Evaluation of a Preventive Effect of a Lotion on the Formation of Stretch Marks . Quantification of Contractile Forces Developed by Fibroblasts from Early Stretch Marks ( Red Color ) and from Healthy Surrounding Skin Using GlasBoxPlus Device

Stretch marks are cutaneous lesions occurring frequently in weight gain during puberty and early adult life. Previous studies showed that highest contractile forces were developed by fibroblasts from early stretch marks (SMF) compared to those developed by fibroblasts from normal healthy skin (HF) of the same patient. The aim of the present study was to evaluate a possible preventive effect of a topical preparation (containing vitamins C and E and botanical extracts including natural extract of Calendula, Aloe Vera and Evening Primrose Oil) on the formation of stretch marks using GlasboxPlus device. In the presence of the tested mixture, a significant overall decrease in contractile forces of SMF was noted for 24 hours of measurements compared to control SMF and made it possible to restore their capacity to the same level as HF indicating a possible preventive effect of the tested mixture. The synergistic effects of these components are certainly responsible for the decrease in contractile forces of early stretch marks fibroblasts.


Introduction
mechanical stretching of the skin occurring frequently in weight gain during puberty and early adult life [1] [2].Clinically, the linear lesions evolve with time, passing through an initial red color (red stretch marks) to a typical white stretch mark [3].Viennet et al. have shown that fibroblasts from early stretch marks were the richest cells in alpha-smooth muscle actin filaments and generated the highest contractile forces compared to than normal fibroblasts using the device GlasBox  [4].
The purpose of this study was to evaluate the relaxing effect of a lotion containing vitamins C and E and botanical extracts on fibroblasts obtained from early stretch marks in comparison with normal fibroblasts from neighboring skin of the same patient.
The tested lotion is a mixture of components with anti-inflammatory properties such as panthenol [5], shea butter [6], niacinamide [7], calendula [8].Some of them have also moisturing properties such as panthenol, avocado oil, cocoa seed butter and aloe vera [9] and vitamin E. The mixture also provides components with antioxidant properties such as vitamin E and vitamin C and two oils, avocado oil rich source of vitamin E and sweet orange oil, rich source of naturally vitamin C.

Tested Product
The tested lotion (Pregnacare® lotion, Vitabiotics Ltd, London) contains vitamins C and E and botanical extracts including natural extract of Calendula, Aloe Vera and Evening Primrose Oil.

Fibroblasts Isolation and Culture
Early stretch marks fibroblasts (SMF) and healthy fibroblasts (HF) were obtained from a woman (23 years old).After thawing, cells were grown in Dulbecco's modified Eagle's medium supplemented with 10% of bovine serum, 40 mg/l of gentamicin and 2 mg/l of fungizone (DMEMc), in an incubator at 37˚C, 5% CO 2 and 95% air.Culture medium was changed twice a week and cells were subcultured when confluence was reached, by trypsinization.Fibroblasts from subculture 3 to 8 were used in this study.According to Burgess, the fibroblasts cultivated in passages lower than 8, preserve their in vivo characteristics [10].Absorbance of each well was assessed using a Multiscan Ex (Thermo, France) equipped with a 550 nm filter.Cell viability was evaluated after 24 h of lotion exposure.Several percentages of a mixture of lotion (0.000001%; 0.000005%; 0.00001%; 0.00005%; 0.0001%; 0.0005%; 0.001%; 0.005%; 0.01%; 0.05%; 0.1%).

