Comparative Analysis of Four Facial Foundation Lotions with Reference to Its Antioxidant Richness and BioSafety

The market these days is a hub of a variety of commercially available cosmetic products, and foundation makeup to be precise, containing various types of important bioactive compounds both from natural and synthetic sources. The current study explores the usage of foundation lotions among undergraduate female students of an engineering college in West Bengal, India, and its antioxidant potential such as free radical scavenging, anti-lipid peroxidation, and reducing power. Red Blood Corpuscles hemolysis assay was also tested for evaluating it safety measures. Results confirmed the presence of antioxidant-related bioactive components and hence the antioxidant property in each brand tested, albeit in varying degrees. Free radical scavenging, anti-lipid peroxidation, and reducing power were also exhibited by all samples tested. Hemolytic activity was not significantly noted among the foundations, though each exhibited different results. Lotion with the least bioactive components exhibited high hemolytic activity. The findings of this study reveal the secret behind the usefulness of foundation lotions on the basis of antioxidant contents and free radical scavenging activity. The results of this study confirmed that it is very unlikely that all the essential qualities of a good cosmetic product will be present all at once.


Introduction
In every living organism, skin is an important external protective organ of the body.With ever-increasing lifestyles and increases in pollution loads, skin is the first to become affected, which results in aging, hyper-pigmentation, inflammation [1], and many more disorders such as skin cancer.The generation of free radicals, lipid peroxides, and harmful metabolites through several environmental factors leads to above-mentioned disorders [2].These free radicals cause oxidative stress in the bodies of the living system.
To combat this issue, a variety of cosmetic products, and foundation makeup to be precise, containing various kinds of important bioactive compounds both from natural and synthetic sources, is commercially available.This wide range of cosmetics consists of products from different brands of companies, possessing different cost ranges that differ in quality.Increasing competition between the brands among themselves, with the increasing demand for these among the conscious youth these days, has resulted in an urge to test quality in terms of the antioxidant properties of these cosmetics.
Antioxidant is a compound that inhibits/scavenges free radical generation.Apart from natural sources, antioxidants, which are commonly used in food, cosmetics, and preservatives, are also being synthesized.The antioxidant activity of cosmetics is mainly correlated with their contents of polyphenols, proteins/peptides, Vitamins C and E, and a few metals such as selenium.Among these plant-derived antioxidants, polyphenols constitute a large and complex category of compounds [3].Interest in the phenolic antioxidants in cosmetics has increased considerably because of their elevated capacity for scavenging free radicals and ROS (reactive oxygen species) associated with various diseases and ageing of skin tissues [4].Studies have reported that polyphenols inhibit lipid peroxidation.Moreover, in vitro experimental data suggests that polyphenols and vitamins possess anti-inflammatory, anti-allergic, anti-viral, and anti-carcinogenic properties [5].Antioxidant compounds are also known for their preservative property [6].These biological properties are thought to be linked to the antioxidant activity of these compounds.Various herbs have long been used as antiseptics and cosmetics ingredients [7][8][9][10][11].Facial foundations in different forms, including anhydrous cakes, emulsions, or powders, are available on the market.Foundation is prepared by adding colorants, moisturizer, photo-protectant, anti-aging agents, fragrances, and filling ingredients.The formulation is either based on completely synthetic chemicals, bioactive compounds, or mixture of both types.Each of these ingredients has important functions and acts cumulatively to impart benefits and user satisfaction.
The objective of this study was to conduct a short survey on the usage of foundation lotions among young girls and to correlate its antioxidant potential with cost.The selection of the cosmetic was done by a survey conducted among a group of 200 girls aged between 19 and 23 years, all of whom were undergraduate students of an engineering college in West Bengal, India, to find out which foundation lotion was more popular among the students.According to this study, we narrowed it down to four top brands, conducted various in vitro assays associated with antioxidants and safety tests, and drew a conclusion based on their quality and performance.

Materials
The foundation lotions chosen as a result of the survey conducted, comprised of four well-known brands, coded as F1, F2, F3 and F4.They were bought in bottles of 100 mL and stored at room temperature for further experiments.For commercial reasons, the actual names of the brands are not disclosed.All chemicals used for experimental assays were of analytical grade and purchased from Sigma, Merck, and Himedia.

