2018年4月18-20日（北京●手都醫(yī)科大學）弟五屆生物力學學術(shù)研討會

細胞生物力學學術(shù)研討會將于2018年4月18日至4月20日在中國北京手都醫(yī)科大學學術(shù)交流中心舉辦。本次研討會由手都醫(yī)科大學生物醫(yī)學工程學院、臨床生物力學應用基礎研究北京市重點實驗室主辦，由世聯(lián)博研（北京）科技有限公司承辦。

一、會議主要議題
生物力學與力學生物學技術(shù)交流；細胞組織應力（拉力、壓力、流體剪切力）培養(yǎng)、細胞組織機械特性測試分析、細胞組織自主伸縮力及剛度硬細胞組織
三維灌注培養(yǎng)、技術(shù)交流等。

二、參會人員
從事細胞力學和力學生物學領域的專家和研究人員

三、會務費
會議統(tǒng)一安排食宿，不收會務費。

四、會務聯(lián)系人
世聯(lián)博研（北京）科技有限公司：
王雪娥010-67529703，18210996806，18618101725，13466675923
手都醫(yī)科大學臨床生物力學應用基礎研究北京市重點實驗室：
王輝010-83911848

會議詳情

纖維絲張力和扭力測	自動法向壓痕和厚度映射
脛骨三維輪廓測試	機電活性材料（如結(jié)締組織、帶電水凝膠等）壓縮過程中電位分布

1、應力刺激培養(yǎng)部分

美國flexcell國際公司注于細胞、組織力學培養(yǎng)產(chǎn)品的設計和制造30年余年。以提供te的體外細胞拉應力、壓應力和流體剪切應力加載刺激系統(tǒng)以及配套的培養(yǎng)板、硅膠膜載片等耗材聞名于世，其應用文獻達數(shù)千篇，以整理如下供應大家參考，如需要詳細資料，請致電：010-67529703
2019年前flexcell細胞、組織牽張、壓縮、流體剪切力刺激培養(yǎng)文獻目錄下載
2019年flexcell細胞、組織牽張、壓縮、流體剪切力刺激培養(yǎng)文獻目錄下載

2、力學特性測試分析部分

加拿大 多功能組織材料生物力學特性、電位分布測試分析表征系統(tǒng)及文獻目錄，大家參考，如需要詳細資料，請致電：010-67529703

該系統(tǒng)是能集成壓縮、張力、剪切、摩擦、扭轉(zhuǎn)和2D/3D壓痕、3D輪廓及多力混合耦連測試的一體化微觀力學測試裝置。能對生物組織、聚合物、凝膠、生物材料、膠囊、粘合劑和食品進行精密可靠的機械刺激和表征。允許表征的機械性能包括剛度、強度、模量、粘彈性、塑性、硬度、附著力、腫脹和松弛位移控制運動。

特點

1、適用樣品范圍廣：

1、適用樣品范圍廣：

1.1、從骨等硬組織材料到腦組織、眼角膜等軟組織材料

1.2、從粗椎間盤的樣品到細纖維絲

2、通高量壓痕測試分析

◆無需表面平坦，可在不規(guī)則表面壓痕
◆壓痕同時可測量厚度信息
◆壓痕不要求壓縮軸垂直于樣品表面對齊
◆紅寶石壓頭，堅固不易斷
◆樣品不需要從組織中收集
◆組織的破壞小
◆維持被測材料的機械環(huán)境及其與周圍材料的相互作用
◆測試多個站點mapping

2.1、三維法向壓痕映射非平面樣品整個表面的力學特性

2.2、48孔板中壓痕測試分析

3、力學類型測試分析功能齊

模塊化集成壓縮、張力、剪切、摩擦、扭轉(zhuǎn)、穿刺、摩擦和2D/3D壓痕、3D表面輪廓、3D厚度等各種力學類型支持,微觀結(jié)構(gòu)表征及動態(tài)力學分析研究

4、高分辨率:

4.1、位移分辨率達0.1um

4.2、力分辨率 達0.025mN

5、 行程范圍廣：50-250mm

6、體積小巧、可放入培養(yǎng)箱內(nèi)

7 、高變分辨率成像跟蹤分析

8、多軸向、多力偶聯(lián)刺激

9、活性組織電位分布測試分析

10、產(chǎn)品成熟，文獻量達 上千篇

多功能微觀生物力學測試及電特性測量系統(tǒng)文獻目錄下載

3、單細胞應力加載部分

系統(tǒng)及文獻目錄，大家參考，如需要詳細資料，請致電：010-67529703

單細胞應力刺激培養(yǎng)系統(tǒng)

細胞被均勻地限制/壓縮在兩個亞微米分辨率的兩個平行表面之間。不同的限制高度（例如1um – 300um），允許長期細胞培養(yǎng)和細胞增殖，同時保持對封閉的控制
與高分辨率光學顯微鏡系統(tǒng)兼容，可以處理足夠多的細胞以進行完整的基因表達分析，可與生物功能化的微結(jié)構(gòu)化底物和/或不同的基質(zhì)（幾何形狀控制）結(jié)合使用
可以與凝膠結(jié)合（硬度控制），兼容任何細胞培養(yǎng)底物（培養(yǎng)皿至96孔板）

產(chǎn)品：

應用：

Cell migration 2.5D, migration and interaction of non-adhesive cells, cell squeezing, imaging of flat cells (organelles aligned in 2D), super-resolution video-microscopy (organelles move less), contractility assay, etc
Confinement illustration
HeLa cells: not confined, 5 ?m, 3 ?m.
Explore examples of applications

> Cancer invasiveness assay: Quantification of migration behaviors and migration transitions
> Cancer aggressiveness assay: Quantification of contractility of somatic or cancer cells
> Endocytosis assay: Improved observation of events taking place at the membrane
> Exocytosis assay: Improved observation of events taking place at the apical membrane
> Frustrated phagocytosis: Characterization of the mechanism
> Immune system in a well: 2D migration and interaction of non-adherent immune cells
> Immune cells interaction: 2D interaction of non-adherent immune cells
> Mitotic assembly assay: Quantification of mitotic spindle disorders
> Quantitative cell migration assay: Fast and fine analysis of cell migration properties
文獻：PUBLICATIONS

Confinement and Low Adhesion Induce Fast Amoeboid Migration of Slow Mesenchymal Cells
Y.-J. Liu, M. Piel,?Cell, et al., 2015 160(4), 659-672
Actin flows induce a universal coupling between cell speed and cell persistence
P. Maiuri, R. Voituriez, et al.,?Cell, 2015 161(2), 374–386
Geometric friction directs cell migration
M. Le Berre, M. Piel, et al.,?Physical Review Letter?2013 111, 198101
Mitotic rounding alters cell geometry to ensure efficient spindle assembly
O. M. Lancaster, B. Baum, et al.,?Developmental Cell, 2013 25(3), 270-283
Fine Control of Nuclear Confinement Identifies a Threshold Deformation leading to Lamina Rupture and Induction of Specific Genes
M. Le Berre, J. Aubertin, M. Piel,?Integrative Biology, 2012 4 (11), 1406-1414
Exploring the Function of Cell Shape and Size during Mitosis
C. Cadart, H. K. Matthews, et al.,?Developmental Cell, 2014 29(2), 159-169
Methods for Two-Dimensional Cell Confinement
M. Le Berre, M. Piel, et al., 2014,?Micropatterning in Cell Biology Part C, Methods in cell biology, 121, 213-29

單細胞應力加載部分系統(tǒng)文獻目錄下載

4、細胞牽引力顯微鏡加載部分

系統(tǒng)及文獻目錄，大家參考，如需要詳細資料，請致電：010-67529703

銷售和可定制歐美進口細胞牽引力顯微鏡和微柱

承接定制細胞微圖案、微溝槽培養(yǎng)檢測科研裝置、微柱陣列、微針加工制作

銷售培訓微圖案、微溝槽培養(yǎng)檢測科研裝置、微柱陣列、微針加工制作設備、提供技術(shù)培訓

歐美進口設備和技術(shù)保證！

微柱培養(yǎng)陣列及其特點：

●每張陣列尺寸為3.2 x 3.2 mm，含10 x 18個觀測點，每個觀測點有170個按六邊形排列的微柱

●微柱直徑5 μm，高15 μm，中心間距為12 μm

●微柱彈力范圍1-3 nN（有其他需求可定制）

●標準涂層是纖維連接蛋白或膠原蛋白I

●細胞外基質(zhì)（EDM）蛋白包可按找需求定制

軟件可用于從光學顯微鏡拍攝的細胞圖片中提取細胞力學參數(shù)（力/微柱、微柱坐標、微柱形變、細胞的應變和應力分布等）（圖3）。分析結(jié)果可保存為Excel表格，便于后續(xù)處理。

圖3

測量原理：

未變形的微柱在明場圖片中呈較亮的圓形，周圍是較暗的邊，通過霍夫變換可得到其形心。發(fā)生變形的微柱呈較暗的半月形，通過圖像處理可得到微柱的形變大?。▓D1）。由于微柱剛度已知，所以進而可得到每根微柱產(chǎn)生的力。

系統(tǒng)組成：?

1、熒光倒置顯微鏡：

主要用于常規(guī)活細胞成像，快速高靈敏度活細胞熒光成像，主要包括顯微平臺，成像系統(tǒng)，工作站?

