Electrospun Fibers: Versatile Approaches for Controlled Release Applications

Afshar, Sepideh Karimi; Abdorashidi, Mohammadmohsen; Dorkoosh, Farid Abedin; Javar, Hamid Akbari

doi:10.1155/2022/9116168

Cited by 10 publications

(8 citation statements)

References 127 publications

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“…Thus, it provides an interesting idea for the development and application of nanomaterials. Based on the protocols reported here, the capability of multi-fluid electrospinning in tailoring the shape and inner structure of fibers [ 85 , 86 , 87 , 88 ] can be further combined with new therapeutical strategies and new active/inert components in the literature [ 89 , 90 , 91 , 92 , 93 , 94 , 95 ] for developing more medicated materials.…”

Section: Resultsmentioning

confidence: 99%

Engineered Shellac Beads-on-the-String Fibers Using Triaxial Electrospinning for Improved Colon-Targeted Drug Delivery

et al. 2023

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Colon-targeted drug delivery is gradually attracting attention because it can effectively treat colon diseases. Furthermore, electrospun fibers have great potential application value in the field of drug delivery because of their unique external shape and internal structure. In this study, a core layer of hydrophilic polyethylene oxide (PEO) and the anti-colon-cancer drug curcumin (CUR), a middle layer of ethanol, and a sheath layer of the natural pH-sensitive biomaterial shellac were used in a modified triaxial electrospinning process to prepare beads-on-the-string (BOTS) microfibers. A series of characterizations were carried out on the obtained fibers to verify the process–shape/structure–application relationship. The results of scanning electron microscopy and transmission electron microscopy indicated a BOTS shape and core–sheath structure. X-ray diffraction results indicated that the drug in the fibers was in an amorphous form. Infrared spectroscopy revealed the good compatibility of the components in the fibers. In vitro drug release revealed that the BOTS microfibers provide colon-targeted drug delivery and zero-order drug release. Compared to linear cylindrical microfibers, the obtained BOTS microfibers can prevent the leakage of drugs in simulated gastric fluid, and they provide zero-order release in simulated intestinal fluid because the beads in BOTS microfibers can act as drug reservoirs.

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Section: Resultsmentioning

confidence: 99%

Engineered Shellac Beads-on-the-String Fibers Using Triaxial Electrospinning for Improved Colon-Targeted Drug Delivery

et al. 2023

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“… Conventional techniques Advantages Disadvantages Ref. Freeze drying (i) Suitable technique to develop interconnected pores (ii) Low temperature (iii) Distinct leaching is not necessary (i) Irregular and small pores (ii) Time consuming process [183] Gas foaming (i) Porous scaffolds (ii) Do not use organic solvents (i) Pore geometry cannot be controlled (ii) Require excessive heat (iii) Non-interconnected pore structures [184] Electrospinning (i) Controlled porosity, fiber diameter and pore size (ii) Micro- to nano-sized diameter scaffolds (iii) Highly porous scaffolds (i) Use organic solvents (ii) Low mechanical strength (iii) Pore size is reduced with fiber thickness [185] , [186] , [187] Thermally induced phase separation (i) Highly porous 3D scaffolds (ii) Excellent mechanical properties (i) Small pores (<200 µm) (ii) Use of organic solvent, which are harmful to cells [188] Solvent casting (i) Expensive equipment is not required (ii) Ease of fabrication (i) Develop simple shape scaffolds only (ii) Use residual solvents [189] Solvent casting /particulate leaching (i) Expensive equipment is not required (ii) Ease of fabrication (i) Protein denaturation (ii) Lack of control on the interconnectivity of pores (iii) Only form simple shape scaffolds (iv) Residual solvent is harmful to cells [190] Powder forming (i) Scaffolds with high porosity (ii) Tailorable pore size (i) Use organic solvents [191] Sol-gel method (i) Develop scaffolds by using different types of ceramics (i) Low mechanical strength of scaffolds [...…”

Section: Conventional Manufacturing Techniquesmentioning

confidence: 99%

Additive manufacturing of sustainable biomaterials for biomedical applications

Arif

Khalid

Noroozi

et al. 2023

Asian Journal of Pharmaceutical Sciences

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“…Nanomaterials, due to their special structure and a series of unique physical and chemical properties, are widely used in chemosensors, e.g., for the fixation of active molecules, signal detection, and transmission amplification; greatly improve the sensitivity; shorten the response time; and achieve high-throughput real-time detection, providing a new research path and huge space for the development of chemosensors [62][63][64][65][66][67][68][69]. NFs have become a hot spot in sensing research due to their unique structure, and the electrospinning process can directly and continuously prepare polymer NFs [70][71][72][73].…”

Section: Electrospinningmentioning

confidence: 99%

Electrospun Nanofibers as Chemosensors for Detecting Environmental Pollutants: A Review

2023

Chemosensors

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Electrospun nanofibers have shown their advantages for applications in a wide variety of scientific fields thanks to their unique properties. Meanwhile, electrospinning is closely following the fast development of nano science and nanotechnology to move forward to smaller (pico-technology), more complicated nanostructures/nanodevices and more order (all kinds of nano arrays). Particularly, multiple-fluid electrospinning has the strong capability of creating nanostructures from a structural spinneret in a single-step and a straightforward “top-down” manner, holding great promise for creation on a large scale. This review is just to conclude the state-of-art studies on the related topics and also point out that the future directions of environmental detection require chemosensors, while the improvement of sensors requires new chemically synthesized functional substances, new nanostructured materials, application convenience, and functional integration or synergy. Based on the developments of electrospinning, more and more possibilities can be drawn out for detecting environmental pollutants with electrospun nanostructures as the strong support platform.

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Electrospun Fibers: Versatile Approaches for Controlled Release Applications

Cited by 10 publications

References 127 publications

Engineered Shellac Beads-on-the-String Fibers Using Triaxial Electrospinning for Improved Colon-Targeted Drug Delivery

Engineered Shellac Beads-on-the-String Fibers Using Triaxial Electrospinning for Improved Colon-Targeted Drug Delivery

Additive manufacturing of sustainable biomaterials for biomedical applications

Electrospun Nanofibers as Chemosensors for Detecting Environmental Pollutants: A Review

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