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Skin Physiology and Function
The skin is the largest organ of the body (it accounts for about 15% of total body weight in adults) and, together with its derived structure, forms...
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Introduction
The human skin is the largest organ in our body and serves as a barrierBarrier and interface between the body and the environment. Our skin interacts...
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Bioengineered Skin Substitutes
The skin can self-renew, thanks to the presence of stem cells in the hypodermisHypodermis. However, when the skin is damaged in the deeper layers, as...
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Conclusions
The translation of tissue engineering concepts into the development of biomimetic skin models is a growing trend that began as a treatment strategy...
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Growing Skin-Like Tissue
Skin substitutes offer new therapeutic options for treating acute and chronic skin wounds.
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Commercial Skin Equivalents
In the last decades, regenerative medicine has undergone a significant transformation, largely due to advances in skin TE, driven primarily by large...
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Applications
3D skin equivalents were one of the first TE organs used for clinical trials. In early skin models, fibroblastsFibroblasts and...
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Magnetic and Fluorescent Nanogels for Nanomedicine
The field of nanomedicine has been expanding rapidly in the recent decades that opened the current century. Specifically, nanogels comprise an...
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Polymer–Water Interactions in Hydrogels
Hydrogels are water/polymer systems that are in high demand due to their broad-spectrum applications in the industrial and bio-medical sectors. A...
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Nanobased Biodegradable Hydrogel for Biomedical Application
Recently, the design of hydrogels using bio-based materials has been increasingly developed for application in pharmaceutical technology. The...
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An Overview of the Recent Developments in Hydrogels
Hydrogels are extremely hydrophilic polymers that are physically or chemically cross-linked. They exist in many types varying according to their...
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Nanomaterials for Cancer Therapeutics
Cancer is a fatal disease which occurs due to abnormal and uncontrolled growth of cells in the form of tumor. To meet the societal requirements of a...
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Biomaterials and Its Advances for Delivering Anticancer Drugs
Most of the anticancer drugs affect both the cancerous cells and the normal cells. The most common treatment chemotherapy is always associated with...
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Magnetic Nanoparticles for Hyperthermia a New Revolution in Cancer Treatment
Magnetic nanoparticles are an important class of nanomaterials. Several types of magnetic nanoparticles have been discovered in the recent years. The...
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Magnetic Nanoparticles for Cancer Treatment
Combining multiple therapies to formulate new therapeutic strategies has acquired great importance in the present scenario. So, customising better...
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Magnetic Nanoparticles and Its Biomedical Applications
Magnetic nanoparticles (MNPs) gained a significant attention in biomedical research due to their precise functions and physical properties at...
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Stimuli-responsive Hybrid Polymeric Nanoparticles for Targeted Drug Delivery
Designing polymeric nanoparticle responding to various stimuli is a promising field in medical applications. A combination of various triggers and...
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Hybrid Nanoparticles in Image-Guided Drug Delivery
The recent advancements in nanotechnology have opened immense opportunities for the management several clinical complications. The multidisciplinary...
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Nanotechnology and Its Implication in Antiviral Drug Delivery
HIV/AIDS has been major source of concern all over the world for past few decades. The current treatment regimes include the use of antiviral drugs...
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Biomaterials for Anticancer Drugs
Biomaterials for anticancer drug are an important and essential topic in twenty-first-century medicine, because this type of new materials overcomes...