2、微柱陣列培養(yǎng)設備：

將硅膠微柱陣列刻在蓋玻片上（圖1 A），并包被蛋白，然后置于培養(yǎng)皿中（圖1 B）。微柱上需要包被蛋白。標準的包被蛋白有纖連蛋白或I型膠原。若需其他包被蛋白，需提前告知。每張微柱陣列可以分析120-150個細胞，得到的數(shù)據(jù)足以進行統(tǒng)計學分析。每種實驗條件可進行2-3次實驗，這樣得到的結(jié)果會更加穩(wěn)定。微柱陣列本身并未進行包被，在使用前需要自行包被合適的蛋白（用戶自選，可購常用的包被蛋白）。

?3、光學減震臺

?4、預裝MicroPost細胞牽引力、內(nèi)源力分析軟件的計算機系統(tǒng):

軟件可用于從光學顯微鏡拍攝的細胞圖片中提取細胞力學參數(shù):（力/微柱、微柱坐標、微柱形變、細胞的應變和應力分布等）；

做細胞如下力學特性分析，包括：

1)、微柱形變；

2)、細胞的應變和應力分布

3)、細胞牽引力、內(nèi)源力(cell?active?force)

4)、主動收縮力

細胞牽引力顯微鏡加載部分系統(tǒng)文獻目錄下載

5、高通量細胞力學特性測試分析部分

系統(tǒng)及文獻目錄，大家參考，如需要詳細資料，請致電：010-67529703

自德國的高通量單細胞形變測量分析系統(tǒng)

該系統(tǒng)是一套基于微流控流體壓力梯度的、在倒置顯微鏡的擴展起來的、集成流式細胞儀特性、熒光檢測模塊、溫控模 塊、高速成像和數(shù)據(jù)采集分析軟件的高通量單細胞實時形變測量和單細胞力學性質(zhì)分析系統(tǒng)。
????? 是一種以流式細胞儀的速度檢測單個細胞形態(tài)和力學性質(zhì)的技術(shù)！
細胞被泵送通過微流控芯片。 每個細胞都被實時拍攝、分析和成像存儲。 此外，非破壞性的力量應用于細胞，提供一種方便，穩(wěn)健和高通量的技術(shù)進行生物標志物的檢測，可用于基礎科學和臨床研究。

探索細胞的物理特性作為生物標志物,可以將非破壞性的力量應用于細胞或珠子，并觀察它們的變形。?這允許研究對物理壓力的te定機械響應。

you勢亮點：

機械力學作為一種新的生物標志物--溫和無損傷
無標記
非破壞性的力量
高速測量單個細胞的形變、亮度、楊氏模量等
細胞機械特性測量高通量（1000細胞/秒）
配有高速成像、熒光檢測、溫控模塊
不需要細胞分離/純化
文獻量大、級別高文章達數(shù)十篇

?

成像

每個細胞被同時拍照、分析和儲存。?這允許通過它們的光學特性來找到小亞群或區(qū)分細胞。?另外可以研究像表面拓撲或細胞對光的衰減的形態(tài)特性。

每個獲取圖像的存儲
快速訪問細胞大小和形態(tài)

?

流式細胞技術(shù)

?

細胞通過微流通道時,提取細胞變形、亮度和大小等參數(shù)，同時。?這允許實時地研究細胞屬性。

可溫控和熒光檢測

實時變形細胞計數(shù)和同時熒光檢測：
熒光模塊使得該系統(tǒng)不再只是附加了一個額外的細胞力學檢測通道的流式細胞儀。它成為了生命科學實驗室的得力工具 - 提供了更多視角來解決科學問題。在生物學研究中通常使用熒光流式細胞儀來鑒定和定量細胞和細胞過程。使該系統(tǒng)集熒光流式細胞儀和實時變形的you點于一身，形成了實時熒光形變細胞儀。光片激發(fā)設計可實現(xiàn)三通道1D熒光成像。除了ALL實時變形參數(shù)外，系統(tǒng)還會分析熒光信號實時得到峰圖，速度可達每秒1000個細胞。也可在實驗后處理保存的原始熒光數(shù)據(jù)，以針對te定的問題和需 求修改處理方法。
1)根據(jù)表面marker鑒定血細胞：
熒光模塊可檢測和鑒定同一樣品中的三種不同熒光。利用標記的表面熒光蛋白可同時實現(xiàn)細胞鑒定和力學性質(zhì)及形態(tài)性質(zhì)測量。 下圖為 G-CSF動員的外周血樣品細胞群體。 標記后的細胞表面markers CD3-FITC (T-cells)， CD34-PE (造血干細胞)和CD14-APC(單核細胞)熒光強度檢測 揭示了各細胞類型所具有的不同力學性質(zhì)。?
2)一維熒光成像：
熒光模塊在激發(fā)光路徑中產(chǎn)生一束受限光片，穿過流道，細胞會經(jīng)過一束很窄的激發(fā)光幕。這樣可以進行1D熒光成像，例如可用于解析沿流動方向的熒光標記結(jié)構(gòu)的側(cè)向分布。檢測到的熒光峰值帶有很多重要信息。熒光標記的胞內(nèi)結(jié)構(gòu)（如細胞核）會顯示窄峰，而胞質(zhì)會顯示出更寬的峰。不同分裂期細胞中標記的組蛋白也會呈現(xiàn)出不同的峰圖.?
加熱模塊 - 溫度控制

加熱模塊實現(xiàn)了生理溫度下的測量。加熱模塊帶有一個300 W的加熱器和幾個靜默通風機來有效混合熱空氣?？拷鼧悠诽幱幸粋€傳感器和一個控制單元，用以精確地將溫度控制在所需值。系統(tǒng)的空氣循環(huán)系統(tǒng)非常高效，當進行開放操作（如更換樣品）后可以迅速恢復溫度。?
高速攝像
該成像模塊是款高速明場攝像顯微鏡,使用同步化微秒高強度LED光源減輕運動模糊,可進行慢運動攝影.每秒可記錄500幅幀圖像或10000幀小區(qū)域圖像

典型應用:

1)檢測細胞骨架改變：
通過力學分析可量化細胞骨架的變化。使用松胞素D抑制微絲會導致較大的形變，降低HL60細胞的剛度。有些細胞可通過亮度和大小等圖像性質(zhì)區(qū)分。這就可對血樣本中的紅細胞、血小板甚至白細胞亞群進行鑒定和進一步研究，無需進行標記和純化。
2)研究既往條件效應
以前研究，通常使用跨膜蛋白CD34來鑒定原代人外周造血干細胞(HSCs)。下圖比較了從骨髓得到的CD34+ 細胞和粒細胞集落刺激因子(G-CSF)動員的外周血CD34+細胞，結(jié)果發(fā)現(xiàn)外周血HSCs比骨髓HSCs更硬。?
3)解析中性粒細胞激活動力學
高測量速度和快速樣品制備的特點使得觀察動力學過程成為可能。下圖為中性粒細胞暴露于fMLP后力學性質(zhì)的改變。一些細菌會釋放fMLP三肽，是一種感染信號，會激活免疫系統(tǒng)細胞。?
3)解析中性粒細胞激活動力學

