This paper introduces and formally defines the Morphogenic Tension Principle (MTP), an original theoretical framework proposed herein as a universal law governing the dynamic equilibrium of multicellular living systems. MTP postulates that every living biological system exists in a continuous, perpetual opposition between two fundamental forces: the morphogenic force (FM) characterized by differentiated, structurally organized, growth-constrained cellular activity and the amorphogenic force (FA) characterized by undifferentiated, structurally unconstrained, proliferative cellular activity. The biological integrity of any living system is defined herein as a function of the sustained dominance of FM over FA. We formalize this principle through the Morphogenic Dominance Index Phi (t), a scalar ratio of measurable biological parameters, and derive from it quantitative conditions for systemic health, oncogenic transition, and organismal death. Convergent evidence from developmental biology, oncology, non-equilibrium thermodynamics, and complexity theory is marshaled in support of MTP's validity. The principle generates testable predictions regarding cancer-risk biomarker panels and differentiation-based therapeutic strategies. A program for empirical validation is outlined.
Momen Ghazouani (Fri,) studied this question.