Your search keyword '"Rashid, Arif"' showing total 7 results

1. Radiomics: “unlocking the potential of medical images for precision radiation oncology”

Author

Kalendralis, Petros, primary, Vallières, Martin, additional, Kann, Benjamin H., additional, Sanjay, Aneja, additional, Rashid, Arif S., additional, Dekker, Andre, additional, and Fijten, Rianne, additional

Published

2024

2. Contributors

Author

Ahmed, Sara, primary, Au Yong, Tracy P.T., additional, Bakst, Richard, additional, Barnett, Gill, additional, Bond, Sarah, additional, Boon, Ian S., additional, Boon, Cheng S., additional, Buckstein, Michael, additional, Chen, Liyuan, additional, Chowdhry, Amit Kumar, additional, Cui, Sunan, additional, Dekker, Andre, additional, Dohopolski, Michael, additional, El-Charif, Omar, additional, El Naqa, Issam, additional, Fijten, Rianne, additional, Fuller, Clifton D., additional, Green, Andrew, additional, Jain, Anshu, additional, Kalendralis, Petros, additional, Kalet, Alan M., additional, Kang, John, additional, Kann, Benjamin H., additional, Kerns, Sarah, additional, Kim, Ellen, additional, Kiser, Kendall J., additional, Levitin, Ronald, additional, Liu, Jinyuan, additional, Lyon, Robert J., additional, McCoy, Lance A., additional, McDonald, Brigid A., additional, McWilliam, Alan, additional, Milano, Michael, additional, Mulder, Samuel, additional, Nayak, Stuti, additional, Nobel, Martijn, additional, Placide, John, additional, Porter, Evan, additional, Preston, Kathryn, additional, Puts, Sander, additional, Pybus, Matt, additional, Rashid, Arif S., additional, Rattay, Tim, additional, Rosenstein, Barry S., additional, Sanders, Keith L., additional, Sanjay, Aneja, additional, Schwartz, Russell, additional, Sharafi, Christina Setareh, additional, Sher, David, additional, Shumway, John, additional, Siddiqui, Zaid, additional, Speers, Corey, additional, Strawderman, Robert, additional, Tao, Yifeng, additional, Thomas, Charles R., additional, Thompson, Reid F., additional, Tu, Xin Ming, additional, Tu, Justin Xiang-Yuan, additional, Vallières, Martin, additional, van Dijk, Lisanne V., additional, Ventura, Juan, additional, Wahid, Kareem A., additional, Wald, Hedy S., additional, Wang, Jing, additional, Wasserman, Jason Adam, additional, West, Catharine, additional, Yang, Kun, additional, Yap, Moi Hoon, additional, Yuan, Yading, additional, Yuan, Ye, additional, Zegers, Catharina, additional, Zhu, Lin L., additional, and Zuhour, Raed, additional

Published

2024

3. Interfacial multilayer self-assembly of protein and polysaccharides: Ultrasonic regulation, stability and application in delivery lutein.

Author

Shi Y, Liu Y, Sun Y, Zhong M, Rashid A, Qayum A, Liang Q, Rehman A, Ma H, and Ren X

Subjects

Chitosan chemistry, Particle Size, Adsorption, Ultrasonic Waves, Pectins chemistry, Caseins chemistry, Proteins chemistry, Temperature, Emulsions chemistry, Lutein chemistry, Polysaccharides chemistry

