Levodopa-induced dyskinesia in Parkinson disease: Sleep matters.

OBJECTIVE: The spectrum of clinical symptom changes during the course of Parkinson disease (PD). Levodopa therapy, while offering remarkable control of classical motor symptoms, causes abnormal involuntary movements as the disease progresses. This levodopa-induced dyskinesia (LID) has been associated with abnormal cortical plasticity. Because slow wave activity (SWA) of nonrapid eye movement (NREM) sleep underlies adjustment of cortical excitability, we sought to elucidate the relationship between this physiological process and LID. METHODS: Thirty-six patients at different stages of PD underwent whole-night video polysomnography-high-density electroencephalography (vPSG-hdEEG), preceded by 1 week of actigraphy. To represent the broad spectrum of the disease, patients were divided into 3 groups by disease stage-(1) de novo (n = 9), (2) advanced (n = 13), and (3) dyskinetic (DYS; n = 14)-were compared to an age-matched control group (n = 12). The SWA-NREM content of the vPSG-hdEEG was then temporally divided into 10 equal parts, from T1 to T10, and power and source analyses were performed. T2-T3-T4 were considered early sleep and were compared to T7-T8-T9, representing late sleep. RESULTS: We found that all groups, except the DYS group, manifested a clear-cut SWA decrease between early and late sleep. INTERPRETATION: Our data demonstrate a strong pathophysiological association between sleep and PD. Given that SWA may be a surrogate for synaptic strength, our data suggest that DYS patients do not have adequate synaptic downscaling. Further analysis is needed to determine the effect of drugs that can enhance cortical SWA in LID. Ann Neurol 2018;84:905-917.

Acylated and unacylated ghrelin confer neuroprotection to mesencephalic neurons.

The polypeptide ghrelin is an endogenous ligand at the growth hormone secretagogue receptor 1a. To ghrelin multiple functions have been ascribed including promotion of gastrointestinal motility. Postprandial ghrelin levels have been reported to be reduced in patients suffering from Parkinson disease (PD). Experimental studies revealed neuroprotective effects of ghrelin in different PD models. The purpose of the present study was (i) to further elucidate the mechanism underlying the neuroprotective action of ghrelin and (ii) to determine whether these effects occur with both the acylated and the unacylated form. The study was conducted in primary mesencephalic cultures treated with mitochondrial complex I and complex II inhibitors. We show that protective effects of ghrelin against complex I inhibition with MPP+ were independent of the acylation status of ghrelin, although acylated ghrelin appeared to be more potent. Protection by both forms was also observed when neurons were exposed to the complex II inhibitor 3-NP. Both forms led to higher oxygen consumption rates upon electron transport chain uncoupling, indicating that the two peptides may exert uncoupling effects themselves. We demonstrate that the rescue provided by ghrelin required calcium influx through L-type voltage-gated calcium channels. Whereas the protective effects of acylated ghrelin required receptor binding, effects of the unacylated form remained unaffected by treatment with a ghrelin receptor antagonist. Importantly, inhibition of ghrelin O-acyltransferase failed to reduce the activity of unacylated ghrelin. Overall, our data suggest that both acylated and unacylated ghrelin afford protection to dopamine neurons but through mechanisms that only partially overlap.

Is increased spinal nociception another hallmark for Parkinson's disease?

Augmented spinal nociception during the "off" phase has been observed early in Parkinson's disease further increasing with disease duration. To find out whether increased spinal nociception represents a premotor feature, experimental pain sensitivity was assessed in idiopathic REM-sleep behavior disorder (IRBD) patients with or without signs of a neurodegenerative disorder compared to early Parkinson's disease (ePD) patients and healthy controls (HC). Spinal nociception as measured by the nociceptive flexion reflex (NFR) and experimental pain sensitivity as measured by heat and electrical pain thresholds were determined in 14 IRBD, 15 ePD patients in the medication-defined "off" state and 27 HC in an explorative cohort study. No significant differences between IRBD and HC were found with regard to spinal nociception (NFR) and experimental pain sensitivity. However, IRBD patient with anosmia and/or abnormal DaTSCAN tended to increased experimental pain sensitivity. In contrast, early PD patients exhibited increased NFR responses compared to HC, and a tendency for increased spinal nociception compared to IRBD patients. Increased spinal nociception may represent an early but not a premotor, non-motor feature of PD. Whether increased pain sensitivity already presents a premotor feature should be assessed in further studies.