高通量細胞力學特性測試系統(tǒng)文獻目錄下載

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Author	Title	Year	Journal/Proceedings	Reftype	DOI/URL
Daskalakis, E., Aslan, E., Liu, F., Cooper, G., Weightman, A., Ko?, B., Blunn, G. and Bartolo, P.J.	Composite Scaffolds for Large Bone Defects [Abstract] [BibTeX]	2020	Progress in Digital and Physical Manufacturing, pp. 250-257?	inproceedings	?
Bertana, V., Catania, F., Cocuzza, M., Ferrero, S., Scaltrito, L. and Pirri, C.	Medical and biomedical applications of 3D and 4D printed polymer nanocomposites [Abstract] [BibTeX]	2020	3D and 4D Printing of Polymer Nanocomposite Materials, pp. 325 - 366?	incollection	DOIURL?
Freeman, FE, Browe, DC, Nulty, J, Von Euw, S, Grayson, WL and Kelly, DJ	Biofabrication of multiscale bone extracellular matrix scaffolds for bone tissue engineering. [Abstract] [BibTeX]	2019	European Cells & Materials?	article	DOIURL?
Loai, S., Kingston, B.R., Wang, Z., Philpott, D.N., Tao, M. and Cheng, H.-L.M.	Clinical Perspectives on 3D Bioprinting Paradigms for Regenerative Medicine [BibTeX]	2019	Regen Med Front. Vol. 1(e190004), pp. e190004?	article	DOIURL?
Geetha Bai, R., Muthoosamy, K., Manickam, S. and Hilal-Alnaqbi, A.	Graphene-based 3D scaffolds in tissue engineering: fabrication, applications, and future scope in liver tissue engineering [Abstract] [BibTeX]	2019	International journal of nanomedicine Vol. 14(31413573), pp. 5753-5783?	article	URL?
Zhuang, P., Ng, W.L., An, J., Chua, C.K. and Tan, L.P.	Layer-by-layer ultraviolet assisted extrusion-based (UAE) bioprinting of hydrogel constructs with high aspect ratio for soft tissue engineering applications [Abstract] [BibTeX]	2019	PLOS ONE Vol. 14(6), pp. 1-21?	article	DOI??
Noor, N., Shapira, A., Edri, R., Gal, I., Wertheim, L. and Dvir, T.	3D Printing of Personalized Thick and Perfusable Cardiac Patches and Hearts [Abstract] [BibTeX]	2019	Advanced Science Vol. 0(0), pp. 1900344?	article	DOI??
Markstedt, K., H?kansson, K., Toriz, G. and Gatenholm, P.	Materials from trees assembled by 3D printing – Wood tissue beyond nature limits [Abstract] [BibTeX]	2019	Applied Materials Today Vol. 15, pp. 280 - 285?	article	DOIURL?
Huang, B., Vyas, C., Roberts, I., Poutrel, Q.-A., Chiang, W.-H., Blaker, J.J., Huang, Z. and Bártolo, P.	Fabrication and characterisation of 3D printed MWCNT composite porous scaffolds for bone regeneration [Abstract] [BibTeX]	2019	Materials Science and Engineering: C Vol. 98, pp. 266 - 278?	article	DOIURL?
Gonzalez-Fernandez, T., Rathan, S., Hobbs, C., Pitacco, P., Freeman, F., Cunniffe, G., Dunne, N., McCarthy, H., Nicolosi, V., O'Brien, F. and Kelly, D.	Pore-forming bioinks to enable Spatio-temporally defined gene delivery in bioprinted tissues [Abstract] [BibTeX]	2019	Journal of Controlled Release?	article	DOIURL?
Gloria, A., Frydman, B., Lamas, M.L., Serra, A.C., Martorelli, M., Coelho, J.F., Fonseca, A.C. and Domingos, M.	The influence of poly(ester amide) on the structural and functional features of 3D additive manufactured poly(ε-caprolactone) scaffolds [Abstract] [BibTeX]	2019	Materials Science and Engineering: C Vol. 98, pp. 994 - 1004?	article	DOIURL?
Apelgren, P., Karabulut, E., Amoroso, M., Mantas, A., Martínez ávila, H., K?lby, L., Kondo, T., Toriz, G. and Gatenholm, P.	In Vivo Human Cartilage Formation in Three-Dimensional Bioprinted Constructs with a Novel Bacterial Nanocellulose Bioink [Abstract] [BibTeX]	2019	ACS Biomater. Sci. Eng. Vol. 5(5), pp. 2482-2490?	article	DOI??
Mehrotra, S., Moses, J.C., Bandyopadhyay, A. and Mandal, B.B.	3D Printing/Bioprinting Based Tailoring of in Vitro Tissue Models: Recent Advances and Challenges [Abstract] [BibTeX]	2019	ACS Appl. Bio Mater. Vol. 2(4), pp. 1385-1405?	article	DOI??
Allig, S., Mayer, M., Arrizabalaga, O., Ritter, S., Schroeder, I. and Thielemann, C.	Effect of extrusion-based bioprinting on neurospheres [BibTeX]	2019	GSI-FAIR SCIENTIFIC REPORT 2017School: University of Applied Sciences, BioMEMS Lab, Aschaffenburg, Germany?	techreport	URL?
Marques, C.F., Diogo, G.S., Pina, S., Oliveira, J.M., Silva, T.H. and Reis, R.L.	Collagen-based bioinks for hard tissue engineering applications: a comprehensive review [Abstract] [BibTeX]	2019	Journal of Materials Science: Materials in Medicine Vol. 30(3), pp. 32?	article	DOI??
Zhou, M., Lee, B.H., Tan, Y.J. and Tan, L.P.	Microbial transglutaminase induced controlled crosslinking of gelatin methacryloyl to tailor rheological properties for 3D printing [Abstract] [BibTeX]	2019	Biofabrication Vol. 11(2), pp. 025011?	article	DOI??
Rotbaum, Y., Puiu, C., Rittel, D. and Domingos, M.	Quasi-static and dynamic in vitro mechanical response of 3D printed scaffolds with tailored pore size and architectures [Abstract] [BibTeX]	2019	Materials Science and Engineering: C Vol. 96, pp. 176 - 182?	article	DOIURL?
Pedrotty, D.M., Volodymyr, K., Erdem, K., Sugrue Alan, M., Christopher, L., Vaidya Vaibhav, R., McLeod Christopher, J., Asirvatham Samuel, J., Paul, G. and Suraj, K.	Three-Dimensional Printed Biopatches With Conductive Ink Facilitate Cardiac Conduction When Applied to Disrupted Myocardium [BibTeX]	2019	Circulation: Arrhythmia and Electrophysiology Vol. 12(3), pp. e006920?	article	DOI??
Jiang, T., Munguía López, J., Flores-Torres, S., Kort-Mascort, J. and Kinsella, J.	Extrusion bioprinting of soft materials: An emerging technique for biological model fabrication [BibTeX]	2019	Applied Physics Reviews Vol. 6, pp. 011310?	article	DOI??
Filardo, G., Petretta, M., Cavallo, C., Roseti, L., Durante, S., Albisinni, U. and Grigolo, B.	Patient-specific meniscus prototype based on 3D bioprinting of human cell-laden scaffold [Abstract] [BibTeX]	2019	Bone & Joint Research Vol. 8(2), pp. 101-106?	article	DOI??
Athanasiadis, M., Pak, A., Afanasenkau, D. and Minev, I.R.	Direct Writing of Elastic Fibers with Optical, Electrical, and Microfluidic Functionality [Abstract] [BibTeX]	2019	Advanced Materials Technologies Vol. 0(0), pp. 1800659?	article	DOI??
Sharma, A., Desando, G., Petretta, M., Chawla, S., Bartolotti, I., Manferdini, C., Paolella, F., Gabusi, E., Trucco, D., Ghosh, S. and Lisignoli, G.	Investigating the Role of Sustained Calcium Release in Silk-Gelatin-Based Three-Dimensional Bioprinted Constructs for Enhancing the Osteogenic Differentiation of Human Bone Marrow Derived Mesenchymal Stromal Cells [BibTeX]	2019	ACS Biomater. Sci. Eng.?	article	DOI??
Pan, H.M., Chen, S., Jang, T.-S., Han, W.T., Jung, H.-d., Li, Y. and Song, J.	Plant seed-inspired cell protection, dormancy, and growth for large-scale biofabrication [Abstract] [BibTeX]	2019	Biofabrication Vol. 11(2), pp. 025008?	article	DOI??
Dooley, M., Prasopthum, A., Liao, Z., Sinjab, F., McLaren, J., Rose, F.R.A.J., Yang, J. and Notingher, I.	Spatially-offset Raman spectroscopy for monitoring mineralization of bone tissue engineering scaffolds: feasibility study based on phantom samples [Abstract] [BibTeX]	2019	Biomed. Opt. Express Vol. 10(4), pp. 1678-1690?	article	DOIURL?
Zhang, D., Peng, E., Borayek, R. and Ding, J.	Controllable Ceramic Green-Body Configuration for Complex Ceramic Architectures with Fine Features [Abstract] [BibTeX]	2019	Advanced Functional Materials Vol. 0(0), pp. 1807082?	article	DOI??
Rathan, S., Dejob, L., Schipani, R., Haffner, B., M?bius, M.E. and Kelly, D.J.	Fiber Reinforced Cartilage ECM Functionalized Bioinks for Functional Cartilage Tissue Engineering [Abstract] [BibTeX]	2019	Advanced Healthcare Materials Vol. 0(0), pp. 1801501?	article	DOI??
Alison, L., Menasce, S., Bouville, F., Tervoort, E., Mattich, I., Ofner, A. and Studart, A.R.	3D printing of sacrificial templates into hierarchical porous materials [Abstract] [BibTeX]	2019	Scientific Reports Vol. 9(1), pp. 409?	article	DOI??
Yilmaz, B, Tahmasebifar, A and Baran, ET	Bioprinting Technologies in Tissue Engineering [BibTeX]	2019	Adv Biochem Eng Biotechnol?	article	DOI??
Xu, Y., Peng, J., Richards, G., Lu, S. and Eglin, D.	Optimization of electrospray fabrication of stem cell–embedded alginate–gelatin microspheres and their assembly in 3D-printed poly(ε-caprolactone) scaffold for cartilage tissue engineering [Abstract] [BibTeX]	2019	Journal of Orthopaedic Translation Vol. 18, pp. 128 - 141?	article	DOIURL?
