Cargo–carrier interactions significantly contribute to micellar conformation and biodistribution

“…Whereas inhibition of PI3Kγ could be a strategy to counter liver failure, the same signaling molecule might confer protection in other organs, e.g., in the heart ( 20 ). This highlights the need to achieve organ and cell-specific targeting of these processes in multi-organ dysfunction ( 21 , 22 ).…”

Section: End Organ Failure—insights From Systems Medicinementioning

confidence: 99%

“…Hence, before signaling mediators can be used therapeutically, it will be necessary to overcome the significant hurdles posed by these multifunctional signaling molecules. Nanoparticle-based targeted drug-delivery ( 21 , 22 , 59 ) might help to specifically tackle this problem.…”

Section: Outlook—purposeful Manipulation Of Signals Mediating Damage mentioning

confidence: 99%

Deterioration of Organ Function As a Hallmark in Sepsis: The Cellular Perspective

et al. 2018

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Development of organ dysfunction discriminates sepsis from uncomplicated infection. The paradigm shift implicated by the new sepsis-3 definition holds that initial impairment of any organ can pave the way for multiple organ dysfunction and death. Moreover, the role of the systemic inflammatory response, central element in previous sepsis definitions, has been questioned. Most strikingly, a so far largely underestimated defense mechanism of the host, i.e., “disease tolerance,” which aims at maintaining host vitality without reducing pathogen load, has gained increasing attention. Here, we summarize evidence that a dysregulation of critical cellular signaling events, also in non-immune cells, might provide a conceptual framework for sepsis-induced dysfunction of parenchymal organs in the absence of significant cell death. We suggest that key signaling mediators, such as phosphoinositide 3-kinase, mechanistic target of rapamycin, and AMP-activated protein kinase, control the balance of damage and repair processes and thus determine the fate of affected organs and ultimately the host. Therapeutic targeting of these multifunctional signaling mediators requires cell-, tissue-, or organ-specific approaches. These novel strategies might allow stopping the domino-like damage to further organ systems and offer alternatives beyond the currently available strictly supportive therapeutic options.

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“…Unfortunately, there is minimum information discussing the effect of interaction between a drug and its matrix to its release profile, specifically for the matrix in the form of a hard-shell capsule. Press et al [2] reported that polyether-based triblock tricopolymer micelles act as an agent to give the effect to the physicochemical properties of the matrix as well as the actual conditions during encapsulation interfere during the formulation of nanoparticular drug-matrix systems. On the other hand, drug molecules may directly interact with matrix molecules, lowering their solubility and/or retarding their release from the matrixes [1,3].…”

Section: ■ Introductionmentioning

confidence: 99%

Analysis of Dissolution of Salicylamide from Carrageenan Based Hard-Shell Capsules: A Study of the Drug-Matrix Interaction

et al. 2020

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In drug release kinetics, the drug-matrix interaction is one of the important mechanisms to be dictated. Unfortunately, there is still minimum information discussing the effect of interaction between a drug and its matrix to the release profile of the drug. Therefore, there is an urgent need to conduct research related to the study of drug-matrix interaction. This paper reports the preparation of a drug delivery system (DDS) in the form of hard-shell capsules containing salicylamide (SCA) and analyses its drug-matrix interaction via dissolution test at different pH media and various release kinetics models. The matrix of hard-shell capsules was prepared from κ-carrageenan (CRG), crosslinked with maltodextrin (MD), and plasticized by sorbitol (SOR). The chemical properties of SCA were compared with paracetamol (PCT) using computational analysis to help to depict its drug-matrix interaction. The statistical analyses showed that SCA and PCT at pH 1.2, 4.5, and 6.8 had all different release profiles. Based on the goodness of fit evaluation, the diffusion mechanism of SCA at pH 1.2 and 4.5 could be best described by the Peppas-Sahlin model while the zeroth-order model fitted the dissolution profile at pH 6.8. In summary, it was proven that a different drug-matrix interaction produced a different dissolution profile.

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Cargo–carrier interactions significantly contribute to micellar conformation and biodistribution

Cited by 28 publications

References 38 publications

Advances in PEG-based ABC terpolymers and their applications

Advances in PEG-based ABC terpolymers and their applications

Deterioration of Organ Function As a Hallmark in Sepsis: The Cellular Perspective

Analysis of Dissolution of Salicylamide from Carrageenan Based Hard-Shell Capsules: A Study of the Drug-Matrix Interaction

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