biocompatible in English

1. Cochleates are biocompatible, prospective drug-delivery vehicles

2. Nobel Biocare's biocompatible abutments can be customized for outstanding esthetic results.

3. Biocompatible material made of stainless steel having a martensitic surface layer

4. They are constructed by the fusion of biocompatible Aunss and MPCM vesicles

5. Decades of research and studies have demonstrated that Bioactive glasses are highly biocompatible

6. Alaria’s solution optimizes health and healing via advanced biocompatible technologies to improve the quality of life.

7. Viable cells can be adhered in vivo or in vitro to the biocompatible material with the cell adhesion stimulating protein.

8. A biocompatible pressure sensitive adhesive comprising a silicone gel, and a low molecular weight, organic, hydroxy containing compound.

9. Oxide ferrimagnetics with spinel structure nanoparticles and iron oxide nanoparticles, biocompatible aqueous colloidal systems comprising nanoparticles, ferriliposomes, and uses thereof

10. The surface of such membranes was not very biocompatible, because exposed hydroxyl groups would activate complement in the blood passing by the membrane.

11. The invention relates to biocompatible, soft, magneto-active polymers (MAP), the elasto-mechanical properties of which can be adjusted by a magnetic field.

12. Chitosan and polylactide are good biocompatible polymers, and are used to apply as biomedical materials, especially as the tissue engineering scaffolds for live cells culture.

13. Bioclimatic bioclimatics Bioclimatologies bioclimatology biocolloid biocolloidal biocompatibilities biocompatibility biocompatible biocontainment biocytin biodefense biodegradabilities biodegradability biodegradable biodegradation biodegrade biodegraded biodegrading biodynamic biodynamics bioelectric bioelectrical bioelectricities bioelectricity bioelectrogeneses bioelectrogenesis bioelectronic …

14. The present invention relates to a combination body of an acetylated biocompatible polysaccharide and a phthalocyanine compound for photodynamic diagnosis or therapy, and relates to a production method therefor.

15. More particularly, the present invention provides a heated and hardened biocompatible material and a method for processing same, wherein the biocompatible material is obtained by heating, by means of electromagnetic waves having a frequency of 0.3 to 30 GHz, a bio-derived material containing 10 to 90 wt % of water and 2 wt % or more of an amino acid complex, such that the bio-derived material can be transformed.

16. Herein, we design and synthesize a series of photoactivatable β-diarylsydnone-l-Alanines (DASAs), which have excellent photo-reactivity with high fluorescence turn-on toward alkenes in a biocompatible environment

17. InterOss Anorganic Cancellous Bone Graft Granules 0.25-1.0mm 0.25g/0.50cc - Overview100 Natural, Biocompatible, Highly Purified, Large Inner Surface Area, Long Term Stability, Multi-PorosityInterOss® Anorganic Cancellous Bone Graft GranulesInterOss® is a

18. In another embodiment, the implant has a base element comprising at least an anchoring plug to be driven into the bone and also a sliding head produced in a biocompatible and abrasion-resistant material.

19. Alaria Biotech is focused on developing an implantable biomedical device to synergize technology and medicine. Alaria’s solution optimizes health and healing via advanced biocompatible technologies to improve the quality of life.

20. 3D Bioprinting is a form of additive manufacturing that uses cells and other biocompatible materials as “inks”, also known as bioinks, to print living structures layer-by-layer which mimic the behavior of natural living systems.

21. The biocompatible connector may be used in an analytical instrument (AI) system as a union, an adapter, a tee, a cross, a manifold, a valve, a column filter retainer, or for other fittings or components.

22. The pro-tolerogenic preparation is enriched in at least one species of miRNAs and is obtained by contacting two allogeneic leukocyte populations wherein at least one of the two populations is modified with a low-immunogenic biocompatible polymer.

23. Implants made of polyorthoester type IV show surface erosion while being highly biocompatible with degradation times from days to months and can thus also be used as a long-term drug depots, e. g. for the cytostatic agent 5-fluorouracil.

24. More specifically, the invention relates to a combination body for photodynamic diagnosis or therapy in which a biocompatible polysaccharide is subjected to acetylation and a phthalocyanine compound is bound to the acetylated polysaccharide, and relates to a production method therefor.

25. The invention relates to a titanium alloy, in particular to be used for biocompatible implants, which contains no aluminum (Al), vanadium (V), cobalt (Co), chromium (Cr), nickel (Ni) and tin (Sn) and contains at least the following alloy components in wt% in addition to inevitable trace amounts of impurities contained in the alloy components or absorbed during the production: a) 0.2 to 1.5 % oxygen (O), b) 0.1 to 1.5% iron (Fe), c) 0.01 to 2 % carbon (C), d) the remainder being titanium (Ti).