Repair
DR .HALA Badawi
Lecturer of pathology
• Definition:
Repair is the replacement of damaged tissue by new healthy one
• Types of Repair
I- Regeneration
II- Healing by fibrosis
Repair
Cell Cycle and Proliferative Potential
• The cells of the body are divided into three groups on the basis of their proliferative capacity and their relationship to the cell cycle.
• 1- Continuously dividing cells (also called labile cells) e.g. skin, urinary& GIT mucosa and blood & lymphoid tissue
• 2- Quiescent (or stable) cells: e.g. liver, kidney, pancrease & fibroblasts
• 3- Nondividing (permanent) cells: e.g. nerve cells and cardiac& striated muscles
CONTROL OF NORMAL CELL GROWTH
• Cell replication is controlled largely by chemical factors (growth factors) in the microenvironment, which either stimulate or inhibit cell proliferation.
• Definition: • Regeneration is the replacement of damaged
cells by new cells of the same kind• Examples of Regeneration:• Regeneration of skin• Regeneration of liver cells• Repair of bone fracture• Healing of peripheral nerve
Regeneration
Regeneration of Liver Cells1- When the injury is limited and the fibrous framework is preserved, complete regeneration occurs2- when the damage is severe and the framework is destroyed, regenerating nodules and fibrosis resulting in cirrhosis
Phases of fracture healingThere are three major phases of fracture healing;
1. Reactive Phase i. Fracture and inflammatory phase ii. Granulation tissue formation
2. Reparative Phase iii. Callus formation iv. Lamellar bone deposition
3. Remodeling Phase v. Remodeling to original bone contour
Healing of bone fracture
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Repair of Peripheral Nerve
Nerve injury and repair (a)Normal axon and target organ (striated muscle). (b)Following nerve injury the distal part of the axon disintegrates and the myelin sheath breaks up. The nerve cell nucleus becomes eccentric and Nissl granules decreased. (c)New axonal tendrills grow into the mass of proliferating Schwann cells. One of the tendrill will find its way into the old endoneurial tube (d)the axon will slowly regenerate
• Definition:
Replacement of damaged tissue by fibrous tissue through formation of granulation tissue.
Granulation tissue :
Consists of new capillary loops and proliferating fibroblasts
Healing by fibrosis
Granulation tissue
1- Red granular surface
2- Moist
3- Bleeds easily
4- Insensitive
I- Primary Union of Wounds
(Healing by First Intention)
Clean incised wound with minimal tissue destruction
II- Secondary Union of Wounds
(Healing by Second Intention)
Gaping septic wounds with marked tissue destruction
Healing of Wounds
I- Primary Union of Wounds Is the healing of a clean, uninfected surgical
incision approximated by surgical sutures.• The narrow incisional space immediately fills
with clotted blood and the surface is covered by scab.
• Within 24 hours, neutrophils infiltrate the clot.
• Within 24 to 48 hours the epidermis grow along the cut margins of the dermis producing a continuous thin epithelial layer beneath the surface scab.
Healing of Wounds
Healing of Wounds
• I- Primary Union of Wounds (continue)• By day 3, the neutrophils have been largely replaced
by macrophages and granulation tissue started to appear.
• By day 5, the incisional space is filled with granulation tissue.
• The epidermis recovers its normal thickness by day 5-7• During the second week, there is continuous
maturation of granulation tissue to fibrous tissue• By the end of the first month, complete deposition of
collagen with formation of thin incisional scar
6 hours 24 hours
2 days
1 week
Wound healing
( 1ry union)
Wound healing
( 1ry union)
Healed wound
II- Secondary Union of Wounds (Healing by Second Intention)
When there is extensive loss of tissue and surface wounds that create large defects, the reparative process is more complicated.
Healing of Wounds
Secondary healing differs from primary healing in several respects:
1. Large tissue defects, have more fibrin and more necrotic debris with intense inflammatory reaction.
2. Much larger amounts of granulation tissue formed. 3. The most clear difference between primary and
secondary healing is the phenomenon of wound contraction, which occurs in large surface wounds.
Healing of Wounds
first intention healing second intention healing
Wound Strength
• When sutures are removed, usually at the end of the first week, wound strength is approximately 10% of the strength of unwounded skin.
• But it increases rapidly over the next 4 weeks. • This rate of increase then slows at approximately the third
month after the original incision and then reaches a plateau at about 70 to 80% of the tensile strength of unwounded skin, which may persist for life.
• The recovery of tensile strength results from increased collagen synthesis exceeding collagen degradation during the first 2 months and from structural modifications of collagen fibers.
Factors Affecting Wound Healing
Systemic factors include the following:• Nutrition has intense effects on wound healing. Protein
deficiency, for example, and vitamin C deficiency inhibit collagen synthesis and retard healing.
• Metabolic status can change wound healing. Diabetes mellitus, for example, is associated with delayed healing.
• Blood supply, Inadequate blood supply usually caused by arteriosclerosis or venous abnormalities that retard venous drainage also impair healing.
• Hormones, such as glucocorticoids, have anti-inflammatory effects and inhibit collagen synthesis
Factors Affecting Wound Healing
Local factors that influcence healing include the following:• Infection is the single most important cause of delay in
healing.• Mechanical factors, as early motion of wounds, can delay
healing.• Foreign bodies, such as unnecessary sutures or fragments of
steel, glass, or even bone, constitute impediments to healing.• Size, location, and type of wound influence healing. Wounds
in richly vascularized areas, such as the face, heal faster than those in poorly vascularized ones, such as the foot. Small injuries and surgical wounds heal faster than larger ones caused by blunt trauma.
Complications of Wounds Healing
1. Wound rupture and ulceration:
Rupture of a wound is most common after abdominal surgery. Ulceration occur due to inadequate vascularization.
Complications of Wounds Healing
2- Keloid: The accumulation of
excessive amounts of collagen may give rise to a raised tumorous scar known as a keloid, which is more common in blacks.
Complications of Wounds Healing
3- Exuberant granulation: formation of excessive amounts
of granulation tissue.
Complications of Wounds Healing
4- Desmoids tumour: proliferations of fibroblasts
and collagen forming a mass that recur after excision.
Complications of Wounds Healing
5- Contractur exaggeration of wound contraction, results in deformities of the wound and the surrounding tissues.
Contractures are commonly seen after serious burns and can compromise the movement of joints.
• Not all injuries result in permanent damage; some are resolved with almost perfect return of normal structure and function (resolution).
• Resolution occurs with minimal or no tissue damage.
• More often, there is some degree of scarring
• Scar is usually good (provides a resilient patch) but occasionally bad (can cause permanent dysfunction)
TISSUE REPAIR SUMMARY