Blood Coagulation Normalization Effect of Parkia Biglobosa Seed on Potassium Bromate-induced Coagulopathy.

BACKGROUND: Potassium bromate (KBrO3) has been reported to be toxic, adversely affecting many body tissues and organs. The aim of this study was to determine the blood coagulation effect of Parkia biglobosa (P. biglobosa) seed on potassium bromate induced coagulopathy. METHODOLOGY: P. biglobosa was extracted with soxhlet extractor with ethanol as the solvent. Twenty-four adult male Wistar rats were acclimatized under laboratory conditions and were randomly grouped into A, B, C and D. Group A was given distilled water orally. Animals in groups B, C and D were administered 100 mg/kg body weight of potassium bromate, but groups C and D were also treated with 100 and 200 mg/kg body weight of P. biglobosa respectively. Both potassium bromate and P. biglobosa were freshly prepared on daily basis and administered to rats by oral gavage for 28 days. At the end of the treatment period, blood samples were collected in sodium citrate bottles and were used for analysis of Prothrombin Time (PT), Activated Partial Thromboplastin Time (APTT), Thrombin Time (TT), fibrinogen and vitamin K levels using standard methods. RESULTS: Administration of potassium bromate increased Prothrombin Time (PT) from 11.67±2.15 seconds (in control animals) to 19.53±2.83 seconds. Treatment with 100 and 200 mg/kg body weight of P. biglobosa seed extract neutralized this effect in a dose-dependent manner. Likewise, KBrO 3 was observed to have significantly elevated Activated Partial Thromboplastin Time (APTT) from 29.67±3.93 to 41.10±4.79 seconds and Thrombin Time (TT) from 15.36±2.06 to 25.43±2.83 seconds when compared with those in the control group. The result further showed that exposure of animals to KBrO3 significantly declined the levels of fibrinogen (from 4.05±0.72 to 2.59±0.30 g/dL) and vitamin K (from 3.18±0.73 to 1.84±0.18 ng/mL) when compared with the untreated animals. The effect of KBrO 3 on PT, APTT, TT, Fibrinogen and vitamin k were attenuated by P. biglobosa in a dose-dependent manner. CONCLUSION: The results of this investigation demonstrated that potassium bromate caused prolongation of PT, aPTT and TT and decreased levels of fibrinogen and vitamin K, but P. biglobosa treatment counteracted these effects. Thus, it is recommended that these results be investigated in clinical trials in human volunteers.

CONTEXTE: On a signalé que le bromate de potassium (KBrO3) est toxique et qu'il a des effets néfastes sur de nombreux tissus et organes du corps. Le but de cette étude était de déterminer l'effet de la graine de Parkia biglobosa (P. biglobosa) sur la coagulopathie induite par le bromate de potassium. MÉTHODOLOGIE: P. biglobosa a été extrait à l'aide d'un extracteur soxhlet avec de l'éthanol comme solvant. Vingt-quatre rats Wistar mâles adultes ont été acclimatés dans des conditions de laboratoire et ont été répartis au hasard en groupes A, B, C et D. Le groupe A a reçu de l'eau distillée par voie orale. Les animaux des groupes B, C et D ont reçu 100 mg/kg de poids corporel de bromate de potassium, mais les groupes C et D ont également été traités avec 100 et 200 mg/kg de poids corporel de P. biglobosa respectivement. Le bromate de potassium et P. biglobosa ont été fraîchement préparés quotidiennement et administrés aux rats par gavage oral pendant 28 jours. A la fin de la période de traitement, des échantillons de sang ont été collectés dans des bouteilles de citrate de sodium et ont été utilisés pour l'analyse du temps de prothrombine (PT), du temps de thromboplastine partielle activée (APTT), du temps de thrombine (TT), du fibrinogène et des niveaux de vitamine K en utilisant des méthodes standard. RÉSULTATS: L'administration de bromate de potassium a augmenté le temps de prothrombine (PT) de 11,67±2,15 secondes (chez les animaux témoins) à 19,53±2,83 secondes. Un traitement avec 100 et 200 mg/kg de poids corporel a neutralisé cet effet de manière dose-dépendante. De même, on a observé que le KBrO3 augmentait significativement le temps de thromboplastine partielle activée (TCA) de 29,67±3,93 à 41,10±4,79 secondes et le temps de thrombine (TT) de 15,36±2,06 à 25,43±2,83 secondes par rapport aux animaux du groupe témoin. Le résultat a également montré que l'exposition des animaux au KBrO3 a réduit de manière significative les niveaux de fibrinogène (de 4,05±0,72 à 2,59±0,30 g/dL) et de vitamine K (de 3,18±0,73 à 1,84±0,18 ng/mL) par rapport aux animaux non traités. L'effet du KBrO3 sur le PT, l'aPTT, le TT, le Fibrinogène et la vitamine K a été atténué par P. biglobosa de manière dose-dépendante. CONCLUSION: Les résultats de cette étude ont démontré que le bromate de potassium a provoqué une prolongation du PT, de l'aPTT et du TT et a diminué les niveaux de fibrinogène et de vitamine K, mais le traitement par P. biglobosa a contrecarré cet effet. Il est donc recommandé que ces résultats soient étudiés dans des essais cliniques sur des volontaires humains. Mots-clés: Coagulation sanguine, Coagulopathie, Parkia biglobosa, Bromate de potassium.

Comparison of CKD-EPI versus MDRD and Cockcroft-Gault equations to estimate glomerular filtration rate among stable homozygous sickle cell patients in Southwest Nigeria.

BACKGROUND: Homozygous sickle cell patients are prone to renal damage which can be on-going in and out of crises, therefore, there is a need to monitor renal status using glomerular filtration rate. Equations to estimate GFR are readily available. Cockcroft-Gault equation is widely used, while the MDRD formula is the currently accepted equation. The CKD-EPI equation is recently being recommended but has not been validated among HbSS patients. Therefore, we aim to compare estimated GFR using CKD-EPI versus MDRD and Cockcroft-Gault equations among HbSS patients. MATERIAL AND METHODS: This was a cross-sectional study of stable HbSS patients. Information on their age, sex, and weight was collected. Their venous blood samples were also obtained for plasma creatinine determination which was used to calculate estimated GFR using Cockcroft-Gault, MDRD and CKD-EPI equations. Student t-test, Pearson correlation, and Bland-Altman difference plots were performed. A p-value of < 0.05 was considered to be significant. RESULTS: One hundred and twenty patients comprising 60 HbSS patients and 60 HbAA controls participated in the study. The HbSS patients had mean ± SD age of 26±6.7years, plasma creatinine 77 ± 17umol/L, eGFR: CG 93±31.6ml/min, MDRD 124 ± 34.8ml/min/1.73m2, CKD-EPI 122 ± 25.1ml/min/1.73m2 (pConclusion: CKD-EPI equation is best for individuals with GFR > 60ml/min/1.73m2. This study has shown that it correlates well with the currently acceptable MDRD equation, therefore, can be used to monitor the renal status of stable HbSS patients. CG gives poor correlation and bias with CKD-EPI. Further validation studies on CKD-EPI equation are needed in different patient populations.