Giovanni Pierluigi da Palestrina und die Gesammt-Ausgabe seiner Werke,

Double paginagion.

Memorie storico-critiche della vita e delle opere di Giovanni Pierluigi da Palestrina /

Mode of access: Internet.

Johannes Pierluigi von Palestrina. Seine Werke und deren Bedeutung für die Geschichte der Tonkunst.

Mode of access: Internet.

Palestrina, musikalische Legende.

Libretto by the composer.

Palestrina.

"Extrait de la Revue de Paris, octobre 1842."

Notenbeispiele zu "Der Kontrapunkt Palestrinas und seiner Zeitgenossen",

1. T. Der einfache Kontrapunkt.--2. T. Der nachahmende Kontrapunkt.

Canzonetti e madrigali per canto e pianoforte. [music] /

For 4 (SATB) or 5 SATTB) voices with acc. transcribed into modern notation for piano.

Stabat Mater : motet for double chorus (unaccompanied) /

Pref. in English on prelim. p.

Il codice "59" dell' Archivio musicale Lateranense,

At head of title: R. Casimiri. "Appendice di composizioni inedite trascritte dal codice 59": 1 l., 27p.

Giovanni Pierluigi da Palestrina, Brustbild

Signatur des Originals: S 36/F01462

Giovanni Pierluigi da Palestrina, Brustbild, Profil

Signatur des Originals: S 36/G01845

Giovanni Pierluigi da Palestrina, Brustbild, beim Komponieren

Signatur des Originals: S 36/G04290

Giovanni Pierluigi da Palestrina, Brustbild

Signatur des Originals: S 36/G04291

A compact mock circulation loop for the in vitro testing of cardiovascular devices

In vitro cardiovascular device performance evaluation in a mock circulation loop (MCL) is a necessary step prior to in vivo testing.A MCL that accurately represents the physiology of the cardiovascular system accelerates the assessment of the device’s ability to treat pathological conditions. To serve this purpose, a compact MCL measuring 600 ¥ 600 ¥ 600 mm (L ¥ W¥ H) was constructed in conjunction with a computer mathematical simulation.This approach allowed the effective selection of physical loop characteristics, such as pneumatic drive parameters, to create pressure and flow, and pipe dimensions to replicate the resistance, compliance, and fluid inertia of the native cardiovascular system. The resulting five-element MCL reproduced the physiological hemodynamics of a healthy and failing heart by altering ventricle contractility, vascular resistance/compliance, heart rate, and vascular volume. The effects of interpatient anatomical variability, such as septal defects and valvular disease, were also assessed. Cardiovascular hemodynamic pressures (arterial, venous, atrial, ventricular), flows (systemic, bronchial, pulmonary), and volumes (ventricular, stroke) were analyzed in real time. The objective of this study is to describe the developmental stages of the compact MCL and demonstrate its value as a research tool for the accelerated development of cardiovascular devices.