Wang, W., Junior, J.R.P., Nalesso, P.R.L., Musson, D., Cornish, J., Mendon?a, F., Caetano, G.F. and Bártolo, P.	Engineered 3D printed poly(?-caprolactone)/graphene scaffolds for bone tissue engineering [Abstract] [BibTeX]	2019	Materials Science and Engineering: C Vol. 100, pp. 759 - 770?	article	DOIURL?
Wang, W., Huang, B., Byun, J.J. and Bártolo, P.	Assessment of PCL/carbon material scaffolds for bone regeneration [Abstract] [BibTeX]	2019	Journal of the Mechanical Behavior of Biomedical Materials Vol. 93, pp. 52 - 60?	article	DOIURL?
Valot, L., Martinez, J., Mehdi, A. and Subra, G.	Chemical insights into bioinks for 3D printing [Abstract] [BibTeX]	2019	Chem. Soc. Rev. Vol. 48, pp. 4049-4086?	article	DOI??
Tondera, C., Akbar, T.F., Thomas, A.K., Lin, W., Werner, C., Busskamp, V., Zhang, Y. and Minev, I.R.	Highly Conductive, Stretchable, and Cell-Adhesive Hydrogel by Nanoclay Doping [Abstract] [BibTeX]	2019	Small Vol. 0(0), pp. 1901406?	article	DOI??
Shen, J., Wang, W., Zhai, X., Chen, B., Qiao, W., Li, W., Li, P., Zhao, Y., Meng, Y., Qian, S., Liu, X., Chu, P.K. and Yeung, K.W.	3D-printed nanocomposite scaffolds with tunable magnesium ionic microenvironment induce in situ bone tissue regeneration [Abstract] [BibTeX]	2019	Applied Materials Today Vol. 16, pp. 493 - 507?	article	DOIURL?
Schipani, R., Nolan, D.R., Lally, C. and Kelly, D.J.	Integrating finite element modelling and 3D printing to engineer biomimetic polymeric scaffolds for tissue engineering [Abstract] [BibTeX]	2019	Connective Tissue Research Vol. 0(0), pp. 1-16?	article	DOI??
Roopavath, U.K., Soni, R., Mahanta, U., Deshpande, A.S. and Rath, S.N.	3D printable SiO2 nanoparticle ink for patient specific bone regeneration [Abstract] [BibTeX]	2019	RSC Adv. Vol. 9, pp. 23832-23842?	article	DOI??
Romanazzo, S., Nemec, S. and Roohani, I.	iPSC Bioprinting: Where are We at? [Abstract] [BibTeX]	2019	Materials Vol. 12(15)?	article	DOIURL?
Prendergast, M.E. and Burdick, J.A.	Recent Advances in Enabling Technologies in 3D Printing for Precision Medicine [Abstract] [BibTeX]	2019	Advanced Materials Vol. 0(0), pp. 1902516?	article	DOI??
Mestre, R., Pati?o, T., Barceló, X., Anand, S., Pérez-Jiménez, A. and Sánchez, S.	Force Modulation and Adaptability of 3D-Bioprinted Biological Actuators Based on Skeletal Muscle Tissue [Abstract] [BibTeX]	2019	Advanced Materials Technologies Vol. 4(2), pp. 1800631?	article	DOI??
Marchiori, G., Berni, M., Boi, M., Petretta, M., Grigolo, B., Bellucci, D., Cannillo, V., Garavelli, C. and Bianchi, M.	Design of a novel procedure for the optimization of the mechanical performances of 3D printed scaffolds for bone tissue engineering combining CAD, Taguchi method and FEA [Abstract] [BibTeX]	2019	Medical Engineering & Physics Vol. 69, pp. 92 - 99?	article	DOIURL?
Li, J., Liu, X., Crook, J. and Wallace, G.	3D graphene-containing structures for tissue engineering [Abstract] [BibTeX]	2019	Materials Today Chemistry Vol. 14, pp. 100199?	article	DOIURL?
Kleger, N., Cihova, M., Masania, K., Studart, A.R. and L?ffler, J.F.	3d printing of salt as a template for magnesium with structured porosity [Abstract] [BibTeX]	2019	advanced materials Vol. 0(0), pp. 1903783?	article	DOI??
Kjar, A. and Huang, Y.	Application of Micro-Scale 3D Printing in Pharmaceutics [Abstract] [BibTeX]	2019	Pharmaceutics Vol. 11(8)?	article	DOIURL?
Fenton, O.S., Paolini, M., Andresen, J.L., Müller, F.J. and Langer, R.	Outlooks on Three-Dimensional Printing for Ocular Biomaterials Research [Abstract] [BibTeX]	2019	Journal of Ocular Pharmacology and Therapeutics Vol. 0(0), pp. null?	article	DOI??
Derr, K., Zou, J., Luo, K., Song, M.J., Sittampalam, G.S., Zhou, C., Michael, S., Ferrer, M. and Derr, P.	Fully 3D Bioprinted Skin Equivalent Constructs with Validated Morphology and Barrier Function [Abstract] [BibTeX]	2019	Tissue Engineering Part C: Methods Vol. 0(ja), pp. null?	article	DOI??
Daly, A.C. and Kelly, D.J.	Biofabrication of spatially organised tissues by directing the growth of cellular spheroids within 3D printed polymeric microchambers [Abstract] [BibTeX]	2019	Biomaterials Vol. 197, pp. 194 - 206?	article	DOIURL?
Creusen, G., Roshanasan, A., Garcia Lopez, J., Peneva, K. and Walther, A.	Bottom-up design of model network elastomers and hydrogels from precise star polymers [Abstract] [BibTeX]	2019	Polym. Chem., pp. -?	article	DOI??
Costa, P.F.	Translating Biofabrication to the Market [Abstract] [BibTeX]	2019	Trends in Biotechnology?	article	DOIURL?
Cofi?o, C., Perez-Amodio, S., Semino, C.E., Engel, E. and Mateos-Timoneda, M.A.	Development of a Self-Assembled Peptide/Methylcellulose-Based Bioink for 3D Bioprinting [Abstract] [BibTeX]	2019	Macromolecular Materials and Engineering Vol. 0(0), pp. 1900353?	article	DOI??
Cernencu, A.I., Lungu, A., Stancu, I.-C., Serafim, A., Heggset, E., Syverud, K. and Iovu, H.	Bioinspired 3D printable pectin-nanocellulose ink formulations [Abstract] [BibTeX]	2019	Carbohydrate Polymers Vol. 220, pp. 12 - 21?	article	DOIURL?
Caetano, G., Wang, W., Murashima, A., Passarini, J.R., Bagne, L., Leite, M., Hyppolito, M., Al-Deyab, S., El-Newehy, M., Bártolo, P. and Frade, M.A.C.	Tissue Constructs with Human Adipose-Derived Mesenchymal Stem Cells to Treat Bone Defects in Rats [Abstract] [BibTeX]	2019	Materials Vol. 12(14)?	article	DOIURL?
Azim, N., Hart, C., Sommerhage, F., Aubin, M., Hickman, J.J. and Rajaraman, S.	Precision Plating of Human Electrogenic Cells on Microelectrodes Enhanced With Precision Electrodeposited Nano-Porous Platinum for Cell-Based Biosensing Applications [Abstract] [BibTeX]	2019	Journal of Microelectromechanical Systems Vol. 28(1), pp. 50-62?	article	DOIURL?
Angelopoulos, I., Allenby, M.C., Lim, M. and Zamorano, M.	Engineering inkjet bioprinting processes toward translational therapies [Abstract] [BibTeX]	2019	Biotechnology and Bioengineering Vol. 0(0)?	article	DOI??
Almeida, H.A., Costa, A.F., Ramos, C., Torres, C., Minondo, M., Bártolo, P.J., Nunes, A., Kemmoku, D. and da Silva, J.V.L.	Additive Manufacturing Systems for Medical Applications: Case Studies [Abstract] [BibTeX]	2019	Additive Manufacturing -- Developments in Training and Education, pp. 187-209?	inbook	DOIURL?
Khaled, S.A., Alexander, M.R., Irvine, D.J., Wildman, R.D., Wallace, M.J., Sharpe, S., Yoo, J. and Roberts, C.J.	Extrusion 3D Printing of Paracetamol Tablets from a Single Formulation with Tunable Release Profiles Through Control of Tablet Geometry [Abstract] [BibTeX]	2018	AAPS PharmSciTech Vol. 19(8), pp. 3403-3413?	article	DOI??
Zamani, Y., Mohammadi, J., Amoabediny, G., Visscher, D.O., Helder, M.N., Zandieh-Doulabi, B. and Klein-Nulend, J.	Enhanced osteogenic activity by MC3T3-E1 pre-osteoblasts on chemically surface-modified poly(upepsilon-caprolactone) 3D-printed scaffolds compared to RGD immobilized scaffolds [Abstract] [BibTeX]	2018	Biomedical Materials Vol. 14(1), pp. 015008?	article	DOI??
Li, H., Tan, Y.J. and Li, L.	A strategy for strong interface bonding by 3D bioprinting of oppositely charged κ-carrageenan and gelatin hydrogels [Abstract] [BibTeX]	2018	Carbohydrate Polymers Vol. 198, pp. 261-269?	article	URL?
Petta, D., Armiento, A.R., Grijpma, D., Alini, M., Eglin, D. and D'Este, M.	3D bioprinting of a hyaluronan bioink through enzymatic-and visible light-crosslinking [Abstract] [BibTeX]	2018	Biofabrication Vol. 10(4), pp. 044104?	article	DOI??
García-Lizarribar, A., Fernández-Garibay, X., Velasco-Mallorquí, F., G. Casta?o, A., Samitier, J. and Ramón-Azcón, J.	Composite Biomaterials as Long-Lasting Scaffolds for 3D Bioprinting of Highly Aligned Muscle Tissue [BibTeX]	2018	Macromolecular Bioscience Vol. 18, pp. 1800167?	article	DOI??
Gleadall, A., Visscher, D., Yang, J., Thomas, D. and Segal, J.	Review of additive manufactured tissue engineering scaffolds: relationship between geometry and performance [Abstract] [BibTeX]	2018	Burns & Trauma Vol. 6(1), pp. 19?	article	DOI??
Gullo, M.R., Koeser, J., Ruckli, O., Eigenmann, A. and Hradetzky, D.	Rapid Prototyping Method for 3D Printed Biomaterial Constructs with Vascular Structures [Abstract] [BibTeX]	2018	40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), pp. 5729-5732?	inproceedings	DOI??
Gill, E.L., Li, X., Birch, M.A. and Huang, Y.Y.S.	Multi-length scale bioprinting towards simulating microenvironmental cues [Abstract] [BibTeX]	2018	Bio-Design and Manufacturing Vol. 1(2), pp. 77-88?	article	DOI??
