2020
DOI: 10.1021/acs.molpharmaceut.9b01094
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Predictive Model for Delivery Efficiency: Erythrocyte Membrane-Camouflaged Magnetofluorescent Nanocarriers Study

Abstract: Delivery efficiencies of theranostic nanoparticles (NPs) based on passive tumor targeting strongly depend either on their blood circulation time or on appropriate modulations of the tumor microenvironment. Therefore, predicting the NP delivery efficiency before and after a tumor microenvironment modulation is highly desirable. Here, we present a new erythrocyte membranecamouflaged magnetofluorescent nanocarrier (MMFn) with long blood circulation time (92 h) and high delivery efficiency (10% ID for Ehrlich muri… Show more

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Cited by 22 publications
(47 citation statements)
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References 72 publications
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“…Indeed, now is well established that particles smaller than around 5 nm are eliminated from the body through renal clearance, while larger ones use the hepatic clearance route [123]. In most applications using MIONPs the particle sizes are larger than 10 nm, but during biodegradation diameter might be reduced and some smaller nanoparticles could be eliminated through renal clearance [124,125]. In the case of applications with distinct ferrites, the ions eliminated from biodegradation might also be an important toxicity parameter that should be controlled by tuning the amount of magnetic material administrated in the body.…”
Section: In Vivo Mnh: Clinical Safety Criteria and Preclinical Resultmentioning
confidence: 99%
See 1 more Smart Citation
“…Indeed, now is well established that particles smaller than around 5 nm are eliminated from the body through renal clearance, while larger ones use the hepatic clearance route [123]. In most applications using MIONPs the particle sizes are larger than 10 nm, but during biodegradation diameter might be reduced and some smaller nanoparticles could be eliminated through renal clearance [124,125]. In the case of applications with distinct ferrites, the ions eliminated from biodegradation might also be an important toxicity parameter that should be controlled by tuning the amount of magnetic material administrated in the body.…”
Section: In Vivo Mnh: Clinical Safety Criteria and Preclinical Resultmentioning
confidence: 99%
“…Second, the 3D geometry of the tumor is reconstructed from two-dimensional ultrasound images by a technique known as freehand 3D ultrasound reconstruction [184]. Finally, to extract information about the location of the nano-heaters, we developed a multifunctional nanocarrier that contains fluorescent tracers in the near infrared, which surface-coat Mn-doped iron oxide-based nanoparticles, so that their location within the tumor can be extracted using the fluorescence molecular tomography (FMT) technique [125,185].…”
Section: Treatment Planning and Computer Simulations For In Vivo Mnhmentioning
confidence: 99%
“…Manganese ferrite (MnFe 2 O 4 ) nanoparticles were synthesized via co-precipitation, as previously described ( Sousa-Junior et al, 2020 ). Briefly, 90 ml of methylamine (CH 3 NH 2 , Sigma-Aldrich) were first diluted in 400 ml of ultrapure water (MilliQ) under magnetic stirring and heating until boiling.…”
Section: Methodsmentioning
confidence: 99%
“…318 The first proposed use of magnetic hyperthermia with iron oxide particles was as early as 1957, 319 yet it remains a prevalent research field today with significant work on the development of novel hyperthermia-tailored nanocarriers. 143,320 Interest as a therapeutic treatment can be attributed to multiple key advantages, including: no fundamental depth limitation, synergy with many other therapies (e.g., chemotherapies), and internalisation of the 'fluidic' heat source. 321 The most frequently used MFH application paradigms are whole-body MFH (Fig.…”
Section: Magnetic Fluid Hyperthermiamentioning
confidence: 99%