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Cellular Injury II: Classification01:21

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Cellular injury is any process that disrupts a cell’s ability to maintain homeostasis, leading to structural or functional changes. It is broadly classified based on etiology (cause) and mechanism of damage.Classification by EtiologyCellular injury may result from several causes. Hypoxic injury happens due to reduced oxygen delivery, most commonly from inadequate blood supply, such as arterial obstruction; for example, coronary artery thrombosis can cause myocardial infarction. Chemical...
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Classification of Epithelial Tissues: Overview01:22

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Epithelial tissues are classified according to the shape of the cells and the number of cell layers formed. Cell shapes can be squamous (flattened and thin), cuboidal (square-like, as wide as it is tall), or columnar (rectangular, taller than it is wide). Additionally, the nucleus shape helps identify the type of epithelial cells. Squamous cells have flattened disc-shaped nuclei, cuboidal cells have spherical nuclei, and columnar cells have elongated nuclei.
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Cellular Injury IV: Necrosis01:16

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Necrosis is a form of irreversible cell death caused by severe injury such as ischemia, toxins, or trauma. Unlike programmed cell death, it is an uncontrolled, pathological process that typically provokes inflammation in surrounding tissues.Pathophysiologic ChangesNecrosis begins when cells sustain critical damage, leading to swelling of organelles, particularly mitochondria, and rapid ATP depletion. As energy levels decline, membrane ion pumps fail, leading to calcium influx and eventually,...
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Cellular Injury IlI: Cellular Death01:11

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Cell death is the irreversible loss of cellular structure and function, representing the final stage of severe injury. It plays a key role in both normal physiology and disease.Types of Cell DeathThe two main types are necrosis and apoptosis, though others like necroptosis and pyroptosis also exist.Necrosis:Necrosis is an unregulated form of cell death caused by severe injury such as trauma, toxins, or ischemia. It is characterized by cell swelling, membrane loss, rupture, and leakage of...
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Tissue Homogenization and Cell Lysis01:32

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Tissue homogenization involves disintegrating tissue architecture and lysing cells, and is an early step in isolating and analyzing cellular components. The method used for homogenization depends on the sample type, the amount of sample available, the analyte to be obtained, and the sensitivity of the method. These methods are broadly classified as mechanical and non-mechanical methods.
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Tissues01:25

Tissues

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Tissues are a group of cells that share a common embryonic origin. Microscopic observation reveals that the cells in a tissue share morphological features and are arranged in an orderly pattern to perform specific functions. From an evolutionary perspective, tissues appear in more complex organisms. Although there are many types of cells in the human body, they are organized into four broad categories of tissues: epithelial, connective, muscle, and nervous. Each of these categories is...
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Updated: May 6, 2026

Renal Ischaemia Reperfusion Injury: A Mouse Model of Injury and Regeneration
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Tissue destruction classification systems.

Holly Korzendorfer1, Pamela Scarborough, Heather Hettrick

  • 1Holly Korzendorfer, PhD, PT, CWS, FACCWS, is Vice President of Business and Clinical Development at DermaRite Industries, LLC, Paterson, New Jersey. Pamela Scarborough, DPT, MS, PT, CDE, CWS, CEEAA, is Director of Public Policy and Education at American Medical Technologies, Irvine, California. Heather Hettrick, PhD, PT, CWS, FACCWS, MLT, DAPWCA, is Associate Professor at Nova Southeastern University, Ft. Lauderdale, Florida.

Advances in Skin & Wound Care
|October 24, 2013
PubMed
Summary
This summary is machine-generated.

Classifying wound tissue destruction is complex. This article reviews established wound classification systems to aid clinicians in accurately assessing tissue damage.

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Area of Science:

  • Wound healing and tissue repair
  • Clinical assessment of injuries

Background:

  • Accurate wound assessment is crucial for effective treatment planning.
  • Clinicians face challenges in consistently classifying tissue destruction levels.
  • Existing classification systems can be confusing and require clarification.

Purpose of the Study:

  • To present and clarify established wound classification systems.
  • To provide clinicians with tools for accurate wound damage assessment.
  • To reduce confusion in classifying the extent of tissue destruction.

Main Methods:

  • Review of existing literature on wound classification systems.
  • Comparative analysis of different wound assessment criteria.
  • Synthesis of information to provide clear guidance.

Main Results:

  • Multiple wound classification systems exist, each with specific criteria.
  • Understanding these systems aids in differentiating wound severity.
  • Standardized classification improves diagnostic accuracy.

Conclusions:

  • Clearer understanding of wound classification systems enhances clinical practice.
  • Accurate assessment of tissue destruction leads to better patient outcomes.
  • Further standardization may improve inter-observer reliability.