Book contents
- Frontmatter
- Contents
- Foreword
- Preface to the First Edition
- Acknowledgements
- Introduction to the Second Edition
- Part I Background mechanics
- Part II Mechanics of the circulation
- 10 Blood
- 11 The heart
- 12 The systemic arteries
- 13 The systemic microcirculation
- 14 The systemic veins
- 15 The pulmonary circulation
- Index
- Table I
14 - The systemic veins
Published online by Cambridge University Press: 05 January 2012
- Frontmatter
- Contents
- Foreword
- Preface to the First Edition
- Acknowledgements
- Introduction to the Second Edition
- Part I Background mechanics
- Part II Mechanics of the circulation
- 10 Blood
- 11 The heart
- 12 The systemic arteries
- 13 The systemic microcirculation
- 14 The systemic veins
- 15 The pulmonary circulation
- Index
- Table I
Summary
The study of the mechanics of blood flow in veins has been far less extensive than that of blood flow in arteries. However, virtually all the blood ejected by the left ventricle must return to the right atrium through the veins; they normally contain almost 80% of the total volume of blood in the systemic vascular system and have an important controlling influence on cardiac output. It is therefore important to understand their mechanics.
The venous system resembles the arterial system, in that it consists of a tree-like network of branching vessels; the main trunks are the venae cavae, which come together and lead into the heart. However, it is fundamentally different from the arterial system in several respects:
(1) As can be seen from Fig. 12.11, p. 257, the pressure in a vein is normally much lower than that in an artery at the same level, and may be less than atmospheric (for example in veins above the level of the heart).
(2) The vessels have thinner walls and their distensibility varies over a much wider range than that of arteries at physiological pressures.
(3) The blood flows from the periphery towards the heart, and the flow rate into a vein is determined by the arterio-venous pressure difference and the resistance of the intervening microcirculation.
(4) Many veins contain valves which prevent backflow.
- Type
- Chapter
- Information
- The Mechanics of the Circulation , pp. 426 - 466Publisher: Cambridge University PressPrint publication year: 2011