Achim Peters | |
---|---|
Born | 1957 (age 66–67) |
Nationality | german |
Alma mater | |
Known for | Selfish Brain Theory |
Scientific career | |
Fields |
|
Institutions |
Achim Peters (born 1957 in Dortmund) is a German internist and brain researcher. He developed the Selfish Brain Theory.
He has been a professor at the University of Lübeck since 2000 and heads the German Research Foundation (DFG)-funded Clinical Research Group "Selfish Brain: Brain Glucose and Metabolic Syndrome", which has been in existence since 2004. [1] [2]
Peters attended the Humboldt High School in Dortmund until his Abitur in 1976. In the same year, he began studying medicine at the Ruhr University in Bochum; he later moved to the Medical University in Lübeck. In 1977, he won the German National Mathematics Competition of the Donors' Association for German Science. This success was accompanied by a scholarship from the German Academic Scholarship Foundation. In 1983, Peters completed his studies with his license to practice medicine as well as his doctorate (at the Institute of Anatomy, Bochum).
In 1984, Peters joined the Clinic of Internal Medicine at the University of Lübeck. From 1986 to 1989, a DFG postdoctoral fellowship took him to the Hospital for Sick Children in Toronto, Canada, where he conducted research on "Control Theory in Diabetes Mellitus" In the following years, Peters specialized in endocrinology and diabetology within internal medicine. In 1993, he became a senior physician at the Medical Clinic 1 of Internal Medicine at the University of Lübeck. [3] [4]
In 1996 he was habilitated in Lübeck and received the Venia Legendi for Internal Medicine. For his publications in diabetology, he was awarded the Silvia King Prize by the German Diabetes Society. In 2000, he became an associate professor at the University of Lübeck. In 2002, he was promoted to senior physician in charge of endocrinology and diabetology at the University Hospital of Schleswig-Holstein. In 2004, Peters became head of the DFG-funded Clinical Research Group "Selfish Brain: Brain Glucose and Metabolic Syndrome". [5] [6] In 2006, the University of Lübeck appointed him W2 Professor of Internal Medicine/Endocrinology and Diabetology, initially for six years, and in 2009 for life. [7] This was followed in 2008 by admission as a Member of the Faculty of 1000 Biology. [8]
He is the author of several books. [9] [10]
Achim Peters is married and lives in Lübeck.
In 1998 Achim Peters designed the basic model of the Selfish-Brain-Theory and formulated its axioms. [11] In his exposition of the Selfish Brain Theory (2004), he relies on ca. 5000 published data sets of "classical" endocrinology-diabetology and modern neuroscience, but argues mathematically using differential equations as well as systems theory. [12] This is a novel methodological approach in obesity research and diabetology; in this respect, the Selfish-Brain-Theory represents a paradigm shift. [13]
The Selfish Brain theory states that the human brain prioritizes its own comparatively high needs in regulating the organism's energy supply. In this respect, the brain behaves in a "selfish" manner. [14]
In the cerebral hemispheres, the integrating organ of the entire central nervous system, the theory situates the regulatory circuit of an "energy-on-demand" system, with which the ATP concentration of the neurons is kept in equilibrium (homeostasis). This goal is achieved by the allocation (partitioning) of energy from the body.
The Selfish Brain theory represents a further development of existing theories about the organization of the energy supply of the human organism. The further development consists in the fact that in place of a purely passively supplied brain, there is a brain that independently regulates its energy concentrations and assumes a primary position in a hierarchically organized energy metabolism. Blood glucose and body weight control circuits are conceived as a complex regulating food intake, controlled from hypothalamic centres. [15] The "energy-on-demand" system supplying energy to the brain is seen as an entity superior to this area, influencing the control organs of the blood glucose and body weight control circuits. [16] Sprengell et al. 2021 have already shown in two systematic reviews that the predictions of the Selfish Brain theory have been fulfilled in situations where the predictions of the long-held competing theories, which consider the brain as purely passively supplied, have been violated.
