Location
Moultrie, GA
Start Date
7-5-2025 1:00 PM
End Date
7-5-2025 4:00 PM
Description
Introduction:
The process of aging significantly impacts the structural and functional properties of the skin. Collagen and elastin are extracellular proteins that provide structural support to the dermis. Variations in the amount of collagen and elastin present within the dermal layer can serve as a key indicator in the aging process, providing insight into the structural and functional changes that occur over time. While there are several reports that assess the morphological changes of the structure of the dermis in different physiological conditions, the quantitative analysis of the degradation of collagen and elastin, as people age, is still largely unexplored (Laura Vitellaro-Zuccarella, et al., 1994). This study aims to analyze the histological changes in collagen and elastin fibers, utilizing skin samples obtained from male and female cadavers ranging from 60-90 years of age. Understanding these changes may help to aid in the development of specific anti-aging interventions to better preserve dermal integrity.
Methods:
Skin samples were obtained from cadavers at PCOM North Georgia and PCOM South Georgia. Previous studies have exhibited unequal aging of the face, with the left side revealing more pronounced photoaging due to increased sun exposure (D. Y. Kim, et al., 2018). To diminish confounding variables, we collected skin samples from the right side, specifically one centimeter below the right ear. McLetchie trichrome stain was utilized to assess collagen content, while H&E stain was used to visualize overall cellular and tissue content in each sample. The histological analysis allowed for measuring collagen and elastin fiber length, fragmentation, and density across different age groups.
Results:
Quantitative analysis of the histological stains revealed that, as the aging process develops, collagen fibers progressively become thinner. In cadavers aged 60 through 70 years old, the collagen fibers are thinner compared to previous research evaluating collagen and elastin degradation in a younger cohort. In cadavers aged 70 through 80 years old, the collagen fibers demonstrated a greater reduction in density than the previous age group. At 80 through 90 years old, the collagen fibers exhibited the greatest reduction in density along with significant thickening in the deep dermal layer and the presence of lysis of collagen fibers. Elastic fibers followed a similar pattern, with significant fragmentation and thinning noticed in the oldest specimens. Structural degeneration was faster and more pronounced in elastic fibers compared to collagen fibers.
Conclusion:
This cadaveric study provides histological evidence that the aging process significantly impacts the structural and functional properties of the skin. Potential factors contributing to structural changes could be the increased exposure to ultraviolet light or the development of wrinkles as one ages. Further analysis of external contributors to structural integrity of skin many enhance our understanding of dermal aging.
Embargo Period
6-4-2025
Included in
Histological analysis of collagen and elastin fibers in different age cadavers
Moultrie, GA
Introduction:
The process of aging significantly impacts the structural and functional properties of the skin. Collagen and elastin are extracellular proteins that provide structural support to the dermis. Variations in the amount of collagen and elastin present within the dermal layer can serve as a key indicator in the aging process, providing insight into the structural and functional changes that occur over time. While there are several reports that assess the morphological changes of the structure of the dermis in different physiological conditions, the quantitative analysis of the degradation of collagen and elastin, as people age, is still largely unexplored (Laura Vitellaro-Zuccarella, et al., 1994). This study aims to analyze the histological changes in collagen and elastin fibers, utilizing skin samples obtained from male and female cadavers ranging from 60-90 years of age. Understanding these changes may help to aid in the development of specific anti-aging interventions to better preserve dermal integrity.
Methods:
Skin samples were obtained from cadavers at PCOM North Georgia and PCOM South Georgia. Previous studies have exhibited unequal aging of the face, with the left side revealing more pronounced photoaging due to increased sun exposure (D. Y. Kim, et al., 2018). To diminish confounding variables, we collected skin samples from the right side, specifically one centimeter below the right ear. McLetchie trichrome stain was utilized to assess collagen content, while H&E stain was used to visualize overall cellular and tissue content in each sample. The histological analysis allowed for measuring collagen and elastin fiber length, fragmentation, and density across different age groups.
Results:
Quantitative analysis of the histological stains revealed that, as the aging process develops, collagen fibers progressively become thinner. In cadavers aged 60 through 70 years old, the collagen fibers are thinner compared to previous research evaluating collagen and elastin degradation in a younger cohort. In cadavers aged 70 through 80 years old, the collagen fibers demonstrated a greater reduction in density than the previous age group. At 80 through 90 years old, the collagen fibers exhibited the greatest reduction in density along with significant thickening in the deep dermal layer and the presence of lysis of collagen fibers. Elastic fibers followed a similar pattern, with significant fragmentation and thinning noticed in the oldest specimens. Structural degeneration was faster and more pronounced in elastic fibers compared to collagen fibers.
Conclusion:
This cadaveric study provides histological evidence that the aging process significantly impacts the structural and functional properties of the skin. Potential factors contributing to structural changes could be the increased exposure to ultraviolet light or the development of wrinkles as one ages. Further analysis of external contributors to structural integrity of skin many enhance our understanding of dermal aging.