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NEU_LEC_15

BRAIN DEVELOPMENT II

Development Stages

  • Neurogenesis: Process of generating new neurons.

  • Cell Migration: Movement of newly formed neurons to their final location.

  • Cell Differentiation: Development of distinct cell types from undifferentiated stem cells.

  • Synaptogenesis: Formation of synapses between neurons.

  • Neuronal Cell Death: Natural process where excess neurons die off.

  • Synapse Rearrangement: Continuous process throughout adulthood, shaped by experience.

SYNAPSE REARRANGEMENT

Overview

  • Guided by Experience: Synapse rearrangement continues throughout adulthood.

  • Synaptic Loss: Dependent on the loss of synapses, particularly in the cortex from late childhood to mid-adolescence.

  • Caudal to Rostral Maturation: Synapse loss occurs from back (caudal) to front (rostral) of the brain, finishing in the prefrontal cortex, linked to teenage impulsivity.

Purpose

  • Strengthening Connections: With some synapses lost, stronger synapses remain for enhanced functioning.

  • Intellectual Development: Some inherited disorders retain early synapses, affecting overall intellectual growth.

FRAGILE X SYNDROME

Definition

  • Genetic Disorder: Characterized by a mutation in the FMR1 gene on the X chromosome.

  • Synaptic Impact: Results in retention of early synapses, hindering standard synapse rearrangement.

Symptoms

  • Intellectual Disabilities: Individuals exhibit mild to moderate disabilities.

  • Facial Characteristics: Specific facial features are associated with the syndrome.

GENOTYPE AND PHENOTYPE

Definitions

  • Genotype: The individual’s genetic makeup, an intrinsic factor, a constant.

  • Phenotype: The visible traits that change due to environmental and experiential influences.

FUNCTIONS OF GENES

  • Gene Functionality: Genes are specific DNA regions coding for proteins involved in various bodily functions.

  • Protein Formation: Proteins consist of amino acid chains, functioning as enzymes, channels, and transporters.

  • Different proteins are made by expressing different genes.

GENETIC DISORDERS

Case Study: Phenylketonuria (PKU)

  • Faulty Gene: Inherited gene defect causing an absence of the enzyme phenylalanine hydroxylase.

  • Impact: Leads to the accumulation of phenylalanine, which is toxic to the brain.

  • Symptoms: Can cause intellectual disabilities if not managed by diet from infancy.

Dietary Management

  • Screening: Newborn screening prevents brain impairment by controlling dietary intake of phenylalanine until age 2.

  • Restrictions: Failure to restrict leads to worsening cognitive disabilities.

AGING BRAIN

Physical Changes

  • Atrophy: Specific areas, like the hippocampus, experience shrinkage with age. However, neurogenesis can still occur with active learning.

Mild Cognitive Decline

  • Age Range: Normal aging processes bring mild cognitive decline, particularly in individuals aged 55-87.

  • Cerebral Metabolism: Generally stable and does not change with normal aging but may reflect cognitive changes due to brain structure alterations.

ALZHEIMER’S DISEASE (AD)

Overview

  • Cognitive Decline: This disorder increases with age, leading to severe memory loss and disorientation.

  • Symptoms: Begins with memory loss, resulting in comprehensive cognitive decline and difficulties in conversation.

Brain Changes in AD

  • Cortical Atrophy: Loss of cholinergic neurons results in a decline in cerebral metabolism, associated with formation of amyloid plaques and neurofibrillary tangles.

  • Plaque Accumulation: More plaques correlate with increased cognitive decline.

Medications for AD

  • Cholinesterase Inhibitors: Includes Donepezil, Galantamine, Rivastigmine for enhancing cognition.

  • NMDA Receptor Antagonist: Memantine is used for moderate to severe cognitive impairment.

KD

NEU_LEC_15

BRAIN DEVELOPMENT II

Development Stages

  • Neurogenesis: Process of generating new neurons.

  • Cell Migration: Movement of newly formed neurons to their final location.

  • Cell Differentiation: Development of distinct cell types from undifferentiated stem cells.

  • Synaptogenesis: Formation of synapses between neurons.

  • Neuronal Cell Death: Natural process where excess neurons die off.

  • Synapse Rearrangement: Continuous process throughout adulthood, shaped by experience.

SYNAPSE REARRANGEMENT

Overview

  • Guided by Experience: Synapse rearrangement continues throughout adulthood.

  • Synaptic Loss: Dependent on the loss of synapses, particularly in the cortex from late childhood to mid-adolescence.

  • Caudal to Rostral Maturation: Synapse loss occurs from back (caudal) to front (rostral) of the brain, finishing in the prefrontal cortex, linked to teenage impulsivity.

Purpose

  • Strengthening Connections: With some synapses lost, stronger synapses remain for enhanced functioning.

  • Intellectual Development: Some inherited disorders retain early synapses, affecting overall intellectual growth.

FRAGILE X SYNDROME

Definition

  • Genetic Disorder: Characterized by a mutation in the FMR1 gene on the X chromosome.

  • Synaptic Impact: Results in retention of early synapses, hindering standard synapse rearrangement.

Symptoms

  • Intellectual Disabilities: Individuals exhibit mild to moderate disabilities.

  • Facial Characteristics: Specific facial features are associated with the syndrome.

GENOTYPE AND PHENOTYPE

Definitions

  • Genotype: The individual’s genetic makeup, an intrinsic factor, a constant.

  • Phenotype: The visible traits that change due to environmental and experiential influences.

FUNCTIONS OF GENES

  • Gene Functionality: Genes are specific DNA regions coding for proteins involved in various bodily functions.

  • Protein Formation: Proteins consist of amino acid chains, functioning as enzymes, channels, and transporters.

  • Different proteins are made by expressing different genes.

GENETIC DISORDERS

Case Study: Phenylketonuria (PKU)

  • Faulty Gene: Inherited gene defect causing an absence of the enzyme phenylalanine hydroxylase.

  • Impact: Leads to the accumulation of phenylalanine, which is toxic to the brain.

  • Symptoms: Can cause intellectual disabilities if not managed by diet from infancy.

Dietary Management

  • Screening: Newborn screening prevents brain impairment by controlling dietary intake of phenylalanine until age 2.

  • Restrictions: Failure to restrict leads to worsening cognitive disabilities.

AGING BRAIN

Physical Changes

  • Atrophy: Specific areas, like the hippocampus, experience shrinkage with age. However, neurogenesis can still occur with active learning.

Mild Cognitive Decline

  • Age Range: Normal aging processes bring mild cognitive decline, particularly in individuals aged 55-87.

  • Cerebral Metabolism: Generally stable and does not change with normal aging but may reflect cognitive changes due to brain structure alterations.

ALZHEIMER’S DISEASE (AD)

Overview

  • Cognitive Decline: This disorder increases with age, leading to severe memory loss and disorientation.

  • Symptoms: Begins with memory loss, resulting in comprehensive cognitive decline and difficulties in conversation.

Brain Changes in AD

  • Cortical Atrophy: Loss of cholinergic neurons results in a decline in cerebral metabolism, associated with formation of amyloid plaques and neurofibrillary tangles.

  • Plaque Accumulation: More plaques correlate with increased cognitive decline.

Medications for AD

  • Cholinesterase Inhibitors: Includes Donepezil, Galantamine, Rivastigmine for enhancing cognition.

  • NMDA Receptor Antagonist: Memantine is used for moderate to severe cognitive impairment.

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