Synthesis of prednisolone molecularly imprinted polymer nanoparticles by precipitation polymerization

Phungpanya, Chalida; Chaipuang, Angkana; Machan, Theeraphan; Watla‐iad, Kanchana; Thongpoon, Chalermporn; Suwantong, Orawan

doi:10.1002/pat.4428

Cited by 16 publications

(12 citation statements)

References 52 publications

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“…Alternative methods provide imprinted polymer in regular size and shape. The other methods, including precipitation polymerization [27,28], emulsion polymerization [29], iniferter polymerization [30], and core-shell particles [31]. Precipitation polymerization gives a better control of shape and size.…”

Section: Fig 2: Comparison Of Various Mip-nps Synthesis Methods [1]mentioning

confidence: 99%

MOLECULARLY IMPRINTED POLYMER NANOPARTICLES (MIP-NPs) APPLICATIONS IN ELECTROCHEMICAL SENSORS

Fauzi

Saputri

2019

Int J App Pharm

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Molecularly Imprinted Polymers (MIPs) is a polymer that binds together to form a specific binding site that is selective for certain analytes. Its high stability, its synthesize simplicity, and it can ease costs significantly make it was applied widely as a receptor instead of antibodies or enzymes. MIPs can be re-developed into MIPs nanoparticles (MIP-NPs) which have greater potential. MIPs use in electrochemical sensors have relevant applications in daily life and have been tested in human samples. Electrochemical sensors have been successfully functioned with MIP-NPs leading to real-time monitoring of drugs, pesticides, environmental contaminants, and secondary metabolites, as well as molecules with biological relevance. The aim of this review is to summarize the developments and applications of MIP-NPs as a selective recognition component in electrochemical sensors with special emphasis on their analytical applications.

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Section: Fig 2: Comparison Of Various Mip-nps Synthesis Methods [1]mentioning

confidence: 99%

MOLECULARLY IMPRINTED POLYMER NANOPARTICLES (MIP-NPs) APPLICATIONS IN ELECTROCHEMICAL SENSORS

Fauzi

Saputri

2019

Int J App Pharm

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“…The general scheme for precipitation polymerization in shown in Figure 3. In contrast to bulk polymerization, this form of polymerization necessitates a significant amount of solvent [74]. It should also be noted that many variables, such as the polarity of the solvent, reaction temperature, and stirring speed, affect the size of the particles obtained, so reaction conditions should be carefully regulated [75].…”

Section: Precipitation Polymerizationmentioning

confidence: 99%

Recent Advances in Solid-Phase Extraction (SPE) Based on Molecularly Imprinted Polymers (MIPs) for Analysis of Hormones

et al. 2021

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Steroid hormones are active substances that are necessary in the normal functioning of all physiological activities in the body, such as sexual characteristics, metabolism, and mood control. They are also widely used as exogenous chemicals in medical and pharmaceutical applications as treatments and at times growth promoters in animal farming. The vast application of steroid hormones has resulted in them being found in different matrices, such as food, environmental, and biological samples. The presence of hormones in such matrices means that they can easily come into contact with humans and animals as exogenous compounds, resulting in abnormal concentrations that can lead to endocrine disruption. This makes their determination in different matrices a vital part of pollutant management and control. Although advances in analytical instruments are constant, it has been determined that these instruments still require some sample preparation steps to be able to determine the occurrence of pollutants in the complex matrices in which they occur. Advances are still being made in sample preparation to ensure easier, selective, and sensitive analysis of complex matrices. Molecularly imprinted polymers (MIPs) have been termed as advanced solid-phase (SPE) materials for the selective extraction and preconcentration of hormones in complex matrices. This review explores the preparation and application of MIPs for the determination of steroid hormones in different sample types.

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“…40 Boronic acid was also used for its ability to form a reversible covalent complex with cis-diol compounds such as luteolin, 48,49 vitamin B12, 50 sialic acid, 51 or for the specific trapping of glycans of glycoproteins as discussed in more detail below. Many works reported the screening of different synthesis conditions by preparing MIPs using different types of monomers, cross-linkers, template/monomer or monomer/cross-linker ratios, natures of the porogen, 28,30,39,43,[52][53][54][55][56][57][58][59][60][61][62][63][64][65] and even the pH when boronic acid is involved. 50,66 The evaluation of the resulting MIPs consists mainly in comparing the binding capacity of the MIP for the target analyte with the one obtained with the corresponding non-imprinted polymer (NIP) synthesized with the same conditions as the MIP but in the absence of the template molecule.…”

Section: Spe 33%mentioning

confidence: 99%

“…As for MIP-SPE, MIP particles for dSPE can be obtained by bulk polymerization that gives a monolith that must be crushed and possibly sieved. 53,58,64,[143][144][145][146] More homogenous MIP microspheres can also be obtained by precipitation polymerization, 63,65,[147][148][149] suspension polymerization, 45,89 and emulsion polymerization. 150 Another option is surface imprinting, which mainly consists in dispersing a core sorbent in the polymerization solution as described in detail in recent reviews.…”

Section: Preparation Of the Mip Particlesmentioning

confidence: 99%

Sample Preparation Using Molecularly Imprinted Polymers

2019

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Synthesis of prednisolone molecularly imprinted polymer nanoparticles by precipitation polymerization

Cited by 16 publications

References 52 publications

MOLECULARLY IMPRINTED POLYMER NANOPARTICLES (MIP-NPs) APPLICATIONS IN ELECTROCHEMICAL SENSORS

MOLECULARLY IMPRINTED POLYMER NANOPARTICLES (MIP-NPs) APPLICATIONS IN ELECTROCHEMICAL SENSORS

Recent Advances in Solid-Phase Extraction (SPE) Based on Molecularly Imprinted Polymers (MIPs) for Analysis of Hormones

Sample Preparation Using Molecularly Imprinted Polymers

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