Structural skin changes in elderly people investigated by reflectance confocal microscopy.

BACKGROUND: Reflectance confocal microscopy (RCM) is particularly suitable for the study of skin ageing because it provides nearly histological information in vivo and non-invasively. However, there are no studies that evaluated RCM skin features of a large population older than 70 years. OBJECTIVES: The aim of our investigation was to study age-related skin changes in an elderly population by RCM and to evaluate their topographical and gender differences. METHODS: We obtained RCM images of photoprotected (volar arm) and chronic (face) and intermittently photoexposed (dorsal forearm) body sites of 209 volunteers (105 women and 104 men, mean age: 77.5, range 74-81 years). 15 previously reported and new RCM parameters related to skin ageing were assessed. RESULTS: Photoexposed sites had thicker suprapapillary epidermis, more linear, distant and thin furrows, higher presence of mottled pigmentation, polycyclic papillae and coarse and huddled collagen and lower presence of dermal papillae than the photoprotected site. Irregular honeycomb pattern was not higher in photoexposed sites, indicating that it is probably more dependent on intrinsic ageing. Two ageing scores defined for facial skin ageing (epidermal disarray score and epidermal hyperplasia score) were found useful for the identification of photoageing. Gender differences only concerned some RCM parameters (i.e. thickness of different layers of the epidermis, furrows and collagen score) and some body sites, in line with the fact that women and men of our cohort had no major differences in clinically visible skin ageing. CONCLUSIONS: Our study confirmed that RCM is a powerful non-invasive technique to microscopically quantify ageing signs and our observations contribute to highlight the differences between intrinsic and extrinsic ageing.

Skin ultrastructure in senile lentigo.

Senile lentigo is a common component of photoaged skin. It is characterized by hyperpigmented macules which affect chronically irradiated skin mostly after the age of 50. This study was undertaken to assess the morphology of senile lentigo on the dorsum of the hands. A systematic comparison between lesional and perilesional skin using histology and transmission electron microscopy was done to determine whether melanocytes or keratinocytes are affected in the evolution of lesions and which tissue structure is modified. The histology study showed that lesional skin is characterized by a hyperpigmented basal layer and an elongation of the rete ridges, which seem to drive deeply into the dermis. The epidermis contained clusters of keratinocytes, which retained and accumulated the melanin pigment. Electron microscopy studies showed important modifications in the lesional skin ultrastructure in comparison with perilesional skin. In melanocytes from perilesional and lesional skin, we observed normal size melanosomes at all stages of maturation in the cytoplasm and in migration within dendrites. No pigment accumulation was observed. However, the morphology of melanocytes in lesional skin revealed an activated status with numerous mitochondria and a well-developed endoplasmic reticulum, which could reflect intense protein synthesis. In basal keratinocytes from lesional skin, we observed numerous melanosome complexes called polymelanosomes, which formed massive caps on the nuclei. Observations in colored semi-thin sections also revealed perturbed structures in the basal layer region, which could explain the skin perturbation. Indeed, we observed keratinocytes that presented important microinvaginations and pendulum melanocytes, which sank into the dermis, beneath the basal layer of keratinocytes. These cell modifications seemed to be due to a perturbation of the dermal-epidermal junction, which appeared disorganized and disrupted and could directly disturb the basal support of the cells.

Photoageing shows histological features of chronic skin inflammation without clinical and molecular abnormalities.

BACKGROUND: Photodamage is characterized by degradation of collagen and accumulation of abnormal elastin in the superficial dermis. Mast cells and macrophages, which are found in higher numbers in photoaged skin, have been implicated in this process. OBJECTIVES: To analyse the phenotype of haematopoietic-derived infiltrating cells in photodamaged skin. METHODS: Chronically sun-exposed (preauricular) and control sun-protected (postauricular) skin was recovered from eight healthy subjects undergoing cosmetic surgery (facial lifting). RESULTS: Histological analysis showed that sun-exposed skin harboured more infiltrating mononuclear cells than sun-protected skin. Cellular infiltrates were found at the periphery of areas of elastolysis around hair follicles in sun-exposed sites, whereas they were found in the interfollicular dermis around blood vessels and around hair follicles in sun-protected samples. Immunohistochemical analysis revealed an increased number of mast cells, macrophages and CD4+ CD45RO+ T cells in sun-exposed dermis as well as a higher number of CD1a+ dendritic cells in sun-exposed epidermis, compared with the sun-protected samples. Thus photoageing displays histological features of chronic skin inflammation. However, no molecular sign of inflammation was observed and we even found a decreased expression of interleukin-1beta mRNA in sun-exposed compared with sun-protected sites. Furthermore, the patients' skin looked normal and did not display any clinical inflammation. CONCLUSIONS: Collectively, these data show that chronic ultraviolet irradiation induces alterations of innate immune cells which are recruited in sun-exposed skin without being activated.

[The adipocyte in the history of slimming agents]. / L'adipocyte dans une histoire d'amincissant.

