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   magnetic iron oxide nanoparticles as t2 mr imaging contrast agent for detection of breast cancer (mcf-7) cell  
   
نویسنده moradi khaniabadi pegah ,shahbazi-gahrouei daryoush ,suhaimi jaafar mohammad ,malik shah abdul majid amin ,moradi khaniabadi bita ,shahbazi-gahrouei saghar
منبع avicenna journal of medical biotechnology - 2017 - دوره : 9 - شماره : 4 - صفحه:181 -188
چکیده    Background: advances of nanotechnology have led to the development of nanomaterials with both potential diagnostic and therapeutic applications. among them, super paramagnetic iron oxide nanoparticles (spions) have received particular attention. modified edc coupling fraction was used to fabricate the spion-c595 as an mr imaging contrast agent for breast cancer detection in early stages. methods: nanoprobe characterization was confirmed using fourier transform infrared spectroscopy (ft-ir), scanning electron microscopy with energy dispersive x-ray spectroscopy (sem-edax), and photon correlation spectroscopy (pcs). protein and iron concentration of nanoprobe was examined by standard method. mtt assay was performed to evaluate the cytotoxicity of the nanoprobe in breast cancer cell line (mcf-7). t2-weighted mr imaging was performed to evaluate the signal enhancement on t2 relaxation time of nanoprobe using spin-echo pulse sequence. results: as results showed, spions-c595 provided active targeting of breast cancer cell (mcf-7) at a final concentration of 600 μgfe/ml. the final concentration of protein was calculated to be at 0.78 μgprotein/ml. the hydrodynamic size of the nanoprobe was 87.4±0.7 nm. the mr imaging results showed a good reduction of t2 relaxation rates for the highest dose of spions-c595. discussion: based on the results, spions-c595 nanoprobe has a potential in t2- weighted mr imaging contrast agent for breast cancer cell (mcf-7) detection.
کلیدواژه breast cancer ,contrast media ,magnetic resonance imaging ,nanoparticles
آدرس university sains malaysia, faculty of physics, malaysia, isfahan university of medical sciences, faculty of medicine, department of medical physics, ایران, university sains malaysia, faculty of physics, malaysia, university sains malaysia, faculty of medicine, malaysia, isfahan university of medical sciences, research institute for primordial prevention of non-communicable disease, child growth and development research center, ایران, isfahan university of medical sciences, faculty of medicine, ایران
 
     
   
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