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Physical manoeuvres that reduce postural hypotension in autonomic failure: Difference between revisions
Physical manoeuvres that reduce postural hypotension in autonomic failure (view source)
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We describe a young female patient who was healthy until she presented with severe disabling orthostatic hypotension shortly after lymph node cancer, Hodgkin’s disease was diagnosed at an age of 22 years | We describe a young female patient who was healthy until she presented with severe disabling orthostatic hypotension shortly after lymph node cancer, Hodgkin’s disease was diagnosed at an age of 22 years<cite>Wieling</cite>. She even fainted when attempting to sit upright and was only able to move around sitting in a wheelchair with her knees drawn up. She also had a dry mouth, couldn’t perspire and found it hard to read. In addition, she had constipation with bouts of diarrhea and couldn’t pass urine easily. | ||
Acute pandysautonomia, a generalized disorder of the autonomic nervous system, was diagnosed with the features of a hypoadrenergic orthostatic hypotension syndrome. In the cardio-vascular system she had an isolated sympathetic postganglionic lesion but, despite other features of parasympathetic impairment, had intact parasympathetic control of heart rate | Acute pandysautonomia, a generalized disorder of the autonomic nervous system, was diagnosed with the features of a hypoadrenergic orthostatic hypotension syndrome. In the cardio-vascular system she had an isolated sympathetic postganglionic lesion but, despite other features of parasympathetic impairment, had intact parasympathetic control of heart rate<cite>VanLieshout</cite><cite>VanLieshout2</cite>. | ||
[[File:PhysicalManoeuvresAutonomic_Fig1.jpg | thumb | left | 300px | Figure 1. Immediate reduction of orthostatic hypotension and relief of accompanying symptoms by squatting. On the verge of syncope (after about 115 s in the upright position) the patient squatted.]] | [[File:PhysicalManoeuvresAutonomic_Fig1.jpg | thumb | left | 300px | Figure 1. Immediate reduction of orthostatic hypotension and relief of accompanying symptoms by squatting. On the verge of syncope (after about 115 s in the upright position) the patient squatted.]] | ||
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By applying these techniques she was able to walk short distances at home. When shopping and needing an item out of reach she arose from her wheelchair, lifted her arms quickly to pick up the item from the shelves and squatted immediately thereafter, thereby preventing syncope. Climbing stairs was impossible and she reached her apartment on the first floor by hopping backwards up the stairs. Interestingly, she observed that in a swimming pool, if the water was on the level of her belly button, she could walk unlimited. This beneficial effect can be attributed to the hydrostatic counter-pressure effect of water. | By applying these techniques she was able to walk short distances at home. When shopping and needing an item out of reach she arose from her wheelchair, lifted her arms quickly to pick up the item from the shelves and squatted immediately thereafter, thereby preventing syncope. Climbing stairs was impossible and she reached her apartment on the first floor by hopping backwards up the stairs. Interestingly, she observed that in a swimming pool, if the water was on the level of her belly button, she could walk unlimited. This beneficial effect can be attributed to the hydrostatic counter-pressure effect of water. | ||
One year after the onset of symptoms of orthostatic hypotension she was admitted to further improve therapy. The hypoadrenergic orthostatic hypotension syndrome was still present. She was able to stand still in upright position for about 1 minute only. However, her orthostatic tolerance improved distinctly upon chronic expansion of plasma volume. She was discharged, walking upright, with a regimen of fludrocortisone (300 mcg), sodium chloride (around 12 g). She had learned to sleep with the bed in a 12° head-up tilted position (about 12 inches elevation). This has been described in detail | One year after the onset of symptoms of orthostatic hypotension she was admitted to further improve therapy. The hypoadrenergic orthostatic hypotension syndrome was still present. She was able to stand still in upright position for about 1 minute only. However, her orthostatic tolerance improved distinctly upon chronic expansion of plasma volume. She was discharged, walking upright, with a regimen of fludrocortisone (300 mcg), sodium chloride (around 12 g). She had learned to sleep with the bed in a 12° head-up tilted position (about 12 inches elevation). This has been described in detail<cite>VanLieshout3</cite>. | ||
After discharge she reported that she felt reasonably well and was not seriously restrained in daily life duties. At that time she started a laborious part-time job as a social worker in an institution for battered women. She regularly went for bicycle rides, initially with her friend as the rear rider on a tandem covering distances of up to 60 km a day, but in due course on her own as well. This faced her with a new problem: light-headedness during and immediately following cycling. She prevented fainting by short intermittent resting periods with her knees pulled-up on the frame. A further difficulty was to stop at red traffic-lights as stopping cycling almost instantaneously caused dizziness; she discovered that by bending over de handle bar of her bicycle prevented fainting. On investigation of her ‘bicycle manoeuvres’ in the laboratory (Fig. 2, positions 1 to 4), her blood pressure fell progressively when she was sitting motionless on the bicycle. By pulling up her legs blood pressure increased; bending over the handle bar resulted in an additional increase in pulse pressure. On returning her feet from the frame to the pedals blood pressure again dropped. | After discharge she reported that she felt reasonably well and was not seriously restrained in daily life duties. At that time she started a laborious part-time job as a social worker in an institution for battered women. She regularly went for bicycle rides, initially with her friend as the rear rider on a tandem covering distances of up to 60 km a day, but in due course on her own as well. This faced her with a new problem: light-headedness during and immediately following cycling. She prevented fainting by short intermittent resting periods with her knees pulled-up on the frame. A further difficulty was to stop at red traffic-lights as stopping cycling almost instantaneously caused dizziness; she discovered that by bending over de handle bar of her bicycle prevented fainting. On investigation of her ‘bicycle manoeuvres’ in the laboratory (Fig. 2, positions 1 to 4), her blood pressure fell progressively when she was sitting motionless on the bicycle. By pulling up her legs blood pressure increased; bending over the handle bar resulted in an additional increase in pulse pressure. On returning her feet from the frame to the pedals blood pressure again dropped. | ||