Searched for: +
(1 - 12 of 12)
document
Dong, J. (author)
The treatment of largy bone defect remains challenging in clinics. All the clinically available bone grafts have their own limitations and are not ideal for the treatment. Therefore, developing a new generation of suitable bone substitutes is urgently needed. In the recent years, porous magnesium (Mg) has been extensively studied for orthopedic...
doctoral thesis 2023
document
Li, Y. (author)
For the treatment of large bony defects, no perfect solution has been yet found, partially due to the unavailability of ideal bone implants. Additively manufactured (AM) biodegradable porous metals provide unprecedented opportunities to fulfil the requirements for ideal bone implants to be used in such treatments. Firstly, the multi-scale...
doctoral thesis 2020
document
Van der Stok, J. (author), Koolen, M.K.E. (author), De Maat, M.P.M. (author), Amin Yavari, S. (author), Alblas, J. (author), Patka, P. (author), Verhaar, J.A.N. (author), Van Lieshout, E.E.M. (author), Zadpoor, A.A. (author), Weinans, H.H. (author), Jahr, H. (author)
Regeneration of load-bearing segmental bone defects is a major challenge in trauma and orthopaedic surgery. The ideal bone graft substitute is a biomaterial that provides immediate mechanical stability, while stimulating bone regeneration to completely bridge defects over a short period. Therefore, selective laser melted porous titanium,...
journal article 2015
document
Arifvianto, B. (author), Zhou, J. (author)
Bone tissue engineering has been increasingly studied as an alternative approach to bone defect reconstruction. In this approach, new bone cells are stimulated to grow and heal the defect with the aid of a scaffold that serves as a medium for bone cell formation and growth. Scaffolds made of metallic materials have preferably been chosen for...
journal article 2014
document
Ye, Xiaotong (author), Leeflang, M.A. (author), Wu, Chengtie (author), Chang, Jiang (author), Zhou, J. (author), Huan, Z. (author)
Porous Ti-6Al-4V scaffolds fabricated by means of selective laser melting (SLM),<br/>having controllable geometrical features and preferable mechanical properties, have been developed as a class of biomaterials that hold promising potential for bone repair. However, the inherent bio-inertness of the Ti-6Al-4V alloy as the matrix of the scaffolds...
journal article 2017
document
Zhang, X.Y. (author), Fang, G (author), Zhou, J. (author)
Additive manufacturing (AM), nowadays commonly known as 3D printing, is a revolutionary materials processing technology, particularly suitable for the production of low-volume parts with high shape complexities and often with multiple functions. As such, it holds great promise for the fabrication of patient-specific implants. In recent years,...
journal article 2017
document
Li, Y. (author), Pavanram, P. (author), Zhou, J. (author), Lietaert, K. (author), Taheri, P. (author), Li, W. (author), San, H. (author), Leeflang, M.A. (author), Mol, J.M.C. (author), Jahr, H. (author), Zadpoor, A.A. (author)
Additively manufacturing (AM) opens up the possibility for biodegradable metals to possess uniquely combined characteristics that are desired for bone substitution, including bone-mimicking mechanical properties, topologically ordered porous structure, pore interconnectivity and biodegradability. Zinc is considered to be one of the promising...
journal article 2020
document
kadel, Himanshu (author)
The brain is the most intricate organ in the human body, yet the underlying mechanisms of its cells and networks are not fully mapped. In addition to this lack of understanding, there are numerous neurological disorders and diseases for which a cure remains elusive. There has been persistent research to understand how neuronal cells function...
master thesis 2023
document
Fokker, Marike (author)
Bone defects are a common problem in healthcare today. When the damage is too extensive, the human body is not able to heal itself. Different solutions are available, but they all have limitations. Therefore, the search for a solution to overcome these limitations is important. In this theses a way to create a scaffold out of seperate crumpled...
master thesis 2022
document
Kuo, Chihao (author)
master thesis 2023
document
de Vries, Sybren (author)
Although many studies have been performed on porous absorbable iron scaffolds created by the space holder method, no studies have considered the influence of variations in space holders on absorbable scaffolds. The present study aimed to clarify the effects of space holder particle size and volume fraction, on the pore structure, resultant...
master thesis 2019
document
Veldkamp, Dian (author)
The central nervous system has a very limited capacity to regenerate damaged tissue. Therefore, regeneration strategies focus on transplantation of neural stem cells or differentiated neural cells. In order to make such a treatment effective, it is important to understand the mechanisms that enable cell differentiation. It is well known that...
master thesis 2022
Searched for: +
(1 - 12 of 12)