Iodinated Polyesters with Enhanced X-ray Contrast Properties for Biomedical Imaging

Abstract: Synthetic materials exhibiting contrast imaging properties have become vital to the field of biomedical imaging. However, polymeric biomaterials are lacking imaging contrast properties for deep tissue imaging. this report details the synthesis and characterization of a suite of aryl-iodo monomers, which were used to prepare iodinated polyesters using a pre-functionalization approach. commercially available 4-iodo-phenylalanine or 4-iodobenzyl bromide served as the starting materials for the synthesis of three … Show more

“…Employing the DBU/TU catalytic system, we also report for the first time on the organocatalyzed copolymerization of MD and (±)-lactide (LA) with varying ratios of LA. Copolymerizing morpholine-2,5-diones with other cyclic esters gives rise to interesting materials having reduced crystallinity and greater hydrophilicity when compared to the original polyesters, while allowing functionality to be introduced into the resulting materials. − Such properties can be very attractive for biomedical applications. , …”

Rapid and Controlled Organocatalyzed Ring-Opening Polymerization of 3S-(Isobutyl)morpholine-2,5-dione and Copolymerization with Lactide

“…Employing the DBU/TU catalytic system, we also report for the first time on the organocatalyzed copolymerization of MD and (±)-lactide (LA) with varying ratios of LA. Copolymerizing morpholine-2,5-diones with other cyclic esters gives rise to interesting materials having reduced crystallinity and greater hydrophilicity when compared to the original polyesters, while allowing functionality to be introduced into the resulting materials. − Such properties can be very attractive for biomedical applications. , …”

Rapid and Controlled Organocatalyzed Ring-Opening Polymerization of 3S-(Isobutyl)morpholine-2,5-dione and Copolymerization with Lactide

“…The most recent attempt in this regard has been conducted by Vercio and Basmajian [ 33 ], who succeeded in identifying the gross failure of a carbon fibre-reinforced intramedullary nail, but did not prosper in characterizing the subtle discontinuities which could have led to the fracture event, due to the lack of sufficient image contrast to detect minor cracks and defects in the target device. The increasing risk of long-term effects of ionizing radiation, such as cancer, along with the expensive use of contrast enhancer gold coating incorporated into the composite material [ 34 ] and the need for a potentially allergenic intravenous iodinated radio-contrasting agent to overcome the typical radiolucency of polymer matrices [ 35 ], will most likely counteract the near-term implementation of X-ray techniques in this non-invasive procedure for permanent polymer-based structural implants [ 32 ].…”

Detection and Imaging of Damages and Defects in Fibre-Reinforced Composites by Magnetic Resonance Technique

“…[4][5][6][7] Although PET, SPECT, and X-ray CT facilitate noninvasive live imaging because of the high tissue penetration of radiation, microscale observation is difficult owing to their low resolution. 8 Micro-CT enables higher resolution imaging with contrast agents [9][10][11][12] ; however, microscopic observation is additionally necessary for cellular scale imaging. Fluorescence imaging methods enable both macro-and microscale observation using various instruments including in vivo imagers and microscopes, although fluorescence imaging is often limited by the attenuation of light at certain wavelengths.…”

Multiscale Live Imaging Using Förster Resonance Energy Transfer (FRET) for Evaluating the Biological Behavior of Nanoparticles as Drug Carriers