ABSTRACT
Objetivo: Comparar as metodologias de impedância e óptica para contagem de eritrócitos (RBC) e dosagem de hemoglobina (HGB) como forma de corrigir a contagem de eritrócitos em casos de pacientes que apresentam índice de concentração de hemoglobina corpus- cular média (CHCM) acima do ponto de corte. Métodos: Para comparar as metodologias, foram utilizadas amostras com CHCM normal e aumentado. Os parâmetros avaliados foram RBC, HGB e CHCM. Resultados: As amostras com valores de CHCM aumentado demonstraram uma correlação significativa entre RBC e HGB, porém o CHCM apresen- tou uma correlação fraca. Observamos que a metodologia por impedância obteve maior sucesso na correção do CHCM quando as amostras apresentavam aglutinação. Conclusão: A metodologia óptica é uma boa alternativa para correção de valores aumentados de CHCM em situações específicas, mas para casos de aglutinação não se mostrou efetiva.
Objetctive: Compare the impedance and optical methodologies for red blood cells (RBC) count and hemoglobin (HGB) measurement as a way to correct the RBC count in cases of patients who have a MCHC index above the cutoff. Methods: To compare the methodologies, samples with normal and augmented MCHC were used. The parameters evaluated were RBC, HGB and MCHC. Results: Samples with increased MCHC values demonstrated a significant correlation between RBC and HGB, but the MCHC showed a weak correlation. We observed that the impedance methodology was more successful in correcting the MCHC when the samples presented agglutination. Conclusion: Optical methodology is a good alternative for correction of increased CHCM values in specific situations, but for cases of agglutination it has not been shown to be effective.
ABSTRACT
Pentylenetetrazole (PTZ) is a common convulsant agent used in animal models to investigate the mechanisms of seizures. Although adult zebrafish have been recently used to study epileptic seizures, a thorough characterization of the PTZ-induced seizures in this animal model is missing. The goal of this study was to perform a detailed temporal behavior profile characterization of PTZ-induced seizure in adult zebrafish. The behavioral profile during 20 min of PTZ immersion (5, 7.5, 10, and 15 mM) was characterized by stages defined as scores: (0) short swim, (1) increased swimming activity and high frequency of opercular movement, (2) erratic movements, (3) circular movements, (4) clonic seizure-like behavior, (5) fall to the bottom of the tank and tonic seizure-like behavior, (6) death. Animals exposed to distinct PTZ concentrations presented different seizure profiles, intensities and latencies to reach all scores. Only animals immersed into 15 mM PTZ showed an increased time to return to the normal behavior (score 0), after exposure. Total mortality rate at 10 and 15 mM were 33% and 50%, respectively. Considering all behavioral parameters, 5, 7.5, 10, and 15 mM PTZ, induced seizures with low, intermediate, and high severity, respectively. Pretreatment with diazepam (DZP) significantly attenuated seizure severity. Finally, the brain PTZ levels in adult zebrafish immersed into the chemoconvulsant solution at 5 and 10 mM were comparable to those described for the rodent model, with a peak after a 20-min of exposure. The PTZ brain levels observed after 2.5-min PTZ exposure and after 60-min removal from exposure were similar. Altogether, our results showed a detailed temporal behavioral characterization of a PTZ epileptic seizure model in adult zebrafish. These behavioral analyses and the simple method for PTZ quantification could be considered as important tools for future investigations and translational research.