Mikhail Papisov scite author profile

We have previously described a novel monocrystalline iron oxide nanocompound (MION), a stable colloid that enables target specific MR imaging. In this study, the physicochemical properties of MION are reported using a variety of analytical techniques. High resolution electron microscopy indicates that a MION consists of hexagonal shaped electron-dense cores of 4.6 +/- 1.2 nm in diameter. This iron oxide core has an inverse spinel crystal structure which was confirmed by x-ray powder diffraction. Chemical analysis showed that each core has 25 +/- 6 dextran molecules (10 kD) attached, resulting in a unimodal hydrodynamic radius of 20 nm by laser light scattering. Because of the flexibility of the dextran layer, the radius is only 8 nm in nonaqueous reverse micelles. At room temperature, MION exhibit superparamagnetic behavior with an induced magnetization of 68 emu/g Fe at 1.5 T. Mössbauer studies show that the saturation internal magnetic field is 505 KOe, and blocking temperature is at 100 K. The R1 relaxivity of MION is 16.5 (mM.sec)-1 and the R2 relaxivity is 34.8 (mM.sec)-1 in aqueous solution at 37 degrees C and 0.47 T. In vitro phantom studies show that the detectability of MION in liver tissue is less than 50 nmol Fe/g tissue using gradient echo imaging techniques.

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Long-circulating iron oxides for MR imaging

Weissleder

Bogdanov

Neuwelt

et al. 1995

Advanced Drug Delivery Reviews

387

291

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Poly(ethylene glycol) on the liposome surface: on the mechanism of polymer-coated liposome longevity

Torchilin

Omelyanenko

Papisov

et al. 1994

Biochimica et Biophysica Acta (BBA) - Biomembranes

465

222

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Mikhail Papisov

Monocrystalline iron oxide nanocompounds (MION): Physicochemical properties

Long-circulating iron oxides for MR imaging

Poly(ethylene glycol) on the liposome surface: on the mechanism of polymer-coated liposome longevity

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