The inimical alterations to biochemical and morphological parameters observed in the infected as well as the treatment groups is an implication suggesting shortcomings of the investigated trypanocides to alleviate pathology associated with Trypanosoma brucei brucei infection. We present evidence that further supports the urgent need for the development of safer and more effective trypanocides.
Diminazene aceturate is a trypanocide with unwanted toxicity and limited efficacy. It was reasoned that conjugating diminazene aceturate to functionalized nanoparticle would lower untoward toxicity while improving selectivity and therapeutic efficacy. Silver and gold nanoparticles were evaluated for their capacities to serve as carriers for diminazene aceturate. The silver and gold nanoparticles were synthesized, functionalized and coupled to diminazene aceturate following established protocols. The nanoparticle conjugates were characterized. The free diminazene aceturate and drug conjugated nanoparticles were subsequently evaluated for cytotoxicity in vitro. The characterizations by transmission electron microscopy or UV/Vis spectroscopy revealed that conjugation of diminazene aceturate to silver or gold nanoparticles was successful. Evaluation for cytotoxic actions in vitro demonstrated no significance difference between free diminazene aceturate and the conjugates. Our data suggest that surface modified metal nanoparticles could be optimized for drug delivery systems.
This study evaluated the toxicity potential of platinum (Pt) nanoparticles in Wistar rats. Wistar rats weighing between 180 and 193 g were randomly assigned into four groups. Animals in group 1 served as the control and received distilled water. Those in groups 2, 3, and 4 were administered with 10, 50, and 100 mg/kg body weight of Pt nanoparticles, respectively. At the end of treatments, the rats were fasted for 24 h and sacrificed under mild anesthesia. The blood and vital organs were collected and used for the biochemical and histopathological examinations. Pt nanoparticles caused significant alterations to the rat organ weights relative to the control. Also, the Pt nanoparticles altered the rat level of lipid profile and significantly elevated the atherogenic index relative to the control. The total protein level was increased in the tissues while the albumin decreased following nanoparticle treatment. Also, the nanoparticles inconsistently altered the level of serum urea and creatinine while the serum bilirubin level was raised. The activities of aspartate transaminase and alkaline phosphatase were reduced by nanoparticle treatments. However, the level of alanine aminotransferase (ALT) was inconsistently altered in serum and tissues by nanoparticle treatment with a significant elevation in the liver. Furthermore, nanoparticle exposure in rats caused several morphological lesions including inflammation and cellular degeneration, all of which were conspicuously absent in the control group. We show evidence that Pt nanoparticles potentiated alteration of rat biochemical and morphological indices in manners reminiscent of early cellular injury.
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