The development of obesity can be explained by the Selfish-Brain theory in terms of a supply chain that extends from the environment to the body to the brain as the end-user. [17] Accordingly, obesity can be understood as an energetic "supply chain build-up." [18] As in economic supply chains where goods are left on the shelves when customers do not buy, energy accumulates in the adipose tissue when the brain requires less energy. Reduced average energy consumption by the brain is found, for example, in people who have become accustomed to stress (so-called "stress habituation") and therefore no longer exhibit stress-induced, energy-costly arousal states. [19] [20]
The blood–brain barrier (BBB) is a highly selective semipermeable border of endothelial cells that regulates the transfer of solutes and chemicals between the circulatory system and the central nervous system, thus protecting the brain from harmful or unwanted substances in the blood. The blood–brain barrier is formed by endothelial cells of the capillary wall, astrocyte end-feet ensheathing the capillary, and pericytes embedded in the capillary basement membrane. This system allows the passage of some small molecules by passive diffusion, as well as the selective and active transport of various nutrients, ions, organic anions, and macromolecules such as glucose and amino acids that are crucial to neural function.
GABA is the chief inhibitory neurotransmitter in the developmentally mature mammalian central nervous system. Its principal role is reducing neuronal excitability throughout the nervous system.
Computational neuroscience is a branch of neuroscience which employs mathematics, computer science, theoretical analysis and abstractions of the brain to understand the principles that govern the development, structure, physiology and cognitive abilities of the nervous system.
A psychedelic experience is a temporary altered state of consciousness induced by the consumption of a psychedelic substance. For example, an acid trip is a psychedelic experience brought on by the use of LSD, while a mushroom trip is a psychedelic experience brought on by the use of psilocybin. Psychedelic experiences feature alterations in normal perception such as visual distortions and a subjective loss of self-identity, sometimes interpreted as mystical experiences. Psychedelic experiences lack predictability, as they can range from being highly pleasurable to frightening. The outcome of a psychedelic experience is heavily influenced by the person's mood, personality, expectations, and environment.
Brainwave entrainment, also referred to as brainwave synchronization or neural entrainment, refers to the observation that brainwaves will naturally synchronize to the rhythm of periodic external stimuli, such as flickering lights, speech, music, or tactile stimuli.
Allostasis (/ˌɑːloʊˈsteɪsɪs/) is a physiological mechanism of regulation in which the organism anticipates and adjusts its energy use according to environmental demands. First proposed by Peter Sterling and Joseph Eyer in 1988, the concept of allostasis shifts the focus away from the body maintaining a rigid internal set-point, as in homeostasis, to the brain's ability and role to interpret environmental stress and coordinate changes in the body using neurotransmitters, hormones, and other signaling mechanisms. Allostasis is believed to be not only involved in the body's stress response and adaptation to chronic stress; it may also have a role in the regulation of the immune system as well as in the development of chronic diseases such as hypertension and diabetes.
The lateral hypothalamus (LH), also called the lateral hypothalamic area (LHA), contains the primary orexinergic nucleus within the hypothalamus that widely projects throughout the nervous system; this system of neurons mediates an array of cognitive and physical processes, such as promoting feeding behavior and arousal, reducing pain perception, and regulating body temperature, digestive functions, and blood pressure, among many others. Clinically significant disorders that involve dysfunctions of the orexinergic projection system include narcolepsy, motility disorders or functional gastrointestinal disorders involving visceral hypersensitivity, and eating disorders.
Alertness is a state of active attention characterized by high sensory awareness. Someone who is alert is vigilant and promptly meets danger or emergency, or is quick to perceive and act. Alertness is a psychological and physiological state.
Denise Manahan-Vaughan is an Irish neuroscientist and neurophysiologist. She is head of the Department of Neurophysiology, dean of studies and director of the International Graduate School of Neuroscience and co-founder of the Research Department of Neuroscience of the Ruhr University Bochum. Her research focuses on elucidation of the cellular and synaptic mechanisms underlying the acquisition and long-term maintenance of associative memories. She uses a multidisciplinary approach to study how spatial experiences, sensory input, neuromodulation, or brain disease impacts on, and provide insight into, the function of the hippocampus in enabling long-term memory.
