Unpredictable chronic mild stress shows neuronal remodeling in multipolar projection neurons of hippocampal complex in postnatal chicks.

The hippocampal complex of birds is a narrow-curved strip of tissue that plays a crucial role in learning, memory, spatial navigation, and emotional and sexual behavior. This study was conducted to evaluate the effect of unpredictable chronic mild stress in multipolar neurons of 3-, 5-, 7-, and 9-week-old chick's hippocampal complex. This study revealed that chronic stress results in neuronal remodeling by causing alterations in dendritic field, axonal length, secondary branching, corrected spine number, and dendritic branching at 25, 50, 75, and 100 µm.

Investigating the impact of nutritional insufficiency on parahippocampal neurons in domestic chickens, Gallus gallus domesticus.

Over time, scientists have been fascinated by the complex connections among nutrition, brain development, and behavior. It's been well understood that the brain's peak performance relies on having the right nutrients available. Thus, nutritional insufficiency, where an organism lacks vital nutrients crucial for optimal growth and function, can upset the body's balance, potentially triggering stress responses.

Neuronal plasticity in hippocampal neurons due to chronic mild stress and after stress removal in postnatal chicks.

The avian dorsomedial surface of the cerebral hemisphere is occupied by the hippocampal complex (HCC), which plays an important role in learning, memory, cognitive functions, and regulating instinctive behavior patterns. The objective of the study was to evaluate the effect of chronic mild stress (CMS) in 4, 6, and 8 weeks and after chronic stress removal (CSR) in 6 and 8 weeks, on neuronal plasticity in HCC neurons of chicks through the Golgi-Cox technique. Further, behavioral study and open field test were conducted to test of exploration or of anxiety.

Acute-stress induces the structural plasticity in hippocampal neurons of 15 and 30-day-old chick, Gallus gallus domesticus.

To study the stress effect on neuronal architecture in the avian hippocampus (a vital component of the neural circuitry mediating stress responses), chick constitutes an interesting animal model. The hippocampus due to its susceptible and vulnerable nature towards acute-stress effect shows pronounced structural and morphological plasticity. Therefore, to perform a detailed investigation of the acute-stress effect on neuronal architecture in the hippocampus, the present study targets to examine the role of a single acute-stress session of 24-hours food and water deprivation in inducing structural plasticity in 15 and 30-day-old chick by using Golgi-Cox staining technique.

Acute stress-induced neuronal plasticity in the corticoid complex of 15-day-old chick, Gallus domesticus.

Several studies conducted on chicken have shown that a single stress exposure may impair or improve memory as well as learning processes. However, to date, stress effects on neuronal morphology are poorly investigated wherefore it was of interest to evaluate this further in chicks. Thus, the present study aims to investigate the role of single acute stress (AS) of 24 h food and water deprivation in neuronal plasticity in terms of spine density of the corticoid complex (CC) in 15-day-old chick, Gallus domesticus, by using three neurohistological techniques: Cresyl Violet, Golgi Colonnier, and Golgi Cox technique.