Preparation of Cosmetic Ethanol-Water Extract
Stock solutions of each foundation were prepared by making 10% solution in a mixture of ethanol-water (70:30).The suspensions of each foundation in the solvent system were incubated for 30 min with periodical shaking.After the incubation period was complete, the solutions were centrifuged at 5000 rpm for 10 min at room temperature.Post-centrifugation, the supernatant containing the foundation extract was filtered using Whatman filter paper.The clear solvent extract of each foundation were collected in amber colored glass bottles and stored in a refrigerator for further use.

Determination of Total Protein
Lowry's method was followed for the determination of total protein/peptides contained in the cosmetics [12].

Determination of Phenol
The polyphenolic content of the cosmetic extract was quantified by Folin-Ciocalteu method with a minor modification [13].In brief, 100 µL of cosmetic extract was added to 1 mL of distilled water, followed by 0.5 mL of Folin-Ciocalteu reagent.The mixture was briskly shaken and was kept at room temperature for 3 min.After the incubation was complete, 1 mL of 20% Na 2 CO 3 was added to each set.The mixture was again shaken briefly and was heated for 1 min in an incubator at 95 • C and was allowed to cool at room temperature.The absorbance was recorded at 765 nm using an UV-Vis spectrophotometer (ShimadzuUV-1700, Kyoto, Japan) and was expressed as gallic acid equivalents (GAE) per gm of cosmetic product.

Total Antioxidants Capacity
An assay based on the reduction of molybdenum (VI) to molybdenum (V) by the cosmetic extract and the subsequent formation of a green solution was followed for the determination of total antioxidant capacity [14].In brief, in a screw-capped tube, 100 µL of extract was pooled and mixed with 1 mL of reagent solution (0.6 M sulfuric acid, 28 mM sodium phosphate, and 4 mM ammonium molybdate).The tubes were incubated at 95 • C for 90 min, followed by a cooling of the sample to room temperature.The optical density was measured at 695 nm against the blank (1 mL of reagent solution along with the appropriate volume of water) and was expressed as the equivalents of ascorbic acid.

Free Radical Scavenging Activity Using DPPH
Free radical scavenging potential of the cosmetic extract was measured on the basis of eradications of DPPH-generated free radicals [15].Briefly, a 5 mL reaction mixture consisted of 1 mL of cosmetic extract and 4 mL of a 0.1 mM methanolic DPPH solution.The control set contained 1 mL of methanol and 4 mL of the DPPH solution.The tube containing the reaction mixture was thoroughly mixed and incubated for 30 min at room temperature.The change in absorbance at 517 nm of the samples was recorded.Inhibition concentration of lotion extract in 50% (IC 50 ) was determined.Radical scavenging activity was expressed as the inhibition percentage calculated using the following formula: where A = absorbance of the blank solution, and B = absorbance of the test solution.

Anti-Lipid Peroxidation Effect
Anti-lipid peroxidation activity of extract of foundation lotions was done according to the thio-barbituric acid-reactive species (TBARS) assay with minor modification [16] using goat liver homogenate.Homogenate (10% w/v) in a 0.1 M phosphate buffer (pH 7.0) was prepared with a fresh goat liver in a cold condition.The homogenate was centrifuged at 8000 rpm for 10 min.After the centrifugation, the clear supernatant was collected and used for the study of lipid peroxidation.Different volumes of cosmetic extract of each lotion were taken in screw-capped tubes.Liver homogenate (0.5 mL) were added to all test tubes.The total volume was adjusted to 1 mL by double-distilled water.FeSO 4 (0.07 M) was added to each test tube for the initiation of peroxidation and incubated for 30 min at 37 • C.Then, 20% acetic acid (1.5 mL), 0.8% TBA in 1.1% SDS (1.5 mL), and ice chilled 20% TCA (50 µL) were added to all test tubes and were gently vortexed.The reaction mixtures were heated at 95 • C for 1 h.After the incubation was complete, samples were cooled, and 5 mL of n-butanol were added to each tube.The whole set was centrifuged at 300 rpm for 10 min and an organic layer was removed and placed into a fresh tube.The absorbance of the organic layer was measured at 532 nm.A similar experimental set was prepared in the absence of extract and was used as a control.The inhibition concentration of the lotion extract in 50% (IC50) was determined.
Anti-lipid peroxidation (ALPO) was calculated by using the formula where E is the absorbance of sample, and C is the absorbance of the blank.

