RESUMO
A new class of amphiphilic molecules, the lipoguanidines, designed as hybrids of guanidine and fatty acid compounds, has been synthesized and developed. The new molecules present both a guanidine polar head and a lipophilic tail that allow them to disrupt bacterial membranes and to sensitize Gram-negative bacteria to the action of the narrow-spectrum antibiotics rifampicin and novobiocin. The lipoguanidine 5g sensitizes Klebsiella pneumonia, Acinetobacter baumannii, Pseudomonas aeruginosa, and Escherichia coli to rifampicin, thereby reducing the antibiotic minimum inhibitory concentrations (MIC) up to 256-fold. Similarly, 5g is able to potentiate novobiocin up to 64-fold, thereby showing a broad spectrum of antibiotic potentiating activity. Toxicity and mechanism studies revealed the potential of 5g to work synergistically with rifampicin through the disruption of bacterial membranes without affecting eukaryotic cells.
RESUMO
Chordomas are malignant tumors derived from remnants of the notochord. These are extremely rare in pediatric patients, accounting for approximately 5% of all chordomas, with most lesions occupying the cranium. Chordomas also can occupy all levels of the spine, demonstrating a broad spectrum of neurologic presentation. Optimal treatment aims for gross total resection with accompanying radiation therapy to prevent recurrence. Their aggressive and infiltrative nature makes clinical management challenging, involving multiple disciplines and close monitoring to ensure optimal outcomes. This comprehensive review aims to cover the genetics, demographics, pathogenesis, neurologic sequelae, radiological considerations, chemotherapeutic management, surgical management, and post-operative considerations of pediatric chordoma patients.