Today's Hours: 8:00am - 6:00pm

Search

Did You Mean:

Search Results

  • Software
    Summary: Ingenuity Pathways Analysis, IPA, provides info on gene expression and protein-protein interactions within the context of metabolic or signaling pathways.
    Digital Access IPA Website
    Includes Land Explorer for IPA. Once an account has been added, users must access IPA via Stanford VPN Full Traffic (non-split-tunnel). This is not the default VPN setting. IPA welcome email provides software download and installation details. Limited to 6 simultaneous users - Please LOGOUT when finished.To request a login: using your stanford.edu stanfordhealthcare.org or stanfordchildrens.org email account, send email to: Ejproblem [at] lists [dot] stanford [dot] edu
  • Software
    Summary: Ingenuity Pathways Analysis, IPA, provides info on gene expression and protein-protein interactions within the context of metabolic or signaling pathways.
    Digital Access IPA Website
    Includes Land Explorer for IPA. Once an account has been added, users must access IPA via Stanford VPN Full Traffic (non-split-tunnel). This is not the default VPN setting. IPA welcome email provides software download and installation details. Limited to 6 simultaneous users - Please LOGOUT when finished.To request a login: using your stanford.edu stanfordhealthcare.org or stanfordchildrens.org email account, send email to: Ejproblem [at] lists [dot] stanford [dot] edu
  • Article
    Matsuda H, Shoemaker WC.
    Arch Surg. 1975 Mar;110(3):301-5.
    Cardiorespiratory effects of dextran 40 administration were measured and compared retrospectively in 74 surviving and 73 nonsurviving critically ill patients. In the preinfusion control period, the survivors had higher mean arterial pressures and blood flow with lesser blood volume deficits. Dextran significantly improved pressure, blood flow, blood volume, oxygen transport, and derived calculations in both groups, but the average cardiorespiratory responses to dextran were somewhat greater in nonsurvivors than in survivors, About two thirds of the patients responded to dextran with significantly increased oxygen consumption (P smaller than .05), suggesting that this agent improved oxygen transport by its rheologic effects on the microcirculation. The cardiorespiratory effects of dextran were slightly greater in the patients who ultimately died; nevertheless, the salutary cardiorespiratory response did not reverse the clinical course in nonsurvivors, whose perfusion defect apparently had reached irreversible proportions prior to the administration of the drug.
    Digital Access Access Options