Sympathetic denervations (/ˌsɪmpəˈθɛtɪk ˌdɛnərˈveɪʃənz/) is a medical term that refers to the interruption of sympathetic nerve fibers leading to the loss of sympathetic function in a specific organ or body part. The spelling of this word can be explained by breaking down its phonetic transcription. The first syllable, "sym," is pronounced as /sɪm/; the second syllable, "pa," is pronounced as /ˈpæ/; the third syllable, "thet," is pronounced as /ˈθɛt/; and so on, leading to the complete pronunciation /ˌsɪmpəˈθɛtɪk ˌdɛnərˈveɪʃənz/.
Sympathetic denervation refers to the loss or disruption of nerve supply from the sympathetic nervous system to a particular structure or organ in the body. The sympathetic nervous system is one of the two main divisions of the autonomic nervous system and is responsible for regulating various physiological responses in order to maintain homeostasis. It controls involuntary functions such as heart rate, blood pressure, and the dilation or constriction of blood vessels.
When sympathetic denervation occurs, there is a disruption in the transmission of impulses from sympathetic nerves to their target tissues. This can be caused by injury, disease, or surgical intervention, and can have various effects depending on the specific structure or organ affected.
One common example of sympathetic denervation is in neuropathic pain, where damage to sympathetic nerves can result in abnormal pain sensations. Conditions such as complex regional pain syndrome or reflex sympathetic dystrophy syndrome often involve sympathetic denervation.
Treatment for sympathetic denervation may involve medications that target the sympathetic nervous system, physical therapy, or, in some cases, surgical intervention to restore sympathetic nerve function. Additionally, techniques such as sympathetic nerve blocks or sympathectomy may be used to alleviate symptoms associated with sympathetic denervation.
Overall, sympathetic denervation refers to the disruption or loss of sympathetic nerve supply to a specific structure or organ, which can have significant implications for the normal functioning of the autonomic nervous system.