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Session A1: Effects of Sluices on Migrating Elvers and Other Fish in a Dutch Salt Water / Fresh Water Gradient
Abstract
Many of the formerly gradual transitions between marine and freshwater habitats have been severely altered by man-made constructions. In the Netherlands, water managers are implementing numerous measures to decrease the negative effects of these barriers on fish migration (e.g. constructing fish passages). Adjusting sluice management to restore a salt water / fresh water gradient, however, is a novel way of accommodating fish migration. To effectively apply this measure, more knowledge is required on how fish migration is influenced by sluices.
At Spaarndam (the Netherlands), a complex of pumping stations and sluices separates salt water and fresh water. Within this complex, fish can either migrate into discharge channels towards pumping stations, or migrate into sluices and continue upstream. In spring 2014, we evaluated fish migration at the Spaarndam complex to determine where fish enter (i.e. into the sluices or discharge channels), and whether fish were able to pass the complex. A total of seventeen species were observed. The vast majority of individuals were juvenile Anguilla anguilla (elver). A marked difference within the complex was observed: when fresh water was discharged, the vast majority of elvers migrated towards the impassable pumping stations. Migrating elvers were almost absent in sluices. This was most likely due to the lack of an attraction flow at the sluices. In contrast, other species (e.g. pike-perch, bream and perch) used the sluices for migration utilizing openings in the sluice doors.
We conclude that the attraction flow at sluices in Spaarndam is too low to attract elvers, therefore effectively creating a barrier to migration.
Although effective for other fish species (e.g. pike-perch, bream and perch), adjusting sluice management is not effective for elvers. The creation of a continuous small attraction flow, in combination with the construction of a fish passage will be more effective for elvers
Reduced anticoagulation targets in extracorporeal life support (RATE):study protocol for a randomized controlled trial
BackgroundAlthough life-saving in selected patients, ECMO treatment still has high mortality which for a large part is due to treatment-related complications. A feared complication is ischemic stroke for which heparin is routinely administered for which the dosage is usually guided by activated partial thromboplastin time (aPTT).However, there is no relation between aPTT and the rare occurrence of ischemic stroke (1.2%), but there is a relation with the much more frequent occurrence of bleeding complications (55%) and blood transfusion. Both are strongly related to outcome.MethodsWe will conduct a three-arm non-inferiority randomized controlled trial, in adult patients treated with ECMO. Participants will be randomized between heparin administration with a target of 2–2.5 times baseline aPTT, 1.5–2 times baseline aPTT, or low molecular weight heparin guided by weight and renal function. Apart from anticoagulation targets, treatment will be according to standard care. The primary outcome parameter is a combined endpoint consisting of major bleeding including hemorrhagic stroke, severe thromboembolic complications including ischemic stroke, and mortality at 6 months.DiscussionWe hypothesize that with lower anticoagulation targets or anticoagulation with LMWH during ECMO therapy, patients will have fewer hemorrhagic complications without an increase in thromboembolic complication or a negative effect on their outcome. If our hypothesis is confirmed, this study could lead to a change in anticoagulation protocols and a better outcome for patients treated with ECMO.Trial registrationClinicalTrials.gov NCT04536272. Registered on 2 September 2020. Netherlands Trial Register NL796
Reduced anticoagulation targets in extracorporeal life support (RATE): study protocol for a randomized controlled trial
