Beyond Calories: Reframing Human Metabolism as an Information-Driven Control Network Abstract Is human metabolism merely a passive engine governed by calorie counting, or is it a sophisticated, information-driven network? This paper challenges the traditional thermodynamic model of nutrition, reframing metabolic regulation through the lens of cybernetics and systems biology. It unveils the conceptual architecture of the MSPM-NASP platform—a novel bio-digital framework designed to orchestrate biological communication. By exploring the synergy between the precise structural organisation of amino acids (Molecularly Structured Protein Matrix) and targeted sensory inputs (Neuroacoustic Stimulation Protocol), the framework shifts the focus from energetic quantities to the quality of biological information. Key areas explored in this framework: Metabolism as Cybernetic Feedback: Moving beyond "Calories In-Calories Out" to address the system's interpretation of incoming biological signals. MSPM Architecture: Investigating how alternative, linear structural arrangements of protein-derived substrates influence biological readability and nitrogen retention. NASP Protocol: Exploring the mathematical sonification of molecular data into acoustic signals that engage auditory pathways and vagal afferents to optimize autonomic state. Systemic Health & Longevity: Addressing metabolic dysregulation, obesity, and age-associated decline as communication failures within the body's homeostatic control architecture. Discover a perspective where sustainable metabolic resilience depends not on altering nutrient quantity, but on restoring the quality and coherence of the signalling systems that govern adaptive physiological behaviour. For more information and previous technical publications, visit: https://pmtstructure.com/updates/