Biotechnology in dermatology: present and future DOI Creative Commons
Anna V. Vlasova, А. А. Мартынов, Maria A. Martynova

et al.

Vestnik dermatologii i venerologii, Journal Year: 2024, Volume and Issue: 100(4), P. 31 - 41

Published: Aug. 16, 2024

One of the fastest disciplinary measures 21 century is biotechnology, which in last decade has become a powerful tool and assistant diagnosis, prognosis elimination various diseases. The article devoted to description following sections medical biotechnologies used dermatology, such as gene therapy, molecular diagnostics, pharmacogenomics genetic (tissue) engineering. creates potential for use biotechnology remains main hope dermatology patients dermatologists.

Language: Английский

An antibacterial Multi-Layered scaffold fabricated by 3D printing and electrospinning methodologies for skin tissue regeneration DOI
Marjan Mirhaj,

Jaleh Varshosaz,

Sheyda Labbaf

et al.

International Journal of Pharmaceutics, Journal Year: 2023, Volume and Issue: 645, P. 123357 - 123357

Published: Aug. 28, 2023

Language: Английский

Citations

40

A review of biomacromolecule-based 3D bioprinting strategies for structure-function integrated repair of skin tissues DOI
Hao Liu, Fei Xing, Peiyun Yu

et al.

International Journal of Biological Macromolecules, Journal Year: 2024, Volume and Issue: 268, P. 131623 - 131623

Published: April 19, 2024

Language: Английский

Citations

10

In Situ Bioprinting: Process, Bioinks, and Applications DOI
Pooja Jain, Himanshu Kathuria, Seeram Ramakrishna

et al.

ACS Applied Bio Materials, Journal Year: 2024, Volume and Issue: unknown

Published: April 10, 2024

Traditional tissue engineering methods face challenges, such as fabrication, implantation of irregularly shaped scaffolds, and limited accessibility for immediate healthcare providers. In situ bioprinting, an alternate strategy, involves direct deposition biomaterials, cells, bioactive factors at the site, facilitating on-site fabrication intricate tissue, which can offer a patient-specific personalized approach align with principles precision medicine. It be applied using handled device robotic arms to various tissues, including skin, bone, cartilage, muscle, composite tissues. Bioinks, critical components bioprinting that support cell viability development, play crucial role in success bioprinting. This review discusses techniques, materials used bioinks, their properties successful applications. Finally, we discuss challenges future trends accelerating printing translate this technology clinical settings regenerative

Language: Английский

Citations

9

Multifunctional aerogel: A unique and advanced biomaterial for tissue regeneration and repair DOI Creative Commons
Hao Liu, Fei Xing, Peiyun Yu

et al.

Materials & Design, Journal Year: 2024, Volume and Issue: 243, P. 113091 - 113091

Published: June 14, 2024

Amidst the rapid advancements in materials science, exploration of aerogel-based biomaterials has garnered extensive attention across diverse sectors, including biomedicine, energy, architecture, and sensing. Comprehensive studies have unveiled utilization organic, inorganic, hybridized for aerogel preparation, catapulting to global prominence. Endowed with distinctive properties, low density, a hierarchical porous network, high porosity, nanoscale micropores, aerogels exhibited broad spectrum applications, particularly realm tissue engineering. The deployment engineering is dynamic phase development, available reports indicating varying degrees fields such as blood vessels, soft tissues, nerves, skin, muscles, heart, bronchial tubes, bone, cartilage—an evolutionary process. This paper offers comprehensive review evolution properties preparation processes, encapsulating strategic insights application It succinctly summarizes recent developments research, emphasizing their significance. Additionally, outlines future prospects envisions challenges arising from current studies. Through this thorough engineering, aspires make profound impact on regenerative medicine, offering innovative effective strategies biomedicine.

