During extracorporeal membrane oxygenation (ECMO), a delicate balance is required to titrate systemic anticoagulation to prevent thrombotic complications within the circuit and prevent bleeding in the patient. Despite focused efforts to achieve this balance, the frequency of both thrombotic and bleeding events remains high. Anticoagulation is complicated to manage in this population due to the complexities of the hemostatic system that are compounded by age-related developmental hemostatic changes, variable effects of the etiology of critical illness on hemostasis, and blood-circuit interaction. Lack of high-quality data to guide anticoagulation management in ECMO patients results in marked practice variability among centers. One aspect of anticoagulation therapy that is particularly challenging is the use of antithrombin (AT) supplementation for heparin resistance. This is especially controversial in the neonatal and pediatric population due to the baseline higher risk of bleeding in this cohort. The indication for AT supplementation is further compounded by the potential inaccuracy of the diagnosis of heparin resistance based on the standard laboratory parameters used to assess heparin effect. With concerns regarding the adverse impact of bleeding and thrombosis, clinicians and institutions are faced with making difficult, real-time decisions aimed at optimizing anticoagulation in this setting. In this clinically focused review, the authors discuss the complexities of anticoagulation monitoring and therapeutic intervention for patients on ECMO and examine the challenges surrounding AT supplementation given both the historical and current perspectives summarized in the literature on these topics.
We conclude that 2009 influenza A (H1N1) can cause significant acute and residual neurologic sequelae. Clinicians should consider Influenza within a comprehensive differential diagnosis in children with unexplained mental status changes during periods of pandemic influenza.
Our experience shows that long-term extracorporeal mechanical circulatory support of patients with underlying single-ventricle physiology after stage 1 palliation is feasible utilizing our technique. This approach overcomes several major challenges encountered in these patients, such as high flow requirement and stability of the cannulae, and allows extubation, rehabilitation, and at times, myocardial recovery.
Increased autophagy/mitophagy is thought to contribute to cerebellar dysfunction in Purkinje cell degeneration mice. Intriguingly, cerebellar Purkinje cells are highly vulnerable to hypoxia-ischemia (HI), related at least in part to their high metabolic activity. Whether or not excessive or supraphysiologic autophagy plays a role in Purkinje cell susceptibility to HI is unknown. Accordingly, we evaluated the role of autophagy in the cerebellum after global ischemia produced by asphyxial cardiac arrest in postnatal day (PND) 16–18 rats, using siRNA-targeted inhibition of Atg7, necessary for microtubule-associated protein light chain 3-II (LC3-II) and Atg12-Atg5 complex formation. Two days before a 9 min asphyxial cardiac arrest or sham surgery, Atg7 or control siRNA was injected intracisternally to target the cerebellum. Treatment with Atg7 siRNA: 1) reduced Atg7 protein expression in the cerebellum by 56%; 2) prevented the typical ischemia-induced formation of LC3-II in the cerebellum 24 h after asphyxial cardiac arrest; 3) improved performance on the beam-balance apparatus on days 1–5; and 4) increased calbindin-labeled Purkinje cell survival assessed on day 14. Improved Purkinje cell survival was more consistent in female vs. male rats, and improved beam-balance performance was only seen in female rats. Similar responses to Atg7 siRNA i.e. reduced autophagy and neurodegeneration vs. control siRNA were seen when exposing sex-segregated green fluorescent protein-LC3 tagged mouse primary cortical neurons to oxygen glucose deprivation in vitro. Thus, inhibition of autophagy after global ischemia in PND 16–18 rats leads to increased survival of Purkinje cells and improved motor performance in a sex-dependent manner.
Conclusions: TEG-PM ADP may provide more clinically relevant information regarding platelet function compared to the MEIA at the ADP receptor in children requiring cardiopulmonary bypass. There was limited correlation between TEG-PM and MEIA results which raises a concern about the accuracy of these tests at the ADP receptor. Lower pre-operative TEG-PM ADP MA may predict intra-operative platelet transfusions; however, larger studies are needed to determine the utility of TEG-PM and MEIA in guiding platelet transfusions in this population.
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