Choudhury, D., Anand, S. and Win Naing, M.	The Arrival of Commercial Bioprinters - Towards 3D Bioprinting Revolution! [BibTeX]	2018	International Journal of Bioprinting Vol. 4?	article	DOI??
Agarwala, S., Lee, J.M., Ng, W.L., Layani, M., Yeong, W.Y. and Magdassi, S.	A novel 3D bioprinted flexible and biocompatible hydrogel bioelectronic platform [Abstract] [BibTeX]	2018	Biosensors and Bioelectronics Vol. 102(Supplement C), pp. 365 - 371?	article	DOIURL?
Monzón, M., Liu, C., Ajami, S., Oliveira, M., Donate, R., Ribeiro, V. and Reis, R.L.	Functionally graded additive manufacturing to achieve functionality specifications of osteochondral scaffolds [BibTeX]	2018	Bio-Design and Manufacturing Vol. 1(1), pp. 69-75?	article	DOI??
Tognato, R., Armiento, A.R., Bonfrate, V., Levato, R., Malda, J., Alini, M., Eglin, D., Giancane, G. and Serra, T.	A Stimuli-Responsive Nanocomposite for 3D Anisotropic Cell-Guidance and Magnetic Soft Robotics [Abstract] [BibTeX]	2018	Adv. Funct. Mater. Vol. 29(9), pp. 1804647?	article	DOI??
Schaffner, M., Faber, J.A., Pianegonda, L., Rühs, P.A., Coulter, F. and Studart, A.R.	3D printing of robotic soft actuators with programmable bioinspired architectures [Abstract] [BibTeX]	2018	Nature Communications Vol. 9(1), pp. 878?	article	DOI??
Raghunath, M., Rimann, M., Kopanska, K. and Laternser, S.	TEDD Annual Meeting with 3D Bioprinting Workshop [Abstract] [BibTeX]	2018	CHIMIA Vol. 72CHIMIA International Journal for Chemistry, pp. 76-79?	article	URL?
Prasopthum, A., Shakesheff, K.M. and Yang, J.	Direct three-dimensional printing of polymeric scaffolds with nanofibrous topography [Abstract] [BibTeX]	2018	Biofabrication Vol. 10(2), pp. 025002?	article	DOI??
Allig, S., Mayer, M. and Thielemann, C.	Workflow for bioprinting of cell-laden bioink [BibTeX]	2018	Lekar a Technika Vol. 48, pp. 46-51?	article	URL?
Wang, H., das Neves Domingos, M.A. and Scenini, F.	Advanced mechanical and thermal characterization of 3D bioextruded poly(ε-caprolactone)-based composites [Abstract] [BibTeX]	2018	Rapid Prototyping Journal Vol. 0(ja), pp. 00-00?	article	DOI??
Visscher, D.O., Gleadall, A., Buskermolen, J.K., Burla, F., Segal, J., Koenderink, G.H., Helder, M.N. and van Zuijlen, P.P.M.	Design and fabrication of a hybrid alginate hydrogel/poly(ε-caprolactone) mold for auricular cartilage reconstruction [Abstract] [BibTeX]	2018	Journal of Biomedical Materials Research Part B: Applied Biomaterials Vol. 0(0)?	article	DOI??
Shi, P., Tan, Y.S.E., Yeong, W.Y., Li, H.Y. and Laude, A.	A bilayer photoreceptor‐retinal tissue model with gradient cell density design: A study of microvalve‐based bioprinting [Abstract] [BibTeX]	2018	Journal of Tissue Engineering and Regenerative Medicine Vol. 12(5), pp. 1297-1306?	article	DOI??
Schmieg, B., Schimek, A. and Franzreb, M.	Development and performance of a 3D‐printable Polyethylenglycol‐Diacrylate hydrogel suitable for enzyme entrapment and long‐term biocatalytic applications [Abstract] [BibTeX]	2018	Engineering in Life Sciences Vol. 0(ja)?	article	DOIURL?
de Ruijter Mylène, Alexandre, R., Inge, D., Miguel, C. and Jos, M.	Simultaneous Micropatterning of Fibrous Meshes and Bioinks for the Fabrication of Living Tissue Constructs [Abstract] [BibTeX]	2018	Advanced Healthcare Materials Vol. 0(0), pp. 1800418?	article	DOIURL?
Romanazzo, S., Vedicherla, S., Moran, C. and Kelly, D.J.	Meniscus ECM‐functionalised hydrogels containing infrapatellar fat pad‐derived stem cells for bioprinting of regionally defined meniscal tissue [Abstract] [BibTeX]	2018	Journal of Tissue Engineering and Regenerative Medicine Vol. 12(3), pp. e1826-e1835?	article	DOI??
Rayate, A. and Jain, P.K.	A Review on 4D Printing Material Composites and Their Applications [Abstract] [BibTeX]	2018	Materials Today: Proceedings Vol. 5(9, Part 3), pp. 20474 - 20484?	article	DOIURL?
Pereira, F.D.A.S., Parfenov, V., Khesuani, Y.D., Ovsianikov, A. and Mironov, V.	Commercial 3D Bioprinters [Abstract] [BibTeX]	2018	3D Printing and Biofabrication, pp. 535-549?	inbook	DOI??
Peiffer, Q.C.	Biofabrication: Tools for new therapeutics in regenerative medicine and drug delivery [Abstract] [BibTeX]	2018	School: Queensland University of Technology?	mastersthesis	DOIURL?
Park, H.S., Lee, J.S., Jung, H., Kim, D.Y., Kim, S.W., Sultan, M.T. and Park, C.H.	An omentum-cultured 3D-printed artificial trachea: in vivo bioreactor [Abstract] [BibTeX]	2018	Artificial Cells, Nanomedicine, and Biotechnology Vol. 46(sup3), pp. S1131-S1140?	article	DOI??
Ng, W.L., Qi, J.T.Z., Yeong, W.Y. and Naing, M.W.	Proof-of-concept: 3D bioprinting of pigmented human skin constructs [Abstract] [BibTeX]	2018	Biofabrication Vol. 10(2), pp. 025005?	article	URL?
Ng, W.L., Goh, M.H., Yeong, W.Y. and Naing, M.W.	Applying macromolecular crowding to 3D bioprinting: fabrication of 3D hierarchical porous collagen-based hydrogel constructs [Abstract] [BibTeX]	2018	Biomater. Sci. Vol. 6, pp. 562-574?	article	DOIURL?
Mouser, V.H.M., Levato, R., Mensinga, A., Dhert, W.J.A., Gawlitta, D. and Malda, J.	Bio-ink development for three-dimensional bioprinting of hetero-cellular cartilage constructs [Abstract] [BibTeX]	2018	Connective Tissue Research Vol. 0(0), pp. 1-15?	article	DOI??
Liu, F., Hinduja, S. and Bártolo, P.	User interface tool for a novel plasma-assisted bio-additive extrusion system [Abstract] [BibTeX]	2018	Rapid Prototyping Journal Vol. 24(2), pp. 368-378?	article	DOI??
Lim, S.H., Kathuria, H., Tan, J.J.Y. and Kang, L.	3D printed drug delivery and testing systems — a passing fad or the future? [Abstract] [BibTeX]	2018	Advanced Drug Delivery Reviews Vol. 132, pp. 139 - 168?	article	DOIURL?
Li, H., Tan, Y.J., Liu, S. and Li, L.	Three-Dimensional Bioprinting of Oppositely Charged Hydrogels with Super Strong Interface Bonding [Abstract] [BibTeX]	2018	ACS Applied Materials & Interfaces Vol. 10(13), pp. 11164-11174?	article	DOI??
Li, H., Tan, C. and Li, L.	Review of 3D printable hydrogels and constructs [Abstract] [BibTeX]	2018	Materials & Design Vol. 159, pp. 20 - 38?	article	DOIURL?
Lee, M., Bae, K., Guillon, P., Chang, J., Arlov, ?. and Zenobi-Wong, M.	Exploitation of Cationic Silica Nanoparticles for Bioprinting of Large-Scale Constructs with High Printing Fidelity [Abstract] [BibTeX]	2018	ACS Applied Materials & Interfaces Vol. 10(44), pp. 37820-37828?	article	DOI??
Laternser, S., Keller, H., Leupin, O., Rausch, M., Graf-Hausner, U. and Rimann, M.	A Novel Microplate 3D Bioprinting Platform for the Engineering of Muscle and Tendon Tissues [Abstract] [BibTeX]	2018	SLAS TECHNOLOGY: Translating Life Sciences Innovation Vol. 0(0), pp. 2472630318776594?	article	DOIURL?
Kuzmenko, V., Karabulut, E., Pernevik, E., Enoksson, P. and Gatenholm, P.	Tailor-made conductive inks from cellulose nanofibrils for 3D printing of neural guidelines [Abstract] [BibTeX]	2018	Carbohydrate Polymers Vol. 189, pp. 22 - 30?	article	DOIURL?
Kumari, S., Bargel, H., Anby, M.U., Lafargue, D. and Scheibel, T.	Recombinant Spider Silk Hydrogels for Sustained Release of Biologicals [Abstract] [BibTeX]	2018	ACS Biomaterials Science & Engineering Vol. 4(5), pp. 1750-1759?	article	DOI??
Kokkinis, D., Bouville, F. and Studart, A.R.	3D Printing of Materials with Tunable Failure via Bioinspired Mechanical Gradients [Abstract] [BibTeX]	2018	Advanced Materials Vol. 30(19), pp. 1705808?	article	DOI??
Khaled, S.A., Alexander, M.R., Wildman, R.D., Wallace, M.J., Sharpe, S., Yoo, J. and Roberts, C.J.	3D extrusion printing of high drug loading immediate release paracetamol tablets [Abstract] [BibTeX]	2018	International Journal of Pharmaceutics Vol. 538(1), pp. 223 - 230?	article	DOIURL?
Kelder, C., Bakker, A.D., Klein-Nulend, J. and Wismeijer, D.	The 3D Printing of Calcium Phosphate with K-Carrageenan under Conditions Permitting the Incorporation of Biological Components—A Method [Abstract] [BibTeX]	2018	Journal of Functional Biomaterials Vol. 9(4)?	article	DOIURL?
Huang, Y.-A., Ho, C.T., Lin, Y.-H., Lee, C.-J., Ho, S.-M., Li, M.-C. and Hwang, E.	Nanoimprinted Anisotropic Topography Preferentially Guides Axons and Enhances Nerve Regeneration [Abstract] [BibTeX]	2018	Macromolecular Bioscience Vol. 0(0), pp. 1800335?	article	DOI??

