Weibliche sexuelle Funktionsstörungen: Klassifikation, Diagnostik und Therapie

Sexual dysfunction is defined as "disturbances in sexual desire and in the psychophysiological changes that characterize the sexual response cycle and cause marked distress and interpersonal difficulty". The female sexual response cycle consists of three phases: desire, arousal, and orgasm. Various organs of the external and internal genitalia, e.g. vagina, clitoris, labia minora, vestibular bulbs, pelvic floor muscles and uterus, contribute to female sexual function. During sexual arousal, genital blood flow and sensation are increased. The vaginal canal is moistened (lubrication). During orgasm, there is rhythmical contraction of the uterus and pelvic floor muscles. Within the central nervous system, hypothalamic, limbic-hippocampal structures play a central role for sexual arousal. Sexual arousal largely depends on the sympathetic nervous system. Moreover, nonadrenergic/noncholinergic neurotransmitters (NANC), e.g. vasoactive intestinal polypeptide (VIP) and nitric oxide (NO), are involved in smooth muscle relaxation and enhancement of genital blood flow. Furthermore, various hormones may influence female sexual function. Estrogen has a significant role in maintaining vaginal mucosal epithelium as well as sensory thresholds and genital blood flow. Androgens primarily affect sexual desire, arousal, orgasm and the overall sense of well-being. The internationally accepted classification of female sexual dysfunction consists of hypoactive sexual desire disorders, sexual aversion disorders, sexual arousal disorders, orgasmic disorders and sexual pain disorders. Vascular insufficiency, e.g. due to atherosclerosis, and neurologic diseases, e.g. diabetic neuropathy, are major causes of sexual dysfunction. Additionally, sexual dysfunction may be due to changes in hormonal levels, medications with sexual side effects or of psychological origin. For the diagnosis of female sexual dysfunction, a detailed history should be taken initially, followed by a physical examination and laboratory studies. Physiologic monitoring of parameters of arousal potentially allows to diagnose organic diseases. Recordings at baseline and following sexual stimulation are recommended to determine pathologic changes that occur with arousal. Duplex Doppler sonography, photoplethysmography or the measurement of vaginal and minor labial oxygen tension may help to evaluate genital blood flow. Moreover, measurements of vaginal pH and compliance should be performed. Neurophysiological examination, e.g. measurement of the bulbocavernosus reflex and pudendal evoked potentials, genital sympathetic skin response (SSR), warm, cold and vibratory perception thresholds as well as testing of the pressure and touch sensitivity of the external genitalia, should be performed to evaluate neurogenic etiologies. Medical management of female sexual dysfunction so far is primarily based on hormone replacement therapy. Application of estrogen results in decreased pain and burning during intercourse. The efficacy of various other medications, e.g. sildenafil, L-arginine, yohimbine, phentolamine, apomorphine and prostaglandin E1, in the treatment of female sexual dysfunction is still under investigation.

Outcome of epilepsy surgery correlates with sympathetic modulation and neuroimaging of the heart

Temporal lobe epilepsy (TLE) is frequently associated with sympathetic over-activity. Single photon emission computed tomography (SPECT) with 123iodine-meta-iodobenzylguanidine (MIBG), a norepinephrine analogue, showed reduced tracer uptake in cardiac sympathetic nerve endings, indicating myocardial catecholamine disturbance. We investigated whether outcome of epilepsy surgery correlates with cardiac autonomic function in TLE patients. We studied 16 TLE patients before and after epilepsy surgery. We recorded heart rate (HR) and determined sympathetic and parasympathetic cardiac modulation as powers of low (LF, 0.04-0.15 Hz) and high frequency (HF, 0.15-0.5 Hz) heart rate oscillations. The LF/HF-ratio was calculated as index of sympathovagal balance. Cardiac MIBG uptake was assessed with MIBG-SPECT and compared to control data. After surgery, eight patients were seizure-free and eight had persistent seizures. Sympathetic LF-power and LF/HF-ratio were higher in patients who had persistent seizures than in patients who became seizure-free. After surgery, both parameters decreased in seizure-free patients but increased in patients with persistent seizures. MIBG uptake was lower in patients than controls and even lower in the patient subgroup who had persistent seizures. In this subgroup, MIBG uptake further decreased after surgery (P<0.05). Sympathetic cardiac modulation decreased in TLE patients after successful surgery, but further increased if seizures persisted. Reduction of cardiac MIBG uptake progressed after surgery in patients with persistent seizures. Interference of epileptogenic discharges with autonomic neuronal transmission might account for sympathetic cardiac over-stimulation and reduced MIBG uptake. Both findings are possible risk factors for sudden unexplained death and might be relevant for risk stratification in epilepsy patients.

Sudomotor function in familial dysautonomia

BACKGROUND

Patients with familial dysautonomia (FD) manifest episodic hyperhidrosis despite the reduction of sudomotor fibres and sweat glands associated with this autonomic neuropathy. We assessed peripheral sudomotor nerve fibre and sweat gland function to determine if this symptom was due to peripheral denervation hypersensitivity.

METHODS

In 14 FD patients and 11 healthy controls, direct and axon reflex mediated sweat responses were determined by measuring transepidermal water loss (TEWL) after application of acetylcholine via a microdialysis membrane, a novel method to evaluate sudomotor function in neuropathy patients. Results were compared with data from conventional quantitative sudomotor axon reflex testing (QSART). Using microdialysis, interstitial fluid was analysed for plasma proteins to evaluate protein extravasation induced by acetylcholine as an additional parameter of C-fibre function.

RESULTS

Although reduced axon reflex sweating was expected in FD patients, neither direct or axon reflex mediated sweat responses, nor acetylcholine induced protein extravasation differed between control and patient groups. However, the baseline resting sweat rate was higher in FD patients than controls (p<0.05). TEWL and QSART test results correlated (r = 0.64, p = 0.01), proving the reliability of TEWL methodology in evaluating sudomotor function.

CONCLUSION

The finding of normal direct and axon reflex mediated sweat output in FD patients supports our hypothesis that, in a disorder with severe sympathetic nerve fibre reduction, sudomotor fibres, but not the sweat gland itself, exhibit chemical hypersensitivity. This might explain excessive episodic hyperhidrosis in situations with increased central sympathetic outflow.

Delayed cerebrovascular autoregulatory response to ergometer exercise in normotensive elderly humans

BACKGROUND

Relatively little is known about physiological cerebrovascular haemodynamics during physical stress in elderly healthy individuals. The aim of this study was to determine the effect of ergometer stress on cerebrovascular haemodynamics in elderly healthy individuals in comparison with young healthy individuals, using non-invasive methods.

METHODS

Continuous middle cerebral artery blood flow velocity (CBFV; transcranial Doppler ultrasound), beat-to-beat blood pressure, heart rate and transcutaneous pCO(2) were measured in response to 3 min ergometer exercise stress in 18 elderly healthy subjects (mean age +/- SD 66.5 +/- 5.8 years) and 18 healthy young subjects (mean age +/- SD 29.4 +/- 4.7 years). Pulsatility index (PI) was used as a parameter for cerebrovascular resistance. The subjects were in a supine position with an elevated trunk and performed exercise by pedalling on an ergometer, generating 75-100 W. Statistical analysis was carried out using MANOVA, a general linear model with repeated measures.

RESULTS

In both groups, blood pressure increased significantly (p < 0.001) with time during exercise, with no significant differences between the groups or regarding interaction (time sequence/group factor). Heart rate increased significantly with time during exercise (p < 0.001) and was significantly more prominent (p = 0.002) and prolonged (p < 0.001) in the young group. pCO(2) did not differ with time or between the groups and with regard to interaction. Mean CBFV (MFV) increased significantly during time (p < 0.001). Between the groups, there was no significant difference (p = 0.836), but with regard to interaction (time sequence/group factor), there was a significant delay in MFV increase in the group of young subjects (p = 0.002). The PI, a measure of cerebrovascular resistance, increased significantly with time without significant differences between the groups (p = 0.061), but was significantly delayed in the elderly regarding the interaction time sequence/group factor (p < 0.001).

CONCLUSION

The cerebrovascular changes during ergometer exercise may reflect the combined activation of the cerebrovascular autoregulative mechanisms (predominantly neurogenic and myogenic). In healthy normotensive elderly subjects, cerebral autoregulatory capacity is retained but delayed in response to ergometer stress compared with young healthy subjects. We speculate that these findings may contribute to a higher risk of cerebral hypoperfusion in the elderly.

