A new class of cubic SPIONs as a dual-mode T1 and T2 contrast agent for MRI

Alipour, Akbar; Soran‐Erdem, Zeliha; Ütkür, Mustafa; Sharma, Vijay Kumar; Algın, Oktay; Sarıtaş, Emine Ülkü; Demir, Hilmi Volkan

doi:10.1016/j.mri.2017.09.013

Cited by 50 publications

(41 citation statements)

References 33 publications

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“…In addition, typical gradient sequences such as fast low angle shot (FLASH) acquisition yielded strong negative vessel contrast, resulting in a higher number of discernible vessel branches. Moreover, in 2018 Alipour et al [82] developed 11 nm silica coated cubic SPIONs as a dual-mode contrast agent for T 1 and T 2 MRI. In vivo investigations on a 3 T MRI scanner demonstrated both positive and negative contrast enhancement 70 min post intravenous injection in healthy rat models.…”

Section: Iron-based and Iron Oxide Nanoparticlesmentioning

confidence: 99%

Iron Oxide Nanoparticles: An Alternative for Positive Contrast in Magnetic Resonance Imaging

et al. 2020

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Iron oxide nanoparticles have been extensively utilised as negative (T2) contrast agents in magnetic resonance imaging. In the past few years, researchers have also exploited their application as positive (T1) contrast agents to overcome the limitation of traditional Gd3+ contrast agents. To provide T1 contrast, these particles must present certain physicochemical properties with control over the size, morphology and surface of the particles. In this review, we summarise the reported T1 iron oxide nanoparticles and critically revise their properties, synthetic protocols and application, not only in MRI but also in multimodal imaging. In addition, we briefly summarise the most important nanoparticulate Gd and Mn agents to evaluate whether T1 iron oxide nanoparticles can reach Gd/Mn contrast capabilities.

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Section: Iron-based and Iron Oxide Nanoparticlesmentioning

confidence: 99%

Iron Oxide Nanoparticles: An Alternative for Positive Contrast in Magnetic Resonance Imaging

et al. 2020

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“…[6][7][8][9] However, the inherent limitations of single mode CAs are oen criticized, thus rendering dualmodal MRI CAs as more acceptable because the synergistic combination of T 1 -and T 2 -weighted MRI can provide more comprehensive imaging information, increase the diagnostic accuracy, and improve the overall prognosis of patients. 10,11 In the study of dual-modal MRI CAs, most attention has been paid to ferrogadolinium nanocomposites because Gd-and Febased compounds are commonly used as T 1 and T 2 CAs, respectively. 12,13 It is worth noting that as T 1 CAs are directly in contact with the magnetic core and located within the magnetic eld generated by the magnetic core and opposite to the external magnetic eld, T 2 CAs can severely perturb T 1 imaging.…”

Section: Introductionmentioning

confidence: 99%

Development of hollow ferrogadolinium nanonetworks for dual-modal MRI guided cancer chemotherapy

Tang

Sun

et al. 2019

RSC Adv.

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“…Another important application of superparamagnetic MNPs is to thermally conduct the ablation of pathological cells, or to induce the thermal release of drugs within composites materials, due to the capacity of heating up when they are in proximity of an alternating magnetic field [199,224,225]. Furthermore, some MNPs, in particular SPIONs, are widely used in magnetic resonance imaging (MRI) as contrast agents [216,226,227] or for the treatment of infectious diseases, due their intrinsic activity as antimicrobial agents [228].…”

Section: Magnetic Responsive Nanomaterialsmentioning

confidence: 99%

Stimuli-Responsive Materials for Tissue Engineering and Drug Delivery

Municoy

Echazú

Antezana

et al. 2020

IJMS

139

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Smart or stimuli-responsive materials are an emerging class of materials used for tissue engineering and drug delivery. A variety of stimuli (including temperature, pH, redox-state, light, and magnet fields) are being investigated for their potential to change a material’s properties, interactions, structure, and/or dimensions. The specificity of stimuli response, and ability to respond to endogenous cues inherently present in living systems provide possibilities to develop novel tissue engineering and drug delivery strategies (for example materials composed of stimuli responsive polymers that self-assemble or undergo phase transitions or morphology transformations). Herein, smart materials as controlled drug release vehicles for tissue engineering are described, highlighting their potential for the delivery of precise quantities of drugs at specific locations and times promoting the controlled repair or remodeling of tissues.

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A new class of cubic SPIONs as a dual-mode T1 and T2 contrast agent for MRI

Cited by 50 publications

References 33 publications

Iron Oxide Nanoparticles: An Alternative for Positive Contrast in Magnetic Resonance Imaging

Iron Oxide Nanoparticles: An Alternative for Positive Contrast in Magnetic Resonance Imaging

Development of hollow ferrogadolinium nanonetworks for dual-modal MRI guided cancer chemotherapy

Stimuli-Responsive Materials for Tissue Engineering and Drug Delivery

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