A 12-year-old girl with severe acute respiratory syndrome coronavirus 2 infection presented as phlegmasia cerulea dolens with venous gangrene. Emergent mechanical thrombectomy was complicated by a massive pulmonary embolism and cardiac arrest, for which extracorporeal cardiopulmonary resuscitation and therapeutic hypothermia were used. Staged ultrasound-assisted catheter-directed thrombolysis was used for treatment of bilateral pulmonary emboli and the extensive lower extremity deep vein thrombosis while the patient received extracorporeal membrane oxygenation support. We highlight the need for heightened suspicion for occult severe acute respiratory syndrome coronavirus 2 infection among children presenting with unusual thrombotic complications.
The determination of fluid responsiveness in the critically ill child is of vital importance, more so as fluid overload becomes increasingly associated with worse outcomes. Dynamic markers of volume responsiveness have shown some promise in the pediatric population, but more research is needed before they can be adopted for widespread use. Our aim was to investigate effectiveness of respiratory variation in peak aortic velocity and pulse pressure variation to predict fluid responsiveness, and determine their optimal cutoff values. We performed a prospective, observational study at a single tertiary care pediatric center. Twenty-one children with normal cardiorespiratory status undergoing general anesthesia for neurosurgery were enrolled. Respiratory variation in peak aortic velocity (ΔVpeak ao) was measured both before and after volume expansion using a bedside ultrasound device. Pulse pressure variation (PPV) value was obtained from the bedside monitor. All patients received a 10 ml/kg fluid bolus as volume expansion, and were qualified as responders if stroke volume increased >15% as a result. Utility of ΔVpeak ao and PPV and to predict responsiveness to volume expansion was investigated. A baseline ΔVpeak ao value of greater than or equal to 12.3% best predicted a positive response to volume expansion, with a sensitivity of 77%, specificity of 89% and area under receiver operating characteristic curve of 0.90. PPV failed to demonstrate utility in this patient population. Respiratory variation in peak aortic velocity is a promising marker for optimization of perioperative fluid therapy in the pediatric population and can be accurately measured using bedside ultrasonography. More research is needed to evaluate the lack of effectiveness of pulse pressure variation for this purpose.
We report findings on abdominal imaging in critically ill children admitted with MIS-C. On sonography, hepatomegaly, nephromegaly, gallbladder wall edema, ascites, intestinal inflammation and mesenteric lymphadenopathy were seen, while CT showed fluid-filled small bowel loops, mural thickening of the terminal ileum, diffuse lymphadenopathy, and moderate ascites.
The majority of pediatric intensivists are not in support of unilateral do-not-attempt resuscitation or withholding care against families' wishes for a variety of reasons. Given this understandable reluctance on the part of the physicians for enforcing decisions, providing unqualified support to families at this difficult time is imperative. Further research is needed to facilitate decision making that respects the moral integrity of families and physicians.
Objectives: To describe critically ill children's coagulation profile with the multisystem inflammatory syndrome (MIS-C) related to coronavirus. Study design: Single-center, observational study at a tertiary, pediatric intensive care unit (PICU) in children aged 1 month to 18 years. Measurements and main results: Sixteen children, with a median age of 5.4 years (interquartile range [IQR] 2.1, 11.75), 56% female, admission Pediatric Logistic Organ Dysfunction-2 (PELOD-2) score of 3.5 (IQR 2, 5), and median PICU length of stay 3 days (IQR 1.5, 4), met criteria of MIS-C. All patients received acetylsalicylic acid (80-100 mg/kg) and none received anticoagulation. Sixty-three percent (10/16) of children had out-of-normal range values on thromboelastography (TEG) (44% [7/16] with hypercoagulability and 19% [3/16] with hypocoagulability). Of those with hypercoagulability, 19% (3/16) had rapid clot formation, and 25% (4/16) had increased clot strength. In 69% (11/16) of children, there was impaired fibrinolysis (0% lysis at 30 minutes) on TEG. Seventy-five percent (12/16) of children had out-of-normal range value on standard coagulation assays (37.5% [6/16] with hypocoagulability and 37.5% [6/16] with hypercoagulability). TEG-G (clot strength as measured by TEG) value (ρ −.553, p = .033) and platelet count (ρ −.840, p < .0001) were correlated with admission PELOD-2 score. TEG-G value (ρ −.506, p = .04) and platelet count (ρ −.539, p = .03) were correlated with the duration of intensive care unit stay. Conclusions: Coagulation abnormalities are frequent in children with MIS-C. TEG parameter and platelet count are correlated with the severity of multiorgan dysfunction and the duration of intensive care stay. Multicenter studies are needed to confirm the clinical implications of these coagulation abnormalities.
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