There are about 6915 clinical studies being (or have been) conducted in Austria. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
Veno-arterial (VA) extracorporal membrane oxygenation (ECMO) is an increasingly applied method in patients under cardiopulmonary resuscitation (CPR), who are regularly examined with a contrast-enhanced computed tomography to search for the underlying pathology as well as complications from the implantation of the ECMO system or CPR. The extraordinary hemodynamic situation due to VA-cannulation with antegrade and retrograde perfusion is a challenge to the diagnostically required simultaneous opacification of pulmonary and systemic arterial vessels. Evidence regarding the effect of ECMO flow rate, cannula position, cardiac function and contrast agent injection site is scarce and to the best of the authors' knowledge, no standardized scan protocol for this patient collective exists. In this study, all adult emergency department patients at our institution with femoro-femoral VA-ECMO and ongoing or recent cardiopulmonary resuscitation, who are referred to a clinically indicated CT scan in this context, will be included, aiming for a total of n=50 patients. The first 25 consecutive patients will be assigned to the intervention cohort. For these patients the ECMO flow rate is reduced by a maximum of 50% of initial flow, but to no less than 1,5 liter/min, for the duration of the CT scan (max. 1-2 minutes), given the hemodynamic and respiratory situation allows it. The following 25 consecutive patients will be assigned to the control cohort for whom ECMO flow rate is not reduced. Clinical data (e.g. ECMO flow rate, ventilation parameters, cardiac function, venous line for contrast injection) at the time of imaging will be documented via a standardized data sheet. The applied CT protocol routinely comprises a non-contrast-enhanced cranial CT (CCT), CT angiography (CTA) of the aorta as well as a portal-venous phase of the chest and abdomen. Complementary scans will be performed as clinically indicated. The aim of this single-center prospective cohort study is to evaluate the performance of an optimized CT protocol for this patient cohort and whether a reduction of ECMO flow rate improves contrast enhancement of critically relevant vessels in these CT examinations in comparison to a non-reduction cohort.
Ophthalmic topical antibiotics are commonly prescribed in clinical practice for several indications such as bacterial conjunctivitis, keratitis, blepharitis, dacryocystitis and also as prophylaxis. Aminoglycosides (i.e. gentamicin) and fluoroquinolones (i.e. ciprofloxacin) are among the most frequently used substance classes. There is evidence that topical non-antibiotic eye drops might have an effect on the nasopharyngeal mucosal flora. This seems logical due to the anatomical connection through the nasolacrimal duct and the fact that up to 80% of topically administered drug diffuse into the systemic circulation through the highly vascularized nasopharyngeal mucosa. However, in the literature no data on the effect of antibiotic eye drops on the nasal or pharyngeal microbiome are currently available. Recently, new, non-culture based techniques for assessment of the bacterial microbiome have been developed, so-called "next-generation sequencing" (NGS). NGS utilizes universal primers targeting the 16S rRNA gene, which is ubiquitous across most bacteria. With this technique, it is possible to gain information about a wide range of the bacterial microbiome and not only on pre-selected species. In the present study, NGS will be used to investigate the effect of antibiotic eye drops on the nasal and pharyngeal microbiome. For this purpose, healthy subjects will be randomized to either receive eye drops containing gentamicin, ciprofloxacin or topical lubricants as control. As secondary outcome, prevalence of bacterial resistance genes, as well as signs and symptoms of ocular surface damage will be assessed. The study will be carried out in 2 parts. Since both formulations of topical antibiotics contain benzalkonium chloride which also has a potential effect on the nasal and pharyngeal mucosal flora, it is unknown how much benzalkonium chloride would contribute to changes in the nasal microbiome after administration of topical antibiotics. To overcome this problem, first a pilot study in 20 subjects will be performed in which subjects will be randomized to receive either eye drops containing gentamicin, ciprofloxacin, preservative-containing topical lubricants or preservative-free topical lubricants. Based on the results of this pilot study, the control for the main part of the study will be chosen, depending on the effect on the bacterial microbiome. The results of the pilot study could also provide useful data to adjust the sample size for the main study part. In the main study, 60 subjects will be randomized to receive gentamicin, ciprofloxacin or lubricant eye drops. The same examinations as described above will be performed after 1 week treatment as well as 1 week and 3 months after treatment.