Background: Although life-saving in selected patients, ECMO treatment still has high mortality which for a large part is due to treatment-related complications. A feared complication is ischemic stroke for which heparin is routinely administered for which the dosage is usually guided by activated partial thromboplastin time (aPTT). However, there is no relation between aPTT and the rare occurrence of ischemic stroke (1.2%), but there is a relation with the much more frequent occurrence of bleeding complications (55%) and blood transfusion. Both are strongly related to outcome. Methods: We will conduct a three-arm non-inferiority randomized controlled trial, in adult patients treated with ECMO. Participants will be randomized between heparin administration with a target of 2–2.5 times baseline aPTT, 1.5–2 times baseline aPTT, or low molecular weight heparin guided by weight and renal function. Apart from anticoagulation targets, treatment will be according to standard care. The primary outcome parameter is a combined endpoint consisting of major bleeding including hemorrhagic stroke, severe thromboembolic complications including ischemic stroke, and mortality at 6 months. Discussion: We hypothesize that with lower anticoagulation targets or anticoagulation with LMWH during ECMO therapy, patients will have fewer hemorrhagic complications without an increase in thromboembolic complication or a negative effect on their outcome. If our hypothesis is confirmed, this study could lead to a change in anticoagulation protocols and a better outcome for patients treated with ECMO. Trial registration: ClinicalTrials.gov NCT04536272. Registered on 2 September 2020
Reduced anticoagulation targets in extracorporeal life support (RATE):study protocol for a randomized controlled trial
BackgroundAlthough life-saving in selected patients, ECMO treatment still has high mortality which for a large part is due to treatment-related complications. A feared complication is ischemic stroke for which heparin is routinely administered for which the dosage is usually guided by activated partial thromboplastin time (aPTT).However, there is no relation between aPTT and the rare occurrence of ischemic stroke (1.2%), but there is a relation with the much more frequent occurrence of bleeding complications (55%) and blood transfusion. Both are strongly related to outcome.MethodsWe will conduct a three-arm non-inferiority randomized controlled trial, in adult patients treated with ECMO. Participants will be randomized between heparin administration with a target of 2–2.5 times baseline aPTT, 1.5–2 times baseline aPTT, or low molecular weight heparin guided by weight and renal function. Apart from anticoagulation targets, treatment will be according to standard care. The primary outcome parameter is a combined endpoint consisting of major bleeding including hemorrhagic stroke, severe thromboembolic complications including ischemic stroke, and mortality at 6 months.DiscussionWe hypothesize that with lower anticoagulation targets or anticoagulation with LMWH during ECMO therapy, patients will have fewer hemorrhagic complications without an increase in thromboembolic complication or a negative effect on their outcome. If our hypothesis is confirmed, this study could lead to a change in anticoagulation protocols and a better outcome for patients treated with ECMO.Trial registrationClinicalTrials.gov NCT04536272. Registered on 2 September 2020. Netherlands Trial Register NL796
T-box transcription factor TBX3 reprogrammes mature cardiac myocytes into pacemaker-like cells.
Item does not contain fulltextAIM: Treatment of disorders of the sinus node or the atrioventricular node requires insights into the molecular mechanisms of development and homoeostasis of these pacemaker tissues. In the developing heart, transcription factor TBX3 is required for pacemaker and conduction system development. Here, we explore the role of TBX3 in the adult heart and investigate whether TBX3 is able to reprogramme terminally differentiated working cardiomyocytes into pacemaker cells. METHODS AND RESULTS: TBX3 expression was ectopically induced in cardiomyocytes of adult transgenic mice using tamoxifen. Expression analysis revealed an efficient switch from the working myocardial expression profile to that of the pacemaker myocardium. This included suppression of genes encoding gap junction subunits (Cx40, Cx43), the cardiac Na(+) channel (Na(V)1.5; I(Na)), and inwardly rectifying K(+) ion channels (K(ir) genes; I(K1)). Concordantly, we observed conduction slowing in these hearts and reductions in I(Na) and I(K1) in cardiomyocytes isolated from these hearts. The reduction in I(K1) resulted in a more depolarized maximum diastolic potential, thus enabling spontaneous diastolic depolarization. Neither ectopic pacemaker activity nor pacemaker current I(f) was observed. Lentiviral expression of TBX3 in ventricular cardiomyocytes resulted in conduction slowing and development of heterogeneous phenotypes, including depolarized and spontaneously active cardiomyocytes. CONCLUSIONS: TBX3 reprogrammes terminally differentiated working cardiomyocytes and induces important pacemaker properties. The ability of TBX3 to reduce intercellular coupling to overcome current-to-load mismatch and the ability to reduce I(K1) density to enable diastolic depolarization are promising TBX3 characteristics that may facilitate biological pacemaker formation strategies