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Merck

920436

Sigma-Aldrich

NanoFabTx PEG-PLA drug formulation screening kit

for synthesis of PEGylated nanoparticles

Sinónimos:

Microfluidics, NanoFabTx reagent kit, Nanoformulation, Nanoparticle kit, PEG-PLA

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About This Item

UNSPSC Code:
12161503
NACRES:
NA.23

description

Kit components :
PEGPLA-L-M (919942-500mg)
PEGPLA-H-M (919934-500mg)
Stabilizer-Nano (907766-5g)

PEG-PLA drug formulation screening kit, for synthesis of PEGylated PLA nanoparticles

Quality Level

application(s)

advanced drug delivery

storage temp.

2-8°C

General description

NanoFabTx PEG-PLA drug formulation screening kit is a nanoformulation kit containing rationally selected PEGylated PLA polymers that have been used widely for controlled drug release of many different types of therapeutic molecules. The kit contains protocols for two different particle synthesis methods:
  • A Nanoprecipitation protocol to prepare drug-encapsulated nanoparticles in standard laboratory glassware.
  • A Microfluidics protocol using commercial platforms or syringe pumps.
The microfluidics protocol uses NanoFabTx device kits (911593), which provide all the microfluidics chips, fittings, and tubing required to get started with microfluidics-based synthesis (compatible microfluidics system or syringe pump required).

Application

NanoFabTx PEG-PLA drug formulation screening kit enables users to encapsulate a wide variety of therapeutic drug molecules in specifically sized, biodegradable, PEGylated PLA nanoparticles. By simplifying the chemistry and providing an easy-to-use toolkit with step-by-step instructions, our NanoFabTx nanoformulation screening kit helps researchers achieve reproducible synthesis of drug encapsulating nanoparticles with narrow size dispersity, eliminating the need for lengthy trial-and-error optimization. Suitable for biomedical research applications such as oncology, immuno-oncology, gene delivery, and vaccine delivery, PEG-PLA nanoparticles, made using the NanoFabTx PEG-PLA drug formulation screening kit, are designed for maximizing the encapsulation of hydrophobic drugs to minimize the time and expensive wasted reagents of synthetic optimization.

Features and Benefits

  • Includes tested protocols with step-by-step instructions for nanoprecipitation or microfluidics-based syntheses
  • Requires minimal laboratory setup
  • Optimized to achieve monodisperse, homogenously shaped, biodegradable, PEGylated PLA nanoparticles in any size between 60 and 100 nm
  • Formulated to maximize the encapsulation of hydrophobic drugs
  • Includes two different PEGylated PLAs

Legal Information

NANOFABTX is a trademark of Sigma-Aldrich Co. LLC

Storage Class

10 - Combustible liquids


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The production of hydrogel microspheres (MS) for cell immobilization, maintaining the favorable properties of alginate gels but presenting enhanced performance in terms of in vivo durability and physical properties, is desirable to extend the therapeutic potential of cell transplantation. A
Xu Jia et al.
ACS biomaterials science & engineering, 2(9), 1641-1648 (2016-09-12)
Theranostic nanomedicine has recently emerged as an appealing approach for tumor chemotherapy. Here, for the first time, fluorescent carbon dots (Cdots) were used as cross-linker for tumor theranostic nanoparticles. Novel theranostic nanoparticles of approximately 27 nm with a doxorubicin (DOX)
Redouan Mahou et al.
Materials (Basel, Switzerland), 7(1), 275-286 (2014-01-09)
The progress of medical therapies, which rely on the transplantation of microencapsulated living cells, depends on the quality of the encapsulating material. Such material has to be biocompatible, and the microencapsulation process must be simple and not harm the cells.
Sungmin Nam et al.
Biomaterials, 200, 15-24 (2019-02-12)
Hydrogels are commonly used as artificial extracellular matrices for 3D cell culture and for tissue engineering. Viscoelastic hydrogels with tunable stress relaxation have recently been developed, and stress relaxation in the hydrogels has been found to play a key role
S Freiberg et al.
International journal of pharmaceutics, 282(1-2), 1-18 (2004-09-01)
Polymer microspheres can be employed to deliver medication in a rate-controlled and sometimes targeted manner. Medication is released from a microsphere by drug leaching from the polymer or by degradation of the polymer matrix. Since the rate of drug release

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