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  • 1985-1989  (3)
  • Biomechanical impedance  (2)
  • Angiotensin II  (1)
  • 1
    Digitale Medien
    Digitale Medien
    Macroscopic Ca2+ -Na+ and K+ currents in single heart and aortic cells (1989)
    Springer
    Molecular and cellular biochemistry 80 (1989), S. 59-72 
    Details
    ISSN: 1573-4919
    Schlagwort(e): heart cells ; aortic cells ; Ca2- current ; K+ current ; slow Na+ current ; Angiotensin II ; calcium blockers ; potassium blockers ; patch clamp
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Biologie , Chemie und Pharmazie , Medizin
    Notizen: Summary The whole-cell voltage clamp technique was used to study the slow inward currents and K+ outward currents in single heart cells of embryonic chick and in rabbit aortic cells. In single heart cells of 3-day-old chick embryo three types of slow inward Na+ currents were found. The kinetics and the pharmacology of the slow INa, were different from those of the slow Ica in older embryos. Two types of slow inward currents were found in aortic single cells of rabbit; angiotensin 11 increased the sustained type and d-cAMP and d-cGMP decreased the slow transient component. Two types of outward K+ currents were found in both aortic and heart cells. Single channel analysis demonstrated the presence of a high single K+ channel conductance in aortic cells. In cardiac and vascular smooth muscles, slow inward currents do share some pharmacological properties, although the regulation of these channels by cyclic nucleotides and several drugs seems to be different.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF00231004
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  • 2
    Digitale Medien
    Digitale Medien
    Dependence of biomechanical impedance upon living body structure (1987)
    Springer
    Medical & biological engineering & computing 25 (1987), S. 631-637 
    Details
    ISSN: 1741-0444
    Schlagwort(e): Biomechanical impedance ; Biomechanical properties ; Impedance ; Living body structure
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Biologie , Chemie und Pharmazie , Medizin
    Notizen: Abstract A physical model for biomechanical impedance has already been proposed. This model is characterised by three impedance spectra: soft, intermediate and hard pattern. An impedance spectrum of the body surface represents mostly the soft pattern, The formative mechanisms of all three patterns have been unsolved until now. Because the physical model is expressed by experimental equations, its theoretical background is not apparent. In the paper a simulating material (simulator) is used, whose tactility is not unlike human skin, and the formative mechanism of biomechanical impedance is revealed through experiments on the simulator under various measuring conditions. The influences of the measuring circumstances, living body structure and physical constants of the body tissues on the experimental equations of the physical model are fully discussed. The formative mechanism of biomechanical impedance which represents the physical model is explained in terms of an equivalent mass, a dynamic equivalent stiffness, a dynamic viscosity and a composite characteristic. The dependence between body parts from which the measurements are taken and soft, intermediate and hard patterns are demonstrated.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF02447330
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  • 3
    Digitale Medien
    Digitale Medien
    Experimental modelling of biomechanical impedance characteristics (1986)
    Springer
    Medical & biological engineering & computing 24 (1986), S. 493-498 
    Details
    ISSN: 1741-0444
    Schlagwort(e): Biomechanical impedance ; Biomechanical properties ; Impedance ; Modelling of human body
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Biologie , Chemie und Pharmazie , Medizin
    Notizen: Abstract New experimental modelling of biomechanical impedance is proposed. The parameters which express the impedance characteristics are simply determined by impedance measurement. Audiofrequencies below about 1000 Hz and comparatively lower preloads (below about 6370 kg m−2) are chosen as the research domain. This model, however, can express wide range of body surface impedance not only in soft but also in stiff and intermediate tissues. It will never introduce the impracticably ideal conditions found in the mathematcial models proposed to date. Furthermore the parameters which express the model cannot be determined by impedance measurement alone. The impedance Z(jw) is expressed in two parts: the impedance Z1 (jw) at a higher frequency including a complex mass and the impedance Z2(jw) at a lower frequency including a complex compliance of Cole-Cole’s type. Z1(jw) is the property of body fluid and Z2(jw) is that of a viscoelastic body.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF02443965
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