Medicine
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This repository contains the published and unpublished research of the Faculty of Medicine by the staff members of the faculty
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Item Early identification of acute kidney injury in Russell's viper (Daboia russelii) envenoming using renal biomarkers(Public Library of Science, 2019) Ratnayake, I.; Mohamed, F.; Buckley, N.A.; Gawarammana, I.B.; Dissanayake, D.M.; Chathuranga, U.; Munasinghe, M.; Maduwage, K.; Jayamanne, S.; Endre, Z.H.; Isbister, G.K.BACKGROUND: Acute kidney injury (AKI) is a major complication of snake envenoming, but early diagnosis remains problematic. We aimed to investigate the time course of novel renal biomarkers in AKI following Russell's viper (Daboia russelii) bites. METHODOLOGY/PRINCIPAL FINDINGS: We recruited a cohort of patients with definite Russell's viper envenoming and collected serial blood and urine samples on admission (<4h post-bite), 4-8h, 8-16h, 16-24h, 1 month and 3 months post-bite. AKI stage (1-3) was defined using the Acute Kidney Injury Network criteria. AKI stages (1-3) were defined by the Acute Kidney Injury Network (AKIN) criteria. There were 65 Russell's viper envenomings and 49 developed AKI: 24 AKIN stage 1, 13 stage 2 and 12 stage 3. There was a significant correlation between venom concentrations and AKI stage (p = 0.007), and between AKI stage and six peak biomarker concentrations. Although most biomarker concentrations were elevated within 8h, no biomarker performed well in diagnosing AKI <4h post-bite. Three biomarkers were superior to serum creatinine (sCr) in predicting AKI (stage 2/3) 4-8h post-bite: serum cystatin C (sCysC) with an area under the receiver operating curve (AUC-ROC), 0.78 (95%CI:0.64-0.93), urine neutrophil gelatinase-associated lipocalin (uNGAL), 0.74 (95%CI:0.59-0.87) and urine clusterin (uClu), 0.81 (95%CI:0.69-0.93). No biomarker was better than sCr after 8h. Six other urine biomarkers urine albumin, urine beta2-microglobulin, urine kidney injury molecule-1, urine cystatin C, urine trefoil factor-3 and urine osteopontin either had minimal elevation, and/or minimal prediction for AKI stage 2/3 (AUC-ROC<0.7). CONCLUSIONS/SIGNIFICANCE: AKI was common and sometimes severe following Russell's viper bites. Three biomarkers uClu, uNGAL and sCysC, appeared to become abnormal in AKI earlier than sCr, and may be useful in early identification of envenoming.Item A Randomized controlled trial of fresh frozen plasma for coagulopathy in Russell's viper (Daboia russelii) envenoming(Wiley-Blackwell, 2017) Isbister, G.K.; Jayamanne, S.; Mohamed, F.; Dawson, A.H.; Maduwage, K.; Gawarammana, I.; Lalloo, D.G.; de Silva, H.J.; Scorgie, F.E.; Lincz, L.F.; Buckley, N.A.BACKGROUND: Russell's viper (Daboia russelii) envenoming is a major health issue in South Asia and causes venom induced consumption coagulopathy (VICC). OBJECTIVES: We investigated the effect of fresh frozen plasma (FFP) and two antivenom doses in correcting VICC. METHODS: We undertook an open-label randomized controlled trial in patients with VICC at two Sri Lankan hospitals. Patients with suspected Russell's viper bites and coagulopathy were randomly allocated (1:1) high-dose antivenom (20 vials) or low-dose antivenom (10 vials) plus 4U FFP. The primary outcome was the proportion of patients with an international normalized ratio (INR)<2, 6h post-antivenom. Secondary outcomes included anaphylaxis, major haemorrhage, death and clotting factor recovery. RESULTS: From 214 eligible patients, 141 were randomized; 71 to high-dose antivenom, 70 to low-dose antivenom/FFP; five had no post-antivenom bloods. The groups were similar except for a delay of 1h in antivenom administration for FFP patients. 6h post-antivenom 23/69 (33%) patients allocated high-dose antivenom had an INR<2 compared with 28/67 (42%) allocated low-dose antivenom/FFP [absolute difference 8%;95%Confidence Interval:-8% to 25%]. 