Distinct roles of cortical and pallidal ß and γ frequencies in hemiparkinsonian and dyskinetic rats.

Enhanced ß band (ßB) activity, which is suppressed by levodopa (LD) treatment, has been demonstrated within the basal ganglia (BG) of Parkinson's disease (PD) patients. However, some data suggest that Parkinsonian symptoms are not directly related to this brain frequency and therefore, its causative role remains questionable. A less explored phenomenon is the link between the γ band (γB) and PD phenomenology. Here, we monitored the development of the oscillatory activity during chronic LD depletion and LD treatment in Parkinsonian and levodopa-induced dyskinesia (LID) in rats. We found a significant and bilateral power increase in the high ßB frequencies (20-30 Hz) within the first 10 days after 6-hydroxydopamine (6-OHDA) lesion, which was in accordance with a significant depletion of dopaminergic fibers in the striatum. We also observed a clear-cut γB increase during LD treatment. The development of LID was characterized by a slight increase in the cumulative power of ßB accompanied by a large augmentation in the γB frequency (60-80 Hz). This latter effect reached a plateau in the frontal cortex bilaterally and the left globus pallidus after the second week of LD treatment. Our data suggest that the ßB parallels the emergence of Parkinsonian signs and can be taken as a predictive sign of DA depletion, matching TH-staining reduction. On the other hand, the γB is strictly correlated to the development of LID. LD treatment had an opposite effect on ßB and γB, respectively.

Evidence of an association between sleep and levodopa-induced dyskinesia in an animal model of Parkinson's disease.

Levodopa-induced dyskinesia (LID) represents a major challenge for clinicians treating patients affected by Parkinson's disease (PD). Although levodopa is the most effective treatment for PD, the remodeling effects induced by disease progression and the pharmacologic treatment itself cause a narrowing of the therapeutic window because of the development of LID. Although animal models of PD provide strong evidence that striatal plasticity underlies the development of dyskinetic movements, the pathogenesis of LID is not entirely understood. In recent years, slow homeostatic adjustment of intrinsic excitability occurring during sleep has been considered fundamental for network stabilization by gradually modifying plasticity thresholds. So far, how sleep affects on LID has not been investigated. Therefore, we measured synaptic downscaling across sleep episodes in a parkinsonian animal model showing dyskinetic movements similar to LID. Our electrophysiological, molecular, and behavioral results are consistent with an impaired synaptic homeostasis during sleep in animals showing dyskinesia. Accordingly, sleep deprivation causes an anticipation and worsening of LID supporting a link between sleep and the development of LID.

Acute nigro-striatal blockade alters cortico-striatal encoding: an in vivo electrophysiological study.

Spreading of slow cortical rhythms into the basal ganglia (BG) is a relatively well-demonstrated phenomenon in the Parkinsonian state, both in humans and animals. Accordingly, striatal dopamine (DA) depletion, either acute or chronic, drives cortical-globus pallidus (GP) and cortical-substantia nigra pars reticulata (SNr) slow wave coherences in urethane-anesthetized rats. This paper investigates the striatal dynamics following acute DA depletion by tetrodotoxin (TTX) injection in the medial forebrain bundle (MFB) with respect to the transmission of slow cortical rhythms throughout the BG in more detail. The acute DA depletion offers the advantage of detecting electrophysiological changes irrespectively of chronically developing compensatory mechanisms. We observed that the acute blockade of the dopaminergic nigro-striatal pathway reshapes the firing rate and pattern of the different striatal neuron subtypes according to cortical activity, possibly reflecting a remodeled intrastriatal network. The observed alterations differ amongst striatal neuronal subtypes with the striatal medium spiny neurons and fast-spiking neurons being the most affected, while the tonically active neurons seem to be less affected. These acute changes might contribute to the diffusion of cortical activity to BG and the pathophysiology of Parkinson's disease (PD).

Unimpaired postprandial pancreatic polypeptide secretion in Parkinson's disease and REM sleep behavior disorder.