Ferric Reducing Antioxidant Power (FRAP)
The reducing power of the extracts was evaluated following the method of Oyaizu [17].Briefly, 10-1000 µL of cosmetic ethanol extract in a total volume of 1 mL were mixed with 2.5 mL of phosphate buffer (0.2 M, pH 6.6) and 2.5 mL of potassium ferricyanide (1%).The reaction mixture was incubated at 50 • C for 30 min.Thereafter, 2.5 mL of trichloroacetic acid (10%) was added to the reaction mixture and gently mixed followed by centrifugation at 3000 rpm for 10 min.Finally, 2.5 mL of the upper layer from the reaction mixture was added to 2.5 mL of distilled water and 0.5 mL of 0.1% ferric chloride.Absorbance at 700 nm was measured.The increase in the absorbance at 700 nm indicated an increase in the reducing power of the extracts.The inhibition concentration of the lotion extract in 50% (IC50) was determined.

Metal Chelating Effect
To evaluate metal chelating property of the test samples, 200 µL of the respective samples were mixed with 800 µL of distilled water; to this, 50 µL of FeCl 2 (2 mM) and 50 µL of ferrozine (5 mM) were added [18].The reaction mixture was mixed gently and stored for 10 min.After the incubation was complete, the respective color change was observed at 550 nm.The inhibition concentration of the lotion extract in 50% (IC50) was determined.

Anti-Hemolytic Activity
The hemolytic assay was performed based on Goswami et al. [19] using fresh human blood procured from a local pathology center.Here, 0.1% Triton X-100 was used as a positive control.Briefly, fresh erythrocytes (10% in PBS pH 7.4) were treated with different concentrations of test samples for 1 h at 37 • C. Triton X-100 (0.1%) and PBS were used as positive and negative controls, respectively.After the completion of the incubation period, the erythrocytes were harvested and the supernatant of each sample was collected into fresh Eppendorf tubes.Absorbance of the supernatant was measured at 540 nm.The hemolysis percentage was determined by the following equation: where AT is the absorbance of the supernatant from samples incubated with the test samples; AC is the absorbance of the supernatant from controls (normal saline); A100% is the absorbance of the supernatant of positive controls incubated in the presence of 0.1% Triton X-100, which causes complete lysis of Red Blood Corpuscles.

Statistical Analysis
Each experiment was conducted at least three times.Results were reported as mean ± standard deviation.The results were analyzed using ANOVA and subjected to a least significant difference (LSD) for the item comparisons wherever it is applicable.

Survey Reports
The selection of facial cosmetics was made based on the results of a survey conducted among a group of 200 girls aged between 19 and 23 years, all undergraduate students of an engineering college in West Bengal, India, in order to find out which foundation lotion was more prevalent among the female students.We narrowed it down to four top brands foundation lotions based on usage and user compliance.The foundation lotions thus chosen were coded as F1, F2, F3, and F4 for commercial reasons.Figure 1 shows the percentage of usage of the four chosen lotions among students surveyed.The important questionnaires of the survey were brand name, cost, side effects, and satisfaction, i.e., value for money (Supplementary Material 1).Foundation Lotion F1 was found to be more prevalent (60%) followed by F2, F3, and F4.

