CTAP Midterm PDF

Summary

This document is a set of notes on human biology, including topics such as myeloid and lymphoid stem cells, synaptic communication, different types of cells, various muscle tissue types, the nervous system and sensory organs. It also discusses the structures of cells and tissues, and certain diseases.

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1. myeloid stem cells: matures within marrow > granulocyte, myeloblast(monocyte), megakaryocytes, erythrocytes 2. Megakaryocytes: platelet production 3. lymphoid stem cells: mature outside marrow > T cell and B cell 4. synaptic communication: synapse where nerve impulse is transmitted from 1 neuron to another 5. myelinated vs. unmyelinated nerve fibers ○ Myelinated fibers: schwanna cell membrane wraps axon, insulates and maintains ionic env. ○ Unmyelinated fibers: even distribution of voltage-gate ion channels and impulse conduction not saltatory but slower than myelinated axon 6. white vs. grey matter ○ White: myelinates axons ○ Grey: cell bodies, astrocytes, microglial cells 7. Function of T-tubules: spread impulses 8. Function of sarcoplasmic reticulum: store Ca+ as muscles depolarizes 9. Smooth muscle tumors: leiomyomas benign smooth muscle tumor, uterine fibroids 10. Optic disc: where optic nerve leaves eye, lacks photoreceptors (blind spot) 11. Sclera: part of fibrous layer, opaque posterior, protects/shapes eyeball, anchors extrinsic eye muscles 12. mitosis vs. meiosis ○ Mitosis: cell replication > 2 diploid daughter (2n) 46 ○ Meiosis: cell division of gametes > 4 haploid daughter (n) 23 13. Sebaceous glands: opens up to hair follicle, holocrine, everywhere except palms/soles, produces oil material that coats hair shafts and epidermal surface 14. intramembranous vs. endochondrial ossification ○ Intramembranous: mesenchyme differentiates > osteoblasts and secrete osteoid, flat bones form ○ Endochondral: preexisting hyaline matrix erodes and invaded by osteoblasts > osteoid production, long bones form 15. Perichondrium: blood suppply, neural component, cartilage > bone ○ Outer: collagen type I and fibroblast ○ Inner: mesenchymal stem cells (new chondroblasts) 16. Depolarization: decrease in membrane potential, inside of membrane becomes less negative, probability of impulse increases 17. resting membrane potential: voltage, generated by differences in ionic composition of ICF and ECF, and differences in plasma membrane permeability 18. smooth vs. skeletal muscle: smooth is stronger, skeletal is faster 19. Duchenne's Muscular Dystrophy ○ inherited X-linked recessive disorder of skeletal muscle → progressive muscles weakness ○ Delayed sitting, standing, walking or learning to speak ○ Defect in dystrophin gene ○ Die at 25-30 years 20. Multiple Sclerosis ○ AI demyelinating disease of CNS ○ T-cell react to oligodendrocytes > myelin proteins ○ Brain, spinal cord, optic tract 21. Glial Cells: support neurons ○ glial cells of the CNS: oligodendrocyte (myelin production for 2+), astrocytes, ependymal cells, microglia (remove effet synapses, cytokines) ○ glial cells of the PNS: schwann (myelin production for 1 axon), satelllite 22. Fovea centralis: tiny pit in center of macula lutea, contains all cones 23. Retina: inner layer containing photoreceptors, neurons, glial cells ○ Outer pigmented layer: single cell thick lining choroid, absorb light and stores vitamin A ○ Inner nueral layer: transparent, contains photorecepots, bipolar cells, ganglion cells, optic disc ○ Rods: more numerous/sensitive to light than cones, no color or sharp images ○ Cones: high-res color vision 24. Lens of the eye: separates internal cavity into anterior and posterior segments 25. Blood plasma proteins: albumins 58%, globulins 37% , clotting proteins, fibrinogen 4% 26. Erythropoietin: hormone, produced by RBC 27. vaso vasorum: supply walls of larger vessels, vessels of vessels, 28. where does vasoconstriction and dilation occur in blood vessels 29. Granulocytes: neutrophil, eosinphil, basophil ○ Neutrophil: 3-5 lobar nucleus, light pink, 50-70%, 1-4day lifespan, kill and phagocytose bacteria ○ Eosinophil: bilobed nucleus, red/dark pink, 1-4%, 1-2wk lifespan, kill parasites, modulate local inflammation ○ Basophil: bilopes of S-shapes, dark/blue or purple,.5-1%, several month lifespan, modulate inflammation, release histamine during allergy 30. Agranulocytes: lymphocyte, monoctye ○ Lymphocytes: spherical, 20-40%, hours-many years lifespan, effector and regulatory cells for adaptive immunity ○ Monocyte: indented or C-shaped, 2-8%, hours-years lifespan, before marophage and other mononuclear phagotcytic cells 31. 3 layers of centrifuged blood: plasma, (Buffy)WBC/platelets, RBC 32. Epidermis vs dermis of the skin ○ Epidermis: stratified squamous epithelium ○ Dermis: deeper layer of dense irregular connective 33. Layers of the epidermis: ○ ○ ○ ○ ○ stratum corneum: dead keratin-filled keratinocytes stratum lucidum: thick skin stratum granulosum stratum spinosum (living) stratum basale: cuboidal, low columnar cells contacting basement membrane, mitosis, melanoctyes, langerhans cells, merkel cells 34. saltatory conduction 35. Sarcomere ○ I-band (isotropic): light actin bound to the Z-line, makes striation ○ A-band (anisotropic): dark myosin and actin overlap ○ H-zone: myosin, anchors to M-line ○ M-line: midline ○ Z-line to Z-line = sacromere, functional unit of myofibril ○ Sliding Theory: Z-lines approzimate each other, H-zone disappears 36. Endomysium: surrounds muscles belly 37. Perimysium: surrounds fascicles 38. Epimysium: surronds muscle fiber (myofibril) 39. Cardiac muscle tissue: branching striations, intercalated discs, glycogen covered nuclei 40. Smooth muscle tissue: stronger, NO striations or intercalated disc, calmodulin 41. Skeletal muscles tissue: faster, striations, multinucleiated, 42. muscle tissue 43. osteoblasts vs. osteoclasts ○ Osteoblast: ○ Osteoclast: breakdown down, in lacuna, derived from monocytes 44. osteon anatomy and cells within 45. Middle ear ossicles: malleus (secured to eardrum), incus, stapes (covers oval window) 46. inner ear anatomy: picture 47. membranes of inner ear: picture 48. 49. Reticulocyte: immature rbc in bone marrow Hematocrit: (RBC population/Total blood volume) x 100