3D Printing: Advancement in Biogenerative Engineering to Combat Shortage of Organs and Bioapplicable Materials.

IF 2.2 Q3 ENGINEERING, BIOMEDICAL

Regenerative Engineering and Translational Medicine Pub Date : 2022-01-01 Epub Date: 2021-07-02 DOI:10.1007/s40883-021-00219-w

Arpana Parihar, Vasundhara Pandita, Avinash Kumar, Dipesh Singh Parihar, Nidhi Puranik, Tapas Bajpai, Raju Khan

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引用次数: 0

Abstract

Abstract: Organ or cell transplantation is medically evaluated for end-stage failure saving or extending the lives of thousands of patients who are suffering from organ failure disorders. The unavailability of adequate organs for transplantation to meet the existing demand is a major challenge in the medical field. This led to day-day-increase in the number of patients on transplant waiting lists as well as in the number of patients dying while on the queue. Recently, technological advancements in the field of biogenerative engineering have the potential to regenerate tissues and, in some cases, create new tissues and organs. In this context, major advances and innovations are being made in the fields of tissue engineering and regenerative medicine which have a huge impact on the scientific community is three-dimensional bioprinting (3D bioprinting) of tissues and organs. Besides this, the decellularization of organs and using this as a scaffold for generating new organs through the recellularization process shows promising results. This review discussed about current approaches for tissue and organ engineering including methods of scaffold designing, recent advances in 3D bioprinting, organs regenerated successfully using 3D printing, and extended application of 3D bioprinting technique in the field of medicine. Besides this, information about commercially available 3D printers has also been included in this article.

Lay summary: Today's need for organs for the transplantation process in order to save a patient's life or to enhance the survival rate of diseased one is the prime concern among the scientific community. Recent, advances in the field of biogenerative engineering have the potential to regenerate tissues and create organs compatible with the patient's body. In this context, major advances and innovations are being made in the fields of tissue engineering and regenerative medicine which have a huge impact on the scientific community is three-dimensional bioprinting (3D bioprinting) of tissues and organs. Besides this, the decellularization of organs and using this as a scaffold for generating new organs through the recellularization process shows promising results. This review dealt with the current approaches for tissue and organ engineering including methods of scaffold designing, recent advances in 3D bioprinting, organs regenerated successfully using 3D printing, and extended application of 3D bioprinting technique in the field of medicine. Furthermore, information about commercially available 3D printers has also been included in this article.

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三维打印：推进生物再生工程，解决器官和生物应用材料短缺问题。

摘要：器官或细胞移植在医学上被用于治疗终末期衰竭，挽救或延长了成千上万器官衰竭患者的生命。无法获得足够的器官用于移植以满足现有需求是医学领域的一大挑战。这导致等待器官移植的病人数量与日俱增，同时也导致在排队等候期间死亡的病人数量与日俱增。最近，生物再生工程领域的技术进步有可能使组织再生，在某些情况下还能创造新的组织和器官。在此背景下，组织工程和再生医学领域正在取得重大进展和创新，对科学界产生巨大影响的是组织和器官的三维生物打印（3D 生物打印）。此外，将器官脱细胞并将其用作支架，通过再细胞化过程生成新的器官，也显示出良好的效果。这篇综述讨论了当前组织和器官工程的方法，包括支架设计方法、三维生物打印技术的最新进展、利用三维打印技术成功再生的器官，以及三维生物打印技术在医学领域的扩展应用。此外，本文还介绍了有关市面上销售的 3D 打印机的信息。最近，生物再生工程领域取得的进展有可能使组织再生，并制造出与病人身体相容的器官。在此背景下，组织工程和再生医学领域正在取得重大进展和创新，对科学界产生巨大影响的是组织和器官的三维生物打印（3D 生物打印）。此外，将器官脱细胞并将其用作支架，通过再细胞化过程生成新的器官，也显示出良好的效果。这篇综述介绍了目前组织和器官工程的方法，包括支架设计方法、三维生物打印技术的最新进展、利用三维打印技术成功再生的器官，以及三维生物打印技术在医学领域的扩展应用。此外，本文还介绍了有关市售三维打印机的信息。

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来源期刊

Regenerative Engineering and Translational Medicine ENGINEERING, BIOMEDICAL-

CiteScore

4.90

自引率

11.50%

发文量

期刊介绍： Regenerative Engineering is an international journal covering convergence of the disciplines of tissue engineering, advanced materials science, stem cell research, the physical sciences, and areas of developmental biology. This convergence brings exciting opportunities to translate bench-top research into bedside methods, allowing the possibility of moving beyond maintaining or repairing tissues to regenerating them. The journal encourages both top-down engineering approaches and bottom-up strategies integrating materials science with stem cell research and developmental biology. Convergence papers on instructive biomaterials, stimuli-responsive biomaterials, micro- and nano-patterning for regenerative engineering, elastomeric biomaterials, hydrogels for tissue engineering, and rapid prototyping and bioprinting approaches are particularly welcome. The journal provides a premier, single-blind peer-reviewed forum for the publication of original papers, authoritative reviews, rapid communications, news and views, and opinion papers addressing the most important issues and efforts toward successfully regenerating complex human tissues and organs. All research articles feature a lay abstract highlighting the relevance and future impact for patients, government and other health officials, and members of the general public. Bridging the gap between the lab and the clinic, the journal also serves as a dedicated platform for showcasing translational research that brings basic scientific research and discoveries into clinical methods and therapies, contributing to the improvement of human health care. Topics covered in Regenerative Engineering and Translational Medicine include: Advanced materials science for regenerative and biomedical applicationsStem cells for tissue regenerationDrug delivery for tissue regenerationNanomaterials and nanobiotechnology for tissue regenerationStudies combining tissue engineering/regeneration with developmental biologyConvergence research in pre-clinical and clinical phases