Cerebral autoregulation is compromised during simulated fluctuations in gravitational stress

Gravity places considerable stress on the cardiovascular system but cerebral autoregulation usually protects the cerebral blood vessels from fluctuations in blood pressure. However, in conditions such as those encountered on board a high-performance aircraft, the gravitational stress is constantly changing and might compromise cerebral autoregulation. In this study we assessed the effect of oscillating orthostatic stress on cerebral autoregulation. Sixteen (eight male) healthy subjects [aged 27 (1) years] were exposed to steady-state lower body negative pressure (LBNP) at -15 and -40 mmHg and then to oscillating LBNP at the same pressures. The oscillatory LBNP was applied at 0.1 and 0.2 Hz. We made continuous recordings of RR-interval, blood pressure, cerebral blood flow velocity (CBFV), respiratory frequency and end-tidal CO(2). Oscillations in mean arterial pressure (MAP) and CBFV were assessed by autoregressive spectral analysis. Respiration was paced at 0.25 Hz to avoid interference from breathing. Steady-state LBNP at -40 mmHg significantly increased low-frequency (LF, 0.03-0.14 Hz) powers of MAP ( P<0.01) but not of CBFV. Oscillatory 0.1 Hz LBNP (0 to -40 mmHg) significantly increased the LF power of MAP to a similar level as steady-state LBNP but also resulted in a significant increase in the LF power of CBFV ( P<0.01). Oscillatory LBNP at 0.2 Hz induced oscillations in MAP and CBFV at 0.2 Hz. Cross-spectral analysis showed that the transfer of LBNP-induced oscillations in MAP onto the CBFV was significantly greater at 0.2 Hz than at 0.1 Hz ( P<0.01). These results show that the ability of the cerebral vessels to modulate fluctuations in blood pressure is compromised during oscillatory compared with constant gravitational stress. Furthermore, this effect seems to be more pronounced at higher frequencies of oscillatory stress.

Clonidine improves postprandial baroreflex control in familial dysautonomia

BACKGROUND

Patients with familial dysautonomia (FD) frequently experience hypertensive crises after gastrostomy feeding. The central alpha2-agonist clonidine attenuates feeding-induced crises. The aim of this study was to assess the effect of clonidine on cardiovascular autonomic modulation and particularly baroreflex sensitivity in familial dysautonomia after gastrostomy feeding.

MATERIAL AND METHODS

In nine patients, we monitored the RR-interval and systolic blood pressure at supine rest before (baseline 1) and after gastrostomy feeding (GF1). One day later, recordings were repeated after clonidine intake (baseline 2, GF2). We determined spectral powers of RR-interval and systolic blood pressure in the low- (LF) and high-frequency range (HF). Sympathovagal balance was determined from the LF/HF ratio of RR-interval. Baroreflex sensitivity was assessed from the alpha-index of systolic blood pressure and RR-interval.

RESULTS

Gastrostomy feeding decreased RR-interval, while systolic blood pressure remained stable. Clonidine induced higher RR-intervals before and after gastrostomy feeding but decreased systolic blood pressure at baseline only. Gastrostomy feeding decreased HF-power of RR-interval significantly without clonidine, but only slightly after premedication. Clonidine increased the HF-power of RR-interval slightly at baseline and significantly after gastrostomy feeding. Gastrostomy feeding increased the LF/HF ratio without clonidine only. Clonidine decreased the LF/HF ratio at baseline and after gastrostomy feeding. Gastrostomy feeding did not change baroreflex sensitivity, but baroreflex sensitivity was higher at visit 2 than visit 1.

CONCLUSIONS

In familial dysautonomia, clonidine augments baroreflex sensitivity and parasympathetic modulation. The resulting cardiovascular stabilization might attenuate feeding-induced crises.

Erektile Dysfunktion?Wertigkeit neurophysiologischer Diagnoseverfahren

Neurogenic, particularly autonomic disorders, frequently contribute to the etiology and pathophysiology of erectile dysfunction. Parasympathetic and sympathetic outflow mediates erection. Noncholinergic, nonadrenergic neurotransmitters induce activation of cyclic monophosphates, leading to relaxation of smooth muscles of the corpora cavernosa and by this to tumescence and rigidity, i.e. erection. The diagnosis of neurologic causes of erectile dysfunction requires a detailed history and neurologic examination. Conventional neurophysiological procedures evaluate the function of rapidly conducting, thickly myelinated nerve fibers only. Therefore, techniques such as sphincter ani externus electromyography, latency measurements of the pudendal nerve or bulbocavernosus reflex studies frequently do not contribute to the diagnostic process. The evaluation of small nerve fibers that are essential for erection, for example by means of psychophysical quantitative thermotesting, might improve the diagnosis of neurogenic causes of erectile dysfunction. In addition, the assessment of heart rate variability at rest, during metronomic breathing, Valsalva maneuver, and active standing might be helpful to identify an autonomic neuropathy as the cause of erectile dysfunction.

Terminal vessel hyperperfusion despite organ hypoperfusion in familial dysautonomia

Patients with familial dysautonomia (FD) exhibit orthostatic hypotension as well as recumbent hypertension. In addition, during dysautonomic crises, patients have hypertensive blood pressure that is presumed to be secondary to episodic vasoconstriction, as well as swollen hands that are presumed to be secondary to vasodilatation. This discrepancy in vascular control is poorly understood, yet may provide insight into the pathophysiology of autonomic crises. To evaluate the pathological mechanisms of overall blood flow and end-organ perfusion, we assessed resting and post-ischaemic limb and skin blood flow in FD patients. In groups of 15 FD patients and 15 controls, we measured resting and post-ischaemic forearm blood flow using venous occlusion plethysmography, and superficial skin blood flow using laser Doppler flowmetry. At rest, arterial inflow was averaged from eight venous occlusion measurements and expressed as percentage volume change/min. Post-ischaemic plethysmographic inflow was determined from the peak influx during the first venous occlusion following 3 min of ischaemia. Transcutaneous forearm partial pressures of oxygen and carbon dioxide were monitored continuously. At rest, plethysmographic limb perfusion was lower in FD patients than in controls, while skin blood flow did not differ between the two groups. After ischaemia, hyperperfusion of the forearm and hand was less pronounced in FD patients than in controls, while skin blood flow was significantly higher in patients than in controls. Partial pressures of O(2) and CO(2) did not differ between the two groups. We conclude that the reduced overall limb perfusion in patients with FD is due to hypertension-induced structural changes to vessel walls, with an increase in resistance vessel rigidity. The exaggerated post-ischaemic skin perfusion in FD patients seems to be due to deficient sympathetic innervation of precapillary vessels and arteriovenous shunts and to denervation hypersensitivity of intradermal small nerve fibres. Both the reduced limb perfusion and the dysfunctional end-organ blood supply in FD patients are likely to be major contributors to the vasomotor instability observed in these subjects, particularly during periods of stress.

Dynamic cerebral autoregulation remains stable during physical challenge in healthy persons

The effects of physical activity on cerebral blood flow (CBF) and cerebral autoregulation (CA) have not yet been fully evaluated. There is controversy as to whether increasing heart rate (HR), blood pressure (BP), and sympathetic and metabolic activity with altered levels of CO2 might compromise CBF and CA. To evaluate these effects, we studied middle cerebral artery blood flow velocity (CBFV) and CA in 40 healthy young adults at rest and during increasing levels of physical exercise. We continuously monitored HR, BP, end-expiratory CO2, and CBFV with transcranial Doppler sonography at rest and during stepwise ergometric challenge at 50, 100, and 150 W. The modulation of BP and CBFV in the low-frequency (LF) range (0.04-0.14 Hz) was calculated with an autoregression algorithm. CA was evaluated by calculating the phase shift angle and gain between BP and CBFV oscillations in the LF range. The LF BP-CBFV gain was then normalized by conductance. Cerebrovascular resistance (CVR) was calculated as mean BP adjusted to brain level divided by mean CBFV. HR, BP, CO2, and CBFV increased significantly with exercise. Phase shift angle, absolute and normalized LF BP-CBFV gain, and CVR, however, remained stable. Stable phase shift, LF BP-CBFV gain, and CVR demonstrate that progressive physical exercise does not alter CA despite increasing HR, BP, and CO2. CA seems to compensate for the hemodynamic effects and increasing CO2 levels during exercise.