Nowadays, in industrialised societies, it is fashionable for women to be slim. However, throughout history, this has not always been the case, especially as "cellulite" (cellulitis) was full of typically feminine symbols. The ideal feminine silhouette has changed with the rhythm of cultures. Cellulitis is an inappropriate term used by women to describe curves which they judge to be too plump and not very aesthetic, mostly around the thighs and hips. This lipodystrophy of the adipose tissue represents approximately 25% of a woman's body weight. It is clinically characterised by an "orange peel" skin surface, which is a result of the excessive development of the volume of the adipocytes organised in lobules within the walls of the unstretchable conjunctive tissue. This phenomenon is associated with an insufficiency of the venous tonus and an increase in the capillary permeability, which both contribute to an increase in the infiltration of water in the tissue. In reality, the understanding of cellulite has truly progressed with research based on adipocyte functions. An adipocyte is a metabolically active cell which plays a central role in the control of the energetic balance of the organism. In order to assume this role, it possesses all the enzymatic equipment necessary for synthesis (lipogenesis) and for triglyceride storage, mobilisation and liberation as free fatty acids (lipolysis). During these last few years, as well as this role as an energetic reserve which manages lipogenesis/lipolysis balance, the adipocyte has acquired the status of an endocrine and paracrine cell through the identification of numerous secreted factors. When we look back at the history of slimming products launched on the market since the 1980's, we can notice the role of the adipocyte tool and understand its functions in the choice of active ingredients, the development of complementary actions, the importance of the texture, the evolution of methods used to evaluate the efficacy on human volunteers and of course, we must not forget the women satisfaction and the power of seduction through words.

Decreased expression of keratinocyte beta1 integrins in chronically sun-exposed skin in vivo.

BACKGROUND: Chronic exposure to ultraviolet (UV) radiation induces changes in the skin structure which are mostly found in the superficial dermis and at the dermal-epidermal junction. Keratinocytes and fibroblasts contribute both to the synthesis and to the degradation of the molecules important for the integrity of this skin site. While several studies have reported on alterations of dermal components and of the functions of fibroblasts in vivo and in vitro after UV exposure, recent data suggested that keratinocytes could be the main skin cell type involved in the photoageing process. OBJECTIVES: In this study, we analysed the expression of two keratinocyte molecules namely, beta1 integrin (a proliferation marker) and involucrin (a differentiation marker) in sun-exposed and sun-protected facial skin of 16 healthy patients undergoing facial lifting. METHODS: Methods included histology, immunohistochemistry and quantitative reverse transcriptase-polymerase chain reaction analysis. RESULTS: Sun-exposed skin displayed the characteristic morphological and molecular features of dermal photoageing, compared with sun-protected skin, including dermal elastosis, diminished fibrillin and type VII collagen expression. Analysis of the epidermis in sun-exposed vs. sun-protected skin showed no histological differences, but dramatic changes in the expression of beta1 integrin and involucrin. In sun-exposed skin, expression of beta1 integrin protein by epidermal basal cells was reduced, paralleling a downregulation of beta1 integrin mRNA, whereas involucrin protein expression was greatly enhanced in the superficial epidermal cell layers. Interestingly, the ratio between involucrin and beta1 integrin protein expression was consistently increased in sun-exposed skin sites. CONCLUSIONS: Collectively these results demonstrate that epidermal homeostasis is impaired by chronic UV exposure, and define beta1 integrin expression as a molecular marker of the epidermal photoageing process.

Ultrasonic assessment of variations in thickness of subcutaneous fat during the normal menstrual cycle.

OBJECTIVE: To verify the occurrence of natural variations in thigh and abdominal subcutaneous fat thickness related to the phases of the menstrual cycle, to assess the value of ultrasonography as a reliable method for monitoring subcutaneous fat thickness changes and to evaluate their amplitudes. METHODS: This study included 10 women (19-39 years) who menstruated regularly. None had used oral contraceptives or slimming products during the 3 months prior to the study. At cycle day 2 (CD2), CD6, CD14, CD22, CD27 and CD30 days (CD0: beginning of menstruation), the subjects were submitted to: (1) measurement of weight and thigh perimeters, (2) measurements of thigh and abdomen subcutaneous fatty tissue thickness on B-mode images acquired at 10 MHz. A protocol was designed to guarantee a reproducible repositioning during the whole time course of the study and ultrasound examinations (US) were always performed by the same trained person to avoid inter-examiner variability. RESULTS: Subcutaneous fat thicknesses decreased during the first half of the cycle and reached their lowest values at day 22 (-2.0% for the thighs; -3.3% for the abdominal region). Both thigh and abdomen subcutaneous fat reached their maximum thicknesses during menstruation with respective increases of +2.2 and +4.0%. The observed cyclic amplitude variations in the subcutaneous adipose tissue thickness accounted for 7.3% for the abdominal region and 4.1% for the thighs. CONCLUSION: Variations in adipose tissue thickness during the menstrual cycle could be quantified and monitored by US. The thickness of the thigh and abdominal hypodermis was more important during menstruation and decreased in mid-cycle with a minimum occurring 1 week after ovulation.

Assessment of skin improvement treatment efficacy using the photograding of mechanically-accentuated macrorelief of thigh skin.

The assessment of the efficacy of skin improvement treatments could be obtained by several different instrumental tests. In parallel to these techniques, a visual evaluation more closely related to the consumer's considerations would be of value for the assessment of slimming treatments efficacy. A method of macrorelief scoring of skin has been developed as an alternative to usual clinical assessment. It consisted of acquiring macroscopic views of the most representative areas of women's cellulite. Photographs were taken after application of a gripping system around the thigh, used to increase the orange peel look of the skin over a restricted area (200 cm(2)) and then classified by observers according to reference groups of cellulite intensity. This publication presents the validation of this photograding method and the results of the first 2-month double-blind placebo-controlled clinical study performed on 30 subjects with this technique associated with: (i) B mode ultrasound imaging in order to correlate scorings with instrumental measurements of thigh adipose tissue thickness variations and (ii) self-evaluation questionnaire aiming at evaluating the overall appraisal and attitude towards the two products. The results clearly showed that the effects of 'slimming products' on the skin's macrorelief improvement could be evaluated objectively using this photograding technique. Moreover, the method described here allows delayed scoring of cellulite intensity from a restricted examination area independent of whole-subject appearance, thus decreasing subjectivity.