RESUMEN
Microcystin-LR (MCLR) produced by cyanobacterial blooms have received global attention. MCLR has been recognized as a reproductive toxin to fish and poses a threat to ecosystem stability. It has been proven that probiotic dietary management can improve reproductive performance of fish. It is worth paying attention to exploring whether probiotic management can alleviate the reproductive toxicity caused by MCLR. In this investigation, adult zebrafish were exposed to different doses of MCLR solution (0, 2.2, and 22 µg/L) with or without the Lactobacillus rhamnosus GG supplementation for a duration of 28 days. The results showed that female zebrafish spawning was reduced after exposure to MCLR, but this reduction was reversed when L. rhamnosus GG was added. To elucidate how L. rhamnosus GG mitigates reproductive toxicity caused by MCLR, we examined a series of indicators of MCLR accumulation, ovarian histology, hormones, and transcriptome levels. Our study showed that L. rhamnosus GG could alleviate oogenesis disorders and ultimately attenuate MCLR-induced reproductive toxicity by reducing MCLR accumulation in the gonads, modulating the expression of endocrine system and auto/paracrine factors. The transcriptome results revealed that single or combined exposure of MCLR and L. rhamnosus GG mainly affected the endocrine system, energy metabolism, and RNA degradation and translation. Overall, our results provide new insights for alleviating MCLR-induced reproductive toxicity and help promote healthy aquaculture.
RESUMEN
With the continuous advancements of laparoscopic techniques, many surgeons have enhanced the feasibility and safety of this approach for carefully selected patients. This study aims to offer a comprehensive account of the technical aspects and surgical outcomes associated with laparoscopic anatomical right hepatectomy, explicitly utilizing a four-incision anterior approach. The surgical procedure involved several maneuvers, including blocking the Glissonean pedicle, ligation of the right hepatic artery, right branch of the portal vein, and the right hepatic duct, removal of the liver parenchyma along the ischemic line, and determination of the liver section based on four anatomical landmarks: the right anterior Glissonian pedicle, middle hepatic vein, root of the right hepatic vein, and retrohepatic inferior vena cava. The article provides clear visualization of these anatomical landmarks following right hepatectomy. Proper patient positioning and precise incision placement are crucial factors for ensuring the success of the laparoscopic right anterior hepatectomy procedure. The separation of the extrahepatic Glissonean pedicle at the liver hilum to determine the hepatic resection ischemia line, as well as the identification of liver sections using four anatomical landmarks are essential steps in the liver resection process. The laparoscopic anatomical right hepatectomy using a four-incision anterior approach was performed smoothly, with standard intraoperative techniques completed. Measures are in place to address any complications that may arise during the surgery.
RESUMEN
Lead (Pb) and arsenic (As) are commonly occurring heavy metals in the environment and produce detrimental impacts on the central nervous system. Although they have both been indicated to exhibit neurotoxic properties, it is not known if they have joint effects, and their mechanisms of action are likewise unknown. In this study, zebrafish were exposed to different concentrations of Pb (40 µg/L, 4 mg/L), As (32 µg/L, 3.2 mg/L) and their combinations (40 µg/L + 32 µg/L, 4 mg/L + 3.2 mg/L) for 30 days. The histopathological analyses showed significant brain damage characterized by glial scar formation and ventricular enlargement in all exposed groups. In addition, either Pb or As staining inhibited the swimming speed of zebrafish, which was enhanced by their high concentrations in a mixture. To elucidate the underlying mechanisms, we examined changes in acetylcholinesterase (AChE) activity, neurotransmitter (dopamine, 5-hydroxytryptamine) levels, HPI axis-related hormone (cortisol and epinephrine) contents and neurodevelopment-related gene expression in zebrafish brain. The observations suggest that combined exposure to Pb and As can cause abnormalities in swimming behavior and ultimately exacerbate neurotoxicity in zebrafish by interfering with the cholinergic system, dopamine and 5-hydroxytryptamine signaling, HPI axis function as well as neuronal development. This study provides an important theoretical basis for the mixed exposure of heavy metals and their toxicity to aquatic organisms.