Chest pain pathophysiology: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
| Line 8: | Line 8: | ||
==Pathophysiology== | ==Pathophysiology== | ||
*Chest pain is a warning of injury to a structure in the thoracic cavity.<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | *Chest pain is a warning of injury to a structure in the thoracic cavity.<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | ||
* Because of the anatomy of the thoracic cavity and the proximity of the structures, locating the exact problem through the characteristics of the pain | * Because of the anatomy of the thoracic cavity and the proximity of the structures, locating the exact problem through the characteristics of the pain is difficult. Any structure in the thoracic cavity may be the source of chest pain.<ref name="FallonRogues19972">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | ||
* The free nerve endings susceptible to multiple stimuli, are found in all the major structures in the thoracic cavity. The peripheral nerves conjugate toward the spinal nerves developing a plexus (cardiac plexus). These plexuses join and share common spinal nerves. Multiple structures share corresponding spinal nerves. An example of this overlapping use of spinal nerves is the heart, which is innervated by cervical nerve root 8 through thoracic nerve root 4 and the esophagus, innervated by thoracic nerve roots 1 through 4.<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | * The free nerve endings susceptible to multiple stimuli, are found in all the major structures in the thoracic cavity. The peripheral nerves conjugate toward the spinal nerves developing a plexus (cardiac plexus). These plexuses join and share common spinal nerves. Multiple structures share corresponding spinal nerves. An example of this overlapping use of spinal nerves is the heart, which is innervated by cervical nerve root 8 through thoracic nerve root 4 and the esophagus, innervated by thoracic nerve roots 1 through 4.<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | ||
*The [[cardiovascular system]], [[respiratory system]], part of the [[gastrointestinal system]], and the [[great vessels]] give off [[Afferent fibers|afferent visceral input]] via common [[Autonomic ganglia|thoracic autonomic ganglia]]. | *The [[cardiovascular system]], [[respiratory system]], part of the [[gastrointestinal system]], and the [[great vessels]] give off [[Afferent fibers|afferent visceral input]] via common [[Autonomic ganglia|thoracic autonomic ganglia]]. | ||
| Line 15: | Line 15: | ||
*Chest pain due to either [[endothelial]]-dependent or independent mechanisms. The endothelium regulates vascular tone and growth by releasing endothelial-derived relaxing factors such as nitric oxide and also by releasing endothelial-derived vasoconstrictive factors such as endothelin. Several observations in the past 2 decades have led to the hypothesis that the endothelium plays an important role in the pathophysiology of angina.<ref name="SuwaidiHigano2001">{{cite journal|last1=Suwaidi|first1=Jassim Al|last2=Higano|first2=Stuart T.|last3=Holmes|first3=David R.|last4=Lerman|first4=Amir|title=Pathophysiology, Diagnosis, and Current Management Strategies for Chest Pain in Patients With Normal Findings on Angiography|journal=Mayo Clinic Proceedings|volume=76|issue=8|year=2001|pages=813–822|issn=00256196|doi=10.4065/76.8.813}}</ref> | *Chest pain due to either [[endothelial]]-dependent or independent mechanisms. The endothelium regulates vascular tone and growth by releasing endothelial-derived relaxing factors such as nitric oxide and also by releasing endothelial-derived vasoconstrictive factors such as endothelin. Several observations in the past 2 decades have led to the hypothesis that the endothelium plays an important role in the pathophysiology of angina.<ref name="SuwaidiHigano2001">{{cite journal|last1=Suwaidi|first1=Jassim Al|last2=Higano|first2=Stuart T.|last3=Holmes|first3=David R.|last4=Lerman|first4=Amir|title=Pathophysiology, Diagnosis, and Current Management Strategies for Chest Pain in Patients With Normal Findings on Angiography|journal=Mayo Clinic Proceedings|volume=76|issue=8|year=2001|pages=813–822|issn=00256196|doi=10.4065/76.8.813}}</ref> | ||
*The pain could be visceral or somatic; visceral pain is a diffuse, poorly localized pain arising from organs and linings of body cavities, and it is referred to other sites. | *The pain could be visceral or somatic; visceral pain is a diffuse, poorly localized pain arising from organs and linings of body cavities, and it is referred to other sites. For instance, cholecystitis pain referred to the chest. Somatic pain from the [[skin]] and [[subcutaneous]] tissues are usually well localized and is characterized by constant, aching pain. | ||
*Chest pain could be due to | *Chest pain could be due to angina pectoris that is associated with transient episodes of [[myocardial ischemia]].<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | ||
