A Podcast by Sari Goldstein Ferber: When the Mind Comes to Live Inside the Body: The Ontogeny of the Perceptual Control Clock

Author(s):Sari Goldstein Ferber*Ronny Geva and Aron Weller

Abstract

In this editorial, we discuss the neurobiological processes underlying the early emergence of awareness that we term the “when” and “how” the mind comes to live inside the body. We describe an accumulative developmental process starting during embryonic life and continuing to fetal and postnatal development, of coupling of heart rate, body movements, and sleep states on the behavioral level with underlying mechanisms on the structural, functional, cellular, and molecular levels. A developmental perspective is proposed based on Perceptual Control Theory (PCT). This includes a developing sequence of modules starting from early sensing of neural intensities to early manifestation of human mindful capacities. We also address pharmacological treatments administered to preterm infants, which may interfere with this development, and highlight the need to consider this potential “side effect” of current pharmaceuticals when developing novel pharmacogenomic treatments.

View the Podcast here: https://bit.ly/3Ui1lBG

Read the article: https://bit.ly/3h4P2um

CALL FOR PAPERS | Thematic Issue for Current Alzheimer Research

Journal: Current Alzheimer Research

Guest Editor(s): Keshen Li
Tentative Publication Date: July, 2019

 

Systems Genetics of Alzheimer’s disease: From GWAS to
Disease Pathways

 

Alzheimer’s disease (AD) is the most common dementia and neurodegenerative disease in the elderly. AD is highly heritable and complex. In recent years, genetic studies especially genomewide association studies (GWAS) and next-generation sequencing have identified several AD risk variants and pathways associated with the potential pathogenesis and genetic mechanisms of AD. Until now, more than 20 risk loci that affect AD have been identified. These loci are estimated to explain about 28% of the heritability of liability, 30% of familial risk, and over 50% of sibling recurrence risk of developing AD. Despite these successes, the majority of genetic risk remains to be further identified. The identification of the causative variants or mutations remains challenging and the molecular mechanisms are still rarely characterized. In the post-genome era, the major challenge is to mine novel disease risks from multi-level omics data using system biology methods, which may expand our knowledge of the causes of AD. Therefore, we propose a Special Issue of the topic ‘Systems genetics of Alzheimer’s disease: From GWAS to disease
pathways’. This special issue will focus on the mechanism of genesis and development of AD, as well as valuable clues for the development of novel therapeutic approaches of AD. We believe the systems genetics will help us move from disease risk loci to disease aetiology. This Special Issue welcomes reviews and original papers covering recent genetic research on AD using system biology methods. For more details please visit: https://bit.ly/2M2i6mo

 

Email here to submit your paper: hermain@benthamscience.net

                                                          CC: faizan@benthamscience.net

CURRENT ALZHEIMER RESEARCH

CALL FOR PAPERS | Thematic Issue for Current Medicinal Chemistry

Journal: Current Alzheimer Research

Guest Editor(s): Keshen Li
Tentative Publication Date: July, 2019

 

Systems Genetics of Alzheimer’s disease: From GWAS to
Disease Pathways

 

Alzheimer’s disease (AD) is the most common dementia and neurodegenerative disease in the elderly. AD is highly heritable and complex. In recent years, genetic studies especially genomewide association studies (GWAS) and next-generation sequencing have identified several AD risk variants and pathways associated with the potential pathogenesis and genetic mechanisms of AD. Until now, more than 20 risk loci that affect AD have been identified. These loci are estimated to explain about 28% of the heritability of liability, 30% of familial risk, and over 50% of sibling recurrence risk of developing AD. Despite these successes, the majority of genetic risk remains to be further identified. The identification of the causative variants or mutations remains challenging and the molecular mechanisms are still rarely characterized. In the post-genome era, the major challenge is to mine novel disease risks from multi-level omics data using system biology methods, which may expand our knowledge of the causes of AD. Therefore, we propose a Special Issue of the topic ‘Systems genetics of Alzheimer’s disease: From GWAS to disease
pathways’. This special issue will focus on the mechanism of genesis and development of AD, as well as valuable clues for the development of novel therapeutic approaches of AD. We believe the systems genetics will help us move from disease risk loci to disease aetiology. This Special Issue welcomes reviews and original papers covering recent genetic research on AD using system biology methods. For more details please visit: https://bit.ly/2M2i6mo

Email here to submit your paper: hermain@benthamscience.net

                                                          CC: faizan@benthamscience.net

CURRENT ALZHEIMER RESEARCH

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