Gungor-Ozkerim, P.S., Inci, I., Zhang, Y.S., Khademhosseini, A. and Dokmeci, M.R.	Bioinks for 3D bioprinting: an overview [Abstract] [BibTeX]	2018	Biomater. Sci. Vol. 6, pp. 915-946?	article	DOI??
Gretzinger, S., Beckert, N., Gleadall, A., Lee-Thedieck, C. and Hubbuch, J.	3D bioprinting – Flow cytometry as analytical strategy for 3D cell structures [Abstract] [BibTeX]	2018	Bioprinting Vol. 11, pp. e00023?	article	DOIURL?
Fortunato, G.M., Maria, C.D., Eglin, D., Serra, T. and Vozzi, G.	An ink-jet printed electrical stimulation platform for muscle tissue regeneration [Abstract] [BibTeX]	2018	Bioprinting Vol. 11, pp. e00035?	article	DOIURL?
Firth, J., Basit, A.W. and Gaisford, S.	The Role of Semi-Solid Extrusion Printing in Clinical Practice [Abstract] [BibTeX]	2018	3D Printing of Pharmaceuticals, pp. 133-151?	inbook	DOI??
Daly, A.C., Pitacco, P., Nulty, J., Cunniffe, G.M. and Kelly, D.J.	3D printed microchannel networks to direct vascularisation during endochondral bone repair [Abstract] [BibTeX]	2018	Biomaterials Vol. 162, pp. 34 - 46?	article	DOIURL?
Couck, S., Saint-Remi, J.C., der Perre, S.V., Baron, G.V., Minas, C., Ruch, P. and Denayer, J.F.	3D-printed SAPO-34 monoliths for gas separation [Abstract] [BibTeX]	2018	Microporous and Mesoporous Materials Vol. 255(Supplement C), pp. 185 - 191?	article	DOIURL?
Chinga-Carrasco, G.	Potential and Limitations of Nanocelluloses as Components in Biocomposite Inks for Three-Dimensional Bioprinting and for Biomedical Devices [Abstract] [BibTeX]	2018	Biomacromolecules Vol. 19(3), pp. 701-711?	article	DOI??
Caetano, G.F., Wang, W., Chiang, W.-H., Cooper, G., Diver, C., Blaker, J.J., Frade, M.A. and Bártolo, P.	3D-Printed Poly(?-caprolactone)/Graphene Scaffolds Activated with P1-Latex Protein for Bone Regeneration [Abstract] [BibTeX]	2018	3D Printing and Additive Manufacturing Vol. 0(0), pp. null?	article	DOIURL?
Bastola, A., Paudel, M. and Li, L.	Development of hybrid magnetorheological elastomers by 3D printing [Abstract] [BibTeX]	2018	Polymer Vol. 149, pp. 213 - 228?	article	DOIURL?
Banerjee, H. and Ren, H.	Electromagnetically Responsive Soft-Flexible Robots and Sensors for Biomedical Applications and Impending Challenges [Abstract] [BibTeX]	2018	Electromagnetic Actuation and Sensing in Medical Robotics, pp. 43-72?	inbook	DOI??
Aied, A., Song, W., Wang, W., Baki, A. and Sigen, A.	3D Bioprinting of stimuli-responsive polymers synthesised from DE-ATRP into soft tissue replicas [Abstract] [BibTeX]	2018	Bioprinting?	article	DOIURL?
Suntornnond, R., Tan, E., An, J. and Chua, C.	A highly printable and biocompatible hydrogel composite for direct printing of soft and perfusable vasculature-like structures [Abstract] [BibTeX]	2017	Scientific Reports Vol. 7(16902)?	article	DOIURL?
Schroeder, T.B.H., Guha, A., Lamoureux, A., VanRenterghem, G., Sept, D., Shtein, M., Yang, J. and Mayer, M.	An electric-eel-inspired soft power source from stacked hydrogels [Abstract] [BibTeX]	2017	Nature Vol. 552, pp. 214?	article	DOI??
Nguyen, D., H?gg, D., Forsman, A., Ekholm, J., Nimkingratana, P., Brantsing, C., Kalogeropoulos, T., Zaunz, S., Concaro, S., Brittberg, M., Lindahl, A., Gatenholm, P., Enejder, A. and Simonsson, S.	Cartilage Tissue Engineering by the 3D Bioprinting of iPS Cells in a Nanocellulose/Alginate Bioink [Abstract] [BibTeX]	2017	Scientific Reports Vol. 7Scientific Reports?	article	DOI??
Freeman, F.E. and Kelly, D.J.	Tuning Alginate Bioink Stiffness and Composition for Controlled Growth Factor Delivery and to Spatially Direct MSC Fate within Bioprinted Tissues [Abstract] [BibTeX]	2017	Scientific Reports Vol. 7(1), pp. 17042?	article	DOI??
Levato, R., Webb, W.R., Otto, I.A., Mensinga, A., Zhang, Y., van Rijen, M., van Weeren, R., Khan, I.M. and Malda, J.	The bio in the ink: cartilage regeneration with bioprintable hydrogels and articular cartilage-derived progenitor cells [BibTeX]	2017	Acta Biomaterialia Vol. 61(Supplement C), pp. 41-53?	article	URL?
Bertlein, S., Brown, G., Lim, K., Jungst, T., Boeck, T., Blunk, T., Tessmar, J., J. Hooper, G., Woodfield, T. and Groll, J.	Thiol-Ene Clickable Gelatin: A Platform Bioink for Multiple 3D Biofabrication Technologies [Abstract] [BibTeX]	2017	Advanced Materials?	article	DOI??
Mancini, I., Vindas Bola?os, R., Brommer, H., Castilho, M., Ribeiro, A., van Loon, J., Mensinga, A., Rijen, M., Malda, J. and van Weeren, P.	Fixation of hydrogel constructs for cartilage repair in the equine model: a challenging issue [Abstract] [BibTeX]	2017	Tissue Engineering Part C: Methods?	article	DOI??
Cunniffe, G., Gonzalez-Fernandez, T., Daly, A., Nelson Sathy, B., Jeon, O., Alsberg, E. and J. Kelly, D.	Three-Dimensional Bioprinting of Polycaprolactone Reinforced Gene Activated Bioinks for Bone Tissue Engineering [Abstract] [BibTeX]	2017	Tissue Engineering Part ATissue Engineering Part A?	article	DOI??
Abbadessa, A., Landín, M., Oude Blenke, E., Hennink, W.E. and Vermonden, T.	Two-component thermosensitive hydrogels: Phase separation affecting rheological behavior [Abstract] [BibTeX]	2017	European Polymer Journal Vol. 92(Supplement C), pp. 13-26?	article	URL?
D'Amora, U., D'Este, M., Eglin, D., Safari, F., Sprecher, C., Gloria, A., De Santis, R., Alini, M. and Ambrosio, L.	Collagen Density Gradient on 3D Printed Poly(ε-Caprolactone) Scaffolds for Interface Tissue Engineering [BibTeX]	2017	Journal of tissue engineering and regenerative medicine Vol. 12?	article	DOI??
Bastola, A.K., Hoang, V.T. and Li, L.	A novel hybrid magnetorheological elastomer developed by 3D printing [Abstract] [BibTeX]	2017	Materials & Design Vol. 114(Supplement C), pp. 391-397?	article	URL?
Zeng, Q., Macri, L., Prasad, A., Clark, R., Zeugolis, D., Hanley, C., Garcia, Y., Pandit, A., Leavesley, D., Stupar, D., Fernandez, M., Fan, C. and Upton, Z.	6.20 Skin Tissue Engineering☆ [Abstract] [BibTeX]	2017	Comprehensive Biomaterials II\, pp. 334 - 382?	incollection	DOIURL?
Thamm, C., DeSimone, E. and Scheibel, T.	Characterization of Hydrogels Made of a Novel Spider Silk Protein eMaSp1s and Evaluation for 3D Printing [Abstract] [BibTeX]	2017	Macromolecular Bioscience Vol. 17(11), pp. 1700141-n/a?	article	DOIURL?
Sultan, S., Siqueira, G., Zimmermann, T. and Mathew, A.P.	3D printing of nano-cellulosic biomaterials for medical applications [Abstract] [BibTeX]	2017	Current Opinion in Biomedical Engineering Vol. 2(Supplement C), pp. 29 - 34?	article	DOIURL?
Stichler, S., B?ck, T., Paxton, N.C., Bertlein, S., Levato, R., Schill, V., Smolan, W., Malda, J., Tessmar, J., Blunk, T. and Groll, J.	Double printing of hyaluronic acid / poly(glycidol) hybrid hydrogels with poly(ε-caprolactone) for MSC chondrogenesis [Abstract] [BibTeX]	2017	Biofabrication?	article	DOI??
Sommer, M.R., Alison, L., Minas, C., Tervoort, E., Ruhs, P.A. and Studart, A.R.	3D printing of concentrated emulsions into multiphase biocompatible soft materials [Abstract] [BibTeX]	2017	Soft Matter Vol. 13, pp. 1794-1803?	article	DOI??
Siqueira, G., Kokkinis, D., Libanori, R., Hausmann, M.K., Gladman, A.S., Neels, A., Tingaut, P., Zimmermann, T., Lewis, J.A. and Studart, A.R.	Cellulose Nanocrystal Inks for 3D Printing of Textured Cellular Architectures [Abstract] [BibTeX]	2017	Advanced Functional Materials Vol. 27(12), pp. 1604619-n/a?	article	DOI??
Schaffner, M., Rühs, P.A., Coulter, F., Kilcher, S. and Studart, A.R.	3D printing of bacteria into functional complex materials [Abstract] [BibTeX]	2017	Science Advances Vol. 3(12)?	article	DOIURL?
Ribeiro, A., Blokzijl, M.M., Levato, R., Visser, C.W., Castilho, M., Hennink, W.E., Vermonden, T. and Malda, J.	Assessing bioink shape fidelity to aid material development in 3D bioprinting [Abstract] [BibTeX]	2017	Biofabrication?	article	DOI??
Reitmaier, S., Kovtun, A., Schuelke, J., Kanter, B., Lemm, M., Hoess, A., Heinemann, S., Nies, B. and Ignatius, A.	Strontium(II) and mechanical loading additively augment bone formation in calcium phosphate scaffolds [Abstract] [BibTeX]	2017	Journal of Orthopaedic Research, pp. n/a-n/a?	article	DOI??
Peng, W., Datta, P., Ayan, B., Ozbolat, V., Sosnoski, D. and Ozbolat, I.T.	3D bioprinting for drug discovery and development in pharmaceutics [Abstract] [BibTeX]	2017	Acta Biomaterialia Vol. 57, pp. 26 - 46?	article	DOIURL?
Paxton, N.C., Smolan, W., B?ck, T., Melchels, F.P.W., Groll, J. and Juengst, T.	Proposal to Assess Printability of Bioinks for Extrusion-Based Bioprinting and Evaluation of Rheological Properties Governing Bioprintability [Abstract] [BibTeX]	2017	Biofabrication?	article	DOI??
Mouser, V.H.M., Abbadessa, A., Levato, R., Hennink, W.E., Vermonden, T., Gawlitta, D. and Malda, J.	Development of a thermosensitive HAMA-containing bio-ink for the fabrication of composite cartilage repair constructs [Abstract] [BibTeX]	2017	Biofabrication Vol. 9(1), pp. 015026?	article	URL?
Lorson, T., Jaksch, S., Lübtow, M.M., Jüngst, T., Groll, J., Lühmann, T. and Luxenhofer, R.	A Thermogelling Supramolecular Hydrogel with Sponge-Like Morphology as a Cytocompatible Bioink [Abstract] [BibTeX]	2017	Biomacromolecules Vol. 18(7), pp. 2161-2171?	article	DOI??
Ligon, S.C., Liska, R., Stampfl, J., Gurr, M. and Mülhaupt, R.	Polymers for 3D Printing and Customized Additive Manufacturing [Abstract] [BibTeX]	2017	Chemical Reviews Vol. 117(15), pp. 10212-10290?	article	DOI??
Liao, Z., Sinjab, F., Nommeots-Nomm, A., Jones, J., Ruiz-Cantu, L., Yang, J., Rose, F. and Notingher, I.	Feasibility of Spatially Offset Raman Spectroscopy for in Vitro and in Vivo Monitoring Mineralization of Bone Tissue Engineering Scaffolds [Abstract] [BibTeX]	2017	Analytical Chemistry Vol. 89(1), pp. 847-853?	article	DOI??
Kuzmenko, V.	Cellulose-derived conductive nanofibrous materials for energy storage and tissue engineering Applications [BibTeX]	2017	School: Department of Microtechnology and Nanoscience CHALMERS UNIVERSITY OF TECHNOLOGY?	phdthesis	URL?
Huang, Y., Zhang, X.-F., Gao, G., Yonezawa, T. and Cui, X.	3D bioprinting and the current applications in tissue engineering [Abstract] [BibTeX]	2017	Biotechnology Journal Vol. 12(8), pp. 1600734-n/a?	article	DOI??
Henriksson, I., Gatenholm, P. and H?gg, D.A.	Increased lipid accumulation and adipogenic gene expression of adipocytes in 3D bioprinted nanocellulose scaffolds [Abstract] [BibTeX]	2017	Biofabrication Vol. 9(1), pp. 015022?	article	URL?
DeSimone, E., Schacht, K., Pellert, A. and Scheibel, T.	Recombinant spider silk-based bioinks [Abstract] [BibTeX]	2017	Biofabrication Vol. 9(4), pp. 044104?	article	URL?
Dalton, P.D.	Melt electrowriting with additive manufacturing principles [Abstract] [BibTeX]	2017	Current Opinion in Biomedical Engineering Vol. 2(Supplement C), pp. 49 - 57?	article	DOIURL?
Choi, Y., Yi, H., Kim, S. and Cho, D.	3D Cell Printed Tissue Analogues: A New Platform for Theranostics [Abstract] [BibTeX]	2017	Theranostics?	article	URL?
Charbe, N.B., McCarron, P.A., Lane, M.E. and Tambuwala, M.M.	Application of three-dimensional printing for colon targeted drug delivery systems [Abstract] [BibTeX]	2017	International Journal of Pharmaceutical Investigation Vol. 7(2), pp. 47-59?	article	URL?
Borovjagin, A.V., Ogle, B.M., Berry, J.L. and Zhang, J.	From Microscale Devices to 3D Printing [Abstract] [BibTeX]	2017	Circulation Research Vol. 120(1), pp. 150-165?	article	DOIURL?
Baumann, B., Jungst, T., Stichler, S., Feineis, S., Wiltschka, O., Kuhlmann, M., Lindén, M. and Groll, J.	Control of Nanoparticle Release Kinetics from 3D Printed Hydrogel Scaffolds [Abstract] [BibTeX]	2017	Angewandte Chemie International Edition, pp. n/a-n/a?	article	DOI??
Aljohani, W., Ullah, M.W., Zhang, X. and Yang, G.	Bioprinting and its applications in tissue engineering and regenerative medicine [Abstract] [BibTeX]	2017	International Journal of Biological Macromolecules?	article	DOIURL?
Bastola, A., Hoang Tan, V. and Lin, L.	Magnetorheological Elastomer: A novel approach of synthesis [Abstract] [BibTeX]	2016	2ND INTERNATIONAL CONFERENCE IN SPORTS SCIENCE & TECHNOLOGY, At NTU, Singapore?	conference	URL?
Durual, S.	Impression 3D et régénération osseuse, un mariage plein d'avenir [BibTeX]	2016	Biomateriaux Cliniques Vol. 1BioMatériaux Cliniques, pp. 58-61?	article	URL?
Gudapati, H., Dey, M. and Ozbolat, I.	A comprehensive review on droplet-based bioprinting: Past, present and future. [Abstract] [BibTeX]	2016	Biomaterials Vol. 102, pp. 20-42?	article	URL?
Sears, N.A., Seshadri, D.R., Dhavalikar, P.S. and Cosgriff-Hernandez, E.	A Review of Three-Dimensional Printing in Tissue Engineering [Abstract] [BibTeX]	2016	Tissue Engineering Part B: Reviews Vol. 22(4), pp. 298-310?	article	DOI??
Wang, W., Caetano, G., Chiang, W.-H., Sousa, A.L., Blaker, J., Frade, M.A.R.C.O., Frade, C. and Jorge Bártolo, P.	Morphological, mechanical and biological assessment of PCL/pristine graphene scaffolds for bone regeneration [Abstract] [BibTeX]	2016	International Journal of Bioprinting Vol. 2, pp. 95-105?	article	URL?
Visscher, D.O., Bos, E.J., Peeters, M., Kuzmin, N.V., Groot, M.L., Helder, M.N. and van Zuijlen, P.P.M.	Cartilage Tissue Engineering: Preventing Tissue Scaffold Contraction Using a 3D-Printed Polymeric Cage. [Abstract] [BibTeX]	2016	Tissue engineering Part C, Methods Vol. 22, pp. 573-84?	article	URL?
Stichler, S., Jungst, T., Schamel, M., Zilkowski, I., Kuhlmann, M., Bock, T., Blunk, T., Tessmar, J. and Groll, J.	Thiol-ene Clickable Poly(glycidol) Hydrogels for Biofabrication. [Abstract] [BibTeX]	2016	Annals of biomedical engineering?	article	URL?
Kesti, M., Fisch, P., Pensalfini, M., Mazza, E. and Zenobi-Wong, M.	Guidelines for standardization of bioprinting: a systematic study of process parameters and their effect on bioprinted structures [Abstract] [BibTeX]	2016	BioNanoMaterials Vol. 17(3-4), pp. 193-204?	article	DOI??
Durual, S.	Emergence d'une nouvelle génération de substituts osseux synthétiques imprimés en 3D [BibTeX]	2016	BIOMATERIAUX D’AUJOURD’HUI ET DE DEMAINBI Vol. Hors-sérieJournal de parodontologie et d'implantologie orale, pp. 63-67?	article	URL?
Khati, V., Kellom?ki, M. and Anderson, H.S.	Development of a Robust Decellularized Extracellular Matrix Bioink for 3D Bioprinting [Abstract] [BibTeX]	2016	School: Tampere University of Technology?	mastersthesis	?
Wu, C., Wang, B., Zhang, C., Wysk, R.A. and Chen, Y.-W.	Bioprinting: an assessment based on manufacturing readiness levels [Abstract] [BibTeX]	2016	Critical Reviews in Biotechnology Vol. 0(0), pp. 1-22?	article	DOI??
Wang, W.G., Chang, W.H. and Bartolo, P.J.	Design, fabrication and evaluation of pcl-graphene scaffolds for bone regeneration [Abstract] [BibTeX]	2016	Proceedings of the 2nd International Conference on Progress in Additive Manufacturing (Pro-AM 2016)?	conference	DOI??
Visscher, D.O., Farré-Guasch, E., Helder, M.N., Gibbs, S., Forouzanfar, T., van Zuijlen, P.P. and Wolff, J.	Advances in Bioprinting Technologies for Craniofacial Reconstruction [Abstract] [BibTeX]	2016	Trends in Biotechnology Vol. 34(9), pp. 700-710?	article	DOI??
Suntornnond, R., Tan, E.Y.S., An, J. and Chua, C.K.	A Mathematical Model on the Resolution of Extrusion Bioprinting for the Development of New Bioinks [Abstract] [BibTeX]	2016	Materials Vol. 9(9), pp. 756?	article	DOIURL?
Suntornnond, R., An, J. and Chua, C.K.	A Preliminary Study on the Extrusion Resolution of Pluronic F127 for Bioprinting Thermo-responsive Hydrogel Constructs [Abstract] [BibTeX]	2016	Proceedings of the 2nd International Conference on Progress in Additive Manufacturing (Pro-AM 2016)?	conference	URL?
Sommer, M.R., Schaffner, M., Carnelli, D. and Studart, A.R.	3D Printing of Hierarchical Silk Fibroin Structures [Abstract] [BibTeX]	2016	ACS Applied Materials & Interfaces Vol. 8(50), pp. 34677-34685?	article	DOI??
Ruiz-Cantu, L., Gleadall, A., Faris, C., Segal, J., Shakesheff, K. and Yang, J.	Characterisation of the surface structure of 3D printed scaffolds for cell infiltration and surgical suturing [Abstract] [BibTeX]	2016	Biofabrication Vol. 8(1), pp. 015016?	article	URL?

