Intravenous Calcium Alginate Microspheres as Drug Delivery Vehicles in Acute Kidney Injury Treatment

Man, Jia; Wang, Xiaojie; Li, Jianyong; Cui, Xiaoning; Hua, Zesheng; Li, Jianfeng; Mao, Zebing; Zhang, Shanguo

doi:10.3390/mi13040538

Cited by 7 publications

(6 citation statements)

References 15 publications

(15 reference statements)

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“…In addition, the content of alginate could determine the size of the microspheres. Jia Man et al 45 used microfluidic methods to prepare calcium alginate microspheres as histone deacetylase inhibitor carriers. The study showed that when the flow rate ratio was fixed, the size of the CAM decreased as the concentration of the alginate decreased.…”

Section: Biodegradable Carrier Materials For Microsphere Injectionsmentioning

confidence: 99%

Application of biodegradable microsphere injections: an anticancer perspective

Cai,

Li,

et al. 2024

Mater. Adv.

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Section: Biodegradable Carrier Materials For Microsphere Injectionsmentioning

confidence: 99%

Application of biodegradable microsphere injections: an anticancer perspective

Cai,

Li,

et al. 2024

Mater. Adv.

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“…The volume changes caused by the swelling of hydrogels are of interest for a number of applications, such as sensors, actuators, soft-bodied robots, or drug delivery vehicles [ 1 , 2 , 3 ]. In sensors, for example, the change in volume is converted into an electrical output signal by suitable transducers [ 4 ].…”

Section: Introductionmentioning

confidence: 99%

Nearly Reversible Expansion and Shrinkage of Casein Microparticles Triggered by Extreme pH Changes

2023

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Solvent flows in the fL/s range across the total surface of a casein microparticle cause its expansion and shrinkage. Microparticles prepared from the milk protein casein have a porous and flexible inner structure with water-filled channels and cavities. Solvent uptake occurs in two phases and results in disintegration if de-swelling is not triggered by acidification. So far, nothing is known about the reversibility of the swelling/de-swelling steps. We performed pH jump experiments between pH 11 and pH 1 on a single micro-particle and analyzed the swelling-induced size changes with system dynamics modeling. Both the swelling steps and the subsequent de-swelling process proceed reversibly and at an unchanged rate over a sequence of at least three pH exchange cycles. We observed that the duration of the first swelling step increased during the sequence, while the second step became shorter. Both of the time intervals are negatively correlated, while a statistical evaluation of only one swelling cycle for an ensemble of microparticles with different stabilities did not reveal any significant correlation between the two parameters. Our results indicate that the pH-induced swelling/shrinkage of casein microparticles is, to a large extent, reversible and only slightly influenced by the acid-induced decomposition of colloidal calcium phosphate.

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“…Microparticles with complex structures, especially the Janus structure, , have promising applications in oil recovery, drug delivery, − cell encapsulation, , stabilizers, self-pulled motors, , and biosensors. , A Janus structure is an integrated structure composed of two or more chemically disparate substances, which possesses various functional characteristics and can simultaneously realize several synergetic functions. , Benefiting from the properties of the Janus structure, the preparation methods of varied Janus structures are continuously reported and improved, such as in microfluidics , and the phase separation method. − Phase separation technology has recently gained widespread attention because it can be used in many applications. This technology describes the phenomenon in which a particular phase or multiple-phase solutions separate from a mixture when the miscibility of the solutions changes .…”

Section: Introductionmentioning

confidence: 99%

Complex Suspended Janus Droplets Constructed through Solvent Evaporation-Induced Phase Separation at the Air–Liquid Interface

et al. 2022

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Phase separation technology has attracted extensive scientific interest because of its intriguing structure changes during the phase separation process. Phase separation inside emulsion droplets in continuous surroundings has been well studied in recent years. Many investigations have also been conducted to study the droplet phase separation phenomena in noncontinuous surroundings. However, studies on the phase separation phenomena and the spreading behavior of suspended droplets at the air–liquid interface were rarely reported. In this study, PEGDA-glycerol suspended Janus droplets with a patchy structure were produced by utilizing solvent evaporation-induced droplet phase separation at the air–liquid interface. By altering the glycerol/PEGDA volume ratio, the initial proportion of ethanol, and the concentration of surfactants, suspended droplets with different morphologies can be achieved, which include filbert-shaped droplets (FSDs), half lotus seedpod single-phase Janus droplets (HLSDs), lotus seedpod single-phase Janus droplets (LSDs), lotus seedpod-shaped droplets (LSSDs), multiple-bulge droplets (MBDs), and half gourd-shaped droplets (HGSDs). A patchy structure was generated at the air–droplet interface, which was attributed to the Marangoni stresses induced by nonuniform evaporation. Furthermore, a modified spreading coefficient theory was constructed and verified to illustrate the phase separation at the air–droplet interface, which was the first research to predict the phase separation phenomena at the air–liquid interface via spreading coefficients theory. Moreover, we studied the factors that led to the droplets being able to float by designing the combined parameters, including three interfacial tensions and the equilibrium contact angles. Therefore, a simple and versatile strategy for creating suspended Janus droplets has been developed for the first time, which holds significant potential in a variety of applications for material synthesis, such as the electrospinning solution behavior when sprayed from the nozzle into the air.

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Intravenous Calcium Alginate Microspheres as Drug Delivery Vehicles in Acute Kidney Injury Treatment

Cited by 7 publications

References 15 publications

Application of biodegradable microsphere injections: an anticancer perspective

Application of biodegradable microsphere injections: an anticancer perspective

Nearly Reversible Expansion and Shrinkage of Casein Microparticles Triggered by Extreme pH Changes

Complex Suspended Janus Droplets Constructed through Solvent Evaporation-Induced Phase Separation at the Air–Liquid Interface

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