The purpose of this study is to determine the safety, efficacy, and pharmacokinetics (PK) of etrasimod for the treatment of moderately to severely active ulcerative colitis in adolescents (≥ 12 years up to < 18 years of age). Participants who will complete the total 52-week treatment period will have the opportunity to continue in a Long-Term Extension (LTE) Period of up to 4 years (5 years after study enrollment), or until marketing authorization is obtained in the participant's country, whichever comes first.
The present non-interventional study on migraine prevention with monoclonal CGRP antibodies adresses questions concering safety, swichting from one CGRP mab to another, efficacy on auras in the real world setting.
This is an 18-month, multicenter, randomized, active-control, parallel-group Phase 3 study, in which participants will be randomized to venglustat versus standard of care therapy (agalsidase alfa, agalsidase beta, or migalastat) to evaluate the effect of venglustat on left ventricular mass index (LVMI) in adult participants with Fabry disease and left ventricular hypertrophy. - Study visits will take place approximately every 3 to 6 months - Participants who complete the randomized period may continue to the long-term extension (LTE) to receive venglustat for up to additional 34 months with the total study duration up to 4.4 years maximum.
Endovascular stroke treatment with mechanical thrombectomy (MT) has become the standard therapy for intracranial large vessel occlusion (LVO). The most serious MT-related complication is secondary intracranial hemorrhage (ICH) occurring in 20-25%. Post- recanalization hyperperfusion might be an important risk factor/mechanism of MT-related ICH. In pilot studies, bedside transcranial Duplex sonography (TCD) was identified as a promising screening tool for cerebral hyperperfusion predicting ICH - the hallmark feature of reperfusion injury. There is an unmet need to identify risk factors for ICH after MT as it relates to poor prognosis, no proven treatment is available, and it delays/prohibits usage of anticoagulants/-thrombotics necessary for preventing recurrent stroke. Main objectives: To explore the range and clinical impact of hemodynamic changes after MT as detected on bedside TCD. To assess whether patients with increased blood flow velocity in the recanalized middle cerebral artery (MCA) are at a higher risk to develop ICH / vasogenic brain edema (reperfusion injury) after MT. To investigate if the underlying mechanism is cerebral hyperperfusion (confirmed by perfusion MRI). To additionally study the role of blood biomarkers of blood-brain-barrier / endothelial dysfunction and neuroaxonal damage on reperfusion injury and short-term prognosis. Approach / methods: Prospective, longitudinal Austrian multicentre study conducted at three high-volume stroke centers (Graz, Innsbruck, Salzburg). The investigators will recruit consecutive stroke patients with anterior circulation L VO treated by MT. Immediately after MT, experienced sonographers will perform bedside TCD to determine MCA blood flow status, which will be repeated after 24-48h and on day 7. On day one after MT, brain MRI with perfusion serves to assess infarct size, secondary ICH, (vasogenic) brain edema and perfusion status. MRI will be centrally analyzed in the neuroimaging lab of Graz, blinded to clinical, laboratory and sonographic information. Blood samples for the analysis of biomarkers of endothelial (blood-brain barrier) dysfunction and neuroaxonal damage (neurofilament light) will be taken on day one and at three months post-MT. Neurological outcome will be rated according to the modified Rankin Scale at three months post-stroke.
To investigate whether the use of haemoadsorption (HA) on cardiopulmonary bypass during heart transplantation (HTX) has an effect on circulating cytokine levels for the first 120 hours after HTX and induces a decreased inflammatory response, increased anti-inflammatory response or immunosuppressive response. Additionally, the influence of HA on primary graft dysfunction, postoperative cerebral dysfunction, postoperative fluid accumulation, renal dysfunction, duration of mechanical ventilation, length of ICU-stay and 30-day mortality should be investigated
This study aims to investigate the efficacy and safety of depemokimab compared with mepolizumab in adults with relapsing or refractory EGPA receiving SoC therapy.
Clinical study to investigate the efficacy and safety of savolitinib in combination with osimertinib versus platinum-based doublet chemotherapy in participants with EGFR mutated, MET-overexpressed and/or amplified, locally advanced or metastatic NSCLC who have progressed on treatment with Osimertinib.
Increased intestinal permeability and dysbiosis have been causally associated with NAFLD and NASH progression. However, to date, there are no systematic studies, on the effect of bariatric-metabolic surgery on intestinal permeability and dysbiosis in the context of NAFLD development.