Raphael, B., Khalil, T., Workman, V.L., Smith, A., Brown, C.P., Streulli, C., Saiani, A. and Domingos, M.	3D cell bioprinting of self-assembling peptide-based hydrogels [Abstract] [BibTeX]	2016	Materials Letters?	article	DOIURL?
Passamai, V.E., Dernowsek, J.A., Nogueira, J., Lara, V., Vilalba, F., Mironov, V.A., Rezende, R.A. and da Silva, J.V.	From 3D Bioprinters to a fully integrated Organ Biofabrication Line [Abstract] [BibTeX]	2016	Journal of Physics: Conference Series Vol. 705(1), pp. 012010?	article	URL?
Ozbolat, I.T., Peng, W. and Ozbolat, V.	Application areas of 3D bioprinting [Abstract] [BibTeX]	2016	Drug Discovery Today Vol. 21(8), pp. 1257-1271?	article	DOIURL?
Ozbolat, I.T., Moncal, K.K. and Gudapati, H.	Evaluation of bioprinter technologies [Abstract] [BibTeX]	2016	Additive Manufacturing?	article	DOIURL?
Ozbolat, I.T. and Hospodiuk, M.	Current advances and future perspectives in extrusion-based bioprinting [Abstract] [BibTeX]	2016	Biomaterials Vol. 76, pp. 321-343?	article	DOIURL?
Ng, W.L., Yeong, W.Y. and Naing, M.W.	Polyelectrolyte gelatin-chitosan hydrogel optimized for 3D bioprinting in skin tissue engineering [Abstract] [BibTeX]	2016	International Journal of Bioprinting Vol. 2(1)?	article	DOIURL?
Müller, M., ?ztürk, E., Arlov, ?., Gatenholm, P. and Zenobi-Wong, M.	Alginate Sulfate--Nanocellulose Bioinks for Cartilage Bioprinting Applications [Abstract] [BibTeX]	2016	Annals of Biomedical Engineering, pp. 1-14?	article	DOI??
Minas, C., Carnelli, D., Tervoort, E. and Studart, A.R.	3D Printing of Emulsions and Foams into Hierarchical Porous Ceramics [Abstract] [BibTeX]	2016	Advanced Materials Vol. 28(45), pp. 9993-9999?	article	DOI??
Melchels, F.P.W., Blokzijl, M.M., Levato, R., Peiffer, Q.C., de Ruijter, M., Hennink, W.E., Vermonden, T. and Malda, J.	Hydrogel-based reinforcement of 3D bioprinted constructs [Abstract] [BibTeX]	2016	Biofabrication Vol. 8(3), pp. 035004?	article	URL?
Hou, X., Liu, S., Wang, M., Wiraja, C., Huang, W., Chan, P., Tan, T. and Xu, C.	Layer-by-Layer 3D Constructs of Fibroblasts in Hydrogel for Examining Transdermal Penetration Capability of Nanoparticles [Abstract] [BibTeX]	2016	Journal of Laboratory Automation?	article	DOIURL?
H?lzl, K., Lin, S., Tytgat, L., Vlierberghe, S.V., Gu, L. and Ovsianikov, A.	Bioink properties before, during and after 3D bioprinting [Abstract] [BibTeX]	2016	Biofabrication Vol. 8(3), pp. 032002?	article	URL?
Heinzelmann, E.	Olten Meeting 2015 Antibiotics and Bioprinting for a better life [Abstract] [BibTeX]	2016	CHIMIA International Journal for Chemistry Vol. 70(1), pp. 112-115?	article	DOIURL?
H?kansson, K.M.O., Henriksson, I.C., de la Pe?a Vázquez, C., Kuzmenko, V., Markstedt, K., Enoksson, P. and Gatenholm, P.	Solidification of 3D Printed Nanofibril Hydrogels into Functional 3D Cellulose Structures [Abstract] [BibTeX]	2016	Advanced Materials Technologies Vol. 1(7), pp. 1600096-n/a?	article	DOI??
Gu, B.K., Choi, D.J., Park, S.J., Kim, M.S., Kang, C.M. and Kim, C.-H.	3-dimensional bioprinting for tissue engineering applications [Abstract] [BibTeX]	2016	Biomaterials Research Vol. 20(1), pp. 12?	article	DOI??
Gross, B., Lockwood, S.Y. and Spence, D.M.	Recent Advances in Analytical Chemistry by 3D Printing [BibTeX]	2016	Analytical Chemistry Vol. 0(0)?	article	DOI??
Geven, M.A., Sprecher, C., Guillaume, O., Eglin, D. and Grijpma, D.W.	Micro-porous composite scaffolds of photo-crosslinked poly(trimethylene carbonate) and nano-hydroxyapatite prepared by low-temperature extrusion-based additive manufacturing [Abstract] [BibTeX]	2016	Polymers for Advanced Technologies?	article	DOI??
Daly, A.C., Cunniffe, G.M., Sathy, B.N., Jeon, O., Alsberg, E. and Kelly, D.J.	3D Bioprinting of Developmentally Inspired Templates for Whole Bone Organ Engineering [Abstract] [BibTeX]	2016	Advanced Healthcare Materials Vol. 5(18), pp. 2353-2362?	article	DOI??
Daly, A.C., Critchley, S.E., Rencsok, E.M. and Kelly, D.J.	A comparison of different bioinks for 3D bioprinting of fibrocartilage and hyaline cartilage [Abstract] [BibTeX]	2016	Biofabrication Vol. 8(4), pp. 045002?	article	URL?
Carrel, J., Wiskott, A., Scherrer, S. and Durual, S.	Large Bone Vertical Augmentation Using a Three‐Dimensional Printed TCP/HA Bone Graft: A Pilot Study in Dog Mandible [Abstract] [BibTeX]	2016	Clinical Implant Dentistry and Related Research Vol. 18(6), pp. 1183-1192?	article	DOI??
Caetano, G., Violante, R., Sant’Ana, A.B., Murashima, A.B., Domingos, M., Gibson, A., Bártolo, P. and Frade, M.A.	Cellularized versus decellularized scaffolds for bone regeneration [Abstract] [BibTeX]	2016	Materials Letters Vol. 182, pp. 318-322?	article	DOIURL?
ávila, H.M., Schwarz, S., Rotter, N. and Gatenholm, P.	3D bioprinting of human chondrocyte-laden nanocellulose hydrogels for patient-specific auricular cartilage regeneration [Abstract] [BibTeX]	2016	Bioprinting Vol. 1–2, pp. 22-35?	article	DOIURL?
Arslan-Yildiz, A., Assal, R.E., Chen, P., Guven, S., Inci, F. and Demirci, U.	Towards artificial tissue models: past, present, and future of 3D bioprinting [Abstract] [BibTeX]	2016	Biofabrication Vol. 8(1), pp. 014103?	article	URL?
Abbadessa, A., Mouser, V.H.M., Blokzijl, M.M., Gawlitta, D., Dhert, W.J.A., Hennink, W.E., Malda, J. and Vermonden, T.	A Synthetic Thermosensitive Hydrogel for Cartilage Bioprinting and Its Biofunctionalization with Polysaccharides [Abstract] [BibTeX]	2016	Biomacromolecules Vol. 17(6), pp. 2137-2147?	article	DOI??
Abbadessa, A., Blokzijl, M., Mouser, V., Marica, P., Malda, J., Hennink, W. and Vermonden, T.	A thermo-responsive and photo-polymerizable chondroitin sulfate-based hydrogel for 3D printing applications [Abstract] [BibTeX]	2016	Carbohydrate Polymers Vol. 149, pp. 163-174?	article	DOIURL?
Kokkinis, D., Schaffner, M. and Studart, A.R.	Multimaterial magnetically assisted 3D printing of composite materials [BibTeX]	2015	Nature Communications Vol. 6, pp. 8643?	article	DOI??
Rimann, M., Bono, E., Annaheim, H., Bleisch, M. and Graf-Hausner, U.	Standardized 3D Bioprinting of Soft Tissue Models with Human Primary Cells. [Abstract] [BibTeX]	2015	Journal of laboratory automation Vol. 21, pp. 496-509?	article	DOI??
Ho, C.M.B., Ng, S.H. and Yoon, Y.-J.	A review on 3D printed bioimplants [Abstract] [BibTeX]	2015	International Journal of Precision Engineering and Manufacturing Vol. 16(5), pp. 1035-1046?	article	DOI??
Moussa, M., Carrel, J.-P., Scherrer, S., Cattani-Lorente, M., Wiskott, A. and Durual, S.	Medium-Term Function of a 3D Printed TCP/HA Structure as a New Osteoconductive Scaffold for Vertical Bone Augmentation: A Simulation by BMP-2 Activation [Abstract] [BibTeX]	2015	Materials Vol. 8Materials, pp. 2174?	article	DOIURL?
Markstedt, K., Mantas, A., Tournier, I., Martínez ávila, H., H?gg, D. and Gatenholm, P.	3D Bioprinting Human Chondrocytes with Nanocellulose-Alginate Bioink for Cartilage Tissue Engineering Applications [Abstract] [BibTeX]	2015	Biomacromolecules Vol. 16(5), pp. 1489-1496?	article	DOI??
Knoll, S.	Niere aus dem Drucker? Sag niemals nie [Abstract] [BibTeX]	2015	Medizin&Technik Vol. 01(02), pp. 44-47?	article	URL?
Rimann, M., Laternser, S., Keller, H., Leupin, O. and Graf-Hausner, U.	3D Bioprinted Muscle and Tendon Tissues for Drug Development [BibTeX]	2015	CHIMIA International Journal for Chemistry Vol. 69(1), pp. 65-67?	article	DOI??
Horvath, L., Umehara, Y., Jud, C., Blank, F., Petri-Fink, A. and Rothen-Rutishauser, B.	Engineering an in vitro air-blood barrier by 3D bioprinting. [Abstract] [BibTeX]	2015	Scientific reports Vol. 5, pp. 7974?	article	?
Tan, E.Y.S. and Yeong, W.Y.	Concentric bioprinting of alginate-based tubular constructs using multi-nozzle extrusion-based technique [Abstract] [BibTeX]	2015	International Journal of Bioprinting Vol. 1, pp. 49-56?	article	?
Schuddeboom, M.	Biofabrication of Perfusable Liver Constructs [BibTeX]	2015	School: Utrecht University - Faculty of Veterinary Medicine?	mastersthesis	URL?
Schacht, K., Jüngst, T., Schweinlin, M., Ewald, A., Groll, J. and Scheibel, T.	Biofabrication of Cell-Loaded 3D Spider Silk Constructs [Abstract] [BibTeX]	2015	Angewandte Chemie International Edition Vol. 54(9), pp. 2816-2820?	article	DOI??
Müller, M., Becher, J., Schnabelrauch, M. and Zenobi-Wong, M.	Nanostructured Pluronic hydrogels as bioinks for 3D bioprinting [Abstract] [BibTeX]	2015	Biofabrication Vol. 7(3), pp. 035006?	article	URL?
Khaled, S.A., Burley, J.C., Alexander, M.R., Yang, J. and Roberts, C.J.	3D printing of tablets containing multiple drugs with defined release profiles [Abstract] [BibTeX]	2015	International Journal of Pharmaceutics Vol. 494(2), pp. 643-650?	article	DOIURL?
Khaled, S.A., Burley, J.C., Alexander, M.R., Yang, J. and Roberts, C.J.	3D printing of five-in-one dose combination polypill with defined immediate and sustained release profiles [Abstract] [BibTeX]	2015	Journal of Controlled Release Vol. 217, pp. 308-314?	article	DOIURL?
Kesti, M., Eberhardt, C., Pagliccia, G., Kenkel, D., Grande, D., Boss, A. and Zenobi-Wong, M.	Bioprinting Complex Cartilaginous Structures with Clinically Compliant Biomaterials [Abstract] [BibTeX]	2015	Advanced Functional Materials Vol. 25(48), pp. 7406-7417?	article	DOI??
Hockaday, L.	3D Bioprinting: A Deliberate Business [BibTeX]	2015	Genetic Engineering & Biotechnology News Vol. 35(1), pp. 14-17?	article	DOI??
Graf-Hausner, U., Rimann, M., Bono, E., Laternser, S. and Bleisch, M.	A novel multiwell device for drug development with bioprinted 3D human tendon and skeletal muscle tissues [Abstract] [BibTeX]	2015	?	poster	URL?
Chee Kai Chua, K.F.L.	3D Printing and Additive Manufacturing [BibTeX]	2014	?	book	URL?
Rimann, M. and Graf-Hausner, U.	Bioprinting und in vitro-Modelle zur Wirkstoffentwicklung [Abstract] [BibTeX]	2014	?	poster	URL?
Markstedt, K., Tournier, I., Mantas, A., H?gg, D. and Gatenholm, P.	3D BIOPRINTING OF LIVING TISSUE WITH NANOCELLULOSE “INK”- CELLINK [Abstract] [BibTeX]	2014	?	poster	?
Kesti, M., Müller, M., Becher, J., Schnabelrauch, M., D’Este, M., Eglin, D. and Zenobi-Wong, M.	A versatile bioink for three-dimensional printing of cellular scaffolds based on thermally and photo-triggered tandem gelation [Abstract] [BibTeX]	2014	Acta Biomaterialia Vol. 11, pp. 162-172?	article	DOIURL?
Carrel, J.-P., Wiskott, A., Moussa, M., Rieder, P., Scherrer, S. and Durual, S.	A 3D printed TCP/HA structure as a new osteoconductive scaffold for vertical bone augmentation [Abstract] [BibTeX]	2014	Clinical Oral Implants Research Vol. 27(1), pp. 55-62?	article	DO