Language: Английский

Citations

8

Review on application of herbal extracts in biomacromolecules-based nanofibers as wound dressings and skin tissue engineering DOI

Mohaddeseh Sharifi,

S. Hajir Bahrami

International Journal of Biological Macromolecules, Journal Year: 2024, Volume and Issue: 277, P. 133666 - 133666

Published: July 5, 2024

Language: Английский

Citations

7

Formulation Development and Evaluation of Indian Propolis Hydrogel for Wound Healing DOI Creative Commons
Harshad S. Kapare, Prabhanjan Giram, Sadhana Raut

et al.

Gels, Journal Year: 2023, Volume and Issue: 9(5), P. 375 - 375

Published: May 1, 2023

Flavonoids and polyphenolic compounds play a key role in wound healing cycle modulation. Propolis, natural bee product, has been widely reported as an enriched source of polyphenols flavonoids important chemical constituents for its potential. The goal this study was to develop characterize propolis-based polyvinyl alcohol (PVA) hydrogel composition with To understand the impacts critical material attributes process parameters, formulation development carried out using design experiment approach. A preliminary phytochemical analysis Indian propolis extract showed presence (23.61 ± 0.0452 mg equivalent quercetin/g) (34.82 0.0785 gallic acid/g), both which aid skin tissue regeneration. pH, viscosity, vitro release were also studied. burn model results revealed significant (p < 0.0001) contraction by (93.58 + 0.15%) rapid re-epithelialization relative 5% w/w povidone iodine ointment USP (Cipladine®) (95.39 0.16%). excision confirms (91.45 0.29%) accelerated comparable (94.38 0.21%). developed offers promise healing, may be investigated further clinical research.

Language: Английский

Citations

14

Advancements in 3D Skin Bioprinting: Processes, Bioinks, Applications and Sensor Integration DOI Creative Commons
İrem Deniz Derman,

T. Pinedo Rivera,

Laura Garriga-Cerda

et al.

International Journal of Extreme Manufacturing, Journal Year: 2024, Volume and Issue: 7(1), P. 012009 - 012009

Published: Oct. 16, 2024

Abstract This comprehensive review explores the multifaceted landscape of skin bioprinting, revolutionizing dermatological research. The applications bioprinting utilizing techniques like extrusion-, droplet-, laser- and light-based methods, with specialized bioinks for biofabrication have been critically reviewed along intricate aspects hair follicles, sweat glands, achieving pigmentation. Challenges remain need vascularization, safety concerns, integration automated processes effective clinical translation. further investigates incorporation biosensor technologies, emphasizing their role in monitoring enhancing wound healing process. While highlighting remarkable progress field, critical limitations concerns are examined to provide a balanced perspective. synthesis aims guide scientists, engineers, healthcare providers, fostering deeper understanding current state, challenges, future directions transformative tissue engineering regenerative medicine.

Language: Английский

Citations

5

Advances in skin-mimetic platforms: A comprehensive review of drug permeation models DOI
Dinesh Suthar, Roopam Raut,

Amrita Bajaj

et al.

Journal of Drug Delivery Science and Technology, Journal Year: 2024, Volume and Issue: 98, P. 105887 - 105887

Published: June 15, 2024

Language: Английский

Citations

4

A Comprehensive Literature Review on Advancements and Challenges in 3D Bioprinting of Human Organs: Ear, Skin, and Bone DOI

Aishwarya Varpe,

Marwana Sayed,

Nikhil S. Mane

et al.

Annals of Biomedical Engineering, Journal Year: 2024, Volume and Issue: unknown

Published: July 8, 2024

Language: Английский

Citations

4

Revolutionizing healthcare: Emerging frontiers in 3D bioprinting of tissues and organs DOI

Ochieng Ben Omondi,

Yasinta Nida Arroyan,

Benson Onyango

et al.

European Polymer Journal, Journal Year: 2024, Volume and Issue: 217, P. 113210 - 113210

Published: July 18, 2024

Language: Английский

Citations

4