*The [[ischemia]] is usually caused by the narrowing of the [[coronary arteries]] by [[atherosclerotic]] plaques. The chest pain is usually transient, lasting from 15 seconds to 15 minutes and is frequently associated with activity, exertion, or stress. It is relieved with rest or sublingual nitroglycerin.<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | *The [[ischemia]] is usually caused by the narrowing of the [[coronary arteries]] by [[atherosclerotic]] plaques. The chest pain is usually transient, lasting from 15 seconds to 15 minutes and is frequently associated with activity, exertion, or stress. It is relieved with rest or sublingual nitroglycerin.<ref name="FallonRogues1997">{{cite journal|last1=Fallon|first1=Ellen M.|last2=Rogues|first2=Jaime|title=Acute Chest Pain|journal=AACN Clinical Issues: Advanced Practice in Acute and Critical Care|volume=8|issue=3|year=1997|pages=383–397|issn=1079-0713|doi=10.1097/00044067-199708000-00008}}</ref> | ||
| Line 29: | Line 29: | ||
[[Category:Gastroenterology]] | [[Category:Gastroenterology]] | ||
[[Category:Mature chapter]] | [[Category:Mature chapter]] | ||
[[Category: | [[Category:Up-To-Date]] | ||
Latest revision as of 15:29, 15 February 2021
|
Chest pain Microchapters |
|
Diagnosis |
|---|
|
Treatment |
|
Case Studies |
|
Chest pain pathophysiology On the Web |
|
Risk calculators and risk factors for Chest pain pathophysiology |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Aisha Adigun, B.Sc., M.D.[2]Nuha Al-Howthi, MD[3]
Overview
The cardiovascular system, respiratory system, part of the gastrointestinal system, and the great vessels give off afferent visceral input via common thoracic autonomic ganglia. Painful stimuli in any of the aforementioned systems are usually sensed as originating from the chest. However, due to the fact that afferent nerve fibers overlap in the dorsal ganglia, pain in the thorax may be experienced at any point between the umbilicus and the ear, as well as in the upper limbs.
Pathophysiology
- Chest pain is a warning of injury to a structure in the thoracic cavity.[1]
- Because of the anatomy of the thoracic cavity and the proximity of the structures, locating the exact problem through the characteristics of the pain is difficult. Any structure in the thoracic cavity may be the source of chest pain.[2]
- The free nerve endings susceptible to multiple stimuli, are found in all the major structures in the thoracic cavity. The peripheral nerves conjugate toward the spinal nerves developing a plexus (cardiac plexus). These plexuses join and share common spinal nerves. Multiple structures share corresponding spinal nerves. An example of this overlapping use of spinal nerves is the heart, which is innervated by cervical nerve root 8 through thoracic nerve root 4 and the esophagus, innervated by thoracic nerve roots 1 through 4.[1]
- The cardiovascular system, respiratory system, part of the gastrointestinal system, and the great vessels give off afferent visceral input via common thoracic autonomic ganglia.
- Painful stimuli in any of the aforementioned systems are usually sensed as originating from the chest.
- However, due to the fact that afferent nerve fibers overlap in the dorsal ganglia, pain in the thorax may be experienced at any point between the umbilicus and the ear, as well as in the upper limbs.
- Chest pain due to either endothelial-dependent or independent mechanisms. The endothelium regulates vascular tone and growth by releasing endothelial-derived relaxing factors such as nitric oxide and also by releasing endothelial-derived vasoconstrictive factors such as endothelin. Several observations in the past 2 decades have led to the hypothesis that the endothelium plays an important role in the pathophysiology of angina.[3]
- The pain could be visceral or somatic; visceral pain is a diffuse, poorly localized pain arising from organs and linings of body cavities, and it is referred to other sites. For instance, cholecystitis pain referred to the chest. Somatic pain from the skin and subcutaneous tissues are usually well localized and is characterized by constant, aching pain.
- Chest pain could be due to angina pectoris that is associated with transient episodes of myocardial ischemia.[1]
- The ischemia is usually caused by the narrowing of the coronary arteries by atherosclerotic plaques. The chest pain is usually transient, lasting from 15 seconds to 15 minutes and is frequently associated with activity, exertion, or stress. It is relieved with rest or sublingual nitroglycerin.[1]
- Unstable angina is triggered by severe transient myocardial ischemia that occurs because changes to an atherosclerotic plaque in the coronary artery that causes platelet aggregation and vasospasm, decreasing myocardial blood supply. There is evidence that suggests unstable angina precedes myocardial infarction.[1]
References
- ↑ 1.0 1.1 1.2 1.3 1.4 Fallon, Ellen M.; Rogues, Jaime (1997). "Acute Chest Pain". AACN Clinical Issues: Advanced Practice in Acute and Critical Care. 8 (3): 383–397. doi:10.1097/00044067-199708000-00008. ISSN 1079-0713.
- ↑ Fallon, Ellen M.; Rogues, Jaime (1997). "Acute Chest Pain". AACN Clinical Issues: Advanced Practice in Acute and Critical Care. 8 (3): 383–397. doi:10.1097/00044067-199708000-00008. ISSN 1079-0713.
- ↑ Suwaidi, Jassim Al; Higano, Stuart T.; Holmes, David R.; Lerman, Amir (2001). "Pathophysiology, Diagnosis, and Current Management Strategies for Chest Pain in Patients With Normal Findings on Angiography". Mayo Clinic Proceedings. 76 (8): 813–822. doi:10.4065/76.8.813. ISSN 0025-6196.