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Somatosensory pathways

Somatosensory pathways


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High Yield Notes
19 pages

Somatosensory pathways

13 flashcards

USMLE® Step 1 style questions USMLE

1 questions

A pathologist views cross-sectional slides of the spinal cord and identifies the following structure (denoted by an asterisk):  

Image reproduced from ">Wikimedia Commons  
Which of the following best characterizes the function of this structure?  

External References

Content Reviewers:

Rishi Desai, MD, MPH

Broadly speaking, the nervous system can be split into an afferent or sensory division and an efferent or motor division.

The afferent division brings sensory information from the outside world into the brain.

Sensory information may involve special senses - so vision, hearing, taste, and smell - as well as general somatic senses, so the somatosensory system, which is involved in the sense of touch, proprioception, pain, and temperature. These sensations are transduced by sensory receptors, which are present in the cell membrane of highly specialized cells found all over the body.

According to the stimulus they respond to, sensory receptors are classified as mechanoreceptors for touch and proprioception, nociceptors for pain, and thermoreceptors for temperature.

Now, neurons are the main cells of the nervous system. They’re composed of a cell body, which contains all the cell’s organelles, and nerve fibers, which are projections that extend out from the neuron cell body. These are either dendrites that receive signals from other neurons, or axons that send signals along to other neurons.

Where two neurons come together is called a synapse, and that’s where one end of an axon sends neurotransmitters to the dendrites or directly to the cell body of the next neuron in the series.

To trigger the release of neurotransmitters, neurons use an electrical signal that races down the axon, known as the action potential.

To help speed up that electrical signal, some axons are intermittently wrapped by a fatty protective sheath called myelin, which comes from glial cells like oligodendrocytes in the central nervous system, and Schwann cells in the peripheral nervous system.

Since the axons in the somatosensory system can be very long, the fact that myelin helps speed up action potentials is super important! But myelin requires energy to generate and takes up space, so not all fibers are myelinated.

Somatosensory fibers are classified as non myelinated fibers, small myelinated fibers, and large myelinated fibers.

Non myelinated or type C fibers are the slowest, and they sense burning pain and hot temperatures.

Small myelinated or type A delta fibers are faster than C fibers, because they’re myelinated, and they sense sharp pain, gross touch, and cold temperatures.

Finally, large myelinated or A alpha and A beta fibers are the fastest fibers, and they sense proprioception, vibration, and fine touch.

Through these fibers, somatosensory information travels up the spinal cord to the brain, forming the somatosensory pathways.

If you take a cross-section of the spinal cord, there’s grey matter on the inside and that contains the nerve cell bodies arranged in three grey columns or horns that look a bit like a butterfly, when you put both sides together. The three pairs of grey horns are divided into anterior or ventral horns, posterior or dorsal horns, and lateral horns.

The anterior or ventral horns receive information from the motor cortex of the brain, and then send it to the skeletal muscles to trigger voluntary movement.

The neurons in the posterior or dorsal horns take sensory information from the outside world and process it.

Finally the lateral horns are mainly involved with the sympathetic division of the autonomic motor system.

Surrounding the grey matter is white matter, which consists of the myelinated axons that form paired funiculi, which are bundles of nerve fibers that make up the neural tracts or pathways that carry information to and from the brain.

The somatosensory system consists of the two main paired pathways that take somatosensory information up to the brain: the medial lemniscal or posterior pathway, and the spinothalamic or anterolateral pathway.

The somatosensory pathways are made up of a relay of four neurons. The first neuron is called the first order neuron or sensory neuron, which has the sensory receptors and converts stimuli from the outside world into an impulse that can be passed through a synapse to the next neuron in series.

Next is the second order neuron, and it may have its cell body in the spinal cord or up in the brainstem.


The somatosensory pathways are a complex network of nerves that transmit sensory information. Sensory information may involve special senses such as vision, hearing, taste, and smell, as well as general somatic senses like the sense of touch, proprioception, pain, and temperature. These sensations are transduced by sensory receptors, which are present in the cell membrane of highly specialized cells found all over the body.

After transduction, next is the transmission through a series of neurons and synapses to the central nervous system. The pathways consist of three main pathways: the dorsal column-medial lemniscus pathway, which conveys information about fine touch, vibration, and proprioception; the spinothalamic pathway which conveys information about pain and temperature, and the trigeminal pathway which conveys information about sensations from the face, including touch, pressure, and pain.

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  2. "Physiology" Elsevier (2017)
  3. "Human Anatomy & Physiology" Pearson (2018)
  4. "Principles of Anatomy and Physiology" Wiley (2014)
  5. "The Proprioceptive Senses: Their Roles in Signaling Body Shape, Body Position and Movement, and Muscle Force" Physiological Reviews (2012)
  6. "Areas 3a, 3b, and 1 of Human Primary Somatosensory Cortex" NeuroImage (1999)