Acetylcholinesterase inhibition: a novel approach in the treatment of neurogenic orthostatic hypotension

BACKGROUND

Pharmacological treatment of orthostatic hypotension is often limited because of troublesome supine hypertension.

OBJECTIVE

To investigate a novel approach to treatment using acetylcholinesterase inhibition, based on the theory that enhanced sympathetic ganglion transmission increases systemic resistance in proportion to orthostatic needs.

DESIGN

Prospective open label single dose trial.

MATERIAL

15 patients with neurogenic orthostatic hypotension caused by: multiple system atrophy (n = 7), Parkinson's disease (n = 3), diabetic neuropathy (n = 1), amyloid neuropathy (n = 1), and idiopathic autonomic neuropathy (n = 3).

METHODS

Heart rate, blood pressure, peripheral resistance index (PRI), cardiac index, stroke index, and end diastolic index were monitored continuously during supine rest and head up tilt before and one hour after an oral dose of 60 mg pyridostigmine.

RESULTS

There was only a modest non-significant increase in supine blood pressure and PRI. In contrast, acetylcholinesterase inhibition significantly increased orthostatic blood pressure and PRI and reduced the fall in blood pressure during head up tilt. Orthostatic heart rate was reduced after the treatment. The improvement in orthostatic blood pressure was associated with a significant improvement in orthostatic symptoms.

CONCLUSIONS

Acetylcholinesterase inhibition appears effective in the treatment of neurogenic orthostatic hypotension. Orthostatic symptoms and orthostatic blood pressure are improved, with only modest effects in the supine position. This novel approach may form an alternative or supplemental tool in the treatment of orthostatic hypotension, specially for patients with a high supine blood pressure.

Postischemic cutaneous hyperperfusion in the presence of forearm hypoperfusion suggests sympathetic vasomotor dysfunction in Fabry disease

In Fabry disease, deficiency of alpha-galactosidase A induces glycolipid storage that accounts for neuropathy, renal failure, myocardial infarction and stroke. Vascular crises may be precipitated by stressful conditions. To evaluate pathomechanisms of overall organ versus microvessel perfusion in response to ischemic challenge, we assessed resting and postischemic forearm and skin blood flow in Fabry patients. In 14 Fabry patients and 15 healthy controls, we measured resting and postischemic forearm blood flow by means of venous occlusion plethysmography and superficial index finger skin blood flow using laser Doppler flowmetry. At rest, arterial inflow into the limb was averaged from eight venous occlusion measurements and expressed as % volume change/minute. Postischemic plethysmographic inflow was determined from the peak influx during the first venous occlusion following three minutes of ischemia. Transcutaneous oxygen and carbon dioxide partial pressures at the forearm were monitored continuously. At rest, plethysmographic forearm perfusion was 15% lower in patients than in controls (p < 0.05) while skin blood flow did not differ between patients and controls. After ischemia, forearm hyperperfusion was less pronounced in patients than in controls (p < 0.05), while skin perfusion almost doubled in patients but increased only slightly in controls. Transcutaneous oxygen and carbon dioxide pressures did not differ between both groups. We conclude that the reduced overall limb perfusion at rest and after ischemia is likely to be due to lipid deposition with increased rigidity, decreased distensibility and lowered diameter of the vasculature. The exaggerated skin perfusion after ischemia might be attributable to the small fiber neuropathy of Fabry patients with deficient vasoconstrictor tone and enhanced vasodilatation due to hypersensitivity of denervated intracutaneous nerve fibers towards ischemia.

Impaired cardiovagal and vasomotor responses to baroreceptor stimulation in type II diabetes mellitus

BACKGROUND

In diabetic patients, impairment of the cardiovagal limb of the baroreflex has been well established. However, the role of sympathetic mediated baroreflex vasomotor control of the blood vessels is not well defined. We therefore assessed the vasomotor responses to sinusoidal baroreceptor stimulation in diabetic patients.

MATERIALS AND METHODS

We studied 14 type II diabetic patients (age; 57 +/- 7 years) and 18 healthy controls (age; 59 +/- 11 years). Oscillatory neck suction was applied at 0.1 Hz to assess the sympathetic modulation of the heart and blood vessels, and at 0.2 Hz to assess the effect of parasympathetic stimulation on the heart. Breathing was paced at 0.25 Hz. Spectral analysis was used to evaluate the oscillatory responses of RR-interval and blood pressure.

RESULTS

The diabetic patients showed a significantly lower RR-interval response (P < 0.05) to the 0.1 Hz neck suction (2.52 +/- 0.50-3.62 +/- 0.54 ln ms2) than the controls (4.23 +/- 0.31-6.74 +/- 0.36 ln ms2). The increase in power of 0.1 Hz systolic blood pressure oscillations during 0.1 Hz suction was also significantly smaller (P < 0.05) in the diabetics (1.17 +/- 0.44-1.69 +/- 0.44 mmHg2) than in the controls (1.60 +/- 0.29 mmHg2-5.87 +/- 1.25 mmHg2). The magnitude of the peak of the 0.2 Hz oscillation in the RR-interval in response to 0.2 Hz neck stimulation was significantly greater (P < 0.05) in the controls (3.42 +/- 0.46 ln ms2) than in the diabetics (1.58 +/- 0.44 ln ms2).

CONCLUSION

In addition to cardiovagal dysfunction, baroreflex-mediated sympathetic modulation of the blood vessels is impaired in type II diabetic patients.

Effect of cold face stimulation on cerebral blood flow in humans

BACKGROUND AND PURPOSE

In humans, activation of the diving reflex by a cold stimulus to the face results in bradycardia, peripheral vasoconstriction and an increase in blood pressure. However, responses of the cerebral blood flow have not yet been evaluated. We undertook this study to assess the effect of cold face stimulation on the cerebral circulation in humans.

METHODS

Seventeen healthy volunteers, aged 27+/-5 years were evaluated during application of a cold stimulus (0 degrees C) to the forehead for 60s. We continuously monitored mean arterial pressure (MAP), mean flow velocity (MFV) of the middle cerebral artery, cardiac output, skin blood flow, heart rate and end-tidal CO2. Total peripheral resistance (TPR) was calculated as MAP divided by cardiac output. Cerebrovascular resistance index (CVRi) was calculated as MAP divided by MFV.

RESULTS

Cold face stimulation did not significantly affect cardiac output but resulted in significant decreases in heart rate and skin blood flow and an increase in MAP. MFV in the mid-cerebral artery showed a slight, but significant increase. The maximum increase in CVRi (14.2+/-11.4%) was significantly (P<0.01) less than the maximum increase in TPR (23.9+/-5.7%). End-tidal CO2 did not change significantly during the cold stimulation.

CONCLUSIONS

In contrast to other sympathetic stimulations (e.g. lower body negative pressure), facial cooling results in an increase in cerebral blood flow. The amount of cerebral vasoconstriction was less than the amount of total peripheral vasoconstriction. These results suggest that although there is some constriction of the cerebral resistance vessels during cold face stimulation, cerebral perfusion was maintained, possibly by opposing parasympathetic activation.

Changes of cerebral blood flow velocities during enhanced external counterpulsation

OBJECTIVES

Intra-aortic counterpulsation is the most frequently used cardiac assist device. However, there are only few studies of the effects of counterpulsation on cerebral blood flow and these report conflicting outcomes. The new enhanced external counterpulsation (EECP) technique reproduces non-invasively the effects of intra-aortic counterpulsation. In this study, we evaluated effects of EECP on blood pressure (BP) and on cerebral flow velocity (CBFV).

SUBJECTS AND METHODS

Twenty-three healthy controls and 15 atherosclerotic patients each underwent a 5-min session of EECP. Before, during and after EECP we monitored heart rate, beat-to-beat radial artery BP and CBFV.

RESULTS

EECP induced a second increase in BP and CBFV during diastole with a significant increase of mean BP and a decrease of systolic BP in patients and controls. Mean CBFV increased in both groups during the first 5 s of EECP. After 3 min of EECP, diastolic CBFV was still higher than at baseline, but systolic CBVF was lower than at baseline; mean CBFV was as low as before EECP in the patients and lower than the baseline values in the controls. Three minutes after ending EECP, mean and systolic BP were lower in the patients than the corresponding baseline values. Otherwise, CBFV and BP values did not differ from baseline in patients and controls.

