Oral Insulin Delivery: A Review on Recent Advancements and Novel
Strategies

Javadzadeh, Yousef; Barfar, Ashkan; Alizadeh, Hussain; Masoomzadeh, Salar

doi:10.2174/1567201820666230518161330

Cited by 5 publications

(2 citation statements)

References 101 publications

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“…Oral insulin delivery has been attempted using lipid-based, synthetic polymer-based, and polysaccharide-based nano/microparticle formulations. Although insulin-transporting particles may preserve insulin in the acidic and enzymatic medium and decrease peptide degradation, in vivo results revealed a lower ability of formulations to reduce glucose in the blood than the subcutaneous form despite promising in vitro results [146].…”

Section: Recent Formulations For Antimicrobial Peptidesmentioning

confidence: 99%

Antimicrobial Peptides and Their Assemblies

Carmona-Ribeiro

2023

Future Pharmacology

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Antibiotic resistance requires alternatives to fight multi-drug resistant strains. Antimicrobial peptides (AMPs) act by disrupting or solubilizing microbial cell walls or membranes in accordance with mechanisms difficult to counteract from the microbe’s point of view. In this review, structure–activity relationships for AMPs and their assemblies are discussed, considering not only their self-assembly but also their interactions with their carriers for optimal delivery or their combinations with other complementary antimicrobials or moieties covalently bound to their chemical structure. The effect of the formulations on AMP activity is also evaluated, revealing a myriad of possibilities. Depending on the interaction forces between the AMP, the carrier, or the elements added to the formulations, AMP activity can be reduced, enhanced, or remain unaffected. Approaches protecting AMPs against proteolysis may also reduce their activity.

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Section: Recent Formulations For Antimicrobial Peptidesmentioning

confidence: 99%

Antimicrobial Peptides and Their Assemblies

Carmona-Ribeiro

2023

Future Pharmacology

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“…Studies have shown that the dissociation of the nanoparticulate structure could happen due to the deprotonation or protonation of particle components (such as polysaccharides, proteins, or lipids) in different pH environments, resulting in the burst release and degradation of encapsulated bioactive compounds. Hence, good GI-stability of nanoparticles across a wide range of pH values is crucial to protect insulin throughout the entire GI transition against chemical degradation and improve its oral bioavailability [ 23 ].…”

Section: Introductionmentioning

confidence: 99%

Preparation and Characterization of Chitosan Nanofiber: Kinetic Studies and Enhancement of Insulin Delivery System

Fouad,

Ismail,

Abdel Rafea

et al. 2024

Nanomaterials

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Insulin-loaded nanofibers were prepared using chitosan as a natural polymer. The loaded insulin with polyethylene oxide was used for preparing monolayer batch S1. Nanofiber S1 was coated by seven layers of film on both sides to form batch S2 as a sandwich containing Layer A (CS, PEG and PEO) and Layer B (PEG and PEO) using electrospinning apparatus. SEM, TEM and FT-IR techniques were used to confirm the drug loading within the composite nanofibers. The in vitro activity that provided a sustained and controlled release of the drug from the nanofiber batch was studied at different pH values spectrophotometrically using a dialysis method. In batches S1 and S2, the release of insulin from nanofiber proceeds via burst release necessary to produce the desired therapeutic activity, followed by slow step. The rate and the percentage release of insulin in batch S2 are found to be higher at all pH values.

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Nanoparticle and microparticle-based systems for enhanced oral insulin delivery: A systematic review and meta-analysis

Romero-Carmona,

Chávez-Corona,

Lima

et al. 2024

J Nanobiotechnol

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Diabetes mellitus (DM) prevalence is rising worldwide. Current therapies comprising subcutaneous insulin injections can cause adverse effects such as lipodystrophy, local reactions like redness and swelling, fluid retention, and allergic reactions. Nanoparticle carriers for oral insulin are groundbreaking compared to existing methods because they are non-invasive treatments, showing operational convenience, controlled release profile, and ability to simulate the physiological delivery route into the bloodstream. These systems improve patient adherence and have demonstrated the potential to lower blood glucose levels in DM. We present a systematic review and meta-analysis aimed at compiling relevant data to pave the way for developing innovative nano- and microparticles for the oral delivery of insulin. Our analysis of 85 articles revealed that the diminution of glucose levels is not proportional to the administered insulin dosage, which ranged from 1 to 120 International Units (IU). The meta-analysis data indicated that 25 IU of encapsulated porcine insulin did not produce a statistically significant outcome (p = 0.93). In contrast, a dosage of 30 IU was efficacious in eliciting an optimal hypoglycemic effect compared to excipient controls. Parameters such as a high degree of encapsulation (~ 90%), particle size (200–400 nm), and polydispersity index (0.086–0.3) are all associated with lower blood glucose levels. These parameters were also significant in the linear regression analysis. Among the excipients employed, chitosan emerged as a prevalent excipient in formulations due to its biocompatible and biodegradable properties and its ability to establish stable polymeric matrices. Even though oral insulin administration is a promising therapeutic method, it cannot guarantee preclinical safety and therapeutic efficacy yet in regulating glucose levels in diabetic conditions. Graphical Abstract

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Oral Insulin Delivery: A Review on Recent Advancements and Novel Strategies

Cited by 5 publications

References 101 publications

Antimicrobial Peptides and Their Assemblies

Antimicrobial Peptides and Their Assemblies

Preparation and Characterization of Chitosan Nanofiber: Kinetic Studies and Enhancement of Insulin Delivery System

Nanoparticle and microparticle-based systems for enhanced oral insulin delivery: A systematic review and meta-analysis

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