15 patients allocated FFP did not receive it. Severe anaphylaxis occurred equally frequently in each group. One patient given FFP developed transfusion related acute lung injury. Three deaths occurred in low-dose/FFP patients including one intracranial haemorrhage. There was no difference in recovery rates of INR or fibrinogen, but more rapid initial recovery of factor V and X in FFP patients. CONCLUSION: FFP post-antivenom in Russell's viper bites didn't hasten recovery of coagulopathy. Low-dose antivenom/FFP did not worsen VICC, suggesting low-dose antivenom is sufficient. This article is protected by copyright. All rights reserved.Item Prevention of acute adverse reactions to snake antivenom after snakebite: multi-centre, randomized, controlled clinical trial(Sri Lanka Medical Association, 2009) de Silva, H.A.; Ranasinha, C.D.; Pathmeswaran, A.; Jayamanne, S.; Kalupahana, R.; Ratnathilake, G.A.; Ariyasena, H.; Uluwatte, W.; Lalloo, D.; Armitage, J.; Aronson, J.K.; de Silva, H.J.BACKGROUND: Antivenom is the most effective treatment for snakebite envenoming. Acute adverse reactions to the polyvalent antivenom (PAV) are common; anaphylactk reactions are particularly serious. OBJECTIVE: To determine whether promethazine, hydrocortisone, and low-dose adrenaline, alone and in all possible combinations, prevent reactions to antivenom. METHODS: The study was conducted in 3 hospitals in Sri Lanka from March 2005 to April 2008. It required 1000 patients to detect a 25% reduction in reactions at p<0.01 with 80% power. After informed consent, patients were randomized in a 2x2x2 factorial blinded design to receive each active intervention versus matching placebo immediately before administration of PAV. They were monitored for adverse reactions categorized as mild, moderate, severe, for at least 96 hours. The pre-specified primary analyses were of effects of each intervention on the incidence of severe reactions over 48 hours. Results: Of 1007 randomized subjects 776 (77.2%) were males, mean (sd) age 36.5 (13.6) yrs. Median time between snakebite and PAV administration was 4.25 hours. 752 (75%) patients developed acute reactions to PAV; 9% mild, 48% moderate and 43% severe. None of the drugs significantly reduced severe reactions to PAV at any time point. However, there was an 18% reduction in the rate of severe reactions at 1 hour with adrenaline (p-0.052) and a 33-3% reduction in signs of allergy (pruritus, urticaria, facial oedema, bronchospasm) with promethazine at 1 and 24 hours (p<0.001). CONCLUSIONS: Pre-treatment with promethazine, hydrocortisone, and low-dose adrenaline alone and in different combinations do not significantly reduce acute reactions to PAV.Item Low-dose adrenaline, promethazine, and hydrocortisone in the prevention of acute adverse reactions to antivenom following snakebite: a randomised, double-blind, placebo-controlled trial(Public Library of Science, 2011) de Silva, H.A.; Pathmeswaran, A.; Ranasinha, C.D.; Jayamanne, S.; Samarakoon, S.B.; Hittarage, A.; Kalupahana, R.; Ratnatilaka, G.A.; Uluwatthage, W.; Aronson, J.K.; Armitage, J.M.; Lalloo, D.G.; de Silva, H.J.BACKGROUND: Envenoming from snakebites is most effectively treated by antivenom. However, the antivenom available in South Asian countries commonly causes acute allergic reactions, anaphylactic reactions being particularly serious. We investigated whether adrenaline, promethazine, and hydrocortisone prevent such reactions in secondary referral hospitals in Sri Lanka by conducting a randomised, double-blind placebo-controlled trial. METHODS AND FINDINGS: In total, 1,007 patients were randomized, using a 2 × 2 × 2 factorial design, in a double-blind, placebo-controlled trial of adrenaline (0.25 ml of a 1∶1,000 solution subcutaneously), promethazine (25 mg intravenously), and hydrocortisone (200 mg intravenously), each alone and in all possible combinations. The interventions, or matching placebo, were given immediately before infusion of antivenom. Patients were monitored for mild, moderate, or severe adverse reactions for at least 96 h. The prespecified primary end point was the effect of the interventions on the incidence of severe reactions up to and including 48 h after antivenom administration. In total, 752 (75%) patients had acute reactions to antivenom: 9% mild, 48% moderate, and 43% severe; 89% of the reactions occurred within 1 h; and 40% of all patients were given rescue medication (adrenaline, promethazine, and hydrocortisone) during the first hour. Compared with placebo, adrenaline significantly reduced severe reactions to antivenom by 43% (95% CI 25-67) at 1 h and by 38% (95% CI 26-49) up to and including 48 h after antivenom administration; hydrocortisone and promethazine did not. Adding hydrocortisone negated the benefit of adrenaline. CONCLUSIONS: Pretreatment with low-dose adrenaline was safe and reduced the risk of acute severe reactions to snake antivenom. This may be of particular importance in countries where adverse reactions to antivenom are common, although the need to improve the quality of available antivenom cannot be overemphasized.