BACKGROUND: Pancreatic polypeptide is released immediately after food ingestion. The release is operated by vagal-abdominal projections and has therefore been suggested as a test for vagal nerve integrity. Pathoanatomical and clinical studies indicate vagal dysfunction in early Parkinson's disease (PD). METHODS: We assessed the postprandial secretion of pancreatic polypeptide and motilin in healthy controls (n = 18) and patients with idiopathic rapid-eye-movement sleep behavior disorder (iRBD, n = 10), a potential premotor stage of PD, as well as in drug-naive (n = 19) and treated (n = 19) PD patients. RESULTS: The postprandial pancreatic polypeptide secretion showed a physiological pattern in all groups and even an enhanced response in drug-naive PD and iRBD. Motilin concentrations correlated with pancreatic polypeptide concentrations. CONCLUSIONS: Postprandial pancreatic polypeptide secretion is not a suitable test for vagal nerve integrity in PD. The unimpaired pancreatic polypeptide response in iRBD and PD might be explained by partially intact vagal-abdominal projections or compensatory mechanisms substituting a defective neuronal brain-gut axis.

Clinical pain and experimental pain sensitivity in progressive supranuclear palsy.

OBJECTIVE: We aimed to assess spinal nociception and experimental pain sensitivity in progressive supranuclear palsy-Richardson's syndrome (PSP-R) compared to patients with Parkinson's disease (PD) and healthy controls (HC). METHODS: Spinal nociception as measured by the nociceptive flexion reflex (NFR) and experimental pain sensitivity as measured by heat and electrical pain thresholds were determined in non-demented, non-depressed, probable PSP-R patients (N = 8), PD patients (N = 19) and 17 HC. RESULTS: PSP-R patients exhibited lower electrical pain thresholds and a tendency for lower NFR thresholds as compared to HC. No significant differences between PSP-R and PD patients were found with respect to experimentally-induced pain. However, significantly less PSP-R than PD patients reported disease-related pain. CONCLUSIONS: Degeneration of the descending inhibitory control system within the brainstem in PSP-R might lead to increased experimental pain sensitivity while frontal cortical deterioration may alter self-estimation of pain.

Patients with idiopathic rapid-eye-movement sleep behavior disorder show normal gastric motility assessed by the 13C-octanoate breath test.

BACKGROUND: Delayed gastric emptying is a non-motor symptom of Parkinson's disease. Few data exist on gastric emptying in early-stage Parkinson's disease. In idiopathic rapid-eye-movement sleep behavior disorder, a presumable pre-motor stage of Parkinson's disease, gastric emptying has not yet been investigated. METHODS: Twenty healthy controls, 13 patients with idiopathic rapid-eye-movement sleep behavior disorder, and 39 patients with Parkinson's disease patients underwent standardized testing for gastric emptying with the (13)C-octanoate breath test. RESULTS: Gastric emptying was significantly delayed in drug-naïve (P < .001) and in treated Parkinson's disease patients (P < .001), but normal in patients with idiopathic rapid-eye-movement sleep behavior disorder. CONCLUSIONS: Our study confirms delayed gastric emptying in drug-naïve, early-stage Parkinson's disease. Normal gastric emptying in idiopathic rapid-eye-movement sleep behavior disorder might be explained by the fact that neurodegenerative changes in structures modulating gastric motility are not severe enough to cause a functional deficit that can be detected by the (13)C-octanoate breath test.

Pain sensitivity and clinical progression in Parkinson's disease.

Pain sensitivity in Parkinson's disease is known to be altered in an L-dopa-dependent manner with increased spinal nociception and experimental pain perception in the medication-defined "off" state. As Parkinson's disease-related pain can be an early symptom in Parkinson's disease, the present study aimed to investigate experimental pain sensitivity and spinal nociception during clinical progression. The nociceptive flexion reflex as a marker of spinal nociception as well as electrical and heat pain thresholds were assessed during the medication-defined "off" state in 29 patients with Parkinson's disease divided into 3 severity groups (according to their Unified Parkinson's Disease Rating Scale motor score) and compared with 27 healthy elderly subjects. Parkinson's disease-related pain was also quantified. Data provided evidence that spinal nociception and pain sensitivity are preserved during the early phase of Parkinson's disease. Following increased spinal nociception (F(1,36) = 6.838, P = .013), experimental thermal and electrical pain sensitivity were augmented during the course of Parkinson's disease (F(1,34) = 5.397, P = .014; F(1,34) = 6.038, P = 0.053), whereas spinal nociception further increased (F(1,34) = 5.397, P < .001). Increased experimental pain sensitivity was observed in patients exhibiting Parkinson's disease-related pain. Spinal alterations either on the local level or induced by diminished dopaminergic descending inhibition probably led to increased pain sensitivity in later stages. Because Parkinson's disease-related pain is correlated with experimental pain sensitivity these 2 observations likely reflect a causal relation.

