L Palagi scite author profile

The search for alternatives to Gd-containing magnetic resonance imaging (MRI) contrast agents addresses the field of Fe(III)-bearing species with the expectation that the use of an essential metal ion may avoid the issues raised by the exogenous Gd. Attention is currently devoted to highly stable Fe(III) complexes with hexacoordinating ligands, although they may lack any coordinated water molecule. We found that the hexacoordinated Fe(III) complex with two units of deferasirox, a largely used iron sequestering agent, owns properties that can make it a viable alternative to Gd-based agents. Fe(deferasirox) 2 displays an outstanding thermodynamic stability, a high binding affinity to human serum albumin (three molecules of complex are simultaneously bound to the protein), and a good relaxivity that increases in the range 20−80 MHz. The relaxation enhancement is due to second sphere water molecules likely forming H-bonds with the coordinating phenoxide oxygens. A further enhancement was observed upon the formation of the supramolecular adduct with albumin. The binding sites of Fe(deferasirox) 2 on albumin were characterized by relaxometric competitive assays. Preliminary in vivo imaging studies on a tumor-bearing mouse model indicate that, on a 3 T MRI scanner, the contrast ability of Fe(deferasirox) 2 is comparable to the one shown by the commercial Gd(DTPA) agent. ICP-MS analyses on blood samples withdrawn from healthy mice administered with a dose of 0.1 mmol/kg of Fe(deferasirox) 2 showed that the complex is completely removed in 24 h.

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Liposome-Based Bioassays

Sforzi

Palagi

Aime

2020

Biology

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This review highlights the potential of using liposomes in bioassays. Liposomes consist of nano- or micro-sized, synthetically constructed phospholipid vesicles. Liposomes can be loaded with a number of reporting molecules that allow a dramatic amplification of the detection threshold in bioassays. Liposome-based sensors bind or react with the biological components of targets through the introduction of properly tailored vectors anchored on their external surface. The use of liposome-based formulations allows the set-up of bioassays that are rapid, sensitive, and often suitable for in-field applications. Selected applications in the field of immunoassays, as well as recognition/assessment of corona proteins, nucleic acids, exosomes, bacteria, and viruses are surveyed. The role of magnetoliposomes is also highlighted as an additional tool in the armory of liposome-based systems for bioassays.

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Cooperative Iodide Pd(0)‐Catalysed Coupling of Alkoxyallenes and N‐Tosylhydrazones: A Selective Synthesis of Conjugated and Skipped Dienes

Parisotto

Palagi

Prandi

et al. 2018

Chemistry A European J

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Palladium(0)-catalysed hydro-alkylation or -alkenylation of alkoxyallenes with N-tosylhydrazones gives direct access to conjugated and skipped 1-alkoxydienes with high efficiency and excellent functional-group compatibility. The reaction is proposed to involve the in situ-formed t-butanol as proton source in the key step of the allylpalladium(II) species generation. Moreover, lithium iodide or iodobenzene are employed as an unprecedented iodide (I ) reservoir to sustain the catalytic cycle.

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Experimental Study of the Pathogenesis of Ventricular Extrasystolia

Baschieri¹,

Palagi²,

Puletti³

1967

Cardiology

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L Palagi

Fe(deferasirox)₂: An Iron(III)-Based Magnetic Resonance Imaging T₁ Contrast Agent Endowed with Remarkable Molecular and Functional Characteristics

Liposome-Based Bioassays

Cooperative Iodide Pd(0)‐Catalysed Coupling of Alkoxyallenes and N‐Tosylhydrazones: A Selective Synthesis of Conjugated and Skipped Dienes

Experimental Study of the Pathogenesis of Ventricular Extrasystolia

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L Palagi

Fe(deferasirox)2: An Iron(III)-Based Magnetic Resonance Imaging T1 Contrast Agent Endowed with Remarkable Molecular and Functional Characteristics

Liposome-Based Bioassays

Cooperative Iodide Pd(0)‐Catalysed Coupling of Alkoxyallenes and N‐Tosylhydrazones: A Selective Synthesis of Conjugated and Skipped Dienes

Experimental Study of the Pathogenesis of Ventricular Extrasystolia

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Product

Resources

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Fe(deferasirox)₂: An Iron(III)-Based Magnetic Resonance Imaging T₁ Contrast Agent Endowed with Remarkable Molecular and Functional Characteristics