Welcome to Dr. Kate Brilakis' Learning Portal

sarcomere =
​functional unit of the muscle cell

A sarcomere is the functional unit of a muscle fiber responsible for the contraction of muscles.
Each sarcomere is composed of thick and thin filaments anchored by two z-discs.
Sacrcomeres are lined up end to end parallel ​to the length of a muscle fiber.

neuromuscular
junction

Muscle tissue exhibits:

1. contractibility (muscles can                                            contract/shorten when stimulated)
2.  extensibility (muscles can be stretched                      without tearing)
​3.  elasticity (muscles return to their                                resting/normal shape)

Skeletal muscles are formed when many myoblasts (muscle stem cells) fuse forming one ginormous cells with many nuclei. Some of these cells (we call muscle cells muscle "fibers") are almost a foot long!  The many nuclei per cell permit the transcription/translation of all of the proteins needed by the fiber. 

wave summation
(aka temporal or frequency summation)
a stimulus is applied to a muscle before the relaxation period from the previous contraction is complete.
This produces a stronger contraction.

What is a twitch?
One stimulation/action potential from one motor neuron causes the fibers of its motor unit to contract. Each single contraction is called a twitch, lasting just a few to 100 milliseconds.
Each twitch can be measured by the amount of tension (force of contraction) produced.


three types of muscle fiber
slow oxidative = SO
 fast oxidative = FO
  fast glycolytic = FG 

Rigor mortis 

1. Isotonic contraction:
    the tension in the muscle stays constant as the
    load moves and the muscle changes length.
   a. concentric contractions occur when
       the muscle shortens.
   b. eccentric contractions occur when the
       muscle lenthens. tension diminishes and the muscle lengthens. 
2. Isometric contraction:
     the muscle produces tension without moving a           load even though the muscle shortens.
     the force produced does not overcome the                    resistance provided by the load. isometric                    contractions maintaining posture and joint                  stability.
   most actions are a combination of isotonic and                            isometric contractions.

smooth muscle

quick review of muscle contaction...

muscle tone

evolution of muscles

 Muscle strength is proportional to the # of myofibrils and sarcomeres in a muscle fiber not the number of muscle fibers. 

​                                                There are three phases to a  twitch:
   1. latent period: an action potential travelling down the sarcolemma causes the sarcoplasmic reticulum to release calcium. 
   2. contraction phase: calcium binds to troponin moving the tropomyosin and exposing the binding sites for the myosin heads. myosin cross-bridges form and the sarcomere shortens as the point of peak tension occurs.
   3. relaxation phase: calcium is pumped back into the SR. the contraction stops/tension decreases. the fiber returns to its resting state. uick review of muscle contaction...

Tetanus is an infection caused by the Clostridium tetani bacterium.
The toxin produced by this anaerobic pathogen results in prolonged muscle contractions. Sometimes called “lockjaw”, tetanus can cause  neck and jaw muscles to lock. 

muscle fibers are innervated by only one motor neuron. a group of muscle fibers innervated by a single motor neuron is called a 
motor unit.
all of the motor units in a muscle is called a
motor pool.
the size of a motor unit is depends on the nature of the muscle.
1. small motor units have a single motor neuron supplying a small number of muscle fibers
with the axon branching into several synaptic end bulbs. this permits very fine motor control such as the muscles that move eyeballs and the finger control.
2. large motor units have a single motor neuron supplying a large number of muscle fibers.
 with the axon branching into thousands of synaptic end bulbs. this permits gross motor control such as the muscles that flex the arm or leg.

small motor units in a muscle exhibit smaller, lower-threshold motor neurons which generate a relatively small degree of tension. if more strength is required, larger motor units with bigger, higher-threshold motor neurons activate larger muscle fibers. this increase in muscle tension is called recruitment. some large motor units generate tension 50X that of the smallest motor units in the muscle. think lifting a feather with the same muscles that can lift 10 lb weights.

pathology

treppe

fibromylagia

skeletal...but also cardiac and smooth muscle

muscle size

 motor units

Type your paragraph here.

neuromuscular diseases

ex: multiple sclerosis

the sliding filament theory of muscle contraction

560 million years ago an animal roamed the earth that exhibited the oldest evidence of muscle tissue with fibrous muscles similar to a few modern cnidarians. 
Mesenchymal tissue is made of embryonic connective stem cells that differentiate into most body tissues. The interactions between mesenchyme and epithelium make nearly every organ in an embryo.
Mesenchymal tissue served as the foundation of muscle evolution. 

The Muscular System

Functions of the Muscular System

muscular dystrophies
are a group of 30+ genetic diseases which manifest as  progressive weakness and degeneration of the skeletal muscles that control movement. Duchenne MD is the most common form of MD and primarily affects boys since the allele is found on the X chromosome. A mutatged allele prevengts the production of 
dystrophin which is a protein that maintains the integrity of muscle. 

Muscle Types

*cardiac muscle propels blood around the body

*smooth muscle propels food along the alimentary canal and form sphincters to regulate
               entrance/exit of the digestive system

*heat is produced when skeletal muscles contract...almost 70% of  body heat is produced by                               muscles. blood is an essential element in temperature control during exercise, taking heat                   from the body core and working muscles and redirecting it to the skin when the body is                         overheating. When the body's internal temperature is too low, thermoreceptors tell the
               hypothalamus which then stimulates the skeletal muscles to rhythmically contract/relax to                 produce heat = shivering.

*the partnering of skeletal muscles and bones via tendons permits movement

*maintaining posture requires constant tension on many muscle groups.

​*muscles also provide protection for our internal organs and muscle proteins can provide nutrition                 in times of starvation

cardiac muscle

structure of a sarcomere

types of muscle fibers

structure of a skeletal muscle