International Conference on

Physiology and Cellular Metabolism (ICPACM-26)

Conference Date

23rd Dec - 24th Dec 2026

Conference Venue

Riyadh, Saudi Arabia

Conference Mode

Hybrid Conference
Proudly organized by:- Science Leagues

"Join global experts in Physiology and Cellular Metabolism"

Registration Options

View all registration categories and choose the best fit.

Conference Session Tracks

SDG Wheel

Aligned with

UN Sustainable Development Goals

This conference contributes to global sustainability by aligning its research discussions and academic sessions with key United Nations Sustainable Development Goals. It fosters knowledge exchange, innovation, and collaborative engagement.

SDG 2
SDG 2 Zero Hunger
SDG 3
SDG 3 Good Health and Well-being
SDG 4
SDG 4 Quality Education
SDG 9
SDG 9 Industry, Innovation and Infrastructure
SDG 10
SDG 10 Reduced Inequalities
SDG 11
SDG 11 Sustainable Cities and Communities
Track 01

Advances in Cellular Metabolism Research

This track focuses on the latest discoveries in cellular metabolism, emphasizing the intricate metabolic pathways that sustain cellular functions. Researchers are invited to present novel findings that elucidate the mechanisms underlying energy homeostasis and metabolic regulation.

Track 02

Mitochondrial Dynamics and Function

This session will explore the role of mitochondria in cellular metabolism, highlighting their involvement in energy production and signaling pathways. Contributions that investigate mitochondrial dysfunction and its implications for metabolic disorders are particularly encouraged.

Track 03

Cellular Signaling and Metabolic Regulation

This track aims to delve into the complex network of cellular signaling pathways that regulate metabolism. Presentations should focus on how these signaling mechanisms influence enzymatic activity and metabolic flux in various physiological contexts.

Track 04

Nutrient Sensing and Metabolic Adaptation

This session will address how cells sense and respond to nutrient availability, impacting metabolic adaptation and homeostasis. Researchers are invited to discuss the molecular mechanisms that govern nutrient metabolism and its physiological relevance.

Track 05

Bioenergetics and Cellular Respiration

This track will focus on the principles of bioenergetics and the processes of cellular respiration that drive ATP production. Studies that investigate the efficiency and regulation of these processes in health and disease are welcome.

Track 06

Metabolic Disorders: Mechanisms and Interventions

This session will explore the underlying mechanisms of various metabolic disorders, including diabetes and obesity. Contributions that discuss innovative therapeutic strategies and interventions to mitigate these conditions are highly encouraged.

Track 07

Hormonal Regulation of Metabolism

This track will examine the role of hormones in regulating metabolic pathways and their impact on overall physiological function. Presentations should highlight the interplay between hormonal signaling and metabolic homeostasis.

Track 08

Enzymatic Regulation in Metabolic Pathways

This session will focus on the role of enzymes in controlling key metabolic pathways and their regulatory mechanisms. Researchers are invited to present studies that elucidate the dynamics of enzymatic activity in response to physiological changes.

Track 09

Molecular Physiology of Energy Homeostasis

This track aims to investigate the molecular mechanisms that underpin energy homeostasis at the cellular level. Contributions that explore the integration of metabolic pathways and physiological adaptation are encouraged.

Track 10

Signal Transduction in Metabolic Regulation

This session will delve into the intricacies of signal transduction pathways that influence metabolic processes. Researchers are invited to present findings that reveal how these pathways coordinate cellular responses to metabolic challenges.

Track 11

Modeling Metabolism: Biochemical Pathways and Flux

This track will focus on computational and experimental approaches to model metabolic pathways and analyze metabolic flux. Contributions that demonstrate innovative modeling techniques and their applications in understanding metabolism are welcome.