Rezende, R.A., Selishchev, S.V., Kasyanov, V.A., da Silva, J.V.L. and Mironov, V.A.	An Organ Biofabrication Line: Enabling Technology for Organ Printing. Part II: from Encapsulators to Biofabrication Line [Abstract] [BibTeX]	2013	Biomedical Engineering Vol. 47(4), pp. 213-218?	article	DOI??
Müller, M., Becher, J., Schnabelrauch, M. and Zenobi-Wong, M.	Printing thermoresponsive reverse molds for the creation of patterned two-component hydrogels for 3D cell culture. [Abstract] [BibTeX]	2013	Journal of visualized experiments : JoVE, pp. 1-9?	article	URL?
RegenHU	Product information: 3D organomimetic models for tissue engineering [BibTeX]	2013	Biotechnology Journal Vol. 8(3), pp. 283-283?	article	DOI??
Müller, M., Studer, D., Maniura-Weber, K. and Zenobi-Wong, M.	Novel bioprinted co-culture system fro investigating chondrogenesis [BibTeX]	2012	?	poster	?
Graf-Hausner, U., Rimann, M. and Annaheim, H.	Skin Bioprinting: an innovative approach to produce standardized skin models on demand [Abstract] [BibTeX]	2012	?	poster	URL?
Bleisch, M., Kuster, M., Thurner, M., Meier, C., Bossen, A. and Graf-Hausner, U.	Organomimetic skin model production based on a novel bioprinting technology [Abstract] [BibTeX]	2012	?	poster	URL