Principles of Wound Healing

1. Principles of Wound Healing

2. WHAT IS A WOUND?

3. Wound(woond): Break in the continuity of soft or hard parts of the body structures caused by violence or trauma to tissues.

4. Common chronic wounds of the skin and soft tissues Arterial Venous Pressure Diabetes Collagen Vascular disease Udder

5. Chronic Versus Acute Wounds Normal acute wounds caused by surgery or trauma usually heal and close rapidly A chronic non-healing wound has been defined as a wound that fails to proceed through the orderly and timely series of events required to produce a durable structural, functional, and cosmetically acceptable closure. Reference: Lazarus GS, Cooper DM, Knighton DR et al. Definitions and Guidelines for Assessment of Wounds and Evaluation of Healing. Arch Dermatol. 1994;130:489-493.

6. Acute Wounds • Cells are viable, able to respond to growth stimuli • Sufficient growth factors are released in the wound environment • Cells proliferate and can migrate and synthesize components of new tissue Reference: Monaco JL, Lawrence TL. Acute wound healing; an overview. Clinics in Plastic Surgery 30 (2003): 1-12.

7. Chronic Wounds • Growth factors may be deficient • Increased Bacteria • Decreased oxygen • Cells are senescent, unable to respond to growth factors • Cells may be slow to proliferate and migrate (< 0.5 mm/week wound closure rate) References: Stanley A, Osler T. Senescence and the healing rates of venous ulcers. J Vasc Surg 2001 Jun;33(6):1206-11 Mulder GD, Vande Berg JS. Cellular senescence and matrix metalloproteinase activity in chronic wounds. Journal of the American Podiatirc Medical Association. Jan 2002 92(1):34-37.

8. Biological and Chemical Defects in Chronic Wounds • Deficient growth factors • Diminished granulation tissue • Delayed epithelialization • Defective extracellular matrix formation • Excessive proteases (MMPs) Reference: Nwomeh BC, Yager DR, Cohen,IKC. Physiology of the chronic wound. Clinics in Plastic Surgery July 1998 25(3):341-356.

9. Growth factor deficiencies found in chronic wounds include: • Platelet Derived Growth Factor (PDGF) • Transforming Growth Factor Beta (TGFß) • Vascular Endothelial Growth Factor (VEGF) • Insulin-like Growth Factor (IGF-1) • Keratinocyte Growth Factor (KGF) Reference: Robson MC, Smith PD. Topical use of growth factors to enhance healing. In Cutaneous Wound Healing editor V. Falanga Martin Dunitz, London 2001 pp379-398.

10. Good Wound Care:Clinical practices which support the normal healing process

11. Key Considerations – Good Wound Care • Infection control • Sharp Debridement • Moist wound environment • Off-loading/compression therapy • Nutritional status

12. Sharp Debridement Removes: • Devitalized tissues • Bacteria and proteolytic enzymes • Senescent cells

13. Know the wound etiology!

14. Venous stasis etiology

15. Arterial etiology HIPAA

16. Neuropathic (Diabetic) Etiology

17. Pressure etiology

18. Collagen vascular etiology

19. Hypercoagulopathy

20. Phases of Normal Wound Healing • Hemostasis • Inflammation • Proliferation • Remodeling

21. Hemostasis • Immediate reaction of small vessels in the area of injury is vasoconstriction • Release of platelet cytokines (growth factors)

22. Inflammatory Phase • Usually lasts from time of injury through 3 days • Polymorphonuclear leukocytes (PMN’s) are the first white blood cells to enter the wound • Peak in 24-48 hours • Macrophages appear at 48-96 hours

23. Proliferative Phase • Fibroblasts appear in the wound on day 3, peaking on day 7 • Granulation tissue forms consisting of fibroblasts, inflammatory cells and capillaries in an extracellular matrix of collagen, fibronectin and glycosaminoglycans (GAGs) • Fibroblasts are attracted to the wound and stimulated to proliferate by cytokines (growth factors) produced by platelets, macrophages and lymphocytes