Postprandial ghrelin response is reduced in patients with Parkinson's disease and idiopathic REM sleep behaviour disorder: a peripheral biomarker for early Parkinson's disease?

Ghrelin, an orexigenic peptide, has multiple functions, which include promoting gastrointestinal motility and influencing higher brain functions. Experimental data suggest that ghrelin has neuroprotective potential in the MPTP mouse model of Parkinson's disease (PD). PD patients show delayed gastric emptying and other symptoms that may relate to disturbed excretion of ghrelin. No data are available on postprandial ghrelin response in patients with PD and idiopathic REM sleep behaviour disorder (iRBD)--a condition considered a putative preclinical stage of PD. We measured fasting and postprandial ghrelin serum concentrations in 20 healthy controls, 39 (including 19 drug-naïve) PD patients and 11 iRBD patients using a commercial radioimmunoassay for total ghrelin. For statistical analysis we employed ANCOVA and post-hoc testing with Bonferroni's method. Controls showed a decrease of mean fasting ghrelin serum concentrations in the early postprandial phase, followed by a recuperation starting 60 min after the test meal and reaching a maximum at 300 min. This recuperation was less pronounced in PD and iRBD; the slope of relative postprandial ghrelin recovery was different between the investigated groups (p = 0.007). Post-hoc testing showed a difference between controls and PD patients (p = 0.002) and between controls and iRBD patients (p = 0.037). The dynamic regulation of ghrelin in response to food intake is partially impaired in subjects at putative preclinical (iRBD) and clinical stages of PD. Reduced ghrelin excretion might increase the vulnerability of nigrostriatal dopaminergic neurons as suggested by animal studies. The impaired ghrelin excretion might qualify as a peripheral biomarker and be of diagnostic or therapeutic value.

Diffusion tensor imaging in idiopathic REM sleep behavior disorder reveals microstructural changes in the brainstem, substantia nigra, olfactory region, and other brain regions.

STUDY OBJECTIVES: Idiopathic rapid eye movement sleep behavior disorder (iRBD)--a parasomnia characterized by dream enactments--is a risk marker for the development of Parkinson disease (PD) and other alpha-synucleinopathies. The pathophysiology of iRBD is likely due to dysfunction of brainstem nuclei that regulate REM sleep. Diffusion tensor imaging (DTI) is a method for studying microstructural brain tissue integrity in vivo. We investigated whether DTI detects microstructural abnormalities in the brain of patients with iRBD--compared with age-matched control subjects--as an in vivo potential indicator for changes related to "preclinical (premotor)" neuropathology in PD. DESIGN: N/A. PATIENTS: Patients with iRBD (n = 12) and age-matched healthy control subjects (n = 12) were studied. INTERVENTIONS: At a 1.5T MRI maschine, whole-head DTI scans of fractional anisotropy, axial diffusivity (a potential marker of neuronal loss), and radial diffusivity (a potential marker of glial pathology) were analyzed using track-based spatial statistics, and 2 types of group analysis tools (FreeSurfer and FSL). MEASUREMENTS AND RESULTS: We found significant microstructural changes in the white matter of the brainstem (P < 0.0001), the right substantia nigra, the olfactory region, the left temporal lobe, the fornix, the internal capsule, the corona radiata, and the right visual stream of the patients with iRBD. CONCLUSIONS: Changes were identified in regions known to be involved in REM-sleep regulation and/or to exhibit neurodegenerative pathology in iRBD and/or early PD. The study findings suggest that iRBD-related microstructural abnormalities can be detected in vivo with DTI, a widely available MRI technique.

Real-time visualization of altered gastric motility by magnetic resonance imaging in patients with Parkinson's disease.

