Cover of: Blood in contact with natural and artificial surfaces | Read Online

Blood in contact with natural and artificial surfaces

  • 948 Want to read
  • ·
  • 66 Currently reading

Published by New York Academy of Sciences in New York, N.Y .
Written in English


  • Blood -- Coagulation -- Congresses,
  • Biocompatibility -- Congresses,
  • Blood vessel prosthesis -- Congresses,
  • Thrombosis -- Congresses,
  • Biocompatible Materials -- congresses,
  • Blood -- congresses,
  • Blood Vessel Prosthesis -- congresses,
  • Surface Properties -- congresses

Book details:

Edition Notes

Statementedited by Edward F. Leonard, Vincent T. Turitto, and Leo Vroman.
SeriesAnnals of the New York Academy of Sciences,, v. 516
ContributionsLeonard, Edward F., Turitto, Vincent T., Vroman, Leo, 1915-, New York Academy of Sciences.
LC ClassificationsQ11 .N5 vol. 516, QP93.5 .N5 vol. 516
The Physical Object
Pagination688 p. :
Number of Pages688
ID Numbers
Open LibraryOL2403853M
ISBN 100897664272, 0897664280
LC Control Number87034318

Download Blood in contact with natural and artificial surfaces


1. Ann N Y Acad Sci. ; Blood in contact with natural and artificial surfaces. [No authors listed] PMID: [PubMed - indexed for MEDLINE]. COVID Resources. Reliable information about the coronavirus (COVID) is available from the World Health Organization (current situation, international travel).Numerous and frequently-updated resource results are available from this ’s WebJunction has pulled together information and resources to assist library staff as they consider how to handle coronavirus. To improve their blood compatibility, the inner surfaces of prostheses are seeded with endothelial cells to reconstitute the natural inner surface structure of blood vessels. These cells prevent blood coagulation and the formation of a thrombus, but in practice it is difficult to hold the cells on the artificial surface for long periods.   The ECMO circuit, as a whole, represents one of the largest surface areas and volumes for blood contact in any medical device. The oxygenator surface area ranges from –m 2 with a volume of 75– mL depending on the manufacturer and size (pediatric to adult). In addition, there typically is an associated – cm of polyvinyl chloride (PVC) tubing to connect the pumps.

Brash JL. The fate of fibrinogen following adsorption at the blood-biomaterial interface. Ann N Y Acad Sci. ; – Colman RW, Scott CF, Schmaier AH, Wachtfogel YT, Pixley RA, Edmunds LH., Jr Initiation of blood coagulation at artificial surfaces. Ann N Y Acad Sci. ; – permanently replace the natural blood. The substitute holds this kind ofpromise is artificial blood powder. The ultimate goal of the transmission is the transmission system without any side effects and effective for the treatment. Although the current system of homologous blood has lack of issues, but it. After the impact the resulting blood droplets move through the air like a sphere. If a drop of blood hits a surface at an angle, it creates an ellipse. The formula for determining the angle when the blood drop hits the surface (‘impact angle’) is shown. The arrow shows the direction in which the blood drop went before it hit the surface.   All of those omega-3’s as EPA and DHA assist in healthy blood flow and prevent sticky blood. Don’t worry. Omega-3’s do not increase bleeding risk. Other foods known to have natural blood thinning ability include garlic, onions. 2. Adequate sunshine. We are only scratching the surface understanding how essential the sun is to our health.

Blood in contact with natural and artificial surfaces. (PMID) Abstract Citations; Related Articles; Data; BioEntities; External Links; Annals of the New York Academy of Sciences [01 Jan , ] Type: Journal Article. Abstract. No abstract provided. •) CitePeer Related Articles. Blood in contact with artificial surfaces can alterate or even activate the coagulation and comp lement glycoproteins which is ofte n followed by activation especially of platelets and of leukocytes [20]. The activation of complement was shown to critically raise the.   Biomaterials () 15, (10) Keywords: Biomaterials, blood-biomaterial interactions, evaluation Received 23 March ; accepted 15 April Interest in the response of blood to contact with an for blood-contacting applications in terms of blood- artificial surface has a long history and observations on biomaterial interactions. Abstract. Strategies for designing “stealth” therapeutic systems largely coincide with those governing the search for materials suitable to serve as artificial organs and prosthetic devices in contact with blood and other living tissues.