Acquired Brain Injuries (ABIs) (e.g.Traumatic Brain Injuries (TBIs,) Strokes,Tumors) account for a significant portion of global disability and mortality. These injuries often lead to a wide array of cognitive, behavioral, and physical impairments, creating a profound impact on individual lives and society at large. Cognitive rehabilitation, a therapeutic approach aimed at improving cognitive functioning, has emerged as a promising avenue to address the lingering effects of ABIs. However, the understanding of its effectiveness, applicability, and the mechanisms that drive recovery require further exploration.
This Research Topic aims to create an enriched understanding of the role and impact of cognitive rehabilitation in individuals with Acquired Brain Injuries (ABIs) across ages including children, adolescents, young adults, adults, and older adults. We aspire to invite comprehensive and contemporary research that sheds light on the cognitive rehabilitation paradigms, their efficacy, and the underlying mechanisms driving cognitive recovery. Our goal is to elicit research that can guide future rehabilitation strategies, establish standardized protocols, and seek optimal patient outcomes, highlighting the significance of neuroscience in rehabilitation. By unraveling more nuances of cognitive rehabilitation in ABI, we aim to emphasize the importance of neuroscience-driven rehabilitation to improve patients' quality of life.
We invite research studies, literature reviews, case reports, and meta-analyses that examine the facets of cognitive rehabilitation following ABI. We encourage authors to focus on topics that:
• Explore and detail the mechanisms that underlie cognitive recovery post-ABI.
• Investigate the efficacy and applicability of different cognitive rehabilitation strategies post-TBI and stroke.
• Discuss the role of personalized medicine in cognitive rehabilitation.
• Evaluate the long-term effects and sustainability of cognitive rehabilitation outcomes.
• Propose and develop neurophysiological markers as potential indicators of recovery.
Acquired Brain Injuries (ABIs) (e.g.Traumatic Brain Injuries (TBIs,) Strokes,Tumors) account for a significant portion of global disability and mortality. These injuries often lead to a wide array of cognitive, behavioral, and physical impairments, creating a profound impact on individual lives and society at large. Cognitive rehabilitation, a therapeutic approach aimed at improving cognitive functioning, has emerged as a promising avenue to address the lingering effects of ABIs. However, the understanding of its effectiveness, applicability, and the mechanisms that drive recovery require further exploration.
This Research Topic aims to create an enriched understanding of the role and impact of cognitive rehabilitation in individuals with Acquired Brain Injuries (ABIs) across ages including children, adolescents, young adults, adults, and older adults. We aspire to invite comprehensive and contemporary research that sheds light on the cognitive rehabilitation paradigms, their efficacy, and the underlying mechanisms driving cognitive recovery. Our goal is to elicit research that can guide future rehabilitation strategies, establish standardized protocols, and seek optimal patient outcomes, highlighting the significance of neuroscience in rehabilitation. By unraveling more nuances of cognitive rehabilitation in ABI, we aim to emphasize the importance of neuroscience-driven rehabilitation to improve patients' quality of life.
We invite research studies, literature reviews, case reports, and meta-analyses that examine the facets of cognitive rehabilitation following ABI. We encourage authors to focus on topics that:
• Explore and detail the mechanisms that underlie cognitive recovery post-ABI.
• Investigate the efficacy and applicability of different cognitive rehabilitation strategies post-TBI and stroke.
• Discuss the role of personalized medicine in cognitive rehabilitation.
• Evaluate the long-term effects and sustainability of cognitive rehabilitation outcomes.
• Propose and develop neurophysiological markers as potential indicators of recovery.