydrogel-Based Tissue-Mimics for Vascular Regeneration and Tumor Angiogenesis
The vital role of structurally and functionally stable vasculature in engineered tissues is well-established in regenerative medicine. Large-volume, natural, and synthetic tissue constructs require a high degr...
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Clinical Translation of Engineered Pulmonary Vascular Models
Diseases in pulmonary vasculature remain a major cause of morbidity and mortality worldwide. Numerous pre-clinical animal models were developed to understand lung vasculature during diseases and development. H...