GlasBox Plus® Device
The cell chamber is composed of eight rectangular culture wells in which lattices develop (Figure 1).Two opposite beams hung down into each well at a distance of 27 mm apart.The lattice is attached to this sensor through a grid directly etched on the lower part of each beam.The beams have a system to detect their own deformation using optic fibers.This deformation is proportional to the contractile forces developed by fibroblasts.The signal is collected by a computer, which include a specific program to give directly the forces in real time.
Collagen lattice (or dermal equivalent) preparation and measurement of contractile forces.
Fibroblasts were suspended just before confluence with a trypsin-EDTA (1 X) solution.A sample was taken to determine the number of cells obtained.The suspension was centrifuged and a final count was performed before bringing the living fibroblasts to the concentration of 8 × 10 5 cells/ml.Fibroblasts were embedded three-dimensionally in hydrated collagen gels using a modified version of the technique developed by Bell.Briefly, 2 ml of 1.76 X concentrated DMEM medium (with gentamycin, 0.1 N NaOH and NaHCO 3 ) were added to 1 ml of a solution of type I Murid Collagen (2 mg/ml) (Jacques Boy, Reims, France), and to 0.33 ml of the suspension of living fibroblasts in the culture medium.The lattice mixture was poured into a rectangular culture well of the GlasBox Plus and polymerized in less than 5 min at 37˚C.Two milliliters of culture medium were added.The GlasBox Plus was then placed into a humidified incubator at 37˚C, and force measurements were started immediately for 24 hours.The results were expressed as contractile forces (arbitrary unit) according to the time or expressed as AUC (area under the curve) allowing a quantification of contractile forces developed by fibroblasts from early stretch marks and healthy neighboring skin in the presence of active mixture.Each GlasBox Plus curve was fitted with GraphPad Prism  software to determine the area under the curve (AUC), the maximum of contraction (Max) and the slope (speed of contraction).Area under the curve gives information on the global contraction of fibroblasts during the experiment.Maximum of contraction corresponds with the plateau of the fitted curve.
The following four groups were used: Control HF: no lotion Control SMF: no lotion Group HF: lotion Group SMF: lotion.

Statistical Analysis
The results shown were expressed as the mean ± s.e.m.A variance analysis with one factor was performed for the study of cytotoxicity, area under the curve, maximum of contraction and the slope and was followed if necessary by a Fisher test.A variance analysis with two factors (group versus control and time) was carried out for the study of measurement of contractile forces followed if necessary by a Fisher test.A p value less than 0.05 was considered significant.

Cytotoxicity Studies
Viability of HF was significantly decreased with 0.0005%, 0.001% and 0.01% of active mixture (Table 1).All the concentrations tested until 0.0001% could be used for the following experiments.
No significant difference was observed with the addition of lotion on SMF.However, cell viability was slightly decreased with 0.0005%, 0.001% and 0.1% (Table 2).So the concentration 0.0001% of lotion was used for the following experiments on HF and SMF.

Force Generation
We used the device GlasBox Plus to measure contractile forces in tense collagen lattices formed with HF and SMF.The measurements of contractile forces of both fibroblasts lines were recorded continuously for 24 hours.
Contractile forces of SMF were significantly increased compared to HF (p < 0.001) (Figure 2).
In the presence of 0.0001% of lotion, no modification of contractile forces of HF was observed (Figure 3).
On the contrary, an overall decrease in contractile forces of SMF was noted for 24 hours of measurements (p < 0.001) compared to control SMF and made it possible to restore their capacity to the same level as HF (Figure 4).
The calculated area under the curve and maximum of contraction showed a significant increase in the control group of SMF compared to control of HF (p < 0.001) (Figure 5).
In the presence of active mixture, no significant difference of AUC and maximum of contraction in HF and SMF were observed in comparison to their respective control group (data not shown).

