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Healing & Repair
Dr. Srikumar Chakravarthi
Repair & Healing: Are they same?
� Repair :Regeneration of injured cells by cells of same type, as with regeneration
of skin/oral mucosa (requires basement membrane) Epidermis, GI, blood, liver.
� Healing :Replacement by fibrous tissue
(fibroplasia, scar formation) Incision, MI, stomach ulcers.
Tissue Regeneration
� Controlled by biochemical factors
released in response to cell injury, cell death, or mechanical trauma
– Most important control: inducing resting cells to enter cell cycle
– Balance of stimulatory or inhibitory factors
– Shorten cell cycle
– Decrease rate of cell loss
Varieties of Proliferative Potential
� Labile (always dividing) cells:
– Replace dying cells
– Epithelia: skin, oral cavity, exocrine ducts, GI tract, GYN, hematopoietic.
� Stable (quiescent) cells:
– Usually G0 and low rate of division
– Driven into G1 and rapid proliferation
– Liver, kidney, pancreas, endothelium, fibroblasts
� Permanent (non-dividing ) cells:
– Permanently removed from cell cycle
– Irreversible injury leads only to scar
– Nerve cells, myocardium, skeletal muscle
Stem cells� Remarkable potential to develop into many
different cell types in the body.
� Repair system for the body, they can theoretically divide without limit to replenish other cells.
� When a stem cell divides, each new cell has the potential to either remain a stem cell or become another type of cell with a more specialized function (muscle cell, RBC, neuron).
� Embryonic, Adult ( BM, tissue)
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Intercellular Signaling
� 3 pathways
– Autocrine: cells have receptors for their own secreted factors (liver regeneration)
– Paracrine: cells respond to secretion of nearby cells (healing wounds)
– Endocrine: cells respond to factors (hormones) produced by distant cells,
circulate in blood
Growth Factors and Molecular Events
� Polypeptide growth factors with many (pleiotropic) effects : Proliferation, migration, differentiation, remodeling (all part of wound
healing)
� EGF : Keratinocytes, fibroblasts
� VEGF : Angiogenesis
� TGF- α, β : Fibrogenesis
� PDGF : Migration and proliferation of
fibroblasts, smooth muscle, and monocytes
� FGF, HGF, KGF, IGF, Cytokines.
Extracellular Matrix (ECM)
� ECM provides turgor, rigidity, support, adhesion substrate, reservoir for factors
� ECM must remain intact for
parenchymal healing
� Three ECM protein components
– Collagens (fibrous structural proteins): most common; extracellular framework of body; 14 types
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ECM (Cont’d)
– Adhesive glycoproteins: e.g., Laminin, fibronectin, CAM, cadherins, integrins
which bind ECM components to each other, & to other cells
– Proteoglycans & hyaluronic acid: sugars linked to proteins; influence ECM permeability and structure
Connective Tissue Repair
(Healing/ Scar Formation)
� Loss of parenchyma and ECM
� Formation of new blood vessels
(angiogenesis), fibroblast migration and
proliferation (lay down collagen) < 24 hr
� “Granulation tissue”: pink, soft, granular grossly
� Maturation and organization
(remodeling) of fibrous tissue
Granulation tissue
� Appearance of small, red, granular foci which bleed easily.
� Demonstrated in the base of skin
wounds below the overlying scab.
� It consists of clusters of fragile newly-formed capillary blood vessels which
proliferate and grow into damaged tissue along with fibroblasts.
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Angiogenesis
� New vessels derived
from budding of pre-existing vessels
– BM degradation
– Endothelial migration
– Endothelial proliferation
– Endothelial maturation
Fibrosis (Fibroplasia)
� Occurs within the granulation tissue framework (new blood vessels and loose ECM)
� Proliferation of fibroblasts at site of injury– Growth factors (TGF-β, PDGF, EGF,
FGF)
– Cytokines (IL-1, TNF-α)
� Deposition of ECM (collagen) & tissue remodelling
Scar Remodeling
� Remodeling to strengthen repair
– Metalloproteinases (interstitial collagenases, gelatinases, stromelysins)
degrade collagen.
– Produced by macrophages, neutrophils,
fibroblasts as inactive precursors
– Debris carried away by phagocytes
Wound Healing:
Primary Union / 1st intention� Successful wound healing is more
favourable, when less tissue is damaged.
� The best prognosis is seen with clean, smooth, closely abutting incision wounds in a well-vascularised area, with no foreign bodies.
� Line of closure fills with clotted blood
� Dehydration at surface creates scab
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Primary union Wound Healing: Primary
Union
� 24 hr: neutrophils, mitoses of basal
epithelium
� 1 - 2 days: epithelial basal cells grow along
cut dermis
� 3 days: neutrophils gone, macrophages
enter, granulation tissue forms
� 5 days: space filled with granulation tissue
and collagen fibrils bridge line of closure, epidermis at pre-incision thickness
Primary Union (Cont’d)
� Week 2: accumulation of collagen,
fibroblasts, and “blanching” begins (oedema and inflammation reduced)
� End of first month: connective tissue devoid of inflammation; epidermis intact
� Tensile strength increases to 70-80% of
unwounded skin in 3 months
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Wound Healing: Secondary Union
� When large tissue defects have to be refilled or when purulent infections prevent direct
association of the wound edges.
� Wound surfaces split away from each other.
� Granulation tissue has to be generated in order to close the dermal defect and may be
gradually transformed into stable scar tissue.
� More inflammation, Wound contraction -
myofibroblasts
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Fibrous scar
Factors Influence Repair - Local
� Persisting infection, foreign material (steel, glass, suture) or other stimulus to inflammation
� Inadequate blood supply
� Excessive movement
� Irradiation
� Size of wound
� Locally applied drugs, e.g. corticosteroids
Factors Influence Repair - Systemic
� Age: the healing process becomes slower and less effective with increasing age.
� Nutritional deficiencies, e.g. vitamin C, zinc, protein inhibit collagen synthesis
� Metabolic diseases, e.g. renal failure, diabetes mellitus (microangiopathy)
� Catabolic state associated with malignancies
� Systemic drugs, e.g. corticosteroids
� Circulatory disorders retarding blood flow –atherosclerosis.
Aberrations of Inflammation and
Repair
� Inadequate scar formation– Wound dehiscence - abdomen
– Ulceration – diabetic neuropathy
� Hypertrophic scar/ keloid – excess collagen
� Exuberant granulation tissue - “proud flesh”
� Wound contracture - burns
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Proud flesh
Summary� Regeneration of
injured cells by cells of same type.
� Replacement by fibrous tissue (fibroplasia, scar formation).
� Angiogenesis, fibroblasts
� Granulation tissue
� Primary & secondary union
References
Pathologic Basis of disease – Robbins & Cotran, 7th EdGeneral & Systematic pathology – Underwood, 4th Ed
Principles of Internal Medicine – Harrisons, 15th Ed
Textbook of Medical Physiology – Guyton, 9th EdAids to Pathology – Dixon & Quirke, 4th Ed
Thank you