Bioactive Components in the Foundation Lotion
Biochemical analysis of the ethanol extracts of each foundation was carried out for the presence of proteins/peptides and polyphenol content; the results indicated that the samples had significant amounts of these components though in varying amounts (Table 1).F1 contained the least protein when compared to the other three.F2, F3, and F4 demonstrated significantly high protein content.Peptide-based cosmetics are in high demand due to many beneficial properties such as antimicrobial, anti-inflammatory, anti-aging, and UV-protection [10].Polyphenols are one of the most important compounds exhibiting a high degree of antioxidant and other important properties.Analysis of the samples indicated a high phenolic content in F3 and F4, followed by F2 and F1 (Table 1).Analysis of the samples for total antioxidant capacity indicates the presence of antioxidants in each of the foundations, although in different degrees.Antioxidants in high amount were observed in F3 followed by F4, F2, and F1 (Table 1).The total antioxidant content of foundation extracts is significant for F2, F3, and F4 when compared with F1, but F2, F3, and F4 are non-significant (P ≤ 0.05) when compared among themselves.Here, the result of total polyphenol corroborates with antioxidant capacity.Phenolic compounds have been reported to contain antimicrobial properties besides antioxidant activities; the higher phenolic content is an indicative measure of both of these.Generally, in cosmetic products, chemical preservatives are added to enhance shelf life.Presently, with the wide acceptance of herbal products, naturally obtained phenolic compounds are used as preservatives due to their antimicrobial properties coupled with free radical scavenging activity.Apart from phenolic compounds, proteins/peptides are also used in cosmetics as anti-aging agents.A number of plant-derived bioactive components and well-researched synthetic chemicals are being used as anti-aging agents in most facial creams and lotions [20][21][22][23].

Bioactive Components in the Foundation Lotion
Biochemical analysis of the ethanol extracts of each foundation was carried out for the presence of proteins/peptides and polyphenol content; the results indicated that the samples had significant amounts of these components though in varying amounts (Table 1).F1 contained the least protein when compared to the other three.F2, F3, and F4 demonstrated significantly high protein content.Peptide-based cosmetics are in high demand due to many beneficial properties such as antimicrobial, anti-inflammatory, anti-aging, and UV-protection [10].Polyphenols are one of the most important compounds exhibiting a high degree of antioxidant and other important properties.Analysis of the samples indicated a high phenolic content in F3 and F4, followed by F2 and F1 (Table 1).Analysis of the samples for total antioxidant capacity indicates the presence of antioxidants in each of the foundations, although in different degrees.Antioxidants in high amount were observed in F3 followed by F4, F2, and F1 (Table 1).The total antioxidant content of foundation extracts is significant for F2, F3, and F4 when compared with F1, but F2, F3, and F4 are non-significant (P ≤ 0.05) when compared among themselves.Here, the result of total polyphenol corroborates with antioxidant capacity.Phenolic compounds have been reported to contain antimicrobial properties besides antioxidant activities; the higher phenolic content is an indicative measure of both of these.Generally, in cosmetic products, chemical preservatives are added to enhance shelf life.Presently, with the wide acceptance of herbal products, naturally obtained phenolic compounds are used as preservatives due to their antimicrobial properties coupled with free radical scavenging activity.Apart from phenolic compounds, proteins/peptides are also used in cosmetics as anti-aging agents.A number of plant-derived bioactive components and well-researched synthetic chemicals are being used as anti-aging agents in most facial creams and lotions [20][21][22][23].Analysis of the foundation extracts, for free radical scavenging (here di(phenyl)-(2,4,6-trinitrophenyl)iminoazanium DPPH .scavenging), anti-lipid peroxidation, metal chelating, and reducing potential demonstrated all of these properties in the samples in significantly good amounts.Table 2 shows DPPH .scavenging activity of the foundation lotions, where F1 and F2 show better results than F3 and F4.Scavenging the free radicals is thus beneficial, as these radicals tend to oxidize proteins, lipids, and DNA, giving rise to aging and other related oxidative stresses [24].Cosmetics with high antioxidant also inhibit microbial growth on skin.Antioxidant compounds isolated from fruit peels showed high antimicrobial activity against many dreadful microorganisms [25].The reducing property measures the electron-donating capacity of an antioxidant.Our result demonstrates an increase in the reducing potential of Test Samples F1, F3, and F4, respectively (Table 2).Studying the metal chelating activities of the four lotions, F3 showed the highest chelating capacity followed by F1, F4, and F2, respectively.The presence of transition metal ions induces free radical generation via Fenton reaction, which enhances lipid per oxidation and protein breakdown in skin.We also studied the anti-lipid peroxidation potential of foundation extracts.Results indicate good inhibition of lipid peroxidation of lipids in goat liver homogenate.Table 2 shows almost equal activities in the four samples.Though F1 exhibited low protein and polyphenol contents but have high potential in scavenging free radicals, Foundation F1 might have synthetic antioxidant compounds similar to butylated hydroxytoluene (BHT) and others.

