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This training session discusses the importance of a comprehensive risk assessment for pressure ulcers and provides strategies for prevention, including individualized turning and repositioning techniques, treatment for lower extremity wounds, and the application of pulsatile lavage in wound management.
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F314 Follow-up Clinical TrainingJanuary 23, 2006 Presented by Jeri Lundgren, RN, CWS, CWCN Wound Care Consultant Pathway Health Services
Training Objectives • Know what a comprehensive risk assessment should include • Discuss individualized turning and repositioning • Understand the treatment for lower extremity wounds • Describe the causes of pressure ulcers • Differentiate between pressure reduction verses pressure relief • Discuss the application of pulsatile lavage in wound management
Risk Assessment • Regulation states “Although the requirements do not mandate any specific assessment tool, other than the RAI, validated instruments are available to assess risk for developing pressure ulcers”
Risk Assessment ToolsBRADEN SCALE • Mobility • Activity • Sensory Perception • Moisture • Friction & Shear • Nutrition *Please note: Using the Braden scale requires obtaining permission at www.bradenscale.com or (402) 551-8636
Risk Assessment Tools • “Regardless of any resident’s total risk score, the clinicians responsibility for the resident’s care should review each risk factor and potential cause(s) individually” • “an overall risk score indicating the resident is not at high risk of developing pressure ulcers does not mean that existing risk factors or causes should be considered less important or addressed less vigorously than those factors or causes in the resident whose overall score indicates he or she is at a higher risk of developing a pressure ulcer.”
Risk Assessment Tools • A COMPREHENSIVE risk assessment should be done: • Upon admission • *Weekly for the first four weeks after admission* • With a change of condition • Quarterly
Comprehensive Risk Assessment • Overall skin condition - including tissue tolerance • Medical diagnosis and co-morbidities • Medications or Treatments • Degree of Mobility • Incontinence of Bowel and/or Bladder • Scarring over bony prominences • Contractures • Bedfast or Chair-bound
Comprehensive Risk Assessment • Cognitively impaired • Resident choice • Restraints • Unrelieved pain • Slouching in a chair • Repeated hospitalizations or ER visits with-in 6 months • Nutrition and hydration
Comprehensive Risk Assessment • The overall goal of the risk assessment is to ensure that individualized interventions are attempted to stabilize, reduce or remove the underlying risk factors
Prevention Interventions:Provide appropriate pressure reduction or relief
Prevention Interventions Choose appropriate pressure reducing surfaces while in bed and sitting • Pressure Reduction: Is the reduction of interface pressure, not necessarily below capillary closure pressure • Pressure Relief: Is the reduction of interface pressure below capillary closure pressure Capillary closing pressure is also individual to the resident
Support Surfaces • There is no standardize testing or requirements for support surfaces • There is no set mandate or recommendation as to when a specific type of support surface should be used. • Regulation states: “Appropriate support surfaces or devices should be chosen by matching a device’s potential therapeutic benefit with the resident’s specific situation: for example, multiple ulcers, limited turning surfaces and ability to maintain position.”
Support Surfaces • Surveyors should consider the following pressure redistribution issues: • Static devices(e.g., solid foam or gel mattresses) may be indicated when a resident is at risk or delayed healing. A specialized reduction cushion or surface might be used to extend the time a resident is sitting in a chair; however, the cushion does not eliminate the necessity for periodic repositioning
Support Surfaces • pressure redistribution issues continued: • Dynamic pressure reduction surfaces may be helpful when: • The resident can’t assume a variety of positions without bearing weight on a pressure ulcer • The resident completely compresses a static device • The pressure ulcer is not healing as expected, and it is determined that pressure may be contributing to the delay in healing
Support Surfaces • Use of recliners, regulation states “The care plan for a resident who is reclining and is dependent on staff for repositioning should address position changes to maintain the resident’s skin integrity.”…..”Elevating the head of the bed or the back of a reclining chair to or above a 30 degree angle creates pressure comparable to that exerted while sitting, and requires the same considerations regarding repositioning as those for a dependent resident who is seated.”
Support Surfaces • Recliners continued • Remember off-loading is one full minute of pressure relief • Is the turning schedule in the best interest for the resident or per their wishes or is it in the best interest for staff • Foam vs. Gel vs. Airwheelchair cushions– Overall ensure it is the best for the individual resident
Prevention Interventions • Develop an INDIVIDUALIZED turning & repositioning schedule • Tissue tolerance is the ability of the skin and it’s supporting structures to endure the effects of pressure with out adverse effects • There is no standard/mandated “Tissue Tolerance Test” • “A skin inspection should be done, which should include an evaluation of the skin integrity and tissue tolerance, after pressure to that area, has been reduced or redistributed”
Prevention Interventions • After skin integrity and tissue tolerance has been assessed the resident then should be put on an appropriate INDIVIDUALZED turning and repositioning program • Ongoing monitoring of tissue tolerance and skin integrity should be done • Recommend assessing skin integrity and tissue tolerance upon admission and with a significant change of condition
Lower Extremity Wounds • Arterial Insufficiency • Venous Insufficiency • Peripheral Neuropathy/Diabetic Referred to F309 Tag
Arterial Insufficiency Ulcers • Location • Toe tips and/or web spaces • Phalangeal heads around lateral malleolus • Areas exposed to pressure or repetitive trauma (shoe, cast, brace, etc.)
