Stephen S. Chang scite author profile

The presence of antioxidants in spices, specifically Rosemary and sage, is well known. However, the extracts of such spices usually have a strong odor and bitter taste and therefore cannot be used in most food products. This paper reports a patented process for the extraction of Rosemary and sage followed by a vacuum steam distillation of the extract in an edible oil or fat to obtain a bland natural antioxidant. Fractionation and characterization of the active antioxidant ingredient in the extract of Rosemary and sage is also reported.

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Chemical reactions involved in the deep‐fat frying of foods1

Chang

Peterson

1978

J Americ Oil Chem Soc

256

137

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Deep‐fat frying is one of the most commonly used procedures for the preparation and manufacture of foods in the world. During deep‐fat frying, oxidative and thermal decompositions may take place with the formation of volatile and nonvolatile decomposition products, some of which in excessive amounts are harmful to human health. A limited survey of frying fats used in commercial operations indicated that some were maintained at good quality and others were overused or abused. The volatile decomposition products produced by corn oil, hydrogenated cotton‐seed oil, trilinolein, and triolein, under simulated commercial frying conditions, were collected, fractionated, and identified. A total of 211 compounds were identified. The nonvolatile decomposition products produced by trilinolein, triolein, and tristearin under simulated commercial frying conditions were collected and characterized. After being treated under deep‐fat frying conditions at 185 C for 74 hr, trilinolein yielded 26.3% non‐urea‐adduct‐forming esters, triolein yielded 10.8%, and tristearin also yielded 4.2%.

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Adipose-Derived Stem Cells Seeded on Acellular Dermal Matrix Grafts Enhance Wound Healing in a Murine Model of a Full-Thickness Defect

et al. 2012

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Elucidation of the chemical structures of natural antioxidants isolated from rosemary

Lee

et al. 1982

J Americ Oil Chem Soc

179

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A natural antioxidant extract with activity greater than BHA and equal to BHT was isolated from rosemary leaves. The extract was separated into 7 primary fractions with liquid chromatography, using silicic acid as an adsorbent followed by gradient elution. Each fraction was rechromatographed to yield a total of 16 subfractions. Two compounds, carnosol and ursolic acid, were identified by infrared, mass and nuclear magnetic resonance spectrometry. Carnosol was shown to be one of the active antioxidant components in rosemary. Ursolic acid was not an effective antioxidant. Further fractionation of the most active antioxidant subfractions by high performance liquid chromatography and the elucidation of the chemical structures of these fractions are now in progress.

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The structure of rosmariquinone — A new antioxidant isolated fromRosmarinus officinalis L.

Houlihan

Chang

1985

J Americ Oil Chem Soc

122

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Stephen S. Chang

Natural Antioxidants From Rosemary and Sage

Chemical reactions involved in the deep‐fat frying of foods1

Adipose-Derived Stem Cells Seeded on Acellular Dermal Matrix Grafts Enhance Wound Healing in a Murine Model of a Full-Thickness Defect

Elucidation of the chemical structures of natural antioxidants isolated from rosemary

The structure of rosmariquinone — A new antioxidant isolated fromRosmarinus officinalis L.

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