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Related Concept Videos

Hypodermis01:02

Hypodermis

The hypodermis (the subcutaneous layer or superficial fascia) is present directly below the dermis. It connects the skin to the underlying fascia (fibrous tissue) of the bones and muscles. It is not strictly a part of the skin, although the border between the hypodermis and dermis can be difficult to distinguish. The hypodermis consists of well-vascularized, loose, areolar connective tissue and adipose tissue, which functions as a mode of fat storage and provides insulation and cushioning for...
Loose Connective Tissue01:26

Loose Connective Tissue

Loose connective tissue is found between many organs. Its main function is to absorb shock and bind tissues together. It also allows water, salts, and various nutrients to diffuse into cells that are embedded in it or present in adjacent tissues.
Adipose Tissue
Adipose tissue consists primarily of fat storage cells called adipocytes and little extracellular matrix. A large number of capillaries present within adipose tissue allow rapid mobilization of lipid molecules. White adipose tissue is...
Classification of Connective Tissues01:30

Classification of Connective Tissues

The connective tissues have different properties and functions in the human body. They are broadly categorized into proper, supporting, or fluid connective tissues.
Connective Tissue Proper
Connective tissue proper is the most abundant class of connective tissues. As its name implies, it predominantly connects different tissues in the body. Depending on the cell types, ground substance, viscosity, and fiber types in the ECM, connective tissue proper is further categorized into loose and dense.

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Related Experiment Video

Updated: Jun 5, 2026

Human Subcutaneous Adipose Tissue Sampling Using a Mini-Liposuction Technique
08:59

Human Subcutaneous Adipose Tissue Sampling Using a Mini-Liposuction Technique

Published on: September 27, 2021

Subcutaneous adipose tissue classification.

A Sbarbati1, D Accorsi, D Benati

  • 1Department of Neurological, Neuropsychological, Morphological and Motor Sciences, Human Anatomy and Histology Section, University of Verona, Italy. andrea.sbarbati@univr.it

European Journal of Histochemistry : EJH
|January 26, 2011
PubMed
Summary
This summary is machine-generated.

This study differentiates three types of white adipose tissue (WAT) based on structure and ultrastructure. The structural WAT (sWAT) shows potential as a preferred source for regenerative procedures due to its vascularity and stem cell niches.

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Area of Science:

  • Regenerative Medicine
  • Adipose Tissue Biology
  • Tissue Engineering

Background:

  • Autologous adipose tissue is increasingly used in regenerative medicine.
  • Minor adipose depots have been understudied.
  • Understanding adipose tissue morphology is crucial for optimizing regenerative therapies.

Purpose of the Study:

  • To investigate the morphology of subcutaneous adipose depots.
  • To identify and characterize different types of white adipose tissue (WAT).
  • To evaluate the suitability of various WAT depots for regenerative procedures.

Main Methods:

  • Sampling of subcutaneous adipose depots from different body areas.
  • Morphological and ultrastructural analysis of adipose tissue types.
  • Histological examination focusing on cellular structure, collagen fibers, vascularity, and stem cell niches.

Main Results:

  • Three distinct WAT types were identified: deposit WAT (dWAT), structural WAT (sWAT), and fibrous WAT (fWAT).
  • dWAT (abdominal) is characterized by tightly packed cells, poor collagen, and limited vasculature with rare stem niches.
  • sWAT (limbs, hips) exhibits a more stromal structure with good vascularity and stem cell potential, suggesting it as a privileged source for regenerative applications. fWAT (mechanically stressed areas) is highly fibrous.

Conclusions:

  • Subcutaneous WAT deposits exhibit significant structural and ultrastructural differences.
  • The sampling area for autologous adipose tissue in regenerative procedures should be carefully selected based on tissue characteristics.
  • Structural WAT (sWAT) appears to be a promising source for regenerative medicine due to its favorable microcirculation and stem cell niche characteristics.