Discussion
Skin is physiologically tensed.During aging, strain forces inside the skin, decreases and subsequent relaxation are responsible for wrinkles formation.These forces also play an important role in wound healing and are disturbed in various pathologies such as stretch marks [4].Mechanical strain originates from the dermis, the medium layer of the skin, which the main components are fibroblasts, and a network of collagen fibers.
When fibroblasts bind collagen fibers, they stretch the network and create strain forces.In normal conditions, the interfibrillar substance is highly viscous and there is no slipping or separation of collagen fibers [11].Our laboratory developed a new device GlasBox Plus which is able to quantify the development of contractile forces of human fibroblasts in accordance to time and in the presence or not of cosmetic actives or topical preparations.This device makes it possible  derived from venous ulcers and fibroblasts of normal tissues of the same patients.Contractile forces developed by the ulcer centre and ulcer edge were significantly greater than those of normal fibroblasts [12].A previous study also showed that the contractile activity of fibroblasts irradiated with UVA decreased in comparison with normal fibroblasts [13].This system can be used to examine the relationship between cellular contraction, cell proliferation and collagen production which is important in understanding for the mechanism for cell regeneration in aging.
In the case of stretch marks, strain forces are so important that the collagen mechanism is disrupted and irreversible sliding and separation of fibers occur.
During the early stage of stretch marks (red color), fibroblasts respond to the mechanical tension by expressing αSM actin and producing strong contractile C. Courderot-Masuyer et al.
Stretch marks occur in 50% to 90% of women during pregnancy or not.They appear as red or purple lines or streaks that fade slowly to leave pale lines or marks on the skin.The abdomen, breasts or thighs are commonly affected.They are a source of significant anxiety for women, impacting on their quality of life.
The exact cause of stretch marks is unclear.The stretch marks do not disappear entirely; therefore any treatment which prevents them would be welcomed by many women.Amongst possible treatments of stretch marks, treatment with an onion extract cream with Centellaasiatica and hyaluronic acid demonstrated an improvement in the appearance of stretch marks when they are still in reddish stage.People using this cream said that their marks faded after 12 weeks of daily use [14].One study, involved 80 pregnant women, indicated that, compared to placebo, the topical application of the active cream containing centallaasiatica extract, alpha tocopherol and collagen-elastin hydrolysates was associated with less women developing stretch marks [15].Another study showed an improvement of clinical appearance of early stretch marks after 2 months of treatment with topical 0.1% tretinoin compared to the vehicle [16].A cosmetic oil formulation has also shown to improve the appearance of stretch marks.This oil contains a mixture of potential actives in a mineral oil such as retinyl palmitate, tocopherol and glycine soja associated to lavandulaaugustifolia, rosmarinus officinalis, calendula officinalis and bisabolol.The improvements were observed after 4 weeks of treatment and peaked at six to eight weeks [17].
The aim of the present study was to evaluate a possible preventive effect of a topical preparation on the formation of stretch marks using Glasbox Plus device.
Our results are in accordance with those of Viennet et al. [4]; highest contractile forces were developed by fibroblasts from early stretch marks (SMF) compared to those developed by fibroblasts from normal healthy skin (HF) of the same patient.In the presence of the tested mixture, a significant overall decrease in contractile forces of SMF was noted for 24 hours of measurements compared to control SMF and made it possible to restore their capacity to the same level as HF indicating a possible preventive effect of the tested mixture.The mixture contains molecules with antiinflammatory properties such as panthenol, shea butter, niacinamide and calendula which have also regenerative properties, molecules with antioxidant properties such as vitamins C and E or oils rich in vitamin E (avocado oil) and sweet orange oil, rich in vitamin C. The synergic effects of these components are certainly responsible for the decrease in contractile forces of early stretch marks fibroblasts, observed in our device.These results suggest a preventive effect of the tested lotion on the occurrence of stretch marks.
Stretch marks are cutaneous lesions associated with continuous and progressiveHow to cite this paper: Courderot-Masuyer, C., Robin, S., Fanian, F. and Humbert, P. (2017) Evaluation of a Preventive Effect of a Lotion on the Formation of Stretch Marks.Quantification of Contractile Forces Developed by Fibroblasts from Early Stretch Marks (Red Color) and from Healthy Surrounding Skin Using GlasBoxPlus Device.

Fibroblast
viability in monolayers was assessed using the 3-(4,5-dimethylthiazol-2-yl)-2,5 diphenyltetrazolium bromide (MTT) dye-reduction assay.All cultures were set up in 10 wells.Fibroblasts from early stretch marks fibroblasts and healthy skin were placed in 96-well microliter plates at a cell density of 5 × 10 3 cells per well.After 24 hours of incubation, the mixture of vitamin C, E and botanical extracts in different concentrations was added to the culture medium of fibroblasts.The two types of fibroblasts were seeded with active mixture for 24 hours.Then MTT was added.The extraction buffer was added after 4 hours.C. Courderot-Masuyer et al.

Figure 2 .
Figure 2. Contractile forces developed by healthy and stretch marks fibroblasts ((a): First 6 hours of measurement; (b): Totality of the measurement).

Figure 3 .
Figure 3. Contractile forces developed by healthy fibroblasts with and without lotion at 0.0001% ((a): First 6 hours of measurement; (b): Totality of the measurement).

Figure 4 .
Figure 4. Contractile forces developed by stretch marks fibroblasts with and without lotion at 0.0001% ((a): First 6 hours of measurement; (b): Totality of the measurement).

Figure 5 .
Figure 5. AUC, maximum of contraction and slope calculated from GlasBox Plus curves for healthy (HF) and stretch marks (SMF) fibroblasts.

Table 1 .
Viability of healthy fibroblasts in the presence or not of lotion after 24 hours of culture.(Mean ± sem; **p < 0.01 and ***p < 0.001 versus Control).

Table 2 .
Viability of stretch marks fibroblasts in the presence or not of lotion after 24 hours of culture.(Mean ± sem).