Advanced applications of smart electrospun nanofibers in cancer therapy: With insight into material capabilities and electrospinning parameters

Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release...

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Published in	International journal of pharmaceutics: X Vol. 8; p. 100265
Main Authors	Tayebi-Khorrami, Vahid, Rahmanian-Devin, Pouria, Fadaei, Mohammad Reza, Movaffagh, Jebraeel, Askari, Vahid Reza
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.12.2024 Elsevier
Subjects	Cancer Drug delivery Electrospinning Nanofibers Review Paper Smart TMZ PS PU PF127 WM983b TFE PCPP CMC RAFT TNBC IONPs HOK DOX FeCl3 6H2O HMAAm CDs LMWF ES-100 LCST Nanofibers CRL-2522 VCL AuNCs MCF-7 UCST BTZ β-GP SB HeLa 4 T1 SNM PLLA PHM Caco-2 L929 GSCs SKOV3 CT26 PCL-Diol-b-PU ICG Smart ABT199 ECM SCC-9 CS PEO-PPO-PEO PTAs PAH MDA-MB-231 Cancer 5-FU LNCaP EDC A549 H1355 Electrospinning HuH-7 ADM 17AAG MG-63 FeCl2 4H2O ESO26 HSA LoVo AMF EMF MNPs K562 L132 GNRs HCC RhB RGD ATRP MEF OE21 HT-29 PCL MWCNTs MET PNIPAAm TCM Ms NHEM MC3T3-E1 HCT-116 U87-MG Drug delivery PVCL PDA SKOV-3 NNHs PTT PTX HepG2 NHS PCMs NCI-H23 LHAp LSPR 3-AMP SW480 PLGA COLO 679 B16F10 HA PVA PEO U251 CTO
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Abstract	Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release. Their inherent characteristics, such as a high surface area-to-volume ratio, make them attractive candidates for drug delivery applications. Smart nanofibers can release drugs in response to specific stimuli, including pH, temperature, magnetic fields, and light. This unique feature not only reduces side effects but also enhances the overall efficiency of drug delivery systems. Electrospinning, a widely used method, allows the precision fabrication of smart nanofibers. Its advantages include high efficiency, user-friendliness, and the ability to control various manufacturing parameters. In this review, we explore the latest developments in producing smart electrospun nanofibers for cancer treatment. Additionally, we discuss the materials used in manufacturing these nanofibers and the critical parameters involved in the electrospinning process. [Display omitted] •Smart electrospun nanofibers are pivotal in cancer therapy.•They respond to temperature, pH, magnetic, light, or a combination of these.•Their stimuli-responsive nature minimizes side effects.•Electrospinning parameters shape nanofiber traits significantly.•Material and polymer selection is critical for stimuli-sensitive nanofibers.
AbstractList	Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release. Their inherent characteristics, such as a high surface area-to-volume ratio, make them attractive candidates for drug delivery applications. Smart nanofibers can release drugs in response to specific stimuli, including pH, temperature, magnetic fields, and light. This unique feature not only reduces side effects but also enhances the overall efficiency of drug delivery systems. Electrospinning, a widely used method, allows the precision fabrication of smart nanofibers. Its advantages include high efficiency, user-friendliness, and the ability to control various manufacturing parameters. In this review, we explore the latest developments in producing smart electrospun nanofibers for cancer treatment. Additionally, we discuss the materials used in manufacturing these nanofibers and the critical parameters involved in the electrospinning process. Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release. Their inherent characteristics, such as a high surface area-to-volume ratio, make them attractive candidates for drug delivery applications. Smart nanofibers can release drugs in response to specific stimuli, including pH, temperature, magnetic fields, and light. This unique feature not only reduces side effects but also enhances the overall efficiency of drug delivery systems. Electrospinning, a widely used method, allows the precision fabrication of smart nanofibers. Its advantages include high efficiency, user-friendliness, and the ability to control various manufacturing parameters. In this review, we explore the latest developments in producing smart electrospun nanofibers for cancer treatment. Additionally, we discuss the materials used in manufacturing these nanofibers and the critical parameters involved in the electrospinning process. Unlabelled Image • Smart electrospun nanofibers are pivotal in cancer therapy. • They respond to temperature, pH, magnetic, light, or a combination of these. • Their stimuli-responsive nature minimizes side effects. • Electrospinning parameters shape nanofiber traits significantly. • Material and polymer selection is critical for stimuli-sensitive nanofibers. Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release. Their inherent characteristics, such as a high surface area-to-volume ratio, make them attractive candidates for drug delivery applications. Smart nanofibers can release drugs in response to specific stimuli, including pH, temperature, magnetic fields, and light. This unique feature not only reduces side effects but also enhances the overall efficiency of drug delivery systems. Electrospinning, a widely used method, allows the precision fabrication of smart nanofibers. Its advantages include high efficiency, user-friendliness, and the ability to control various manufacturing parameters. In this review, we explore the latest developments in producing smart electrospun nanofibers for cancer treatment. Additionally, we discuss the materials used in manufacturing these nanofibers and the critical parameters involved in the electrospinning process.Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release. Their inherent characteristics, such as a high surface area-to-volume ratio, make them attractive candidates for drug delivery applications. Smart nanofibers can release drugs in response to specific stimuli, including pH, temperature, magnetic fields, and light. This unique feature not only reduces side effects but also enhances the overall efficiency of drug delivery systems. Electrospinning, a widely used method, allows the precision fabrication of smart nanofibers. Its advantages include high efficiency, user-friendliness, and the ability to control various manufacturing parameters. In this review, we explore the latest developments in producing smart electrospun nanofibers for cancer treatment. Additionally, we discuss the materials used in manufacturing these nanofibers and the critical parameters involved in the electrospinning process. Cancer remains a major global health challenge, and despite available treatments, its prognosis remains poor. Recently, researchers have turned their attention to intelligent nanofibers for cancer drug delivery. These nanofibers exhibit remarkable capabilities in targeted and controlled drug release. Their inherent characteristics, such as a high surface area-to-volume ratio, make them attractive candidates for drug delivery applications. Smart nanofibers can release drugs in response to specific stimuli, including pH, temperature, magnetic fields, and light. This unique feature not only reduces side effects but also enhances the overall efficiency of drug delivery systems. Electrospinning, a widely used method, allows the precision fabrication of smart nanofibers. Its advantages include high efficiency, user-friendliness, and the ability to control various manufacturing parameters. In this review, we explore the latest developments in producing smart electrospun nanofibers for cancer treatment. Additionally, we discuss the materials used in manufacturing these nanofibers and the critical parameters involved in the electrospinning process. [Display omitted] •Smart electrospun nanofibers are pivotal in cancer therapy.•They respond to temperature, pH, magnetic, light, or a combination of these.•Their stimuli-responsive nature minimizes side effects.•Electrospinning parameters shape nanofiber traits significantly.•Material and polymer selection is critical for stimuli-sensitive nanofibers.
ArticleNumber	100265
Author	Fadaei, Mohammad Reza Askari, Vahid Reza Tayebi-Khorrami, Vahid Movaffagh, Jebraeel Rahmanian-Devin, Pouria
Author_xml	– sequence: 1 givenname: Vahid surname: Tayebi-Khorrami fullname: Tayebi-Khorrami, Vahid organization: Department of Pharmaceutics, School of Pharmacy, Mashhad University of Medical Sciences, Mashhad, Iran – sequence: 2 givenname: Pouria surname: Rahmanian-Devin fullname: Rahmanian-Devin, Pouria organization: Department of Pharmaceutics, School of Pharmacy, Mashhad University of Medical Sciences, Mashhad, Iran – sequence: 3 givenname: Mohammad Reza surname: Fadaei fullname: Fadaei, Mohammad Reza organization: Department of Pharmaceutics, School of Pharmacy, Mashhad University of Medical Sciences, Mashhad, Iran – sequence: 4 givenname: Jebraeel surname: Movaffagh fullname: Movaffagh, Jebraeel organization: Department of Pharmaceutics, School of Pharmacy, Mashhad University of Medical Sciences, Mashhad, Iran – sequence: 5 givenname: Vahid Reza surname: Askari fullname: Askari, Vahid Reza email: askariv@mums.ac.ir, vahidrezaaskary@gmail.com organization: Pharmacological Research Center of Medicinal Plants, Mashhad University of Medical Sciences, Mashhad, Iran
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/39045009$$D View this record in MEDLINE/PubMed
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CitedBy_id	crossref_primary_10_1002_app_56963 crossref_primary_10_1080_25740881_2024_2408346
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Keywords	TMZ PS PU PF127 WM983b TFE PCPP CMC RAFT TNBC IONPs HOK DOX FeCl3 6H2O HMAAm CDs LMWF ES-100 LCST Nanofibers CRL-2522 VCL AuNCs MCF-7 UCST BTZ β-GP SB HeLa 4 T1 SNM PLLA PHM Caco-2 L929 GSCs SKOV3 CT26 PCL-Diol-b-PU ICG Smart ABT199 ECM SCC-9 CS PEO-PPO-PEO PTAs PAH MDA-MB-231 Cancer 5-FU LNCaP EDC A549 H1355 Electrospinning HuH-7 ADM 17AAG MG-63 FeCl2 4H2O ESO26 HSA LoVo AMF EMF MNPs K562 L132 GNRs HCC RhB RGD ATRP MEF OE21 HT-29 PCL MWCNTs MET PNIPAAm TCM Ms NHEM MC3T3-E1 HCT-116 U87-MG Drug delivery PVCL PDA SKOV-3 NNHs PTT PTX HepG2 NHS PCMs NCI-H23 LHAp LSPR 3-AMP SW480 PLGA COLO 679 B16F10 HA PVA PEO U251 CTO
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Title	Advanced applications of smart electrospun nanofibers in cancer therapy: With insight into material capabilities and electrospinning parameters
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