Despite the significant advances of imaging techniques nowadays, accurate diagnosis of bacterial infections and real‐time monitoring the efficacy of antibiotic therapy in vivo still remain huge challenges. Herein, a self‐assembling peptide (FFYEGK) and vancomycin (Van) antibiotic molecule co‐modified gadolinium (Gd) MRI nanoaggregate probe (GFV) for detecting Staphylococcus aureus (S. aureus) infection in vivo and monitoring the treatment of S. aureus‐infected myositis by using daptomycin (Dap) antibiotic as model are designed and fabricated. The as‐prepared GFV probe bears Van molecules, making itself good bacteria‐specific targeting, and the peptide in the probe can enhance the longitudinal relaxivity rate (r1) after self‐assembly due to the π–π stacking. The study showed that, based on the GFV probe, bacterial infections and sterile inflammation can be discriminated, and as few as 105 cfu S. aureus can be detected in vivo with high specificity and accurately. Moreover, the T1 signal of GFV probe at the S. aureus‐infected site in mice correlates with the increasing time of Dap treating, indicating the possibility of monitoring the efficacy of antibacterial agents for infected mice based on the as proposed GFV probe. This study shows the potential of GFV probe for diagnosis, evaluation, and prognosis of infectious diseases in clinics.
The current therapeutic drugs for Alzheimer’s disease only improve symptoms, they do not delay disease progression. Therefore, there is an urgent need for new effective drugs. The underlying pathogenic factors of Alzheimer’s disease are not clear, but neuroinflammation can link various hypotheses of Alzheimer’s disease; hence, targeting neuroinflammation may be a new hope for Alzheimer’s disease treatment. Inhibiting inflammation can restore neuronal function, promote neuroregeneration, reduce the pathological burden of Alzheimer’s disease, and improve or even reverse symptoms of Alzheimer’s disease. This review focuses on the relationship between inflammation and various pathological hypotheses of Alzheimer’s disease; reports the mechanisms and characteristics of small-molecule drugs (e.g., nonsteroidal anti-inflammatory drugs, neurosteroids, and plant extracts); macromolecule drugs (e.g., peptides, proteins, and gene therapeutics); and nanocarriers (e.g., lipid-based nanoparticles, polymeric nanoparticles, nanoemulsions, and inorganic nanoparticles) in the treatment of Alzheimer’s disease. The review also makes recommendations for the prospective development of anti-inflammatory strategies based on nanocarriers for the treatment of Alzheimer’s disease.
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