Abstract

In this study, the layer-by-layer adsorption behavior of sodium caseinate, pectin, and chitosan on the oil-water interface was illustrated using multi-frequency ultrasound. We investigated the impact of ultrasound on various factors, such as particle size, zeta potential, and interfacial protein/polysaccharide concentration. It was observed that ultrasound has significantly decreased droplet size and increased the surface area at the interface, hence promoting the adsorption of protein/polysaccharide. In the sonicated multilayer emulsion, the concentrations of interface proteins, pectin, and chitosan increased to 84.82 %, 90.49 %, and 83.31 %, respectively. The findings of the study indicated that the application of ultrasonic treatment had a significant impact on the emulsion's surface charge and the prevention of droplet aggregation. As a result, the stability of the emulsion system, including its resistance to salt, temperature, and storage conditions, has been significantly improved. Moreover, the emulsion showed an increase in the retention rate of lutein by 21.88 % after a high-temperature water bath and by 19.35 % after UV irradiation. Certainly, the multilayer emulsion treated with ultrasound demonstrated a superior and prolonged releasing behavior. These findings demonstrated the suitability of the ultrasound treatment for the preparation of emulsions to deliver bioactive compounds., Competing Interests: Declaration of competing interest We confirm that this manuscript has not been published elsewhere and is not under consideration by any other journal. All authors agree with submission to “International Journal of Biological Macromolecules”. We have no conflicts of interest to declare. We hope the manuscript is suitable for publication in “International Journal of Biological Macromolecules”., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

4. Exploring the potential of pullulan-based films and coatings for effective food preservation: A comprehensive analysis of properties, activation strategies and applications.

Author

Rashid A, Qayum A, Liang Q, Kang L, Ekumah JN, Han X, Ren X, and Ma H

Subjects

Animals, Food Packaging methods, Permeability, Glucans pharmacology, Food Preservation methods

Abstract

Pullulan is naturally occurring polysaccharide exhibited potential applications for food preservation has gained increasing attention over the last half-century. Recent studies focused on efficient preservation and targeted inhibition using active composite ingredients and advanced technologies. This has led to the emergence of pullulan-based biofilm preservation. This review extensively studied the characteristics of pullulan-based films and coatings, including their mechanical strength, water vapor permeability, thermal stability, and potential as a microbial agent. Furthermore, the distinct characteristics of pullulan, production methods, and activation strategies, such as pullulan derivatization, various compounded ingredients (plant extracts, microorganisms, and animal additives), and other technologies (e.g., ultrasound), are thoroughly studied for the functional property enhancement of pullulan-based films and coatings, ensuring optimal preservation conditions for diverse food products. Additionally, we explore hypotheses that further illuminate pullulan's potential as an eco-friendly bioactive material for food packaging applications. In addition, this review evaluates various methods to improve the efficiency of the film-forming mechanism, such as improving the direct coating process, bioactive packaging films, and implementing layer-by-layer coatings. Finally, current analyses put forward suggestions for future advancement in pullulan-based bioactive films, with the aim of expanding their range of potential applications., Competing Interests: Declaration of competing interest There are no conflicts of interest to declare. This article does not contain any studies involving human or animal subjects., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

5. Multi-scale ultrasound induced composite coacervates of whey protein and pullulan polysaccharide on emulsion forming and stabilizing mechanisms.

Author

Qayum A, Rashid A, Liang Q, Kang L, Ahmed Z, Hussain M, Virk MS, Ekumah JN, Ren X, Ma H, and Miao S

Subjects

Animals, Cattle, Whey Proteins chemistry, Emulsions chemistry, Molecular Docking Simulation, Polysaccharides, Glucans

Abstract

A non-destructive technique known as multi-scale ultrasound (MSU) was employed to modify the emulsion consisting of glycosylated bovine whey protein (WP) and pullulan (Pu). To assess the effect on the structural and emulsifying properties of the WP-Pu, the formulated emulsion, was treated with divergent MSU at (single: 20 kHz, 40 kHz, and 60 kHz; dual: 20-40 kHz, 40-60 kHz, and 20-60 kHz; and tri: 20-40-60 kHz) frequency for a duration of 30 min. The tri-frequency, treated emulsion showed improved emulsifying stability compared to the control and MSU-treated single, and dual-frequency samples, as indicated by the particle size, structural morphology, and adsorbed protein. The molecular docking and numerous spectral analysis provided evidence that WP can undergo successful phenolation. This modified form of WP then interacts with Pu through various forces, including H-bonding and other mechanisms, resulting in the formation of a composite emulsion. The rheological properties revealed that both the control emulsion and the MSU-treated emulsion exhibited non-Newtonian pseudoplastic flow behavior. This behavior is characterized by shear thinning, where the viscosity decreases with increasing shear rate. The shear rates tested ranged from 1 to 300 1/s, additionally, the degree of crystallinity increased from 18.2° to 19.4°. Overall, the tri-frequency effect was most pronounced compared to single and dual-frequency. Ultrasonication, an emerging non-thermal technology, proves to be an efficient approach for the formulation of WP-Pu composites. These composites have significant potential for use in drug delivery systems and functional foods., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Conflict of interest We have no conflicts of interest to declare. We hope the manuscript is suitable for publication in “Journal of Colloids and Surfaces B: Biointerfaces”., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