CONCLUSION

Cerebral autoregulation ensures the constancy of cerebral blood flow even though EECP creates marked systemic changes. In the patients, the decrease of BP after EECP with maintained CBFV indicates an improved BPCBFV relation and a more economic autoregulation.

Hereditary dysautonomias: current knowledge and collaborations for the future

The hereditary dysautonomias (H-Dys) are a large group of disorders that affect the autonomic nervous system. Research in the field of H-Dys is very challenging, because the disorders involve interdisciplinary, integrative, and "mind-body" connections. Recently, medical scientists, NIH/NINDS representatives, and several patient support groups gathered for the first time in order to discuss recent findings and future directions in the H-Dys field. The H-Dys workshop was instrumental in promoting interactions between basic science and clinical investigators. It also allowed attendees to have an opportunity to meet each other, understand the similarities between the various forms of dysautonomia, and experience the unique perspective offered by patients and their families. Future advances in H-Dys research will depend on a novel multi-system approach by investigators from different medical disciplines, and it is hoped that towards a common goal, novel "bench-to-bedside" therapeutics will be developed to improve the lives of, or even cure, patients suffering from dysautonomic syndromes.

[Diagnosis and treatment of polyneuropathy: what can the family doctor do?]

Polyneuropathies are common disorders of the peripheral nervous system. Early diagnosis and therapy enables to stop the progression of the polyneuropathy and to ameliorate polyneuropathic symptoms in most cases. Clinical examination is sufficient to diagnose polyneuropathy. However, to reveal the etiology of a polyneuropathy additional diagnostic procedures are necessary. The general practitioner should recognize the signs and symptoms of a polyneuropathy and start necessary investigations. If the etiology of the polyneuropathy is revealed specific therapy can be started. Furthermore, polyneuropathic symptoms can be ameliorated independently of the underlying cause.

Evaluation of peripheral and autonomic nerve function in Fabry disease

The neurological manifestations of Fabry disease include severe episodes of lancinating pain and burning paraesthesias in the extremities, often triggered by changes in temperature. The preferential involvement of small nerve fibres and the accumulation of storage product in the central autonomic nervous system and autonomic ganglia means that standard neurophysiological procedures cannot adequately evaluate the peripheral and autonomic nervous systems of affected patients. This paper describes the various methods that have been developed to assess impairment of temperature perception, vibratory perception, sudomotor and sweat gland function, and limb and superficial skin blood flow and vasoreactivity. These methods, including thermal provocation tests, quantitative sudomotor axon reflex testing and venous occlussion plethsmography, have been used effectively in patients with Fabry disease to measure the extent of neurological dysfunction.

CONCLUSIONS

Effective methods for measuring neurological involvement in patients with Fabry disease have been developed. These methods will be valuable in assessing the response of patients to enzyme replacement therapy.

Assessment of cerebrovascular and cardiovascular responses to lower body negative pressure as a test of cerebral autoregulation

The aim of this study was to determine whether lower body negative pressure (LBNP), combined with noninvasive methods of assessing changes in systemic and cerebral vascular resistance, is suitable as a method for assessing cerebral autoregulation. In 13 subjects we continuously assessed heart rate, blood pressure, cerebral blood flow velocity (CBFV) and cardiac output during graded levels of LBNP from 0 to -50 mm Hg. With increasing levels of LBNP, cardiac output declined significantly (to 55.8+/-4.5% of baseline value) but there was no overall change in mean arterial pressure. CBFV also fell at higher levels of LBNP (to 81.4+/-3.2% of baseline) but the percentage CBFV change was significantly less than that in cardiac output (P<0.01). The maximum increase in cerebrovascular resistance (pulsatility ratio) was significantly less than that in total peripheral resistance (17+/-6% vs. 105+/-16%, P<0.01). Spectral analysis showed that the power of low-frequency oscillations in mean arterial pressure, but not CBFV, increased significantly at the -50 mm Hg level of LBNP. These results show that, even during high levels of orthostatic stress, cerebral autoregulation is preserved and continues to protect the cerebral circulation from changes in the systemic circulation. Furthermore, assessment of cardiovascular and cerebrovascular parameters during LBNP may provide a useful clinical test of cerebral autoregulation.

Orthostatic challenge reveals impaired vascular resistance control, but normal venous pooling and capillary filtration in familial dysautonomia

Patients with familial dysautonomia (FD) frequently have profound orthostatic hypotension without compensatory tachycardia. Although the aetiology is presumed to be sympathetic impairment, peripheral vascular responses to orthostasis have not been assessed. The aim of this study was to evaluate the control of vascular responses to postural stress in FD patients. Measurements of heart rate, blood pressure, cardiac stroke volume and cardiac output (CO), by impedance cardiography, and calf-volume changes, by impedance plethysmography, were taken from nine FD patients and 11 control subjects while supine and during head-up tilt. During leg lowering, we also assessed the venoarteriolar reflex by measuring skin red-cell flux. Head-up tilting for 10 min induced sustained decreases in mean arterial pressure in the FD patients, but not in the controls. Total peripheral resistance (TPR, i.e. mean arterial pressure/CO) increased significantly in the controls (39.8+/-6.8%), but not in the FD patients. Calf-volume changes during tilting, when normalized for the initial calf volume, did not differ significantly between the patients (4.62+/-1.99 ml.100 ml(-1)) and the controls (3.18+/-0.74 ml.100 ml(-1)). The vasoconstrictor response to limb lowering was present in the patients (47.7+/-9.0% decrease in skin red-cell flux), but was impaired as compared with the controls (80.7+/-3.4%) ( P <0.05). The impaired vasoconstriction during limb lowering and absent increase of TPR during tilting confirm that orthostatic hypotension in FD is due primarily to a lack of sympathetically mediated vasoconstriction without evidence of abnormally large shifts in blood volume towards the legs during orthostasis. This may be due, in part, to a preserved myogenic response to increased vascular pressure in the dependent vascular beds.

Heart rate-dependent electrocardiogram abnormalities in patients with postural tachycardia syndrome

We recently published data suggesting the presence of an intrinsic sinus node abnormality in a subgroup of patients with the postural tachycardia syndrome (POTS). Based on the hypothesis that more widespread abnormalities of cardiac electrophysiologic properties may be present in POTS, we undertook a study to compare cardiac conduction and repolarization at different heart rate levels in patients with POTS and healthy controls. Eleven healthy controls and fourteen patients with POTS participated in the study. Acquisition of 12-lead electrocardiogram recordings were made during supine rest and during gradual head-up tilt. The heart rate of controls was titrated by isoproterenol infusion to match the heart rate of patients. Indices for cardiac conduction (PR interval, QRS duration, and R wave axis) and repolarization (QT interval, QTc interval, and T wave axis) were then compared at different heart rate levels. The PR interval decreased with increasing heart rate in controls more than in patients, resulting in a significantly longer PR interval in patients at the fastest heart rate level. The QT and QTc intervals were significantly shorter in POTS over the entire analyzed heart rate range. The T wave axis decreased with increasing heart rate in patients only. This resulted in a significantly lower T wave axis in patients at the fastest heart rate level. Our data suggest abnormalities of atrioventricular conduction and ventricular repolarization in patients with POTS. These findings may reflect intrinsic cardiac electrophysiologic abnormalities or may be secondary due to abnormalities of cardiac autonomic innervation.

Effects of age on the cardiac and vascular limbs of the arterial baroreflex

BACKGROUND

Healthy ageing has several effects on the autonomic control of the circulation. Several studies have shown that baroreflex-mediated vagal control of the heart deteriorates with age, but so far there is little information regarding the effect of ageing on sympathetically mediated baroreflex responses. The aim of this study was to assess the effects of ageing on baroreflex control of the heart and blood vessels.

MATERIALS AND METHODS

In 40 healthy volunteers, aged 20-87 years, we applied oscillatory neck suction at 0.1 Hz to assess the sympathetic modulation of the heart and blood vessels and at 0.2 Hz to assess the effect of parasympathetic stimulation on the heart. Breathing was maintained at 0.25 Hz. Blood pressure, electrocardiographic RR intervals and respiration were recorded continuously. Spectral analysis was used to evaluate the magnitude of the low-frequency (0.03-0.14 Hz) and high-frequency (0.15-0.50 Hz) oscillations in the RR interval and blood pressure. Responses to neck suction were assessed as the change in power of the RR interval and blood pressure fluctuations at the stimulation frequency from baseline values.

