Akademik Veri Yönetim Sistemi
THE NEUROBIOPHYSICS OF LIFE AND MIND, Nizamettin DALKILIÇ, Editör, Bidge Yayınları, Ankara, ss.50-72, 2025
The brain serves as the core of cognitive functions,
controlling learning, memory, and attention, and is organized into a
complex network (Kandel, Schwartz, & Jessell, 2013). An approach
focusing on the biophysics of these processes offers a
neurobiophysical foundation by describing the structural, electrical,
and chemical dynamics of neuronal activity (Buzsáki, & Draguhn,
2004). Brain memory is comprised of the processes of encoding
learned information, retaining it, and retrieving the stored
information. Structures in the medial temporal lobe, including the
hippocampus, are crucial for these functions (Squire, & Zola-
Morgan, 1991). These processes are influenced by synaptic plasticity
and oscillatory activity at the neurobiophysical level, as described by
( Bliss, & Lømo, 1973; Fell, & Axmacher, 2011). Attention involves
the selection of a specific target for subsequent processing and the allocation of neural resources to that target. This process also
enhances information processing efficiency by allocating resources
towards specific stimuli (Posner, & Petersen, 1990). The process is
linked to the electrical activity patterns and synchronisation
dynamics of cortical networks (Fries, 2009). Attentional processes
are influenced by interactions between brain regions like the
prefrontal cortex, the parietal lobe, and the thalamus, as noted by
Corbetta, & Shulman, (2002). Attention and memory are closely
connected and interdependent systems; attention picks out
information for processing, whereas memory influences attention
based on past occurrences (Awh, Vogel, & Oh, 2006). Information
encoded through attentional focus persists longer, and information
acquired in the past also influences focus of attention (Chun, & Turk-
Browne, 2007). Examining the relationship between memory and
attention at the biophysical level is crucial not only for understanding
basic neuroscientific systems but also for explaining clinical
applications and neurodegenerative disorders (Baddeley, 2012). This
study will investigate the functions of key brain areas, including the
hippocampus, prefrontal cortex, parietal lobe, and anterior cingulate
cortex, in the processes of memory and attention. The examination
will also consider how these functions are associated with
neuroimaging research and clinical data (Chun, Golomb, & Turk-
Browne, 2011). Examples of memory and attention impairments will
be used to illustrate clinical implications in neurological psychiatric disorders.