https://nova.newcastle.edu.au/vital/access/manager/Index ${session.getAttribute("locale")} 5 https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:14461 Wed 11 Apr 2018 16:21:58 AEST ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:14403 2 years) recruited to the Australian snakebite project with VICC (International Normalized Ratio [INR] > 3) were eligible. Patients were randomized 2 : 1 to receive FFP or no FFP. The primary outcome was the proportion with an INR of < 2 at 6 h after antivenom administration. Secondary outcomes included time from antivenom administration to discharge, adverse effects, major hemorrhage, and death. Results: Of 70 eligible patients, 65 consented to be randomized: 41 to FFP, and 24 to no FFP. Six hours after antivenom administration, more patients randomized to FFP had an INR of < 2 (30/41 [73%] vs. 6/24 [25%]; absolute difference, 48%; 95% confidence interval 23–73%; P = 0.0002). The median time from antivenom administration to discharge was similar (34 h, range 14–230 h vs. 39 h, range 14–321 h; P = 0.44). Seven patients developed systemic hypersensitivity reactions after antivenom administration – two mild and one severe (FFP arm), and three mild and one severe (no FFP). One serious adverse event (intracranial hemorrhage and death) occurred in an FFP patient with preexisting hypertension, who was hypertensive on admission, and developed a headache 6 h after FFP administration. Post hoc analysis showed that the median time from bite to FFP administration was significantly shorter for nonresponders to FFP than for responders (4.7 h, interquartile range [IQR] 4.2–6.7 h vs. 7.3 h, IQR 6.1–8 h; P = 0.002). Conclusions: FFP administration after antivenom administration results in more rapid restoration of clotting function in most patients, but no decrease in discharge time. Early FFP administration (< 6–8 h) post-bite is less likely to be effective.]]> Wed 11 Apr 2018 15:48:26 AEST ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:14376 12 and partial VICC, with only incomplete fibrinogen consumption, occurred in three patients. Systemic symptoms occurred in eight patients. Myotoxicity and neurotoxicity did not occur. H. stephensi venom was detected in all three H. stephensi envenomings (1.1, 44 and 81 ng/mL) for whom pre-antivenom blood samples were available, and not detected in one without envenoming. In two cases with post-antivenom blood samples, venom was not detected after tiger snake antivenom (TSAV) was given. In vitro binding studies demonstrated that TSAV concentrations of 50mU/mL are sufficient to bind the majority of free H. stephensi venom components at concentrations above those detected in envenomed patients (100 ng/mL). Eleven patients received antivenom, median dose 2 vials (Range: 1 to 5 vials), which was TSAV in all but one case, where polyvalent antivenom was used. Immediate hypersensitivity reactions occurred in six cases including one case of anaphylaxis. Envenoming by Hoplocephalus spp. causes VICC and systemic symptoms, making it clinically similar to brown snake (Pseudonaja spp.) envenoming. Based on in vitro studies reported here, patients may be treated with one vial of TSAV, although one vial of brown snake antivenom may also be sufficient.]]> Wed 11 Apr 2018 15:19:00 AEST ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:4914 20% was only 10%. In 55 patients with systemic effects, these improved in 58% after IV antivenom vs. 65% after IM antivenom (-8%; 95% CrI: -32% to +17%). Twenty-four hours after antivenom pain had improved in 84% in the IV group vs. 71% in the IM group (+13%; 95% CrI: -2% to +27%). A meta-analysis including data from a previous trial found no difference in the primary outcome between IV and IM administration. Discussion: The difference between IV and IM routes of administration of widow spider antivenom is, at best, small and does not justify routinely choosing one route over the other. Furthermore, antivenom may provide no benefit over placebo.]]> Sat 24 Mar 2018 10:14:08 AEDT ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:14407 Sat 24 Mar 2018 08:24:54 AEDT ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:10169 Sat 24 Mar 2018 08:12:31 AEDT ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:11219 3, and 18 with partial VICC. Serial citrated plasma samples were collected from 0.5 to 60 h post-bite. INR, activated partial thromboplastin time (aPTT), coagulation factors (F)I, II, V, VII, VIII, IX, X, von Willebrand factor antigen (VWF:Ag) and D-dimer concentrations were measured. Results: Complete VICC was characterized by near/total depletion of fibrinogen, FV and FVIII, with an INR and aPTT that exceeded the upper limits of detection, within 2 h of snakebite. Prothrombin levels never fell below 60% of normal, suggesting that the toxins were rapidly eliminated or inactivated and re-synthesis of clotting factors occurred irrespective of antivenom. Partial VICC caused limited depletion of fibrinogen and FV, and almost complete consumption of FVIII. Onset of VICC was more rapid with brown snake (Pseudonaja spp.) venom, which contains a group C prothrombin activator toxin, compared with the tiger snake group, which contains a group D prothrombin activator toxin and requires human FVa formation. Resolution of VICC occurred within 24-36 h irrespective of snake type. Conclusions: These results suggest that Australasian elapid prothrombin activators have a potent but short duration of action. Antivenom is unlikely to be administered in time to prevent VICC.]]> Sat 24 Mar 2018 08:11:13 AEDT ]]> https://nova.newcastle.edu.au/vital/access/manager/Repository/uon:11220 3, and 18 with partial VICC. Serial citrated plasma samples were collected from 0.5 to 60 h post-bite. INR, activated partial thromboplastin time (aPTT), coagulation factors (F)I, II, V, VII, VIII, IX, X, von Willebrand factor antigen (VWF:Ag) and D-dimer concentrations were measured. Results: Complete VICC was characterized by near/total depletion of fibrinogen, FV and FVIII, with an INR and aPTT that exceeded the upper limits of detection, within 2 h of snakebite. Prothrombin levels never fell below 60% of normal, suggesting that the toxins were rapidly eliminated or inactivated and re-synthesis of clotting factors occurred irrespective of antivenom. Partial VICC caused limited depletion of fibrinogen and FV, and almost complete consumption of FVIII. Onset of VICC was more rapid with brown snake (Pseudonaja spp.) venom, which contains a group C prothrombin activator toxin, compared with the tiger snake group, which contains a group D prothrombin activator toxin and requires human FVa formation. Resolution of VICC occurred within 24-36 h irrespective of snake type. Conclusions: These results suggest that Australasian elapid prothrombin activators have a potent but short duration of action. Antivenom is unlikely to be administered in time to prevent VICC.]]> Sat 24 Mar 2018 08:11:12 AEDT ]]>