6. The effects of different hydrocolloids on lotus root starch gelatinization and gels properties.

Author

Han X, Liang Q, Rashid A, Qayum A, Rehman A, Zhong M, Sun Y, Liu Y, Ma H, Miao S, and Ren X

Subjects

Gels chemistry, Polysaccharides, Bacterial chemistry, Gum Arabic chemistry, Viscosity, Rheology, Starch chemistry, Colloids chemistry

Abstract

In this study, xanthan gum (XG), sodium alginate (SA), guar gum (GG), and gum Arabic (GA), were used to modify Lotus root starch (LRS). The incorporation XG, SA, and GG significantly (p < 0.05) influence the swelling power (SP) of LRS, among which the 1.5 % of XG exhibited the highest value of 25.84 g/g at 90 °C. Gelatinization analysis revealed that XG raised the final viscosity (FV) and lowered the breakdown (BD), while SA significantly increased peak viscosity (PV) and BD. Furthermore, GG and GA exhibited a substantial reduction in setback (SB). The incorporation of XG, SA, and GG enhanced the rheological and structural properties (e.g., gel strength and elasticity) of LRS. Particularly, XG demonstrated a more prominent effect, while GA exhibited an opposite trend. Moreover, the structural analyses revealed that hydrophilic colloids have no impact on the functional group and crystal structure of the LRS. However, complex system exhibited the more stable hydrogen bonding. The addition of 1.5 % XG exhibited the most stable hydrogen bonding and highest water binding affinity. Overall, the results demonstrated the effect of different hydrophilic colloids on LRS, offering a theoretical basis for LRS applications and novel insights for the use of starches and hydrocolloids., Competing Interests: Declaration of competing interest We have no conflict of interest to declare., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

7. Effects of multi-frequency ultrasound on sodium caseinate/pectin complex: Emulsifying properties, interaction force, structure and correlation.

Author

Liu Y, Liang Q, Liu Y, Rashid A, Qayum A, Ma H, and Ren X

Subjects

Emulsions chemistry, Hydrophobic and Hydrophilic Interactions, Adsorption, Emulsifying Agents chemistry, Caseins chemistry, Pectins

Abstract

This study aimed to improve the emulsification properties of the sodium caseinate (Cas) and pectin (Pec) complex using multi-frequency power ultrasound to regulate the complexation of Cas and Pec. The results revealed that optimal ultrasonic treatment (Frequency 60 kHz, power density 50 W/L, and time 25 min) led to a 33.12 % increase in emulsifying activity (EAI) and a 7.27 % increase in emulsifying stability index (ESI) of the Cas-Pec complex. Our results demonstrated that electrostatic interactions and hydrogen bonds were the main driving forces for complex formation, and these were reinforced by ultrasound treatment. Moreover, it was observed that ultrasonic treatment improved the surface hydrophobicity, thermal stability, and secondary structure of the complex. Scanning electron microscopy and atomic force microscopy analyses revealed that the ultrasonically prepared Cas-Pec complex had a dense, uniform spherical structure with reduced surface roughness. It was further confirmed that the complex's emulsification properties were highly correlated with its physicochemical and structural properties. Multi-frequency ultrasound changes the interaction by regulating protein structure and ultimately acting on the interfacial adsorption behavior of the complex. This work contributes to expanding the role of multi-frequency ultrasound in modifying the emulsification properties of the complex., Competing Interests: Declaration of competing interest There are no conflicts of interest to declare. This article does not contain any studies involving human or animal subjects., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023