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allied

academies

Biol Med Case Rep 2017 | Volume 1 Issue 2

November 06-07, 2017 | New Orleans, USA

Nanomedicine & Healthcare

Global Meet on

O

besity has become an increasing problem over recent

years. Nano lipo-vesicles thermogel of soy extract were

formulated and evaluated to reduce the size of adipose

tissue cells through percutaneous absorption. Phytosome

formulations were prepared with three different techniques:

solvent evaporation, anti-solvent precipitation and co-

solvency. Optimized formulae were selected using Design

Expert® (Version 7.0.0, Stat-Ease Inc. Minneapolis, MN)

the means of the highest entrapment efficiency, minimum

particle size and maximum drug release and then evaluated

for successful complex formation by means of FTIR. Particles

zeta potential was detected. Particles shape was evaluated

using TEM to insure particles spherical shape and non-

aggregation. Optimized phytosome formulae were involved

into selected thermogel formulation after evaluation of

different plain formulations for clarity, homogeneity, pH,

gel transforming temperature and viscosity. Phytosomal

thermogel formulation was then re-evaluated for its clarity,

homogeneity, pH and gel transforming temperature and for

its rheology behavior and permeation study.

In vivo

study

was done to ensure anti -obesity effect of soy phytosomal

hydrogel. Concisely, soy phytosomal thermogel was found to

have the ability to reduce the size of adipose tissue cells of

the abdomen in male albino rats.

e:

nermeen.magdy@nub.edu.eg

Nanosizedsoyphytosome-basedthermogel as topical anti-obesityformulation:Anapproachforacceptable

level of evidence of an effective novel herbal weight loss product

Nermeen M Khalil

1

, Mohamed Rabeh

2

, Shahira F El-Menshawe

3

and

Adel A Ali

3

1

Nahda University, Egypt

2

Cairo University, Egypt

3

Beni-Suef University, Egypt