Age-related changes in the fiber structure around adipocytes in the subcutaneous fat layer and their association with skin viscoelasticity.

OBJECTIVE: Age-related changes in the fiber structure around adipocytes were investigated via scanning electron microscopy (SEM) of excised skin tissues. In addition, the viscoelasticity of the subcutaneous fat layer was evaluated via elastography, and the association between the fiber structure and the viscoelastic properties was assessed. METHODS: Skin tissues excised from the facial cheek area were used. Then, SEM images of these tissues were obtained. The thickness and quantity of the fibers around adipocytes were assessed using a 5-point scale. The score was used to grade 18 tissue samples. Moreover, the viscoelasticity of the subcutaneous fat layer in the same samples was evaluated via ultrasound elastography. RESULTS: Based on the SEM image score, an association was observed between the fiber status score and age, thereby indicating a tendency toward age-related fibrosis. Fiber structures with high scores, which indicate fibrosis, had a significantly lower viscoelasticity based on ultrasound elastography. CONCLUSION: The thickness and quantity of fibrous structures around adipocytes in the subcutaneous fat layer increase with age, and these changes can be associated with decreased viscoelasticity in the subcutaneous fat layer.

Investigation of oxygen saturation in regions of skin by near infrared spectroscopy.

BACKGROUND: Oxygen is essential for life, and investigation of the skin's oxygen environment and identification of its effects on the skin may lead to the discovery of new antiaging targets. To understand individual skin differences and age-related changes, we developed a noninvasive method using near infrared spectroscopy (NIRS) to measure the regional saturation of oxygen (rSO2 ) of human skin. MATERIALS AND METHODS: To construct an NIRS sensor probe specialized for skin measurement, the distance between the sensor transmitter and receiver was optimized based on data for the thickness of the facial skin to the subcutaneous fat layer. To analyze the relationship between skin oxygen saturation and body oxygen saturation, rSO2 was measured by NIRS, oxygen saturation of peripheral artery (SpO2 ) was measured by pulse oximeter, and physical conditions were considered, such as body mass index (BMI) and muscle mass, in Japanese women (age 20s-60s). RESULTS: Both skin rSO2 and SpO2 varied among individuals and decreased with age. Only SpO2 showed a relationship with BMI and muscle mass, whereas rSO2 showed no relationship with these physical conditions. No relationship between rSO2 and SpO2 was observed. CONCLUSION: Individual and age-related differences in skin by rSO2 values were found by NIRS optimized for local skin; however, the factors affecting rSO2 differed from those affecting SpO2 , and further study is needed.

Examination of age-related changes of viscoelasticity in the dermis and subcutaneous fat layer using ultrasound elastography.

BACKGROUND: Using ultrasound elastography, the present study aimed to measure the viscoelasticity in each skin layer and to determine the relationship between the measured value, age, and body mass index (BMI). MATERIALS AND METHODS: The present study included 77 Japanese women. We calculated the BMI and measured the facial cheek via elastography. With the use of the elastographic image, the dermis was divided into two layers, and the subcutaneous fat layer was divided into five equal sections according to the depth, ultimately obtaining seven layers. Furthermore, the thickness and viscoelasticity of each divided layer were measured. RESULTS: The analysis of echo images revealed that the thickness of the upper dermis layer decreased with age, whereas that of the subcutaneous fat layer tended to increase with age and BMI. As measured by elastography, the viscoelasticity of both the lower dermis and the upper subcutaneous fat layer decreased with age. As the BMI increased, the viscoelasticity of the lower subcutaneous layer also increased, but that of the upper subcutaneous layer decreased. CONCLUSIONS: The present study revealed the relationship between aging and viscoelasticity in the lower dermis and the relationship between aging, BMI, and viscoelasticity in the upper subcutaneous fat layer.