Gastrointestinal motility is frequently affected in Parkinson's disease (PD) and has even been reported in early stages of PD. We hypothesized that gastric motility can be assessed in vivo by real-time magnetic resonance imaging (MRI), an established, noninvasive method. After an overnight fast and a standardized test meal, 10 patients with PD (six drug naïve, four treated) and 10 healthy volunteers underwent real-time MRI scanning of the stomach. Gastric motility was quantified by calculating the gastric motility indices (GMI) from transversal oblique und sagittal oblique MRI scans. There was a trend toward a decreased gastric motility in patients with PD compared with healthy controls (Mann-Whitney test, P 0.059). This difference in peristalsis was due to a significant reduction in the amplitude of peristaltic contractions (P 0.029) and not to a decelerated velocity of the peristaltic waves (P 0.97). Real-time MRI allows direct visualization of gastric motility in PD. In this pilot study, a relatively high interindividual variability impaired accurate separation of our PD sample from healthy controls. The trend toward decreased gastric motility is in accordance with previous studies that investigated gastric motility in patients with PD using other methods. Our study provides first demonstration of a possible underlying mechanism for disturbed gastric motility in PD (reduced amplitude of contractions versus altered velocity of peristaltic waves). Further studies in drug-naïve PD patients are required to determine the discriminatory power and validity of this technique in PD.

Transcranial midbrain sonography in narcoleptic subjects with and without concomitant REM sleep behaviour disorder.

Substantia nigra (SN) hyperechogenicity--a sonographic vulnerability marker for Parkinson's disease (PD)--has been recently described in patients with idiopathic REM sleep behaviour disorder (RBD). It is not known whether subjects with narcolepsy (who frequently have associated RBD) also show SN hyperechogenicity. The aim of this study was to (1) evaluate SN echogenicity in narcolepsy and (2) determine whether transcranial sonography (TCS) differs in narcoleptic subjects with and without RBD. A total of 16 patients with narcolepsy-cataplexy (7 had a concomitant, video-polysomnographically based diagnosis of RBD) were examined with TCS by two investigators blinded to the clinical data. The size of the SN echogenic area in both subgroups was within the range previously described for healthy subjects. The brainstem raphe, however, was reduced in five of seven narcoleptic subjects with RBD, whereas only two of nine narcoleptic subjects without RBD exhibited this TCS finding. We conclude that evaluation of SN echogenicity does not discriminate between both subgroups. The absence of SN hyperechogenicity in narcoleptic patients with RBD supports the hypothesis that SN hyperechogenicity in patients with presumed idiopathic RBD is an additional risk marker for subsequent evolvement of PD rather than an RBD-immanent finding. Reduced echogenicity of the brainstem raphe might indicate an involvement of the serotonergic system in narcoleptic subjects with RBD.

Serum concentrations of s100b and NSE in migraine.

BACKGROUND: The protein s100b indicates astrocytal damage as well as dysfunction of the blood-brain barrier (BBB), and neuron-specific enolase (NSE) is regarded as a marker for neuronal cell loss. Recently, s100b was shown to be a potentially useful marker for migraine in children. In this study, we investigated the levels of s100b and NSE in adult migraineurs during and after migraine attacks in order to gain some more insight into migraine pathophysiology. METHODS: Serum levels of s100b and NSE were measured in 21 migraineurs and compared with 21 healthy subjects matched by sex and age. In migraineurs, blood samples were taken during a migraine attack and following a pain-free period of 2-4 days. RESULTS: During migraine attacks elevated s100b levels could be observed. Maximal concentrations were detected in the pain-free period after 2-4 days. Regarding NSE, serum levels were decreased slightly during and after migraine bouts. CONCLUSIONS: Our data suggest a prolonged disruption of BBB during and after migraine attacks. Other possible explanations concerning the detected serum levels of s100b and NSE will be discussed; however, neuronal cell death can be ruled out by the decreased serum concentrations of NSE. With regard to the results of the present study, further research is necessary to evaluate the role of s100b and NSE in migraine.

The DRD2 TaqIA polymorphism and demand of dopaminergic medication in Parkinson's disease.

Previous studies have demonstrated that the TaqIA polymorphism of the D2 dopamine receptor gene (DRD2) is associated with response to dopaminergic and antidopaminergic treatment in Parkinson's disease (PD) and schizophrenia, respectively. We tested whether the TaqIA genotype in PD is responsible for demand of dopaminergic medication, measured in total dopaminergic load per year of disease, in a large scale association study based on the gene bank of the German Competence Network on Parkinson's disease. Regression analysis yielded no significant differences between the TaqIA genotypes. We conclude that the DRD2 TaqIA polymorphism alone has no pivotal role for interindividual variability of dopaminergic requirement in PD. We propose a practicable system of measuring dopaminergic treatment for future pharmacogenetic studies in PD.

