Prolongation of Fate of Bacteriophages In Vivo by Polylactic-Co-Glycolic-Acid/Alginate-Composite Encapsulation

Kim, Sang-Guen; Giri, Sib Sankar; Jo, Su-Jin; Kang, JeongWoo; Lee, Sung-Bin; Jung, Won-Joon; Lee, Young-Min; Kim, Hee‐Jin; Kim, Ji Hyung; Park, Taesung

doi:10.3390/antibiotics11091264

Cited by 10 publications

(4 citation statements)

References 42 publications

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“…One of the critical factors that should be considered for applying phages as biocontrol agents is their fate on targeted environment [ 33 , 37 , 48 , 65 ]. The plant surface is characterized by its anti-adhesive nature, which makes it difficult for phages to adhere and to penetrate the plant tissues [ 66 ].…”

Section: Discussionmentioning

confidence: 99%

Optimizing the formulation of Erwinia bacteriophages for improved UV stability and adsorption on apple leaves

Jo,

Kim,

Park

et al. 2023

Heliyon

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Section: Discussionmentioning

confidence: 99%

Optimizing the formulation of Erwinia bacteriophages for improved UV stability and adsorption on apple leaves

Jo,

Kim,

Park

et al. 2023

Heliyon

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“…Singla et al employed liposome encapsulation to shield phages from neutralization through phage-specific antibodies, leading to an increased protection effect in vivo [ 154 , 155 ]. Kim et al extended phage survival in vivo by encapsulating biocompatible substances, thereby mitigating the immune response to phages [ 156 ].…”

Section: Laboratory and Therapeutic Practicesmentioning

confidence: 99%

The Biotechnological Application of Bacteriophages: What to Do and Where to Go in the Middle of the Post-Antibiotic Era

Jo,

Kwon,

Kim

et al. 2023

Microorganisms

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Amid the escalating challenges of antibiotic resistance, bacterial infections have emerged as a global threat. Bacteriophages (phages), viral entities capable of selectively infecting bacteria, are gaining momentum as promising alternatives to traditional antibiotics. Their distinctive attributes, including host specificity, inherent self-amplification, and potential synergy with antibiotics, render them compelling candidates. Phage engineering, a burgeoning discipline, involves the strategic modification of bacteriophages to enhance their therapeutic potential and broaden their applications. The integration of CRISPR-Cas systems facilitates precise genetic modifications, enabling phages to serve as carriers of functional genes/proteins, thereby enhancing diagnostics, drug delivery, and therapy. Phage engineering holds promise in transforming precision medicine, addressing antibiotic resistance, and advancing diverse applications. Emphasizing the profound therapeutic potential of phages, this review underscores their pivotal role in combatting bacterial diseases and highlights their significance in the post-antibiotic era.

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“…Double water-in-oil-in-water (W/O/W) emulsion was conducted by Kim, S. et al [62]. PLGA microspheres were prepared using a bacteriophage solution of pAh-6C in phosphate buffered saline (PBS), mixed with PLGA, and dissolved in dichloromethane to form a W/O emulsion.…”

Section: Emulsificationmentioning

confidence: 99%

“…Calcium chloride solution was added and homogenized to crosslink the alginate. To the emulsion was added deionized water and, after stirring and evaporating, microspheres were obtained [62].…”

Section: Emulsificationmentioning

confidence: 99%

Application of Physical-Chemical Approaches for Encapsulation of Active Substances in Pharmaceutical and Food Industries

Řepka,

Kurillová,

Murtaja

et al. 2023

Foods

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Background: Encapsulation is a valuable method used to protect active substances and enhance their physico-chemical properties. It can also be used as protection from unpleasant scents and flavors or adverse environmental conditions. Methods: In this comprehensive review, we highlight the methods commonly utilized in the food and pharmaceutical industries, along with recent applications of these methods. Results: Through an analysis of numerous articles published in the last decade, we summarize the key methods and physico-chemical properties that are frequently considered with encapsulation techniques. Conclusion: Encapsulation has demonstrated effectiveness and versatility in multiple industries, such as food, nutraceutical, and pharmaceuticals. Moreover, the selection of appropriate encapsulation methods is critical for the effective encapsulation of specific active compounds. Therefore, constant efforts are being made to develop novel encapsulation methods and coating materials for better encapsulation efficiency and to improve properties for specific use.

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Prolongation of Fate of Bacteriophages In Vivo by Polylactic-Co-Glycolic-Acid/Alginate-Composite Encapsulation

Cited by 10 publications

References 42 publications

Optimizing the formulation of Erwinia bacteriophages for improved UV stability and adsorption on apple leaves

Optimizing the formulation of Erwinia bacteriophages for improved UV stability and adsorption on apple leaves

The Biotechnological Application of Bacteriophages: What to Do and Where to Go in the Middle of the Post-Antibiotic Era

Application of Physical-Chemical Approaches for Encapsulation of Active Substances in Pharmaceutical and Food Industries

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