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Integration of Physiological Systems - Lecture Notes (University of Surrey BMS2038) £15.49   Add to cart

Lecture notes

Integration of Physiological Systems - Lecture Notes (University of Surrey BMS2038)

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This PDF includes all the lectures from 2019/2020 BMS2038 Integration of Physiological Systems, complete with diagrams included. This document spans from motor control to the anatomy of the gastrointestinal system, provided by different lecturers on the module.

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  • February 22, 2021
  • 144
  • 2019/2020
  • Lecture notes
  • Dr rita jabr
  • All classes
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tricialai
1(a). MOTOR CONTROL
Created Dec 5, 2019 111 PM

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Updated Jan 21, 2020 1019 PM

What is...?

Motor control - the generation of signals to coordinate contraction of the
musculature of the body and the head, to maintain posture or make a
movement

Movement - the transition between two postures

Motor Neurons

There are two types of motor neurons:

alpha-motor neurons

large neurons (equal to or more than 70 micrometers in diameter)

stretches from the spinal cord to the extrafusal muscle fibers of skeletal
muscle

extrafusal muscle fibers are the skeletal standard muscle fibers that
are innervated by alpha motor neurons

generates tension by contracting the muscle

the number of fibers that the single neuron stimulates determines how
fine or gross our control is

in the bicep, only one neuron stimulates many muscle fibers due to
the lack in need for fine control (gross control)

in the hands, there are many neurons which stimulate the muscle
fibers due to the need for fine control

gamma-motor neurons

smaller neurons (about 35 micrometers in diameter)

stretches from the spinal cord to the intrafusal muscle fibers of skeletal
muscle




1(a). MOTOR CONTROL 1

, intrafusal muscle fibers are buried in the muscle (not the outer
layer) and serve as specialised sensory organs (proprioceptors)
that detect the amount and rate of change in length of muscle
(contraction)

gives the general tone of the muscle (if not, they'd be flabby)

it is in a continuous state of slight contraction which gives the
tone

controls the general tone of the muscle

not particularly involved with actual contraction

Neurotransmitters
There are two main neurotransmitters involved in motor control:

glutamate GLU

the primary excitatory neurotransmitter

released by a glutamatergic neuron (uses Glu as a neurotransmitter)

it causes the influx of positive ions

 when Glu is released and binds to an NMDA receptor, the sodium or
calcium ion channels are opened

NMDA is N-methyl-D-aspartic acid and is a receptor for Glu

 this causes the influx of sodium or calcium ions which are positive

 this increases the chance of causing an action potential to be
generated

gamma aminobutyric acid GABA

the primary inhibitory neurotransmitter

released by GABAergic neurons (uses GABA as a neurotransmitter)

it causes the influx of negative ions

 when GABA is releases and binds to a GABAA receptor, the
chlorine channels are opened

 this causes an influx of chloride ions which are negative

 this causes hyperpolarisation

where the resting membrane potential is lower than 70 mV


1(a). MOTOR CONTROL 2

,  this makes it more challenging to reach the threshold potential for
an action potential to be generated

essentially inactivates the neuron (but not really)

 this lowered membrane potential is resetted if an action potential is
generated

Due to several neurons competing with their own neurotransmitters at the
synapse, it becomes a competition of which neurotransmitter would win
Reflex Arc

The reflex arc is highlighted in the knee-jerk reaction, though there are many
other examples which won't be discussed

it is an autonomic response

this is the reaction when the hammer hits the patellar tendon

due to the sudden stretch caused by the hammer hitting the tendon, a
series of action potentials are generated

the afferent neuron sends the signals to the spinal cord from the
muscle

the action potentials split in the spinal cord and:

synapses to an alpha motor neuron

Glu binds to NMDA receptors and excites the cholinergic motor
neuron

this causes the extensor muscle to contract

synapses to an interneuron (which are almost always inhibitory)

Glu binds to NMDA receptors and excites the GABAergic
interneurons

this causes the hyperpolarisation of alpha motor neurons to the
flexor muscle

this ensures that the flexor muscle is relaxed

acetylcholine is prevented from being released at the
neuromuscular junction

The Brain and Movement




1(a). MOTOR CONTROL 3

, Stages of Movement

There are multiple stages involved with moving:

 Identifying the target

 Placing the target in a 3-dimensional space

 Calculating the trajectory of the intercepting limb

 Calculating the force needed to exert

The Lobes of the Brain

There are four main lobes of the brain, of which some are discussed in more
detail

frontal lobe

parietal lobe

temporal lobe

occipital lobe

However, there are two more lobes of interest:

insula lobe

limbic lobe (consists of parts of the frontal, parietal and temporal lobe)

Frontal Lobe
The frontal lobe is the part of the brain that controls important cognitive skills
in humans

it is composed of several cortices which are (but not limited to; this
concerns the motor function of the frontal lobe):

primary motor cortex M1

the primary eliciter of movement (initiates action)

it requires the least amount of electrical stimulation compared to
the other areas

it has a functional somatotopic motor map

it is the projection of the body surface onto a brain area that is
responsible for that specific area of body

premotor area PMA



1(a). MOTOR CONTROL 4

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