The cholinergic anti-inflammatory pathway regulates the innate immune response to injury, pathogens, and tissue ischemia. It is the efferent, or motor arm of the inflammatory reflex, the neural circuit that responds to and regulates the inflammatory response.
Type 3 diabetes is a proposed pathological linkage between Alzheimer's disease and certain features of type 1 and type 2 diabetes. Specifically, the term refers to a set of common biochemical and metabolic features seen in the brain in Alzheimer's disease, and in other tissues in diabetes; it may thus be considered a "brain-specific type of diabetes." It was recognized at least as early as 2005 that some features of brain function in Alzheimer's disease mimic those that underlie diabetes. However, the concept of type 3 diabetes is controversial, and as of 2021 it was not an officially recognized diagnosis.
Andreas Heinz is a German psychiatrist and neurologist.
Hedonic hunger or hedonic hyperphagia is the "drive to eat to obtain pleasure in the absence of an energy deficit". Particular foods may have a high "hedonic rating" or individuals may have increased susceptibility to environmental food cues. Weight loss programs may aim to control or to compensate for hedonic hunger. Therapeutic interventions may influence hedonic eating behavior.
Brain painting is a non-invasive P300-based brain-computer interface (BCI) that allows painting without the use of muscular activity. The technology combines electroencephalography, signal processing algorithms and visual stimulation on a monitor to detect where the user focuses his attention, allowing him to voluntarily trigger commands to a painting software. The research project aims at assisting people afflicted with the Locked-in syndrome due to neurological or neuromuscular disease, who are severely restricted in communication with their environment, and therefore cut off from the possibility of creative expression.
Giulio Maria Pasinetti is the Program Director of the Center on Molecular Integrative Neuroresilience and is the Saunders Family Chair in Neurology at the Icahn School of Medicine at Mount Sinai (ISMMS) in New York City. Pasinetti is a Professor of Neurology, Psychiatry, Neuroscience, and Geriatrics and Palliative Medicine at ISMMS.
The NeuroGenderings Network is an international group of researchers in neuroscience and gender studies. Members of the network study how the complexities of social norms, varied life experiences, details of laboratory conditions and biology interact to affect the results of neuroscientific research. Working under the label of "neurofeminism", they aim to critically analyze how the field of neuroscience operates, and to build an understanding of brain and gender that goes beyond gender essentialism while still treating the brain as fundamentally material. Its founding was part of a period of increased interest and activity in interdisciplinary research connecting neuroscience and the social sciences.
Sigrid Schmitz is a visiting professor at the Humboldt University of Berlin, and was formerly the chair of gender studies and scientific head of the Gender Research Office [Referat Genderforschung] at the University of Vienna. Schmitz is also a member of The NeuroGenderings Network.
Felix Tretter is an Austrian psychologist and psychiatrist. From 1992 to 2014 he was head of the addiction department of the Isar-Amper-Klinikum München-Ost, formerly known as Bezirkskrankenhaus Haar, Bavaria, Germany. His scientific work has emphasis on modelling of psychophysical scenarios in schizophrenia and addiction research with methods of systems science.
Tracey Shors is a neuroscientist and distinguished professor in behavioral neuroscience, systems neuroscience, and psychology as well as a member of the Center for Collaborative Neuroscience at Rutgers University. She is currently vice chair and director of graduate studies in the department of psychology.
Nanoneuroscience is an interdisciplinary field that integrates nanotechnology and neuroscience. One of its main goals is to gain a detailed understanding of how the nervous system operates and, thus, how neurons organize themselves in the brain. Consequently, creating drugs and devices that are able to cross the blood brain barrier (BBB) are essential to allow for detailed imaging and diagnoses. The blood brain barrier functions as a highly specialized semipermeable membrane surrounding the brain, preventing harmful molecules that may be dissolved in the circulation blood from entering the central nervous system.