Faculty Bibliography

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

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

We studied the post-ganglionic cardiac sympathetic innervation in patients with chronic temporal lobe epilepsy (TLE) by means of [(123)I]metaiodobenzylguanidine-single photon computed tomography (MIBG-SPECT) and evaluated the effects of carbamazepine on cardiac sympathetic innervation. TLE is frequently associated with dysfunction of the autonomic nervous system. Autonomic dysregulation might contribute to unexplained sudden death in epilepsy. Anticonvulsive medication, particularly with carbamazepine, might also influence autonomic cardiovascular modulation. MIBG-SPECT allows the quantification of post-ganglionic cardiac sympathetic innervation, whereas measuring the variability of the heart rate provides only functional parameters of autonomic modulation. Antiepileptic drugs, especially carbamazepine (CBZ), can affect cardiovascular modulation. We determined the index of cardiac MIBG uptake (heart/mediastinum ratio) and heart rate variability (HRV) using time and frequency domain parameters of sympathetic and parasympathetic modulation in 12 women and 10 men (median age 34.5 years) with a history of TLE for 7-41 years (median 20 years). Myocardial perfusion scintigrams were examined to rule out deficiencies of MIBG uptake due to myocardial ischaemia. To assess the possible effects of CBZ on autonomic function, we compared MIBG uptake and HRV in 11 patients who had taken CBZ and 11 patients who had not taken CBZ, and in 16 healthy controls. In order to identify MIBG uptake defects due to myocardial ischaemia, all patients had a perfusion scintigram. Cardiac MIBG uptake was significantly less in the TLE patients (1.75) than in the controls (2.14; P = 0.001), but did not differ between subgroups with and without CBZ treatment. The perfusion scintigram was normal in all patients. Time domain analysis of HRV parameters suggested the predominance of parasympathetic cardiac activity in the TLE patients, but less parasympathetic modulation in the patients treated with CBZ than in those not treated with CBZ (P < 0.05), whereas frequency domain parameters showed no significant difference between the subgroups of patients or between patients and controls. MIBG-SPECT demonstrates altered post-ganglionic cardiac sympathetic innervation. This dysfunction might carry an increased risk of cardiac abnormalities

Strokes have been known since ancient times. Today, stroke is the second most frequent cause of death and the most frequent cause of invalidity. In about 80% of cases, stroke is caused by cerebral ischemia and in about 20% by intracerebral hemorrhage, subarachnoidal hemorrhage, venous thrombosis and other cerebrovascular diseases. The brain is one of the most richly perfused tissues and depends fundamentally on the supply of oxygen and glucose. In order to assure adequate cerebral blood flow, the brain is capable of autoregulation through the interaction of diverse autoregulatory mechanisms (myogenic, neurogenic and metabolic factors, blood viscosity, renin-angiotensin-system and endothelium). Reduction of cerebral blood flow below the threshold of about 25 ml/100 g x min leads to an impairment of the functional metabolism and later to impairment of the structural metabolism. Pathophysiologically, a large number of isolated pathobiochemical processes (loss of energy, lactate acidosis, excitating amino acid release, ion balance disorders, calcium overload, free radical release, etc.) start to interfere with each other. Delayed edema and inflammation lead to secondary brain damage. Apoptosis is probably induced by ischemia and can cause secondary deterioration. The basic principles in the treatment of ischemia are firstly the rapid restoration of cerebral blood flow (lysis, carotid endarterectomy) and secondly--following infarction--a limitation of brain damage (preservation of ischemic but not necrotic brain tissue, prevention of secondary complications). Stroke treatment requires profound diagnostic and therapeutic expertise and interdisciplinary cooperation of neuroradiologists, neurosurgeons, vascular surgeons and cardiologists. Stroke can best be managed in special 'stroke units', which have now been established in nearly all parts of Germany. Beside acute management of stroke and neurological rehabilitative treatment, emphasis has to be laid on primary (public information, education, treatment of risk factors) and secondary prophylaxis (treatment with antiaggregants, anticoagulants, a. o.)

