The Pacemaker Channels Of The Heart: From Reductionism To Systems Biology

Description

PDF: 7.1 MB

By: Denis Noble

In The Pacemaker Channels of the Heart, Denis Noble—the founder of mathematical heart modelling—chronicles the remarkable journey of his research into one of biology’s most fundamental functions: the rhythmic beating of the heart. The book traces more than sixty-five years of scientific discovery, from the pioneering 1960 heart rhythm model to today’s advanced integrative and systems-level models of cardiac function.

Scientific Journey and Contributions

The narrative follows the evolution of cardiac electrophysiology, including:

• The discovery of potassium channels

• The identification of multiple slow channels

• The development of analytical mathematical models of excitable cells

• Key insights into the electrocardiogram, including the T wave

Through these milestones, Noble illustrates how experimental findings and mathematical modelling jointly shaped modern understanding of heart rhythm and pacemaking.

From Reductionism to Systems Biology

Beyond its technical scope, the book documents a profound shift in biological thinking. Noble describes the transition from a reductionist, gene-centric view of life toward a systems-based understanding of living organisms. In doing so, he addresses major philosophical and scientific debates about the foundations of biology and explains why genes alone cannot account for the complexity of life.

This perspective culminates in discussions of:

• Robustness in biological systems

• The Physiome Project

• The emergence of systems biology as a unifying framework for understanding life

Audience and Significance

The book will be of great interest to:

• Researchers and students in cardiology and electrophysiology

• Scientists working in systems biology

• Philosophers of science

• General readers interested in the history and philosophy of modern biology

It offers a unique synthesis of rigorous research, theoretical innovation, and reflective insight drawn from a distinguished scientific career.

Contents

• About the Author

• Introduction

• Discovery of Potassium Channels and the First Heart Cell Model

• Discovery of Multiple Slow Channels

• Analytical Mathematics of Excitable Cells

• Insight into the T Wave of the Electrocardiogram

• The Surprising Heart

• Understanding Robustness in Biological Systems

• The Physiome Project

• 50 Years On

• Systems Biology and The Music of Life

• 65 Years On: Understanding Living Systems

• Postscript: The Artist Disappears?

• Glossary of Electrophysiology

• Index