RESULTS

Resting low- and high-frequency powers of the RR interval decreased significantly with age (P < 0.01). However, the low-frequency power of systolic blood pressure did not correlate with age. Spontaneous baroreflex sensitivity (alpha-index) showed a significant inverse correlation with age (r = -0.46, P < 0.05). Responses of the RR interval and systolic blood pressure to 0.1 Hz neck suction stimulation were not related to age, however, the RR interval response to 0.2 Hz neck suction declined significantly with age (r = -0.61, P < 0.01).

CONCLUSIONS

These results confirm an age-related decrease in cardiovagal baroreflex responses. However, sympathetically mediated baroreflex control of the blood vessels is preserved with age.

Effects of lower body negative pressure on cardiac and vascular responses to carotid baroreflex stimulation

The aim of this study was to assess carotid baroreflex responses during graded lower body negative pressure (LBNP). In 12 healthy subjects (age 29+/-4 years) we applied sinusoidal neck suction (0 to -30 mmHg) at 0.1 Hz to examine the sympathetic modulation of the heart and blood vessels and at 0.2 Hz to assess the effect of parasympathetic stimulation on the heart. Responses to neck suction were determined as the change in spectral power of RR-interval and blood pressure from baseline values. Measurements were carried out during progressive applications (0 to -50 mmHg) of LBNP. Responses to 0.1 and 0.2 Hz carotid baroreceptor stimulations during low levels of LBNP (-10 mmHg) were not significantly different from those measured during baseline. At higher levels of LBNP, blood pressure responses to 0.1 Hz neck suction were significantly enhanced, but with no significant change in the RR-interval response. LBNP at all levels had no effect on the RR-interval response to 0.2 Hz neck suction. The unchanged responses of RR-interval and blood pressure to neck suction during low level LBNP at -10 mmHg suggest no effect of cardiopulmonary receptor unloading on the carotid arterial baroreflex, since this LBNP level is considered to stimulate cardiopulmonary but not arterial baroreflexes. Enhanced blood pressure responses to neck suction during higher levels of LBNP are not necessarily the result of a reflex interaction but may serve to protect the circulation from fluctuations in blood pressure while standing.

Small fiber dysfunction predominates in Fabry neuropathy

Fabry disease is an X-linked recessive disease with a reduction of lysosomal alpha galactosidase A and consecutive storage of glycolipids e.g., in the brain, kidney, skin, and nerve fibers. Cardinal neurologic findings are hypohidrosis, painful episodes, and peripheral neuropathy. So far, the neurophysiological findings regarding the extent of large and small fiber dysfunction are contradictory. This study evaluated large and small nerve fiber function in a homogeneous group of Fabry patients. In 24 of 30 Fabry patients with creatinine below 194.7 mmol/L the authors assessed median, ulnar, and peroneal motor conduction velocity (MCV) and median, ulnar, and sural sensory conduction velocity (SCV) nerve conduction to study the function of thickly myelinated nerve fibers. In addition, the authors studied sympathetic skin responses (SSR) at both hands and feet in 24 patients. To evaluate A beta nerve fiber function, the authors determined vibratory detection thresholds (VDT) at the first toe in 30 patients. Function of A delta and C fibers was assessed by quantitative sensory testing of cold detection threshold (CDT) and heat-pain detection thresholds (HPDT). Nerve conduction studies showed significantly decreased amplitudes of MCVs and SCVs in Fabry patients as compared to controls. However, individual results of MCV and SCV studies were only mildly impaired. SSRs were present in all tested patients but SSR amplitudes were significantly decreased in Fabry patients in comparison to controls. VDT, CDT, and HPDT were significantly elevated in Fabry patients as compared to controls. However, only six patients had pathologic VDT, 19 had increased CDT, and 25 had elevated HPDT at a high level of stimulation. In Fabry patients, small fiber dysfunction is more prominent than large fiber dysfunction, confirming previous findings of sural nerve biopsies. The results suggest a higher vulnerability of small-diameter nerve fibers than of the thickly myelinated fibers.

Mononeuritis multiplex caused by Coxiella burnetii infection (Q fever)

After 1 week of flu-like illness, a 64-year-old man developed rapidly progressive mononeuritis multiplex involving the right arm and both legs. Serologic studies identified Coxiella burnetii as the cause of the febrile disease (Q fever). Fourteen days doxycycline treatment (200 mg daily) induced rapid and complete recovery. After 6 months, flu-like symptoms, weakness and hypalgesia of the right leg reappeared. Antibody titers again identified Q fever. Doxycycline was re-established and induced prompt recovery. Q fever has been associated with various neurologic complications such as meningoencephalitis, cerebellitis, optic neuritis or polyneuroradiculitis. This is the first report on Q fever related mononeuritis multiplex. Prolonged antibiotic treatment may be required to prevent relapsing infection from the resistant bacterium.

[Erectile dysfunction. An important manifestation of autonomic diabetic neuropathy]

In Germany, some 4-6 million men, including 1.2 million diabetics, suffer from erectile dysfunction (ED). Various other diseases including heart disease, hypertension, arteriosclerosis, hyperlipidemia, endocrine disorders, chronic renal insufficiency, prior radical prostatectomy, neurological diseases, trauma and the abuse of alcohol, tobacco, and side effects of medications, are frequently associated with ED. Medical history, clinical examination, routine blood chemistry and sexual hormone levels may help clarify the etiology of ED. Normally, relaxation of the smooth muscles of the corpus cavernosum--mediated by cGMP and cAMP--together with dilatation of penile arteries and occlusion of venous outflow, results in an erection. The oral type V phosphodiesterase inhibitor, Sildenafil, or prostaglandin E1 injection elevates the cGMP and cAMP levels, respectively. Other therapeutic options include mechanical aids, surgery, hormone replacement or sublingual apomorphine. Since 1998, Sildenafil, an effective, simple and safe oral treatment, has been available.

Valsalva maneuver suggests increased rigidity of cerebral resistance vessels in familial dysautonomia

In familial dysautonomia (FD), cerebral autoregulation (CA) must adjust cerebral blood flow to extreme and rapid fluctuations in systemic blood pressure. Compromised CA during systemic blood pressure (BP) fluctuations might contribute to central autonomic dysfunction in FD. To evaluate CA during rapid BP changes, we monitored heart rate (HR), radial artery BP and middle cerebral artery blood flow velocity (CBFV), using transcranial Doppler sonography, in eight FD patients and twelve age-matched controls in supine position at baseline and during a Valsalva maneuver (VM, 40 mmHg expiratory pressure for 15 seconds). The best of four VM recordings was analyzed. We calculated two autoregulation parameters. CA(II) reflects BP related autoregulatory CBFV increase in late phase II of VM. CA(II) = [(CBFV(II late)-CBFV(II early))/CBFV(II early)]/[(BP(II late)-BP(II early))/BP(II early)]. CA(IV) reflects BP and HR related autoregulatory CBFV increase in phase IV of VM. CA(IV) = (CBFV(IV)/CBFV(I))/(BP(IV)/BP(I))/(HR(IV)/HR(I)). Baseline systemic BP, but not CBFV, was higher in the patients than the controls. During VM, both groups had similar CBFV and BP values, but CAIV and especially CA(II) were significantly lower in the patients than the controls. We have documented that FD patients maintain stable CBFV during rapid BP fluctuations associated with early and late phase II and phase IV of VM suggesting that small intracerebral vessels of FD patients are less responsive to rapid systemic blood pressure fluctuations. To compensate for decreased sympathetic vascular innervation, we propose that FD patients may alter the myogenic component of CA by vessel wall thickening resulting in increased rigidity of intracerebral resistance vessels. The resulting vasoconstriction would allow maintenance of normal baseline CBFV in spite of chronic recumbent hypertension.

Assessment of the neurogenic flare reaction in small-fiber neuropathies

To improve sensitivity of the analysis of axon reflex flare reaction, the authors used a laser Doppler scanner and analyzed flare intensity and size induced by histamine iontophoresis simultaneously at the foot and thigh in patients with small-fiber neuropathy (n = 10) and controls (n = 9). Flare size, but not laser Doppler flux, clearly distinguished patients from controls at both locations (p < 0.01) and may be useful for evaluation of small-fiber neuropathies.

