当前位置:天才代写 > Essay代写,essay代写价格便宜机构-靠谱推荐 > 生物学论文代写 医学论文代写

生物学论文代写 医学论文代写

2021-06-15 14:18 星期二 所属: Essay代写,essay代写价格便宜机构-靠谱推荐 浏览:372

生物学论文代写

Name

Course

April 10, 2021

生物学论文代写 In the article, FRESH 3D Bioprinting a Full-Size Model of the Human Heart Mirdamadi et al.(2020) examined the FRESH 3D model of a human heart

Article Summary 生物学论文代写

In the article, FRESH 3D Bioprinting a Full-Size Model of the Human Heart Mirdamadi et al. (2020) examined the FRESH 3D model of a human heart in full size. The 3D bioprinting recent advances has enabled the expansion of the designed space for producing a geometrically complex tissues using hydrogels with the mechanical properties. FRESH (Freeform Reversible Embedding of Suspended Hydrogels) approach allows us to integrate soft biomaterials in a thermoreversible support ranging from few millimeters to centimeters.生物学论文代写

This study expands the printable size of the human heart into a full size model through a FRESH bioprinting. This is done using the patient derived MRI (magnetic resonance imaging) (Mirdamadi, Tashman, Shiwarski, Palchesko, & Feinberg, 2020, p. 6453). The3D printing is a standard approach which converts the clinical imaging data patient specific anatomical model. This process of 3D consists of image acquisition, segmentation, digital model creation and 3D printing. Though, 3D printing techniques can give us full size adult organ model it cannot imitate the mechanical properties of the native tissues. Thereby, this study report the advancement of FRESH approach with the ability to give full size adult human heart model using a hydrogel material that imitates the native organs (p. 6453).


译文:

文章摘要 生物学论文代写

在文章中,FRESH 3D 生物打印人类心脏 Mirdamadi 等人的全尺寸模型。 (2020) 研究了全尺寸人类心脏的 FRESH 3D 模型。 3D 生物打印的最新进展使得使用具有机械性能的水凝胶生产几何复杂组织的设计空间得以扩展。 FRESH(悬浮水凝胶的自由形式可逆嵌入)方法使我们能够将软生物材料集成到几毫米到几厘米的热可逆支撑中。

这项研究通过 FRESH 生物打印将人类心脏的可打印尺寸扩展为全尺寸模型。这是使用源自患者的 MRI(磁共振成像)完成的(Mirdamadi、Tashman、Shiwarski、Palchesko 和 Feinberg,2020 年,第 6453 页)。 3D 打印是将临床成像数据转换为患者特定解剖模型的标准方法。这个 3D 过程包括图像采集、分割、数字模型创建和 3D 打印。虽然,3D 打印技术可以为我们提供全尺寸的成人器官模型,但它无法模仿天然组织的机械特性。因此,本研究报告了 FRESH 方法的进步,能够使用模仿天然器官的水凝胶材料提供全尺寸成人心脏模型 (p. 6453)。


For the FRESH printing three alginate concentrations were made (2, 4 & 6% w/v).

The Support Bath and Alginate preparation are very significant for the FRESH 3D Bio-printing. For the Alginate preparation, FMC Biopolymer (all alginates) was solubilized the sufficient alginate powder’s amount in deionized (DI) water.

生物学论文代写
生物学论文代写

Support Bath prepared by using FRESH v2.0 support bath protocol that involves intricate coacervation to produce the micro-particles of gelatin. For the preparation of the FRESH support bath for the adult human heart, 20 L of the forerunner gelatin outcome was coacervated overnight.  Once the process is completed the micro-particles were washed two times and resuspending them in DI water as well as centrifuged for 2 minutes at 750g. To make the compacted gelatin Support Bath material the twice washed micro-particles were again resuspended third time in 0.1% (w/v) CaCl2 solution as well as centrifuged for 5 minutes at 2000g (p. 6454).生物学论文代写

FRESH bio-printing has demonstrated in this article. It has the capabilities to produce the “patient-specific anatomical models” for full-size adult by using the tunable alginate bioinks. Specifically, models impressionist Cardiac tissue’s mechanical properties and subsequently durable to suture, handle, and perfuse to make them perfect candidates for usage as surgical training tools. In the current state, the full adult size cardiac scaffold signifies a vital step toward organ size cardiac tissues, fabricating realistic feeling as well as lays the basis toward the full adult size organs printing for cardiac regenerative and tissue engineering medicine.  It could be a significant tool for planning purposes and surgical modeling (p. 6458).


译文:

对于 FRESH 印刷,制备了三种藻酸盐浓度(2、4 和 6% w/v)。生物学论文代写

支撑浴和藻酸盐制剂对于 FRESH 3D 生物打印非常重要。对于藻酸盐制剂,FMC 生物聚合物(所有藻酸盐)在去离子 (DI) 水中溶解了足量的藻酸盐粉末。

通过使用 FRESH v2.0 支持浴方案制备的支持浴,该方案涉及复杂的凝聚以产生明胶微粒。为了制备成人心脏的 FRESH 支持浴,将 20 L 的前驱明胶结果凝聚过夜。该过程完成后,将微粒洗涤两次并将它们重新悬浮在去离子水中,并以 750g 离心 2 分钟。为了制备压实的明胶支持浴材料,将两次洗涤的微粒再次第三次重新悬浮在 0.1% (w/v) CaCl 2 溶液中,并以 2000g 离心 5 分钟(第 6454 页)。

FRESH 生物打印已在本文中进行了演示。它有能力通过使用可调藻酸盐生物墨水为全尺寸成人制作“特定于患者的解剖模型”。具体而言,对印象派心脏组织的机械特性进行建模,随后对缝合、处理和灌注具有耐用性,使它们成为用作外科训练工具的理想选择。在目前的状态下,完整的成人大小心脏支架标志着向器官大小的心脏组织迈出的重要一步,制造逼真的感觉,并为心脏再生和组织工程医学的完整成人大小器官打印奠定了基础。它可能是用于规划目的和手术建模的重要工具 (p. 6458)。


Reference: 生物学论文代写

Mirdamadi, E., Tashman, J., Shiwarski, D., Palchesko, R., & Feinberg, A. (2020). FRESH 3D Bioprinting a Full-Size Model of the Human Heart. ACS Biomaterials Science & Engineering , 6453-6459.

生物学论文代写
生物学论文代写

其他代写:program代写 cs作业代写 app代写  Programming代写 homework代写  考试助攻 finance代写 finance代写 java代写 代写CS作业 course代写 data代写 代写CS作业 英国代写 essay代写

合作平台:essay代写 论文代写 写手招聘 英国留学生代写

 

天才代写-代写联系方式