Assessment of idiopathic rapid-eye-movement sleep behavior disorder by transcranial sonography, olfactory function test, and FP-CIT-SPECT.

Idiopathic rapid-eye-movement (REM) sleep behavior disorder (iRBD) has been suggested to be a risk factor for subsequent development of neurodegenerative disorders, especially Parkinson's disease (PD) and other alpha-synucleinopathies. At present, it is not possible to predict whether or not an iRBD patient will eventually develop PD. Here, we report 5 iRBD patients who underwent a test battery comprising a neurological examination (including UPDRS rating), mini mental state examination testing, transcranial sonography, olfactory function testing, and presynaptic dopamine transporter imaging with FP-CIT-SPECT. Our preliminary data show the diverse pattern of individual combinations of pathological findings when a multimodal assessment approach is applied in this patient group. Large-size longitudinal studies in iRBD patients are required to evaluate the usefulness of diagnostic tests to identify the subgroup of iRBD patients that is prone to develop PD.

Role of dopamine transporter SPECT for the practitioner and the general neurologist.

The accurate clinical diagnosis of parkinsonism may be impeded by atypical presentations and confounding comorbidity. The presence of parkinsonism is misdiagnosed in up to a quarter of cases in general practice. Movement disorder specialists misdiagnose parkinsonian syndromes using histopathological findings as the "gold standard" in up to 10% of cases. Dopamine transporter SPECT represents a simple and fast method to confirm nigrostriatal degeneration in a given patient. This study provides several case reports to illustrate when dopamine transporter SPECT might be carried out and discusses whether dopamine transporter SPECT should be used in primary health care practice or by general neurologists in uncertain cases. Ideally, all possible cases of parkinsonism should be referred to a neurologist experienced in the field of movement disorders. If this could be achieved then the role of dopamine transporter SPECT in the general practitioner's or local neurologist's practice would be extremely limited. Future studies must clarify whether it is cost effective to generously perform dopamine transporter SPECTs to minimize the time until parkinsonism can be diagnosed.

Evaluation of the performance of general emergency physicians in pediatric emergencies: Obstructive airway diseases, seizures, and trauma.

BACKGROUND: In the Lübeck region, as is usual in Germany, hospital-based emergency physicians are called for outside emergencies. They evaluate and stabilize patients and transfer them to hospital facilities of their choice (no emergency department system). These physicians are mainly anesthesiologists, surgeons, and internists-not pediatricians. Numerous quality management studies have shown an overall excellent performance of this system, but it has not been evaluated for pediatric emergencies. PATIENTS AND METHODS: In a prospective, observational study conducted over a 1-year period, all pediatric emergencies (patient age < 15 y) treated by the emergency physician service were studied. A syllabus with standards of care for children with trauma, obstructive airway disease, and seizures was distributed. In accordance with this syllabus, the actions taken were documented by the emergency physicians, and the cases were documented as life threatening or not and were classified as "trauma," "obstructive airway disease," "seizures," or "other" by the admitting pediatric intensivists and surgeons. The admitting attending physician compared these data and evaluated whether the standard management required by the syllabus was followed. RESULTS: A total of 422 pediatric cases out of 11,605 emergencies (3.5%) were recorded (147 [34.8%] trauma patients, 41 [9.7%] patients with obstructive airway disease, and 108 [25.6%] patients with seizures). Of the pediatric patients, 20.5% had life-threatening conditions; three children died before arrival, and the others required treatment in the intensive care unit. In 25% of trauma patients, deficiencies in primary treatment were observed: no documentation of neurologic status in 10.6%, no cervical immobilization in 15% of head trauma patients, and no adequate analgesia in 7%. In 25% of seizure patients, neurologic status was not documented, although treatment was in accordance with the standard of care. The worst results were observed in infants with obstructive airway disease: no documentation of oxygen saturation in 71.4%, no oxygen therapy despite hypoxemia in seven of 12 patients, and overall therapy not in accordance with the standard of care in 50%. CONCLUSIONS: The high quality of the emergency physician service documented for adults is not reproduced in the pediatric population. Trauma and seizures with similarities to adult cases are handled in a fair manner. However, the most important pediatric diagnostic entity of obstructive airway disease is often not treated adequately. Intensified educational programs for emergency physicians are warranted.