Baroreflex stimulation shows impaired cardiovagal and preserved vasomotor function in early-stage amyotrophic lateral sclerosis

OBJECT

In ALS patients, autonomic nervous system dysfunction might account for an additional reduction of the quality and expectancy of life of individual patients and contribute to unexpected early fatalities. This study was undertaken to assess baroreflex-mediated vagal and sympathetic cardiovascular control of the heart and blood vessels in ALS patients.

METHODS

In 12 early-stage ALS patients (age 54 +/- 4 years) and 12 controls (age 55 +/- 3 years) we assessed resting baroreflex sensitivity (BRS) by spectral analysis, then stimulated the carotid baroreflex by oscillating neck suction at 0.1 Hz to assess the autonomic modulation of the heart and blood vessels and at 0.2 Hz to assess the effect of parasympathetic stimulation on the heart.

RESULTS

Resting heart rate was significantly higher in the ALS patients than in the controls (P < 0.05), but resting baroreflex sensitivity did not differ significantly between the groups. Stimulation at 0.2 Hz induced an oscillation in R-R interval that was significantly smaller (P < 0.05) in ALS patients than in controls. R-R interval responses to 0.1 Hz stimulation were significantly (P < 0.01) reduced in ALS patients compared to controls. Responses of blood vessels to 0.1 Hz stimulation did not differ significantly between the groups.

CONCLUSION

In early-stage ALS patients, BRS might be normal at rest. Only baroreflex activation reveals impaired cardiovagal responses while sympathetic vasomotor control is preserved. Treatment to restore sympathetic-parasympathetic balance to the heart could prevent early cardiovascular fatalities in some ALS patients.

Dermal microdialysis provides evidence for hypersensitivity to noradrenaline in patients with familial dysautonomia

OBJECTIVES

To use the technique of dermal microdialysis to examine sensitivity of skin vessels to noradrenaline (NA) in patients with familial dysautonomia (FD) and in healthy controls.

METHODS

In 14 patients with FD and 12 healthy controls, plasma extravasation, local laser Doppler blood flow, and skin blanching were observed before, during, and after application of 10(-6) M NA through a microdialysis membrane, located intradermally in the skin of the lower leg.

RESULTS

Maximum local vasoconstriction measured by laser Doppler blood flow did not differ between patients with FD and controls. In contrast, patients with FD had an earlier onset of vasoconstriction (p = 0.02). Moreover, reaction to NA was more prominent and prolonged in FD, shown by a larger zone of skin blanching around the microdialysis membrane (p < 0.001) and delayed reduction of the protein content in the dialysate after termination of NA application (p = 0.03).

CONCLUSION

These data support the hypothesis that peripheral blood vessels of patients with FD show a denervation hypersensitivity to catecholamines. This may be one mechanism contributing to the major hypertension that frequently occurs during "dysautonomic crises" in FD.

Hyperintense and hypointense MRI signals of the precentral gyrus and corticospinal tract in ALS: a follow-up examination including FLAIR images

In amyotrophic lateral sclerosis (ALS) patients, hyperintense signals at the subcortical precentral gyrus in brain fluid attenuated inversion recovery (FLAIR) MR images have been found more frequently than in controls. Quantitative analysis has revealed a significant increase of the FLAIR-magnetic resonance imaging (MRI) signal at the subcortical precentral gyrus of ALS patients compared to healthy controls. In addition, hypointense signals at the rim of the precentral gyrus in FLAIR and T2-weighted images have been shown in ALS patients. In 17 ALS patients, we evaluated hyperintense signals in T2-, T1-, proton density-weighted and FLAIR MR images, and hypointense signals in T2-weighted and FLAIR images 15.7+/-3.0 months after the initial examination by visual scoring. In FLAIR images, a quantitative analysis was added. The visual scores of hyperintense signals along the corticospinal tract did not change significantly in all sequences. However, the quantitative evaluation of FLAIR images revealed a significant increase of the signal intensity at the subcortical precentral gyrus (p<0.005). In addition, the frequency of the visually evaluated hypointense signals at the precentral gyrus increased significantly (p<0.05). The change of MR results did not correlate with the change of clinical parameters. In ALS patients, the increase of the quantified MRI signal at the subcortical precentral gyrus in FLAIR images and the increase of hypointense signals at the rim of the precentral gyrus corroborate the hypothesis that these signals are related to the upper motor neuron degeneration in ALS. Their specificity and clinical relevance have to be clarified further.

Sex differences and lateral asymmetry in heart rate modulation in patients with temporal lobe epilepsy

This study was designed to study the influence of gender and lateral hemispheric asymmetry on heart rate modulation during temporal lobe seizures. Heart rate was recorded during complex partial seizures in 10 female and 11 male patients (12 with a right temporal lobe focus, nine with a left focus), with simultaneous video monitoring and bilateral subdural electrode placement. Heart rate changes were analysed during the seizure, at a time when the epileptic activity was restricted to one hemisphere. In this analysed interval, the heart rate of patients with a right temporal lobe focus showed a significant increase, from 73.5 to 91.0 beats/min (F = 10.7, df = 2.3/27, p < 0.001), while the heart rate of patients with a left sided focus only increased slightly, from 77.0 to 82.5 beats/min (NS). An effect of sex was demonstrated, in that the influence of focus laterality could only be shown in male patients (F = 14.24, df = 2.58/27, p < 0.001). These results confirm the right hemispheric lateralisation of sympathetic cardiac control in male patients.

Impaired cardiovascular responses to baroreflex stimulation in open-angle and normal-pressure glaucoma

Autonomic neuropathy may contribute to the pathophysiology of both open-angle and normal-pressure glaucoma. However, autonomic function has not been studied extensively in these diseases. We evaluated baroreflex control of the heart and blood vessels in open-angle and normal-pressure glaucoma. We studied 14 patients with open-angle glaucoma, 15 with normal-pressure glaucoma and 17 controls. Sinusoidal neck suction (0 to -30 mmHg) was applied at 0.1 Hz to assess the sympathetic modulation of the heart and blood vessels, and at 0.2 Hz to assess the effect of parasympathetic stimulation on the heart. Baseline recordings showed no significant differences between the groups. The RR-interval response of the controls to neck suction at 0.1 Hz (3.88+/-0.32 to 6.65+/-0.44 lnms2) was significantly greater than that of the open-angle glaucoma patients (4.22+/-0.28 to 5.56+/-0.26 lnms2) and the normal-pressure glaucoma patients (4.53+/-0.27 to 5.53+/-0.37 lnms2) (P<0.05). The low-frequency power of diastolic blood pressure increased significantly in the controls (0.48+/-0.08 to 2.76+/-0.72 mmHg2; P<0.01) during 0.1 Hz neck suction, but did not change significantly in patients with either open-angle glaucoma or normal-pressure glaucoma. The RR-interval response in the control group (3.45+/-0.52 lnms2) to neck suction at 0.2 Hz was significantly greater than that of the normal-pressure glaucoma patients (1.84+/-0.32 lnms(2)) and the open-angle glaucoma patients (1.58+/-0.35 lnms2) (P<0.05). The decreased sympathetic and parasympathetic modulation during baroreceptor stimulation in patients with open-angle glaucoma and normal-pressure glaucoma suggests that autonomic dysfunction may contribute to the pathogenesis of both diseases.

Decrease of sympathetic cardiovascular modulation after temporal lobe epilepsy surgery

In temporal lobe epilepsy (TLE), there is evidence of ictal and interictal autonomic dysregulation, predominantly with sympathetic overactivity. The effects of TLE surgery on autonomic cardiovascular control and on baroreflex sensitivity (BRS) have not been studied. To evaluate such effects, we monitored heart rate (HR), systolic blood pressure (BP(sys)) and respiration in 18 TLE patients 3-4 months before and after TLE surgery. We used Blackman-Tukey spectral analysis to assess sympathetic and parasympathetic modulation as powers of HR and BP(sys) oscillations in the low frequency (LF, 0.04-0.15 Hz) and high frequency (HF, 0.15-0.5 Hz) bands. BRS was determined as the LF transfer function gain between BP and HR. After surgery, HR, BP(sys), respiration and HF powers remained unchanged, while LF powers of HR (1.57 +/- 1.54 bpm(2)) and BP(sys) (2.19 +/- 1.34 mmHg(2)) and BRS (0.68 +/- 0.31 bpm/mmHg) were smaller than pre-surgical LF powers of HR (3.87 +/- 3.26 bpm(2)) and BP(sys) (4.80 +/- 3.84 mmHg(2)) and BRS (1.12 +/- 0.39 bpm/mmHg; P < 0.05). After TLE surgery, there is a reduction of sympathetic cardiovascular modulation and BRS that might result from decreased influences of interictal epileptogenic discharges on brain areas involved in cardiovascular autonomic control. TLE surgery seems to stabilize the cardiovascular control in epilepsy patients by reducing the risk of sympathetically mediated tachyarrhythmias and excessive bradycardiac counter-regulation, both of which might be relevant for the pathophysiology of sudden unexpected death in epilepsy patients (SUDEP). Thus, TLE surgery might contribute to reducing the risk of SUDEP.

