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The Rise of Homo sapiens: Introduction to the Brain

Explore the fascinating evolution and development of the human brain, from the earliest ancestors to modern humans. Discover the key regions and functions of the brain, and the impact of injuries and abnormalities. Uncover the mysteries of cognition and mental abilities that led to the success of Homo sapiens.

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The Rise of Homo sapiens: Introduction to the Brain

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  1. The Rise of Homo sapiens:Chapters 1 & 2 Introduction and The Brain

  2. Introduction • Modern humans evolved in Africa • ≈ 70,000 years ago → modern humans began to migrate • They eventually moved into Europe, where they shared the continent with Neanderthals for several thousand years. • ≈ 25,000 years ago, the last Neanderthal died. • Ultimately, they became the only humans on Earth. • What was the cause of their success? • Not technology or their physique • Perhaps their mental abilities

  3. Introduction • Phineas Gage → tamping rod through frontal lobe • Before accident-- responsible, dependable, smart business man • After-- capricious, profane, irritable • Dr.– “…persistent in executing all his plans of operation.” • Executive functions: making decisions, forming goals, planning ahead, ability to change plans

  4. Introduction • 1st leap in cognition → 1.5 million years ago • Evolution of Homo erectus • Movement away from safe, wooded habitats • Changes in social life and landscape use • Perhaps facilitated by physiological changes in sleep patterns • 2nd leap in cognition → 100,000 – 40,000 years ago • “modern thinking” • Personal ornaments, art, elaborate rituals, scheduled hunting • Explained by enhancement in working memory capacity

  5. The Brain • Edwin Smith papyrus • Earliest written evidence about the brain & behavior • ≈ 2700 BCE (Origin is a mystery) • First known use of the term “brain” • Broca’s aphasia • Internal head injury (localization)

  6. Brain Ontogeny • Cell proliferation: multiplication of cells • Until the 20th week • Migration: cells moving to their programmed location • Until the 29th week • Differentiation: developing a specific function • Continues until after birth • Apoptosis: cell death • Until the first 10 years

  7. Brain Ontogeny • Left hemisphere • Language • Right hemisphere • Non-verbal & visual-spatial fuctions • Separated by a major fissure • Corpus callosum

  8. Brain Ontogeny • Frontal lobe • Parietal lobe • Temporal lobe • Occipital lobe • Brodmann’s areas • Divides brain into 52 regions, based on cell type and function

  9. Brain Ontogeny • Frontal lobe • Bordered by the lateral fissure and central sulcus • (Executive) functions: • Future planning • Decision-making • Problem-solving • Broca’s area • Damage • Broca’s aphasia • Personality changes

  10. Brain Ontogeny • Frontal lobe (cont’d) • Cingulate cortex • Attention, especially short- and long-term goals • Prefrontal cortex • Dorsolateral prefrontal cortex: selective attention, task organization, planning, flexibility • Orbitofrontal: processing of emotions, decision-making in social interactions • Ventromedial: central part of the orbitofrontal cortex, located in the middle of the brain

  11. Brain Ontogeny • Parietal lobe • Posterior to the central sulcus • Function: visuospatial processing • Somatosensory cortex • Controls senses, especially touch • Damage: apraxia • Sub-regions: • Supramarginal gyrus: controls sensory discriminations • Angular gyrus: phonological storage

  12. Brain Ontogeny • Temporal lobe • Inferior to the parietal lobe • Functions: language and speech interpretation, also important role in thinking, speech, visual processing, & memory • Sub-regions: • Superior temporal gyrus (Wernicke’s area) • Understanding of speech • Wernicke’s aphasia • Planum temporale: perception of pitch & harmony • Transverse temporal gyrus: primary auditory cortex

  13. Brain Ontogeny • Sub-regions: • Inferior temporal gyrus • word & number recognition • Fusiform gyrus • Facial recognition • Damage: epilepsy due to anoxia

  14. Brain Ontogeny • Occipital lobe • Posterior to parietal and temporal lobes • Functions: • Visual recognition and processing • Damage: blindness due to contra coup effect

  15. Brain Ontogeny • Limbic system • Housed within the cortex and temporal lobe • Functions: processing of emotions & formation of memories • Main structures: • Hippocampus • Amygdala • Basal ganglia

