NEUROFISIOLOGIA DA DOR | FISIOLOGIA DA DOR | MK Fisiologia

MK Fisiologia

8 Mar 202215:37

Summary

TLDRThis video script from the MK channel, hosted by Miriam Kuraiuchi, delves into the complex nature of pain, a sensation that is unpleasant yet crucial for our body's survival. It explains pain as an unpleasant sensory and emotional experience associated with actual or potential tissue damage. The video distinguishes between nociception, the detection and encoding of harmful stimuli, and pain perception. It describes various types of nociceptors, including mechanical, thermal, polymodal, and silent receptors, and how they respond to different stimuli. The script also explains the transmission of pain signals through A-delta and C-fibers, leading to acute and chronic pain experiences. It touches on hyperalgesia and allodynia, increased pain sensitivity following injury, due to the release of chemical mediators. The video promises to explore more types of pain in the next episode, aiming to educate viewers on the importance and mechanisms of pain in the human body.

Takeaways

📚 Pain is defined by the International Association for the Study of Pain as an unpleasant sensory and emotional experience associated with actual or potential tissue damage.
🔍 The distinction between nociception and pain is crucial: nociception is the detection and coding of harmful stimuli, while pain is the perception of the unpleasant sensation caused by the noxious stimulus.
👨‍🔬 Nociceptors are specialized sensory receptors that detect harmful stimuli and can be mechanical, thermal, polymodal, or silent (silent receptors become sensitive after sensitization by chemicals like inflammation mediators).
🌡️ The sensitivity of nociceptors to different types of harmful stimuli is determined by proteins present in the free nerve endings, like mechanical and thermal channels.
💪 High-threshold receptors require more intense stimuli to trigger action potentials, which differentiates a gentle touch from a painful pressure.
🚀 The conduction of nociceptive information begins at the trigger zone of the primary sensory neuron and travels through the central nervous system to generate the perception of pain.
🧬 There are two types of nerve fibers that conduct nociceptive information: A-delta fibers (myelinated, fast-conducting) and C fibers (unmyelinated, slow-conducting).
🔥 A-delta fibers are typically associated with mechanical nociceptors and transmit 'fast' or 'sharp' pain, while C fibers are linked to thermal, polymodal, or silent nociceptors and transmit 'slow' or 'burning' pain.
🌀 The 'slow' pain pathway, involving C fibers, is less precise due to the convergence of information, leading to a sensation of spreading and radiating pain.
🩹 Hyperalgesia and allodynia occur after tissue damage due to the release of chemical mediators, which increase the sensitivity of nociceptors, causing more intense pain from normally non-noxious stimuli.
🌐 Chronic pain can result from tissue damage and is characterized by persistent, diffuse pain that is difficult to localize, often transmitted by C fibers responsible for 'slow' pain.

Q & A

What is pain according to the International Association for the Study of Pain?
-Pain is defined as an unpleasant sensory and emotional experience associated with actual or potential tissue damage.
Why is pain important for our body?
-Pain is important as it serves as a protective mechanism, alerting the body to potential or actual harm and prompting a response to avoid further damage.
What is the difference between nociception and pain?
-Nociception refers to the detection and encoding of harmful stimuli, which occurs at the sensory receptors. Pain, on the other hand, is the perception of the unpleasant sensation caused by the noxious stimulus.
What are the different types of sensory receptors that detect harmful stimuli?
-There are several types of receptors: mechanoreceptors for mechanical stimuli, thermoreceptors for temperature stimuli, polymodal receptors sensitive to both mechanical and thermal stimuli, and silent or dormant receptors that become sensitive after sensitization by chemicals.
How do the proteins present in the nerve endings determine the sensitivity of receptors to different types of noxious stimuli?
-The presence of specific proteins, such as mechanoreceptor channels that open with pressure or thermoreceptor channels that open with changes in temperature, determines the sensitivity of the receptors to various types of stimuli.
What is meant by high-threshold receptors and why are they significant?
-High-threshold receptors require more intense or stronger stimuli to fire action potentials. This means that they are activated only by strong mechanical or thermal stimuli, which is important for detecting potentially harmful situations.
How does the intensity of the stimulus affect the activation of pain receptors?
-A gentle stimulus may not activate pain receptors, but increasing the intensity of the stimulus, such as applying more pressure, can lead to the opening of more channels and the generation of a larger receptor potential, which can trigger action potentials and result in the perception of pain.
What are the two types of nerve fibers that conduct information from primary sensory neurons to the central nervous system?
-The two types of nerve fibers are A-delta fibers, which are myelinated and conduct action potentials quickly, and C fibers, which are unmyelinated and conduct action potentials more slowly.
How does the conduction speed of A-delta and C fibers relate to the perception of fast and slow pain?
-A-delta fibers conduct information quickly, leading to the perception of fast pain, which is sharp and well-localized. C fibers conduct information more slowly, resulting in slow pain, which is more diffuse and less well-localized.
What is the difference between acute pain and chronic pain as described in the script?
-Acute pain is of limited duration and typically associated with A-delta fibers, like the quick pain felt when pinching the skin. Chronic pain is more persistent and often associated with C fibers, causing a less intense but longer-lasting pain that can lead to hyperalgesia and allodynia.
What are hyperalgesia and allodynia, and how do they occur after an injury?
-Hyperalgesia is an increased sensitivity to pain caused by noxious stimuli, and allodynia is pain caused by stimuli that are not normally painful. These phenomena occur after an injury due to the release of various chemical mediators that sensitize the nerve endings, making them more reactive to stimuli.