Litcius/Paper detail

Plant-Based Decellularization: A Novel Approach for Perfusion-Compatible Tissue Engineering Structures

Md Mehedee Hasan, Ashikur Rahman Swapon, Tazrin Islam Dipti, Yeong‐Jin Choi, Hee‐Gyeong Yi

2024Journal of Microbiology and Biotechnology13 citationsDOIOpen Access PDF

Abstract

This study explores the potential of plant-based decellularization in regenerative medicine, a pivotal development in tissue engineering focusing on scaffold development, modification, and vascularization. Plant decellularization involves removing cellular components from plant structures, offering an eco-friendly and cost-effective alternative to traditional scaffold materials. The use of plant-derived polymers is critical, presenting both benefits and challenges, notably in mechanical properties. Integration of plant vascular networks represents a significant bioengineering breakthrough, aligning with natural design principles. The paper provides an in-depth analysis of development protocols, scaffold fabrication considerations, and illustrative case studies showcasing plant-based decellularization applications. This technique is transformative, offering sustainable scaffold design solutions with readily available plant materials capable of forming perfusable structures. Ongoing research aims to refine protocols, assess long-term implications, and adapt the process for clinical use, indicating a path toward widespread adoption. Plant-based decellularization holds promise for regenerative medicine, bridging biological sciences with engineering through eco-friendly approaches. Future perspectives include protocol optimization, understanding long-term impacts, clinical scalability, addressing mechanical limitations, fostering collaboration, exploring new research areas, and enhancing education. Collectively, these efforts envision a regenerative future where nature and scientific innovation converge to create sustainable solutions, offering hope for generations to come.

Topics & Concepts

DecellularizationScaffoldRegenerative medicineTissue engineeringBiochemical engineeringProcess (computing)Computer scienceRegeneration (biology)Bridging (networking)EngineeringNanotechnologySystems engineeringRisk analysis (engineering)Biomedical engineeringMedicineMaterials scienceStem cellBiologyComputer networkCell biologyGeneticsOperating systemTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical Applications