  16. Brain Ontogeny • Hippocampus • H.M., suffered frequent grand mal seizures • Underwent hippocampectomy & amygdalectomy • Led to inability to recognize faces, retrograde and anterograde amnesia • Declarative memory impaired • Procedural memory intact

  17. Brain Ontogeny • Amygdala • Anterior tips of hippocampus • Fear and rage responses • Amygdala → emotions → memory • Amygdalectomy → apathy

  18. Brain Ontogeny • Basal ganglia • Collection of subcortical neurons • Function: control of movements • Substantia nigra • Manufacture of dopamine • Parkinson’s disease • Destruction of neurons → decreased dopamine • Hand, finger, foot tremors • Rigid muscles • Trouble walking

  19. Brain Ontogeny • Treatments: • Levodopa (L-dopa) • Removal of globus pallidus • Deep brain stimulation • O.C.D. • Tourette’s syndrome

  20. Other Subcortical Brain Structures • Cerebellum • Very old brain structure • Rapid expansion in modern humans • Functions: integration of sensory perception and motor output & control of fine motor movements • Lesions/damage → difficulties in equilibrium, balance, and posture

  21. Other Subcortical Brain Structures • Brain stem • Lower brain structure • Pons • Receives sensory & motor output → cerebellum • Information crosses over to opposite side • Reticular formation • One of the oldest phylogenetic areas of the brain • Sleeping, eating, sex, also attention & motivation • Medulla • Controls vital functions: heart rate, breathing, & bp

  22. Other Subcortical Brain Structures • Hypothalamus • Regulates the autonomic nervous system, the endocrine & hormonal systems, and the body’s general homeostasis • Thalamus • Top of spinal cord • Relay station for sensory information • Also regulates attention

  23. Handedness • Both ipsilateral (same-side) and contralateral (opposite-side) connections to the two cerebral hemispheres • Stronger contralateral connection • 90-95% → right-handed • 5-10% → left-handed or non-right-handed • Right-handed and most non-right-handed people have speech located in left hemisphere

  24. Handedness • Many animals also have vocalization ability located in the left hemisphere. • Homo habilis (≈ 2 million years ago) → enlarged Broca’s area (left hemisphere; speech production) but not earlier australopithecines • Toth (1985) examined stone tools from 1.4 – 1.9 million years ago → more right-handers

  25. Ears and Hearing • Both ipsilateral and contralateral connections • Stronger contralateral connection • For example, right ear → left hemisphere (speech) • Left ear → right hemisphere → corpus callosum→ left hemisphere

  26. Eyes and Vision • Each eye is connected to both hemispheres • Ipsilateral and contralateral connections are equal • Left half of each eye → left hemisphere & views the right visual field • Right half of each eye → right hemisphere & views the left visual field

  27. Split-Brain Studies • Involves severing the corpus callosum in order to reduce seizures in severely epileptic patients • Split-brain patients cannot repeat something they’ve heard in their left ear because the knowledge cannot travel across the corpus callosum to be processed in the left hemisphere

  28. Split-Brain Studies • Split-brain patients cannot repeat what they see in their left visual field • Left visual field → right half of each eye → right hemisphere • Hand & eye tasks • Will use their left hand to pick up what they saw in their right visual field (TREE) and vice versa

  29. Split-Brain Studies • Left visual field Right visual field

  30. Brain Myths • Myth #1: We only use 10% of our brains. • Cannot be measured (walking, sitting, moving, etc.) • Vincent et al. (2007) – found cortical activation in unconscious monkeys • May have been created to motivate

  31. Brain Myths • Myth #2: Alcohol destroys brain cells. • Little or no evidence for moderate drinkers with adequate diets • However, severe and long-term alcoholism is associated with Korsakoff’s syndrome → memory problems

  32. Brain Myths • Myth #3A: The brain cannot regenerate its neurons. • There has been some evidence of neurogenesis in only the olfactory bulb and the hippocampus. • Myth #3B: The brain can regenerate its neurons. • People with massive brain damage usually do not get better. Quite often, they get much worse. Neurogenesis evidence is probably exaggerated.

  33. Brain Myths • Myth #4: Gay men’s and lesbians’ brains are different from heterosexuals’ brains. • Not much evidence for either side. • Some evidence for neuronal organization differences in the hippocampus of gay men but this has not shown any cognitive consequence whatsoever.

  34. The End

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