Autonomic nerve disorder

Autonomic nerve disorders (dysautonomia) refer to disorders of autonomic nervous system (ANS) function. Dysautonomia is a general term used to describe a breakdown or abnormal function of the ANS. The autonomic nervous system controls much of your involuntary functions. Symptoms are wide-ranging and can include problems with the regulation of heart rate, blood pressure, body temperature, perspiration, and bowel and bladder functions. Other symptoms include fatigue, lightheadedness, feeling faint or passing out (syncope), weakness, and cognitive impairment.

The autonomic nervous system works below the level of consciousness to maintain the body's equilibrium. It regulates blood pressure, pulse and breathing rates among many other variables. It assures the normal function of all of our internal organs. The autonomic nervous system also responds instantaneously to any type of stress. (stress should be understood as any physical or emotional stimuli that threatens the balance of our body). There are close connections between the autonomic nervous system and the endocrine system that regulates hormone secretion.

When you flip a light switch on in your house, you know what the end-result will be. The light switch connects a circuit that produces light when the electrons reach the filament. Your computer is similar. While you type a report or surf the Internet, the computer performs an abundance of unseen tasks in the background: checking for printer signals, moving data to the hard drive, and organizing its memory. It is easy to take these tasks for granted, because they operate behind the scenes; they don't seem relevant to the task at hand.

The human body functions much the same way. Every process in the body is controlled by signals sent from the brain, through the nerves, to each individual organ or muscle. Like the example of our computer, there is an abundance of tasks the body performs that can be easily taken for granted. These background tasks are referred to as the "autonomic nervous system". Heart rate, sleep, digestion, and vascular pressure are all normal bodily functions that don't receive a second thought. But, what if the body didn't perform these functions correctly?

There are a few illnesses that cause autonomic nervous system dysfunction. As if by design, the areas of the brain controlling the autonomic nervous system were made the most secure. Even in degenerative neurological diseases such as Alzheimer's or Parkinson's, autonomic functions like heart rate and digestion remain untouched until the late stages of the illness.

Autonomic Nervous System Dysfunction (ANS) and Chronic Fatigue Syndrome (CFS)

Symptoms of dysautonomia are numerous and vary widely from person to person. Since dysautonomia is a full-body condition, a large number of symptoms may be present that can greatly alter a person's quality of life. Each patient with dysautonomia is different--some are affected only mildly, while others are left completely bed-ridden and disabled.

The primary symptoms that present in patients with dysautonomia are:

• Excessive fatigue
  
• Excessive thirst (polydipsia)
  
• Lightheadedness, dizziness or vertigo
  
• Feelings of anxiety or panic, a sense of impending doom (not mentally induced⁾
  
• Rapid heart rate or slow heart rate
  
• Orthostatic hypotension, sometimes resulting in syncope (fainting)
  
• Symptoms
  

Other symptoms frequently associated with dysautonomia include: headaches, pallor, malaise, facial flushing, salt cravings, mydriasis (abnormal dilation of the pupils), constipation, diarrhea, nausea, acid reflux, visual disturbances, orthostatic hypotension, numbness, nerve pain, trouble breathing, chest pains, in some cases loss of consciousness and seizures. A full list of symptoms may be found at the Dysautonomia Information Network.^{http://dinet.org/}

^{There is another condition but is associated with spinal cord injurues.}

Autonomic dysreflexia (AD) is a syndrome of massive imbalanced reflex sympathetic discharge occurring in patients with spinal cord injury (SCI) above the splanchnic sympathetic outflow (T5-T6).

This condition is associated with a medical emergency, so recognizing and treating the earliest signs and symptoms efficiently can avoid dangerous sequelae of elevated blood pressure. SCI patients, caregivers, and medical professionals must be knowledgeable about this syndrome and its management. Medscape: Medscape Access

It is characterised by severe paroxysmal hypertension (episodic high blood pressure) associated with throbbing headaches, profuse sweating, nasal stuffiness, flushing of the skin above the level of the lesion, bradycardia, apprehension and anxiety, which is sometimes accompanied by cognitive impairment. The sympathetic discharge that occurs is usually in association with spinal cord injury (SCI) or disease (e.g. multiple sclerosis). AD is believed to be triggered by afferent stimuli (nerve signals that send messages back to the spinal cord and brain) which originate below the level of the spinal cord lesion. It is believed that these afferent stimuli trigger and maintain an increase in blood pressure via a sympathetically mediated vasoconstriction in muscle, skin and splanchnic (gut) vascular beds. Automatic Dysreflexia (Hyperreflexia)

I hope this helps....:loveya:

Treatment.....

I am, on here;)......Seriously, I was and I have only worked critical care/emergency medicine. I am sidelinde right now. I have an auto immune disorder, imflammatory myopathy myositis, that has me on the sidelines the last couploe of years . So, I haunt the pages here to keep me from going crazy and to keep up "The Craft":lol2: