![Loading...](https://link.springer.com/static/c4a417b97a76cc2980e3c25e2271af3129e08bbe/images/pdf-preview/spacer.gif)
115 Result(s)
-
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...
-
Chapter
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...
-
Chapter
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...
-
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,...
-
Chapter
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...
-
Chapter
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...
-
Chapter
Materials from Natural Resources for the Application of Bone Tissue Engineering
Natural materials have distinctive qualities like the ability to communicate with the biological environment, especially during the regeneration process. In this perspective, natural materials exhibit signific...
-
Chapter
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...
-
Chapter
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...
-
Chapter
Recent Trends in the Application of Materials for Cancer Therapy and Diagnosis
The application of nanomaterials has been expanded in various medical fields. One of these important fields in the use of nanoparticles is cancer therapy and its diagnosis. Nanoparticles have unique properties...
-
Chapter
Green Synthesis of Metallic Nanoparticles and Various Biomedical Applications
Nanobiotechnology has emerged as an advanced arena in conjunction with biology and nanotechnology. Biological entities involve living organisms of both prokaryotic and eukaryotic origins. Recently attention ha...
-
Chapter
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 ...
-
Chapter
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...
-
Chapter
Materials for Gene Delivery Systems
Gene therapy has garnered a lot of interest in the recent past for the treatment of various life-threatening genetic diseases. Gene therapy involves using genes that should be delivered to the infected cells t...
-
Chapter
Nanotechnology: Changing the World of Animal Health and Veterinary Medicine
Nanoparticles have long been used as diagnostic and therapeutic agents in human medicine, but their use in veterinary medicine and animal production is recent. Several laws and regulations have been implemente...
-
Chapter
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...
-
Chapter
Nanomaterial Applications in Cancer Therapy and Diagnosis
Cancer is one of the leading health challenges and a significant cause of death globally which is characterized by uncontrolled, random cell division and invasiveness. Conventional cancer therapeutics have bee...
-
Chapter
Promoting the Bio-potency of Bioactive Compounds Through Nanoencapsulation
Nanotechnology is actively used in food science and technology, and one of the evolving research areas involves the nanoencapsulation of volatile bioactive compounds. Quite often, these bioactive compounds are...
-
Chapter
3D and 4D Bioprinting Technology for Tissue Engineering Applications
Regenerative medicine aims to restore, regenerate, or replace tissues or organs affected by disease, trauma, or congenital disabilities. Tissue engineering is one approach used to accomplish these objectives. ...
-
Chapter
Current and Future Engineering Strategies for ECMO Therapy
Extracorporeal membrane oxygenation (ECMO) is a last resort therapy for patients with respiratory failure where the gas exchange capacity of the lung is compromised. Venous blood is pumped through an oxygenati...