Anti-Hemolytic Activity
The safety evaluation is an important step in the assessment of any pharmaceuticals products, cosmetics and food items for human consumption.In vitro assays will help in the evaluation of biocompatibility of drugs and cosmetics due to recent regulations in the protection of experimental animals [26].The RBC hemolysis assay is an easy and quick method to evaluate the bio-safety of chemicals or formulations.This study also helps us to screen nontoxic formulations.The hemolytic behavior of foundation extract on human blood was determined by incubating the reaction mixture at 37 • C for 1 h.Analysis of the ethanol extract of the foundation lotions on human RBC demonstrated interesting results.F1 exhibited very high hemolytic behavior compared to the other three, which showed moderate hemolysis of red blood cells (Figure 2).This may be due to synthetic antioxidants in Formulation F1.As was reported earlier, synthetic compounds have adverse effects on our cells.The proportion of plant-derived polyphenols is lower compared to the other three formulations.Triton X-100 (0.1%) was used as positive control.Bio-safety evaluations using hemolysis assays have been widely reported [27].A comparative analysis of all the results show that facial foundation lotions F2, F3 and F4 exhibited high antioxidant content, which is synonymous to the phenolic content [13].Protein content and anti-lipid peroxidation activity are also observed to be high in F2, F3 and F4.Metal chelating activity is seen to be the highest in cosmetic F3, followed by F1, F4 and F2.In contrast, the reducing power and the hemolytic activity are seen to be the lowest in cosmetic F3 followed by F4.Though F1 contains comparatively less proteins, phenols and antioxidant capacity, but demonstrates high free radical scavenging, reducing, anti-lipid potential and metal chelating activities.The results indicate that foundation F1 might have chemical ingredients behaving like strong antioxidants.Strong hemolytic activity also indicates the same.Thus, Cosmetic Products F3 and F4 show a very stable behavior, indicating a presence of useful molecules and a lower amount of harmful and damaging chemicals.Market studies have showed that they are low cost, hence economical to a great extent.

Conclusions
The results of this study show that it is very unlikely that all the essential qualities of good cosmetics will be present together in one product.The cost of the products plays a major role here, thereby showing that even low-cost makeup might contain some of the beneficial properties that might not be present in high-priced makeup.Hence, buying costly makeup does not always guarantee that it is best for the human skin.Thorough biochemical assays by different methods help us reveal the secret behind the usefulness of these products, but a detailed insight into this study is needed to obtain more accurate and better results.

Cosmetics 2017, 4 , 12 5 of 8 Figure 1 .
Figure 1.The percentage usage of foundation lotions of various brands among a group of undergraduate female students of an engineering college at West Bengal, India.Population size was 200, age group 19-23 years.The selected cosmetics were abbreviated as F1-F4.

Figure 1 .
Figure 1.The percentage usage of foundation lotions of various brands among a group of undergraduate female students of an engineering college at West Bengal, India.Population size was 200, age group 19-23 years.The selected cosmetics were abbreviated as F1-F4.

Figure 2 .
Figure 2. Hemolytic action of ethanol extract of foundation lotion on human Red Blood Corpuscles.Here, Triton X-100 was considered as positive control.

Table 1 .
Quantitative analysis of bioactive components and total antioxidant capacity of ethanol extract of four facial foundation lotions.Results are represented as mean ± standard deviation of three independent experiments.

Table 1 .
Quantitative analysis of bioactive components and total antioxidant capacity of ethanol extract of four facial foundation lotions.Results are represented as mean ± standard deviation of three independent experiments.

Table 2 .
Comparison of IC50 of ethanol extract of four facial foundation lotions in relation to antioxidant potential.IC50 value is expressed in µg/mL.Results are represented as mean ± standard deviation of three independent experiments.