Physiology - Test 2 study guide

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transducers: converts one kind of stimulation to another
Conductors: Transmits info from A to B
Integrators: Impulses will be interpreted
cells found in Nervous System: Neurons & Glial Cells
Kinds of neurons: 1. Anaxonic
2. Bi-Polar
3. Unipolar
4. Multipolar
Anaxonic Neuron: - not well understood
- connecting neurons in the CNS
- no axon
Bi-Polar Neuron: - 1 axon
- 1 dendrite
- sensory (special senses - taste, vision)
Unipolar Neuron: - sensory (hot, cold, touch)
- axon a little shorter than dendrite
- Ex. Dorsal Root Ganglion
Multipolar Neuron: - motor neuron
- connecting neurons
- peripherial nervous system
Types of Glial Cells (Neuroglia): Of CNS:
1. Ependymal
2. Astrocytes
3. Microglia
4. Oligodendrocytes

Of PNS:
1. Satellite cells
2. Schwann Cells
2 glial cells that work together to form BBBarrier: Ependymal and Astrocytes
Ependymal cells: In CNS:
- behave as epithelial
- lines and covers tissues
Astrocytes: In CNS:
- multi processes
- connective tissue of CNS
- structural support
- work with Ependymal cells for BBB
Microglia cells: In CNS:
- wandering phagocytes of CNS
- ingest potential pathogens
- clean up debris
Oligodendrocytes: In CNS:
- myelination of fibers in CNS
Satellite Cells: In PNS - similar to Epindymal and Astrocytes
Schwann Cells (aka neurolemmacyte): In PNS:

- surround axons in PNS
- myelination in PNS
Nerve: Bundle of axons and/or dendrites.
Membrane potential: Difference in charge between inside and outside of cell.
All membranes have 3 types of ion channels: 1. leak channels
2. Sodium Potassium Exchange pump
3. Gated - chemical, mechanical, voltage
Leak channels: - aka passive channels
- always open
- tend to be more permeable to K than Na
3 forms of gated channels: - chemically regulated
- voltage-regulated
- mechanically regulated
3 states of gated channels: - closed, but capable of opening
- open
- closed, incapable of opening
Sodium Potassium Exchange Pump: - maintains resting potential at -70mV
- used ATP to pump out Na+ and pump in K+
3 Na to 2 K
What initiates an action potential?: Opening and closing of gated channels.
Action Potentials: Propagated changes in the transmembrane potential that, once initiated, affect an entire excitable membrane.
Absolute refractory period: Does not matter how many other stimuli, cannot get another action potential.
Relative refractory peoriod: possible to get another action potential generated, but takes greater stimuli
summation: addition of stimuli
temporal summation: addition of stimuli occurring in rapid succession.
Occurs at a single synapse
spatial summation: simultaneous stimuli at different locations have a cumulative effect on the transmembrane potential.
EPSP creates?: Excitatory Post synaptic potential

- depolarization (move toward threshhold)
IPSP creates?: Inhibitory Post Synaptic Potential
- hyperpolarize - move away from threshold.
Saltatory conduction (propagation): Action potential "jumps" from node to node rather than moving along the axon in a series of tiny steps.
3 types of fibers & describe: Type A - largest, myelinated, 300 mph
Type B - intermediate, myelinated, 40-45 mph
Type C - smallest, unmyelinated, continuous propagation, 2 mph
2 forms of synapses: Electric or Chemical
Electric synapse: - rarest
- the pre & post synaptic membranes are locked together at gap junctions
- known advantage - quicker response due to connection at gap junctions.
2 types of Chemical synapse & describe: - may or may not propagate the postsynaptic cell - depends on the NT

Cholinergic - synapses that release AcH

Adrenergic - uses a variety of NT
Neuromodulators: - not necessarily a NT
- alters the rate of release of NT or alters the affect the NT has on the post synaptic membrane.
- can effect pre,post or both at the same time
- can operate on thei own or in conj with NT's.
NM effects: Direct effect - Ionotropic - causes change in ion concentrations between inside and outside of receptor cells.

Indirect effect - Metabotropic - causes metabolic ahnges of the post synaptic cell. Overall change in the cells metabolism. G-protein GTP enzymes linked to them.
What affects nerve inpulses?: concentration of Na+, K+, Ca+, Temperature
if conc of Na+ & K+ are to high or low, affect resting potential, if temp high, ion movement faster through leak channels.

H+ in extracellular fluid - effect of depolarizing membrane

Buffers very important in cellular physiology
Types of reflexes: - learned/acquired - trained response
- somatic - control skeletal muscle contractions
- visceral - autonomic - cardiac muscle
- monosynaptic - one synapse
- polysynaptic - more than one synapse
- cranial - processing in brain
- spinal - processing in the spinal cord
4 types of neural pathways: - Linear pathway (serial processing)
- Diverging pathway (one -- to many) comon - motor
- Converging pathway (many -- to one) common - sensory - less convergence
- Reverberating (Linear -- loop) will continue to cycle stimulate until circuit fatigues or run out of NT's
5 sensory receptors: 1. thermoreceptors (free nerve endings)
2. chemoreceptors (respond to chemical changes)
3. photoreceptors (respond to light)
4. mechanoreceptors (respond to mechanicl stimulus)
5. nociceptors (pain receptors)
break down Mechanoreceptors: 1. baroreceptor - blood pressure
2. tactile receptors - touch receptors
a. tactile disc (merkels discs) free nerve endings with padlike structures.
b. lamellated corpuscle (deep touch - vibratory receptors)
c. organ of ruffini (deep touch - do not adapt quickly)
Site of sharpest vision: fovea
Blind spot?: Optic disc
Rods: react to all wave lengths of visible, low intensity light.
Cones: respond to certain wavelengths - color vision.
Organ of Corti: organ of hearing
amplitude: how many hair cels are being stimulated at a given time.
dynamic equilibrium: semi circular ducts filled with endolymph

detect rotational movements of the head.
static equilibrium: Utricle and Saccule

Provide equilibrium sensations, whether the body is moving or is stationary.
incomplete tetany: muscle fiber contract, begin to relax but restimulated
complete tetany: stimulation so close together - no chance to relax. muscle will fatigue.
treppe: tension rises in stages - like warming up
types of muscle contractions: Isotonic - as muscle contracts - tension remains stable - muscle gets shorter. (to move)

Isometric - as muscle contracts - tension increases - muscle does not change much (maintaining posture)
Kinds of muscle fibers: 1. slow twitch (lg # of mitochondria, high conc of myoglobin, slower to react, slower to fatigue)

2. intermediate (middle # of mitoch & myoglobin,)

3. fast twitch (few mitochondria, myoglobin, anerobic resp, react quick, fatigue rapidly)
Charactics of Cardiac muscle: - intercallated discs (gap junctions between cells)
- striated, pacemaker cells,
- deep nuclei
2 subgroups of smooth muscle: single unit & multi unit

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