24. Proliferative Phase • Fibroblasts lay down the extracelluar matrix (collagen) • Endothelial cells migrate in response to angiogenic stimuli and form new capillaries • Epithelial cells migrate and begin the process of reepithelialization

25. Remodeling Phase • Usually starts from month 3 and can last up to a year or more • Reorganization of collagen • Increase in tensile strength

26. Why won’t this wound heal?

27. Why won’t this wound heal?

28. Why won’t this wound heal?

29. Factors Affecting Normal Wound Healing • Poor arterial circulation • Infection • Venous hypertension • Diabetes • Steroid usage • Continued pressure • Poor nutrition • Cytotoxic substances • Malignancies

30. Factors Affecting Normal Wound Healing • Foreign bodies • Cigarette smoking • Radiation • Alcoholism • Aging • Compliance

31. Poor Arterial Circulation • inadequate supply of oxygen and nutrients required for healing • Hypoxia impairs neutrophil function • decreases collagen synthesis and cross linking • decrease in tensile strength • increases susceptibility to infection

32. Infection • 100,000 bacteria/gram of tissue or greater and the body cannot control without intervention • Beta hemolytic Strep is an exception. Wound healing is affected no matter what the concentration • Bacteria secrete proteases, hemolysins and inhibitors of leukocyte chemotaxis

33. Infection

34. Venous hypertension • superficial venous insufficiency • incompetent perforator vein with normal deep vein • venous hypertension:capillary distention, leakage of fibrinogen from the blood to dermis. Prevents oxygen diffusion nutrient transport, chronic leg edema • periwound inflammation • compression is the cornerstone of treatment • color duplex Doppler's are the gold standard for diagnosis

35. Venous Stasis

37. Diabetes • Peripheral neuropathy with sensory impairment • Motor neuropathy leading to foot deformity • Autonomic neuropathy (decreased sweating and suppleness of the skin) • Peripheral vascular disease (atherosclerosis) • Immunodeficiency • Poor glucose control • Denial of the disease • Charcot arthropathy

39. CHARCOT ARTHROPATHY

40. Glucocorticoid Usage • Prednisone use: Increased risk of infection • Use of steroids can increase wound complications 2-5 times • Suppression of inflammation • Decreased wound strength • Inhibition of wound contracture • Delayed epithelialization • Topical vitamin A enhance epithelialization • Oral vitamin A can increase collagen deposition

41. Continued Pressure • Pressure, friction, shear • Tissue hypoxia • Tissue death • Inhibition of normal wound healing mechanism to proceed • Muscle can degenerate with as little as 60 mm Hg • Pressure over some bony prominences can reach 2600 mm Hg

42. Cytotoxic Substances • Topical products such as hydrogen peroxide, vinegar, povidone-iodine (Betadine), Gentian Violet solution, Phisohex, Dakins solution. • OK to use for a couple of days if your goal is to reduce bacterial count. SHOULD NOT be used on wounds once they are clean and in the healing phase.

44. Malignancies • Wounds that do not fit the profile of a typical chronic wound or is not progressing in the time frame that one might expect • Squamous cell carcinoma, basal cell carcinoma, sarcomas, malignant melanomas, leukemias

47. Foreign Bodies • Nidus for infection: Hematomas, Dysvascularized bone, tendon, cartilage, metal objects, glass, wood, thorns

48. Smoking • Limits functional tissue perfusion • Cutaneous vasoconstriction and decreased wound contraction as a direct effect of nicotine HIPAA

49. Radiation • Thinning of the epidermis • Decrease in quantity of blood vessels • Increase fibrosis in dermis • Fibroblasts permanently damaged • Irradiated site becomes relatively ischemic • Radiation damaged skin is easily damaged • Poor inflammatory response after injury • Poor angiogenesis

50. Osteoradionecrosis