Sökning: "Development into adulthood"
Visar resultat 21 - 25 av 82 avhandlingar innehållade orden Development into adulthood.
21. The role of epigenetics in multiple sclerosis development, progression and treatment
Sammanfattning : The overall aim of this thesis was to determine epigenetic changes in peripheral immune cells from Multiple Sclerosis (MS) patients. MS is a chronic inflammatory neurodegenerative disease, which initially presents itself during young adulthood. LÄS MER
22. Epigenetic dysregulation in relation to psychiatric traits in adolescence and adulthood
Sammanfattning : Epigenetics has evolved into a key research focus in the field of psychiatry. DNA methylation is the most researched epigenetic mechanism. In paper I-III, 130 and 93 adolescents were randomly recruited at two separate intervals. LÄS MER
23. Effect of growth and development on tissue vulnerability : a study on the perinatal rat kidney
Sammanfattning : The infant is more vulnerable than older children and adults to pathological processes, such as metabolic disturbances and kidney infection. We have speculated that the vulnerability of the infant kidney may be related to the fact that the kidney at this time is undergoing rapid growth and development. LÄS MER
24. Long-Term Outcomes of Bullying Victimization With a Specific Focus on Emerging Adulthood and Resilience
Sammanfattning : ENGELSK SAMMANFATTNING: Bullying victimization in school is not only an experience at the time of victimization; the impact of these experiences has been found to be connected to long-term outcomes well into adulthood. The overall aim of this licentiate thesis is to broaden the understanding of long-term outcomes from experiencing bullying victimization in school, related to the developmental period of emerging adulthood and how it can be understood in terms of resilience. LÄS MER
25. Implementing new genomic tools to study ventral midbrain development and injury response in the newt Pleurodeles waltl
Sammanfattning : Mammals have a poor ability to regenerate organs or tissues. In particular, brain neurons do not regenerate after damage. A good example of this limitation is the irreversible degeneration of midbrain dopaminergic neurons in Parkinson’s disease (PD). Several strategies are being developed to treat PD. LÄS MER