Results 291 to 300 of about 186,696 (354)

Embedding Perfusable Microchannel Networks in Photoclickable Bioresins via High-Resolution Digital Light Processing

Rizzo R, Sampon T, Wilt JK, Stankey PP, Lewis JA.   +4 more
europepmc   +1 more source

Evaluation of Microleakage of an Orthograde Apical Plug of Mineral Trioxide Aggregate and Biodentine in Permanent Teeth with Simulated Immature Apices: An <i>In Vitro</i> Study.

J Pharm Bioallied Sci
Bhardwaj M, Metgud S, Bhavana Koushik BS, Maheshwari V, Sharma A, Mishra SK.   +5 more
europepmc   +1 more source

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Evaluation of Biocompatible Materials

Biomaterials, Medical Devices, and Artificial Organs, 1973
An analytical summary is presented on the available major in vivo and in vitro evaluations of selected blood and tissue compatible materials.
S D, Bruck, S, Rabin, R J, Ferguson
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Biocompatibility in Hemapheresis: New Materials

The International Journal of Artificial Organs, 1993
The development of new technologies implying the use of semidialytic syntetic membranes in therapeutic apheresis, lays stress also on the problem of biocompatibility. The first alterations of plasma proteins and of the immune system are observable 15 minutes after the beginning of the apheretic session.
RUSSO, Gaspare Elios, M. Fagiolo, E. Vitaliano, M. S. Caramiello   +3 more
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Nanostructured Biocompatible Materials

2022
Engineerable materials are the backbone for nanotechnology in developing fascinating nanostructured systems. The ability to manipulate nanostructured systems to a specific application without losing their biocompatibility remains a key challenge. Nanoarchitectonics paves way for researchers to tailor supramolecular structures specific to biomedical ...
V. Karthick, Katsuhiko Ariga
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Cellular Micropatterns on Biocompatible Materials

Biotechnology Progress, 1998
We present a method to produce micropatterns of cells on tissue culture substrates. A network of deep elastomeric microchannels defining the desired pattern is sealed onto the surface of interest, and a protein template is created by injecting sub-milliliter quantities of protein solution into the microchannels.
A, Folch, M, Toner
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Biocompatibility of Dental Materials

Dental Clinics of North America, 2007
With the long history of use of many materials in dental surgery, biocompatibility concerns are not as great a concern as other issues, such as long-term degradation, mechanical strength problems, and prevention of secondary caries. It is important, however, not to forget that the potential exists for adverse tissue responses to synthetic materials ...
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Biocompatible Material Development

1993
A number of methods are being developed to provide improved means to inhibit host activation by the foreign materials of circulatory assist devices. Surface treatments by heparinization, polymer bulk, and surface modification to inhibit or enhance protein film formation have all shown promise in this regard.
Robert C. Eberhart, Chi-Chun Tsai, Richard B. Timmons   +2 more
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Biocompatibility of polymeric materials

Pharmaceutical Chemistry Journal, 1989
High molecular weight compounds find wide application at the present time in modern medicine as raw materials for the preparation of instruments, sanitation articles, materials for stomatology, medicaments, blood substitutes, and for producing artificial organs [4, 9].
L. T. Moskvitina, L. A. Mansurova, T. V. Nefedova, T. P. Torshina, V. B. Kazimirovskaya, N. A. Sevast'yanova, V. G. Romanovskaya, E. V. Dmitriev   +7 more
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