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Merck
CN

SKBM02560

Strat-M®膜,透皮扩散测试模型,25mm

Strat-M®

别名:

PES膜滤器

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UNSPSC Code:
40161507
NACRES:
NB.24
eCl@ss:
32160907
Material:
plain filter, polyethersulfone membrane (synthetic lipid post-treatment), polyolefin membrane (synthetic lipid post-treatment), white filter
Diam.:
25 mm
Sterility:
non-sterile

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size

thickness

300 μm

shipped in

ambient

material

plain filter, polyethersulfone membrane (synthetic lipid post-treatment), polyolefin membrane (synthetic lipid post-treatment), white filter

sterility

non-sterile

manufacturer/tradename

Millipore, Strat-M®

diam.

25 mm

Quality Level

400

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General description

滤器编码:SKBM
适用于透皮扩散测试的 Strat-M 膜
体验 Strat-M 膜无与伦比的可预测性,–这是一种合成的、非动物性的透皮扩散测试模型,可预测人体皮肤中的扩散,该产品无批次间差异、安全性和储存限制。

Strat-M 膜设计用于筛选:
•药物活性成分(API)
•化妆品活性成分
•配方
•个人护理用品
•农药和化学药品

人体皮肤相关产品
Strat-M 膜可预测多种化合物和制剂在人皮肤中的扩散。使用化合物相关工具来了解 Strat-M 膜为您工作的效果如何。

可重复的扩散数据:
没有必要在每次新一批皮肤到达实验室时重复测试。Strat-M 膜是高度一致的工程材料,可让您将今天的扩散数据与下周或下个月生成的数据进行比较。此外,批次间的一致性为测试数据带来了更高的清晰度,从而简化了分析过程。

对增强剂敏感
Strat-M 膜在存在增强剂的情况下表现出不同的渗透性,并且与常见的制剂形式兼容,因此适合在制剂优化过程中使用。

最大的实验便利
Strat-M 膜在设计时考虑了便利性。Strat-M 膜耐储藏,可在仓库中存放,因此可轻松地采购和存储。每个膜都单独包装为预切的圆盘,在使用前不需要水合。只需从其包装袋中取出 Strat-M 膜片并将其装入 Franz 池中即可。

Application

Strat-M 膜是一种合成的、非动物性的,透皮扩散测试模型,可预测人体皮肤中的扩散,而无批次间差异、安全性 & 存储限制。

Legal Information

STRAT-M is a registered trademark of Merck KGaA, Darmstadt, Germany

分析证书(COA)

输入产品批号来搜索 分析证书(COA) 。批号可以在产品标签上"批“ (Lot或Batch)字后找到。

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PREDICTION OF SKIN PERMEATION BY CHEMICAL COMPOUNDS USING THE ARTIFICIAL MEMBRANE, STRAT-M?
Uchida T, Kadhum WR, Kanai S, Todo H, Oshizaka T, Sugibayashi K
European Journal of Pharmaceutical Sciences null
CURCUMIN-EUDRAGIT? E PO SOLID DISPERSION: A SIMPLE AND POTENT METHOD TO SOLVE THE PROBLEMS OF CURCUMIN.
Li J, Lee IW, Shin GH, Chen X, Park HJ.
European Journal of Pharmaceutics and Biopharmaceutics null
Tai-Long Pan et al.
Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 65, 105-114 (2014-01-05)
The toxicity of phthalates is an important concern in the fields of environmental health and toxicology. Dermal exposure via skin care products, soil, and dust is a main route for phthalate delivery. We had explored the effect of topically-applied phthalates
IMPACT OF DIFFERENT VEHICLES FOR LASER-ASSISTED DRUG PERMEATION VIA SKIN: FULL-SURFACE VERSUS FRACTIONAL ABLATION.
Lee WR, Shen SC, Aljuffali IA, Li YC, Fang JY.
Pharmaceutical Research null
IN VITRO SKIN MODELS AS A TOOL IN OPTIMIZATION OF DRUG FORMULATION.
Flaten GE, Palac Z, Engesland A, Filipovic-Grcic J, Vanic Z, Skalko-Basnet N
European Journal of Pharmaceutical Sciences null
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商品

Strat-M® Membrane for Sunscreen Formulation Testing

Strat-M synthetic membrane model is an alternative to human skin for testing the effectiveness of skin care actives.

实验方案

Protocol for In-vitro Permeation Testing Using Strat-M® Membranes

Strat-M® synthetic membrane mimics the human skin for In-vitro permeation testing (IVPT) of topical and transdermal formulations

Transdermal Diffusion Testing with Strat-M® Synthetic Skin Membranes using Franz Diffusion Cell Systems

Step-by-step protocol and video for transdermal diffusion testing using Strat-M® synthetic skin membranes.

相关内容

Strat-M® Transdermal Diffusion Membrane

Strat-M® membrane offers consistent transdermal diffusion testing, ensuring reliable data for comparative analysis over time.

Test without Limits! Overcome the barriers to predicting diffusion in human skin.

This synthetic, non-animal based model* for transdermal diffusion testing is predictive of diffusion in human skin without lot-to-lot variability, safety and storage limitations.

Strat-M皮膚透過性試験用メンブレン
Strat-M®Membranes and Sunscreen

We provide data showing the utility of Strat-M™ membrane in comparing transdermal diffusion of two sunscreen actives, avobenzone and octocrylene, in unencapsulated (Formulation A) and encapsulated (Formulations B and C) formulations. By encapsulation of the actives, diffusion of both the actives were substantially reduced. These results show that Strat-M™ membrane is a reliable and practical model for screening diffusion properties of sunscreen formulations. Also, the data show that Strat-M™ membrane is able to distinguish between encapsulated and unencapsulated forms of active compounds in the formulation, thereby providing a useful model for formulation optimization studies.

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