scholarly journals The Role of Early Life Experience and Species Differences in Alcohol Intake in Microtine Rodents

PLoS ONE ◽  
2012 ◽  
Vol 7 (6) ◽  
pp. e39753 ◽  
Author(s):  
Allison M. J. Anacker ◽  
Todd H. Ahern ◽  
Larry J. Young ◽  
Andrey E. Ryabinin
Keyword(s):  
Early Life ◽  
Alcohol Intake ◽  
Species Differences ◽  
Life Experience ◽  
Early Life Experience ◽  
Microtine Rodents

Predisposition to Depression: The Role of Attachment

2003 ◽  
Vol 37 (2) ◽  
pp. 219-225 ◽  
Author(s):  
Josephine Beatson ◽  
Suzanna Taryan
Keyword(s):  
Psychiatric Disorders ◽  
Patient Group ◽  
Hpa Axis ◽  
Early Life ◽  
Life Experience ◽  
Adverse Life Events ◽  
Relational Experiences ◽  
Early Life Experience ◽  
Response To Stress

Objective: To examine the hypothesis that adverse early relational experiences causing activation of the hypophysial-pituitary-adrenal (HPA) axis during critical early stages of development can predispose to depression. Patients thus affected are likely to manifest insecure patterns of attachment in close relationships and are vulnerable to depression after adverse life events. Method: The literature pertaining to sensitization of the HPA axis in early life and the neurobiology of attachment is examined. Results: Adverse early relational experiences can result in activation of the HPA axis, causing sensitization of depression pathways in the brain. Secure attachment acts as a buffer against HPA activation in response to stress. Infants with insecure attachment lack this buffering effect and may be predisposed to depression and other psychiatric disorders in response to psychosocial stressors. Conclusions: There is a patient group predisposed to depression on the basis of adverse early life experience. In these cases, the neurobiology of attachment offers a means of integrating findings concerning sensitization of the HPA axis in infancy, the effects of early life experience on brain development, and predisposition to depression and other psychiatric disorders. These findings have important implications for the development of interventions aimed at prevention and treatment for this patient group.

On the causes of early life experience effects: Evaluating the role of mom

2014 ◽  
Vol 35 (2) ◽  
pp. 245-251 ◽  
Author(s):  
Akaysha C. Tang ◽  
Bethany C. Reeb-Sutherland ◽  
Russell D. Romeo ◽  
Bruce S. McEwen
Keyword(s):  
Early Life ◽  
Life Experience ◽  
Early Life Experience ◽  
Experience Effects

scholarly journals Rearing experience with ramps improves specific learning and behaviour and welfare on a commercial laying farm

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Kate I. Norman ◽  
Claire A. Weeks ◽  
John F. Tarlton ◽  
Christine J. Nicol
Keyword(s):  
Early Life ◽  
Life Experience ◽  
Later Life ◽  
Welfare Benefits ◽  
Early Life Experience ◽  
Bone Damage ◽  
Specific Learning

AbstractTo access resources in commercial laying houses hens must move between levels with agility to avoid injury. This study considered whether providing ramps during rear improved the ability of birds to transition between levels. Twelve commercial flocks (2000 birds/flock) on a multi-age site were examined between 1 and 40 weeks of age. All birds had access to elevated perching structures from 4 days of age. Six treatment flocks were also provided with ramps during rear to facilitate access to these structures. Flocks were visited three times during rear and three times at lay to record transitioning behaviour and use of the elevated structures, together with scores for keel bone and feather damage. Ramp reared flocks used the elevated structures to a greater extent at rear (P = 0.001) and at lay, when all flocks had ramps, showed less hesitancy [i.e. pacing (P = 0.002), crouching (P = 0.001) and wing-flapping (P = 0.001)] in accessing levels. Mean levels of keel bone damage were reduced in ramp reared flocks (52%) compared with control flocks (64.8%) at 40 weeks of age (P = 0.028). The early life experience of the ramp reared flocks enabled specific learning that translated and persisted in later life and resulted in overall welfare benefits.

scholarly journals Early-Life Experience, Epigenetics, and the Developing Brain

2014 ◽  
Vol 40 (1) ◽  
pp. 141-153 ◽  
Author(s):  
Marija Kundakovic ◽  
Frances A Champagne
Keyword(s):  
Early Life ◽  
Life Experience ◽  
Developing Brain ◽  
Early Life Experience

scholarly journals Serotonin deficiency alters susceptibility to the long-term consequences of adverse early life experience

2015 ◽  
Vol 53 ◽  
pp. 69-81 ◽  
Author(s):  
Benjamin D. Sachs ◽  
Ramona M. Rodriguiz ◽  
Ha L. Tran ◽  
Akshita Iyer ◽  
William C. Wetsel ◽  
...  
Keyword(s):  
Early Life ◽  
Life Experience ◽  
Early Life Experience ◽  
Serotonin Deficiency ◽  
Long Term Consequences

scholarly journals What does a neuron learn from multisensory experience?

2015 ◽  
Vol 113 (3) ◽  
pp. 883-889 ◽  
Author(s):  
Jinghong Xu ◽  
Liping Yu ◽  
Terrence R. Stanford ◽  
Benjamin A. Rowland ◽  
Barry E. Stein
Keyword(s):  
Superior Colliculus ◽  
Early Life ◽  
Life Experience ◽  
Sensory Experience ◽  
Rearing Environment ◽  
Early Life Experience ◽  
Environmental Events ◽  
Cat Superior Colliculus ◽  
Maturational Process ◽  
Multisensory Experience

The brain's ability to integrate information from different senses is acquired only after extensive sensory experience. However, whether early life experience instantiates a general integrative capacity in multisensory neurons or one limited to the particular cross-modal stimulus combinations to which one has been exposed is not known. By selectively restricting either visual-nonvisual or auditory-nonauditory experience during the first few months of life, the present study found that trisensory neurons in cat superior colliculus (as well as their bisensory counterparts) became adapted to the cross-modal stimulus combinations specific to each rearing environment. Thus, even at maturity, trisensory neurons did not integrate all cross-modal stimulus combinations to which they were capable of responding, but only those that had been linked via experience to constitute a coherent spatiotemporal event. This selective maturational process determines which environmental events will become the most effective targets for superior colliculus-mediated shifts of attention and orientation.

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