Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
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Query Trace: Wilder-Kofie TD[original query] |
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An alternative in vivo method to refine the mouse bioassay for botulinum toxin detection
Wilder-Kofie TD , Luquez C , Adler M , Dykes JK , Coleman JD , Maslanka SE . Comp Med 2011 61 (3) 235-42 Botulism is a rare, life-threatening paralytic disease of both humans and animals that is caused by botulinum neurotoxins (BoNT). Botulism is confirmed in the laboratory by the detection of BoNT in clinical specimens, contaminated foods, and cultures. Despite efforts to develop an in vitro method for botulinum toxin detection, the mouse bioassay remains the standard test for laboratory confirmation of this disease. In this study, we evaluated the use of a nonlethal mouse toe-spread reflex model to detect BoNT spiked into buffer, serum, and milk samples. Samples spiked with toxin serotype A and nontoxin control samples were injected into the left and right extensor digitorum longus muscles, respectively. Digital photographs at 0,8, and 24 h were used to obtain objective measurements through effective paralysis scores, which were determined by comparing the width-to-length ratio between right and left feet. Both objective measurements and clinical observation could accurately identify over 80% of animals injected with 1 LD(50) (4.3 pg) BoNT type A within 24 h. Half of animals injected with 0.5 LD(50) BoNT type A and none injected with 0.25 LD(50) demonstrated localized paralysis. Preincubating the toxin with antitoxin prevented the development of positive effective paralysis scores, demonstrating that (1) the effect was specific for BoNT and (2) identification of toxin serotype could be achieved by using this method. These results suggest that the mouse toe-spread reflex model may be a more humane alternative to the current mouse bioassay for laboratory investigations of botulism. |
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