the property of feedback loops in biological networks to provide stability to a network , thereby limiting the range of network component fluctuations.
the biological network of feedback loops that regulates homeostasis and underlies an organism’s autoregulatory ability.
a concept referring to the intricate interconnectedness of the multiple units of a human organism based on fairly stable patterns of evolutionary conservation.
a property of a biological component or components that influences, affects, or directs development and maintenance of the organism. There are two major types of biological information: sequence information encoding molecular machineries, and regulatory network information controlling the behavior of molecular machineries.
A web-like pattern of connectivity between molecules, cells, tissues, or organs that describes a behavior of a given system (a specific set of molecules characterized by structure or function, a cell, a tissue, a specific set of tissues or organs, or an organism) as a whole. The nodes of such a network represent biological units, and the edges display characteristics (strong or weak, close or distant) of relationships between the biological units.
a measurement reflecting the status of a biological system, where the measured response may be functional and physiological, biochemical at the cellular level, or a molecular interaction. Biomarkers provide information that may aid detection, diagnosis and treatment plan decisions.
having the properties of a therapeutic intervention, pharmacological or non-pharmacological, to induce an active biological process that is able to optimize or restore autoregulation of biological networks.
is a specialized application of systems medicine that retains its view of the human body as an integrated whole — a dynamic network of interconnected systems influenced by factors like genetics, environment, and lifestyle. Building on this foundation, BrSM adds a unique focus: restoring the body’s natural ability to self-regulate (autoregulation) by addressing underlying imbalances in local and systemic molecular regulation (molecular networks). Using multicomponent, multitarget medications, BrSM aims to rebalance these dysregulated networks. The goal is holistic, sustainable health through enhancing the body's own regulating mechanisms, integrating cutting-edge science, advanced diagnostic tools and personalized care.
a process by which older cells are eliminated by apoptosis and replaced by the division of the progenitor cells.
the concept that many diseases are interconnected by shared pathophysiological events, such that correlations between phenotypes can be considered based on shared metabolic networks, gene networks, protein networks or shared networks of clinical data.
the worsening of a disease over time as the result of a progressive failure of the autoregulatory process.
an ongoing, bidirectional interaction amongst cells and their surrounding microenvironment.
a steady state of a biological network.
a complex network of material such as proteins and polysaccharides that are secreted locally by cells and remain closely associated with them to provide structural, adhesive and biochemical signaling support.
a group of directly or indirectly linked molecules (nodes) that work together to achieve an identifiably distinct function.
a fundamental property of biological systems to preserve their stability by maintaining key regulated variables withing an acceptable range.
an active biological process that requires activation of endogenous programs that enable the host tissue to maintain homeostasis.
a concept in bioinformatics referring to the transmission of biological information within or across biological networks.
the idea (or model) suggesting that biological processes occur in a simple, sequential order.
interactions between molecules with relatively low intermolecular force.
drugs that execute regulatory activity in perturbed autoregulatory networks.
local surroundings with which cells interact by processing various chemical and physical signals and by contributing their own effects to this environment.
the higher order stability in the behavior of molecules in the tissue, in response to the whole network of all other molecules within a cell.
disturbance that causes structural or functional changes to the network that alter stability of a given system (cell, tissue, or organism) induced by internal or external mechanisms.
the idea (or model) suggesting that biological processes are determined by complex relational interactions.
a stereotyped tightly controlled immune response initiated by the complex integration of tissue turnover and signal recognition by proinflammatory cells, resulting in the maintenance of tissue homeostasis.
in biology, a view that biological systems can be explained solely according to the physical and chemical properties of their individual components.
a ubiquitously observed property of biological systems that maintains functions and performance against internal and external perturbations.
pluripotent cells that can divide and differentiate into diverse specialized cell types, or self-renew to produce more stem cells.
a study of biology that applies principles of systems theory. The studied systems in biology are comprised of molecules, cells, tissues, organisms and ecosystems.
a theory of scientific exploration proposed by L. von Bertanaffly, defining principles for studying complex systems of interrelated elements as a whole.
the implementation of systems biology approaches in medical concepts, research and practice, through iterative and reciprocal feedback between and among data-driven computational and mathematical models, and model driven translation and clinical investigations.