Nanomedicine and nano delivery systems are a relatively new but rapidly developing science where materials in the nanoscale range are employed to serve as means of diagnostic tools or to deliver therapeutic agents to specific targeted sites in a controlled manner Nanotechnology offers multiple benefits in treating chronic human diseases by site-specific, and target-oriented delivery of precise medicines Recently, there are a number of outstanding applications of the nanomedicine (chemotherapeutic agents, biological agents, immunotherapeutic agents etc) in the treatment of various diseases The current review, presents an updated summary of recent advances in the field of nanomedicines and nano based drug delivery systems through comprehensive scrutiny of the discovery and application of nanomaterials in improving both the efficacy of novel and old drugs (eg, natural products) and selective diagnosis through disease marker molecules The opportunities and challenges of nanomedicines in drug delivery from synthetic/natural sources to their clinical applications are also discussed In addition, we have included information regarding the trends and perspectives in nanomedicine area

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Nano based drug delivery systems: recent developments and future prospects

https://cyberleninka.org/article/n/1018032.pdf

Polymer nanotechnology: Nanocomposites

Processing technologies for poly(lactic acid)

A review on polymer–layered silicate nanocomposites

An overview of the recent developments in polylactide (PLA) research.

Biodegradable polymers and their layered silicate nanocomposites: In greening the 21st century materials world

Role of organically modified layered silicate as an active interfacial modifier in immiscible polystyrene/polypropylene blends

A general analysis allowing the determination of shear rate and viscosity from batch mixer rotor speed and torque data is presented. The batch mixer was represented by two effective adjacent sets of concentric cylinders exerting the same torque as that obtained from the batch mixer. The effective internal radius was determined through a general procedure for calibration using non-Newtonian fluid. The effective equivalent internal radius, Ri, was determined for different polymers and processing conditions. The results revealed that Ri is a universal quantity practically insensitive to the nature and to the rheological behavior of the fluid under mixing. In the case of small gaps, it was found that there is a special position in the gap where the effective internal radius, the shear rate and viscosity are independent of rheological characteristics of the fluid under mixing. This validates the Newtonian approximation previously used by Goodrich and Porter to extract the shear rate-viscosity dependence from b...

Determination of shear rate and viscosity from batch mixer data

Expand classical drug administration ways by emerging routes using dendrimer drug delivery systems: a concise overview.

Kerner's model for flow of composite elastic media is extended to an emulsion of viscoelastic phases with interfacial tension undergoing deformations of small amplitude. A privileged internal structure inside the suspended drops is discussed in terms of fluid circulation across the interface. It is shown that for usual drop radius and interfacial tension values of emulsions, the rheological behavior predicted by the model, with very simple expression for the complex shear modulus, is quantitatively similar to that predicted by Palierne's model. Predictions of the model are compared with experimental data obtained on a polystyrene/polyethylene blend sheared in a small-amplitude oscillatory mode.

Mosto Bousmina

Papers

Biodegradable polymers and their layered silicate nanocomposites: In greening the 21st century materials world

Role of organically modified layered silicate as an active interfacial modifier in immiscible polystyrene/polypropylene blends

Determination of shear rate and viscosity from batch mixer data

Expand classical drug administration ways by emerging routes using dendrimer drug delivery systems: a concise overview.

Rheology of polymer blends: linear model for viscoelastic emulsions