Erectile dysfunction (ED) in diabetes is multifactorial. So far, the impact of neuropathy has not been well determined. This study was performed to assess the frequency of abnormal neurophysiological tests in patients with ED due to diabetes compared to patients with ED due to nondiabetic neuropathies in order to estimate the contribution of neuropathy in diabetic ED. Forty-nine men with ED were studied. We classified ED as 'diabetic', 'neuropathic' or 'ED of other origin'. 26.6% of the men fulfilled the criteria of diabetic ED, 42.9% had neuropathic ED. In every patient history taking, a questionnaire focusing on autonomic symptoms other than ED, clinical examination, nerve conduction studies (NCS), sphincter ani electromyography (EMG), heart rate variability testing (HRV) and quantitative sensory testing (QST) was performed. Vascular function was assessed by the intracavernosal prostaglandin E1 (PGE1) injection test. The frequency of abnormal results in diabetic and neuropathic patients was compared. Vascular function was abnormal in only one patient with diabetic ED and three patients with neuropathic ED. Both groups had similar frequencies of autonomic symptoms other than ED (64% in diabetic vs. 64% in neuropathic patients), abnormal EMG (33% vs. 40%) and abnormal QST (vibratory perception 83% vs. 84%, cold perception 9% vs. 19%, warm perception 42% vs. 43%). Abnormal clinical findings (50% vs. 33%), NCS (75% vs. 50%) and HRV (39% vs. 25%) were slightly, but not significantly more frequent in men with diabetic ED than neuropathic ED. The tests indicating neuropathy showed abnormalities in men with diabetic ED as frequently as in men with neuropathic ED. Some tests even suggested neuropathy more often in diabetic than in neuropathic ED. The findings support the hypothesis that neuropathy contributes significantly to the pathophysiology of ED in diabetes mellitus

Diabetic autonomic neuropathy is the most frequent autonomic neuropathy in western countries. Diabetic autonomic neuropathy affects almost every organ. Among the most common symptoms are cardiovascular disturbances such as reduced heart rate variability and pathologic orthostatic reaction. The diagnosis of diabetic autonomic neuropathy is mainly based on the analysis of cardiovascular challenge maneuvers. The following article describes epidemiology, clinical findings, diagnosis, pathogenesis, therapeutic options and prognosis in diabetic autonomic neuropathy

In some patients with amyotrophic lateral sclerosis (ALS), T2-weighted and proton-density-weighted magnetic resonance imaging (MRI) shows hyperintense or hypointense signals at the corticospinal tract. Fluid-attenuated inversion recovery (FLAIR) sequences increase the sensitivity of MRI to detect cortical and subcortical tissue changes. In 31 ALS patients and 33 controls, we studied the frequency and the extent of signal abnormalities in FLAIR images compared to T2-, T1- and proton-density-weighted images. Hyperintense signals at the corticospinal tract were significantly more frequent in FLAIR images than in all other tested sequences. In FLAIR images of ALS patients only, distinct hyperintense signals at the subcortical precentral gyrus (five patients), the centrum semiovale (eight patients), the crus cerebri (nine patients) and the pons (four patients) as well as mild hyperintense signals in the medulla oblongata (three patients) were seen. More frequently, but not exclusively in ALS patients, FLAIR images showed mild hyperintense signals at the subcortical precentral gyrus (15 patients vs. 1 control). Quantitative analysis confirmed the significant difference between ALS patients and controls at the subcortical precentral gyrus in FLAIR images. In T1-weighted images, the corticospinal tract at the capsula interna was hypointense in significantly more controls than ALS patients. Also this difference was confirmed in the quantitative analysis. Similar to previous results, MR image alterations did correlate poorly to clinical data of upper motor neuron affliction.MR images of the head, including FLAIR images, provide additional information regarding corticospinal tract involvement in ALS patients. Because of an overlap with physiological findings, they have to be interpreted cautiously, with the exception of hyperintense signals at the subcortical precentral gyrus