Arterial Insufficiency Interventions • Measures to Improve Tissue Perfusion • Revascularization if possible • Lifestyle changes (no tobacco, no caffeine, no constrictive garments, avoidance of cold) • Hydration • Measures to prevent trauma to tissues (appropriate footwear at ALL times) • Aspirin in doses of 75-325 mg oral/day
Arterial Insufficiency Interventions • Nutrition • Consider niacin; niacin has been shown to HDL-C & Triglycerides in oral dosages of 3,000mg/d • L-Arginine (vasodilator properties) oral intake of 6.6 g/day for 2 weeks improved symptoms of intermittent claudication • Provide nutritional support with 2,000 or more calories preoperatively and postoperatively, if possible; this has been benefited patients undergoing amputations
Arterial Insufficiency Interventions • Pain Management • Recommend walking to near maximal pain three times per week. • Administer Cilostazol, 100mg BID, orally • Topical Therapy • Dry uninfected necrotic wound: KEEP DRY • Dry INFECTED wound: Immediate referral for surgical debridement/aggressive antibiotic therapy (Topical antibiotics are typically in-effective for arterial wounds)
Arterial Insufficiency Interventions • Topical Therapy (continued) • Open Wounds • Moist wound healing • Non-occlusive dressings (e.g. solid hydrogel) • Aggressive treatment of any infection • Adjunctive Therapies • Hyperbaric oxygen therapy • Intermittent pneumatic compression • Topical autologous activated mononuclear cells, twice per week (Autologel)
Arterial Insufficiency Interventions • Adjunctive Therapies (continued) • High-voltage pulsed current (HVPC) electrotherapy • Patient Education
Venous Insufficiency Ulcers • Location • Medial aspect of the lower leg and ankle • Superior to medial malleolus
Venous Insufficiency Treatment • Surgical obliteration of damaged veins • Elevation of legs • *Compression therapyto provide at least 30mm Hg compression at the ankle • Short stretch bandages (e.g. Setopress, Surepress) • Therapeutic support stockings • Unna’s boot • Profore layer wrap • Compression pumps *ensure compression therapy in not contraindicated
Venous Insufficiency Treatment • Topical Therapy • Absorb exudate (e.g. alginate, foam) • Maintain moist wound surface (e.g. hydrocolloid) • Chronic or non-responding wounds: • Small Intestinal SubmucosaTechnology (Oasis Wound Matrix; Healthpoint) • Bi-layered cell therapy (Apligraf; Organogenesis, Inc.) • Patient Education • Appropriate antibiotics to treat infection
Peripheral Neuropathy/Diabetic Signs & Symptoms • Relief of pain with ambulation • Parasthesia of extremities • Altered gait • Orthopedic deformities • Reflexes diminished • Altered sensation (numbness, prickling, tingling)
Peripheral Neuropathy/Diabetic Signs & Symptoms • Intolerance to touch (e.g., bed sheets touching legs) • Presence of calluses • Fissures/cracks, especially the heels Arterial insufficiency commonly co-exists with peripheral neuropathy!
Peripheral NeuropathyDiabetic Location • Plantar aspect of the foot • Metatarsal heads • Heels • Altered pressure points • Sites of painless trauma and/or repetitive stress
Peripheral NeuropathyDiabetic Treatment • Pressure relief for heal ulcers • “Offloading” for plantar ulcers (bedrest, contact casting, or orthopedic shoes) • Appropriate footwear • Tight glucose control • Aggressive infection control • orthopedic consult for exposed bone and antibiotic therapy • Zyvox – approved for MRSA • Treatment for co-existing arterial insufficiency
Peripheral NeuropathyDiabetic Treatment • Topical Treatment • Cautious use of occlusive dressings • Dressings to absorb exudate • Dressings to keep dry wound moist • Chronic or non-responding wounds: • Recombinant human platelet-derived growth factors (Regranex Gel; Johnson & Johnson) • Human fibroblast-derived dermal substitute (Dermagraft; Smith & Nephew) • Bi-layered cell therapy (Apligraf; Organogenesis, Inc.)
Peripheral NeuropathyDiabetic Treatment • Adjunctive Therapy • Hyperbaric Oxygen • MIRE - nitric oxide and monochromatic infrared photo energy (Anodyne Therapy LLC, Tampa, FL) • The V.A.C (KCI) • Patient Education
Mixed Etiology • Use reduced compression bandages of 23-30 mm Hg at the ankle. Compression therapy should not be used in patients with ABI < 0.5 • Keep extremities in neutral position • Protect from trauma