Assessment and evaluation of hereditary sensory and autonomic neuropathies with autonomic and neurophysiological examinations

The five different types of the rare hereditary sensory and autonomic neuropathies (HSAN) are classified by their mode of inheritance, pathology, natural history, biochemical, neurophysiologic and autonomic abnormalities. Clinically, the different types of HSANs can be identified by a detailed history and examination and 'bedside' tests of sympathetic or parasympathetic function such as active standing, metronomic breathing or the Valsalva maneuver, sensory and motor nerve conduction studies, quantitative sensory testing of thermal and vibratory perception, and the analysis of sudomotor function by recordings of the sympathetic skin response (SSR) or the sweat output during quantitative sudomotor axon reflex testing (QSART). The slowly progressive, symmetrical HSAN type I manifests between the second and fourth decade with ulcers or mutilations of the lower extremities, low normal sensory and motor nerve conduction velocities, but abnormal warm, cold and heat pain perception and distal anhidrosis. In HSAN type II, symptoms occur already in infancy, trophic alterations affect fingers and toes. There are acral anhidrosis and various autonomic dysfunctions such as tonic pupils, eating and swallowing difficulties, constipation, episodic fever, profound hypotonia and episodes of apnea. Sensory perception is severely impaired and accounts for elevated vibratory but also thermal perception thresholds. Sensory nerve conduction is highly abnormal while motor nerve conduction studies are almost normal. Type III, the autosomal recessive familial dysautonomia (FD), is the most common of the HSANs. FD is characterized by pronounced autonomic, primarily sympathetic dysregulation with severe orthostatic hypotension, repeated episodes of autonomic crises with excessive arterial hypertension, profuse sweating, skin blotching, puffy hands and behavioral abnormalities. FD manifests only in children of Ashkenazi Jewish ancestry. Cardinal findings are diminished deep tendon reflexes, absence of overflow tears, absence of fungi-form papillae of the tongue and of axon flare response following intradermal histamine injection. Thermal and vibratory testing show pronounced impairment of temperature and pain but also of vibratory perception. Children with HSAN IV, 'congenital insensitivity to pain with anhidrosis' experience repeated episodes of high fevers during high environmental temperature due to anhidrosis. The anhidrosis of the hyperkeratotic skin accounts for absence of the SSR or lack of sweat output during QSART. The patients' insensitivity to superficial as well as deep, visceral pain can be demonstrated e. g. by quantitative heat pain testing. Patients develop severe mutilations e. g. of the tip of their tongue, they might have severe burn injuries and multiple, unnoticed fractures with neuropathic joints. Children with the very rare HSAN type V respond normally to tactile, vibratory or thermal stimuli, but have a selective loss of pain perception with otherwise normal neurological examination. Painful stimuli reveal no signs of discomfort.

Transcranial Doppler sonography during head up tilt suggests preserved central sympathetic activation in familial dysautonomia

OBJECTIVE

Cerebral autoregulation was assessed by transcranial Doppler sonography in 10 patients with familial dysautonomia and 10 age matched controls.

METHODS

Blood pressure, heart rate, and middle cerebral artery blood flow velocity (CBFV) were simultaneously recorded when supine and during 180 seconds of head up tilt. Cerebrovascular resistance (CVR) was calculated from CBFV and mean blood pressure was adjusted to brain level.

RESULTS

In the controls, mean blood pressure remained stable during tilt, but heart rate increased significantly. In the patients with familial dysautonomia, mean (SD) blood pressure decreased by 15.0 (10.8)% (p < 0.05). Heart rate remained unchanged. In controls, systolic and mean CBFV decreased by 9.1 (4.7)% and 9.4 (7.0)%, respectively, while diastolic CBFV remained stable. In the patients, diastolic and mean CBFV decreased continuously by 32.1 (13.9)% and by 14.8 (31.4)%. Supine CVR was 28% higher in patients than in controls and decreased significantly less during head up tilt.

CONCLUSIONS

Tilt evokes orthostatic hypotension without compensatory tachycardia in patients with familial dysautonomia owing to decreased peripheral sympathetic innervation. High supine CVR values and relatively preserved CVR during tilt suggest preserved central sympathetic activation in familial dysautonomia, assuring adaptation of cerebrovascular autoregulation to chronic supine hypertension and orthostatic hypotension.

Cold pressor test demonstrates residual sympathetic cardiovascular activation in familial dysautonomia

In familial dysautonomia (FD), i.e. Riley-Day-syndrome, sympathetic cardiovascular function, as well as afferent temperature and pain mediating neurons, are significantly reduced. Thus, it was questioned if cold pressor test (CPT), which normally enhances sympathetic outflow and induces peripheral vasoconstriction by the activation of thermo- and nociceptive system activation, could be used to assess sympathetic function in FD. To evaluate whether CPT can be used to assess sympathetic activation in FD, we performed CPT in 15 FD patients and 18 controls. After a 35-min resting period, participants immersed their right hand and arm up to the elbow into 0-1 degrees C cold water while we monitored heart rate (HR), respiration, beat-to-beat radial artery blood pressure (BP), and laser Doppler skin blood flow (SBF) at the right index finger pulp. From these measurements, heart rate variability parameters were calculated: root mean square of successive differences (RMSSD), coefficient of variation (CV), low and high frequency (LF, HF) power spectra of the electrocardiogram (ECG). All participants perceived cold stimulation and indicated discomfort. In controls, SBF decreased and HR and BP increased rapidly upon CPT. After 60 s, SBF indicated secondary vasodilatation in six controls, BP rise attenuated and HR returned to baseline in all controls. In the patients, SBF remained unchanged, HR and BP increased significantly, but after 50-60 s of CPT and changes were lower than in controls (p<0.05). RMSSD and CV decreased and LF increased significantly only in the controls. We conclude that CPT activates sympathetic HR and BP modulation despite impaired pain and temperature perception in FD patients. BP increase in the presence of almost unchanged SBF might be due to HR increase and to nociceptive arousal and emotionally induced catecholamine release as seen in emotional crises of FD patients. CPT assesses sympathetic cardiovascular responses independently from baroreflex function, which is compromised in FD.

Evaluation of cold face test bradycardia by means of spectral analysis

The cold face test (CFT) is a non-invasive challenge maneuver of the autonomic nervous system which activates the peripheral sympathetic and the cardiac parasympathetic nervous system and induces peripheral vasoconstriction and bradycardia. The physiology of CFT-induced bradycardia is still controversial. The heart rate decrease might result from a direct central up-regulation of cardiovagal activity or might be a secondary effect of baroreceptor activation or of changes of respiration. The purpose of this study was to analyze the origin of CFT-induced bradycardia. To evaluate the influence of respiration on bradycardia during CFT, we studied cardiac responses in 10 healthy volunteers during CFT (0-1 degrees C cold compresses for 60 s) with three different respiratory patterns: one with spontaneous and two with paced respiration (6 and 15 cycles/minute). We continuously monitored heart rate (HR), blood pressure (BP) and respiration and determined heart rate variability by assessment of coefficient of variation (CV), standard deviation (SD) and the root mean square of successive differences (RMSSD) of HR as well as low (LF) and high (HF) frequency spectra power of HR and BP. When coherence was above 0.5, we calculated the transfer function gain between HR and respiration in the HF band, as an index of respiratory sinus arrhythmia, and between HR and BP in the LF band, as an index of baroreflex sensitivity. HR decreased and BP increased significantly during the three types of CFT. The decrease of HR and the increase of BP, of time and frequency domain parameters did not differ between the three breathing patterns. Respiration, and HF and LF power of respiration did not change during CFT. The gain of the HF-transfer function between HR and respiration and the LF-transfer function gain between HR and BP increased significantly during CFT, but the increase did not differ between the three breathing patterns. The increase of the gain of both transfer functions is most likely due to an increase of vagal traffic and together with the unchanged respiratory pattern suggests that CFT-induced bradycardia is not due to baroreflex or respiratory influences, but seems to result from central vagal activation.

Sympathetic and parasympathetic pupillary dysfunction in familial dysautonomia

Objective assessment of autonomic dysfunction in familial dysautonomia (FD) is largely based on the analysis of cardiovascular responses to challenge maneuvers such as orthostatic stress. Infrared pupillometry (IPM) provides an additional reliable method for cranial autonomic evaluation and has the advantage of requiring minimal cooperation.This study was performed to determine whether IPM contributes to the assessment of autonomic function in FD patients. In 14 FD patients and 14 healthy controls, we studied absolute and relative light reflex amplitude, pupillary constriction velocity (v(constr)), pupillary diameter, early and late pupillary re-dilatation velocity (v(dil 1), v(dil 2)) after dark adaptation. Prior to IPM, all patients had an ophthamological examination to evaluate refraction and corneal integrity. In comparison to controls, patients had a significant reduction of the parameters reflecting parasympathetic pupillary function (absolute light reflex amplitude 1.34 +/- 0.21 vs. l.86 +/- 0.14 mm, relative light reflex amplitude 22.74 +/- 7.11% vs. 30.76 +/- 3.57%, v(constr) 3.75 +/- 1.09 vs. 5.80 +/- 0.59 mm/s) and of the parameters reflecting sympathetic pupillary function (diameter 5.69 +/- 0.66 vs. 6.35 +/- 0.60 mm, v(dil 1) 1.29 +/- 0.23 vs. 1.95 +/- 0.23 mm/s, v(dil 2) 0.64 +/- 0.13 vs. 0.72 +/- 0.l2 mm/s; Mann-Whitney U-test: p<0.05). The non-invasive technique of IPM demonstrates dysfunction not only of the cranial parasympathetic, but also of the cranial sympathetic nervous system and, thus, further characterizes autonomic dysfunction in FD.

Evidence of an intrinsic sinus node abnormality in patients with postural tachycardia syndrome

OBJECTIVE

To determine whether an intrinsic sinus node abnormality is involved in the pathophysiology of the postural tachycardia syndrome (POTS). SUBJECTS, PATIENTS, AND METHODS: In this prospective study, we compared the relationship between P-wave axis (PWA) and heart rate (HR) in 11 healthy controls and 14 patients with POTS by obtaining 12-lead electrocardiographic recordings during supine rest and during gradual head-up tilt. The HR of controls was titrated with isoproterenol infusion to match the HR of patients. The PWA was compared at different HR levels, and the relationship between HR and PWA was assessed for patients and controls. Primary end points were the PWA-HR relationship in healthy controls, comparison of these data with data from patients with POTS as a group, and identification of a possible subgroup of patients with POTS with irregular PWA-HR relationship.

RESULTS

The PWA increased with increasing HR following a similar logarithmic trendline in both groups. The PWA of patients was significantly lower at the lowest comparable HR level but not different at faster HR levels. Three patients (21%) had a clearly abnormal HR-PWA relationship with substantial shift toward lower PWA.

CONCLUSIONS

Our data support the hypothesis of a primary sinus node abnormality in a subset of patients with POTS. The ability to identify patients with primary sinus node abnormality may have important therapeutic implications.

[Syncope - a systematic overview of classification, pathogenesis, diagnosis and management]

Syncope is defined as a temporary interruption of cerebral perfusion with a sudden and transient loss of consciousness and spontaneous recovery. Approximately one third of the population experiences syncope at least once during a lifetime. Presyncopal signs and symptoms, including weakness, headache, blurred vision, diaphoresis, nausea, and vomiting are sometimes present for seconds or minutes prior to loss of consciousness. After syncope, the patients may present with persisting drowsiness, headache, dizziness, nausea, but not usually confusion. Causes of syncope have been categorized as cardiovascular, non-cardiovascular, and unexplained. Cardiovascular causes can be subdivided into structural heart disease, coronary heart disease, and arrhythmia. Non-cardiovascular causes include neurological, metabolic, psychiatric and other disorders.Orthostatic hypotension - one of the most frequent causes of syncope - has manifold etiologies comprising various neurological and internal diseases. Orthostatic hypotension usually can be attributed to an impairment of peripheral vasoconstriction or to a reduction of the intravascular volume. Signs and symptoms, including the above prodromi are often present just after rising from a supine or sitting position. Frequently, blood pressure decreases significantly without an increase in heart rate. Autonomic cardiovascular modulation is often reduced. Many of the patients with "unexplained" syncope experience neurally mediated (i. e. neurocardiogenic or vasovagal) syncope. In these patients, cardiovascular control may be stable for an extended period of time during orthostatic stress, then there is a sudden decrease in blood pressure and heart rate. Neurocardiogenic or neurally mediated syncope can be associated with painful or emotionally stressful situations such as anxiety or fear, with prolonged standing or specific trigger situations such as micturition, defecation, coughing or sneezing, visceral or carotid sinus stimulation, or with trigeminal or glossopharyngeal neuralgia. So far, the mechanisms of neurocardiogenic syncope are not completely understood. The passive 60 degrees to 70 degrees head-up tilt test is useful for the diagnosis of orthostatic and neurally mediated syncope. The sensitivity of the test can be improved by additional pharmacological provocation, e. g. by isoproterenol, or by increased orthostatic stress using lower body negative pressure stimulation. For the treatment of syncope one should first consider non-pharmacological options. Patients with orthostatic hypotension should avoid rapid changes of the body position from supine to standing, as well as high room temperature or other situations inducing peripheral vasodilatation. An increased intake of sodium and fluids, mild physical exercise or so-called postural counter-maneuvers can improve orthostatic tolerance. Among the drugs recommended for pharmacologic treatment are mineralocorticoids (e. g. fludrocortisone), vasoconstrictor agents (e. g. ephedrine, midodrine), adenosine receptor blockers (theophylline) and beta2-blockers (propanolol), anticholinergic agents, e. g. scopolamine or disopyramide, and negative cardiac inotropes, e. g. beta1-adrenergic blockers or disopyramide. Serotonin reuptake inhibitors (e. g. fluoxetine, sertraline), alpha2-adrenergic agonists (clonidine), central nervous system stimulants such as methylphenidate or phentermine are thought to be beneficial in specific cases. Cardiac pacemakers often seem to be recommended without adequate indication. The antidiuretic, V2-receptor specific, vasopressin analogue desmopressin increases the intravascular volume. Erythropoietin improves anemia and red blood cell decrease and augments blood pressure and cerebral oxygenation. In postprandial hypotension, octreotide, a somatostatin analogue, prostaglandin inhibitors such as indomethacin or ibuprofen, as well as metoclopramide or two cups of coffee per day might be beneficial.

Vascular and neural mechanisms of ACh-mediated vasodilation in the forearm cutaneous microcirculation

The relative contribution of endothelial vasodilating factors to acetylcholine (ACh)-mediated vasodilation in the forearm cutaneous microcirculation is unclear. The aims of this study were to investigate the contributions of prostanoids and cutaneous C fibers to basal cutaneous blood flow (CuBF) and ACh-mediated vasodilation. ACh was iontophoresed into the forearm, and cutaneous perfusion was measured by laser-Doppler flowmetry. To inhibit the production of prostanoids, four doses of acetylsalicylic acid (ASA; 81, 648, 972, and 1,944 mg) were administered orally. Cutaneous nerve fibers were blocked with topical anesthesia. Cyclooxygenase inhibition did not change basal CuBF or endothelium-mediated vasodilation to ACh. In contrast, ASA (972 and 1,944 mg) significantly reduced the C-fiber-mediated axon reflex in a dose-dependent fashion. Blockade of C-fiber function significantly reduced axon reflex-mediated vasodilation but did not affect basal CuBF or endothelium-dependent vasodilation. The findings suggest that prostanoids do not contribute significantly to basal CuBF or endothelium-dependent vasodilation in the forearm microcirculation. In contrast, prostanoids are mediators of the ACh-provoked axon reflex.