The role of Vascular Surgery and wound care treatment Dr. W. Amann Division of General- and Vascular Surgery LKH Villach, Austria XV. Educational seminar.

The role of Vascular Surgery and wound care treatment

Dr. W. Amann

Division of General- and Vascular Surgery

LKH Villach, Austria

XV. Educational seminar for doctors; Nov. 11, 2011 University Medical Center ( UMC ), Ljubljana

Chronic wound and vascular disease

• majority of patients in vascular medical units

• majority of hospital stay days

• cost intensive

Etiology of chronic wounds ( crural ulcers )

• combined venous and arterial 70 %

• arterial ( atherosclerosis ) 20 %

• diabetic 5 %

• traumatic 3-4 %

• vasculitis 1 %

• neoplastic <1 %

Management of chronic wounds

1. Diagnosis of vascular disease

2. Causal treatment

3. Local treatment

Chronic critical ischemia

Fontaine stage III and IV prognosis

• Without therapy in 6 - 12 months:

- 90 % major amputation

• With therapy in 12 months:

- 25 % dead

- 25 % major amputation

- 50% alive, with limb salvage

SECD, Eur J Vasc Endovasc Surg (1992)

Stage I Asymptomatic, decreased pulses, ABI < 0.9

Stage II Intermittent claudication

Stage III Daily rest pain

Stage IV Focal tissue necrosis

Diagnostic algorithm for PAOD

1. Clinical examination

2. Pulse status

3. Ankle brachial index

4. Acral oscillography

5. Treadmill

6. Tcpo2

7. Duplex - ultrasound

8. Angiography

Weitz JI et al. Circulation 1996;94:3026–3049

Becken-Bein-AngioCT

Causal treatment of vascular disease

• Desobliteration

- Interventional ( Angioplasty )

- Surgical ( bypass surgery )

• Medical vasoactive treatment

- Prostanoids

• Combination

• Lumbal or thoracal sympathectomy

• Last option : SCS – spinal cord stimulation

Local treatment – mandatory factors

• Debridement ( surgical, autolytic, biological )

• Moisture

• Wound temperature

• Prevent and/or treat local infection

• Exudate management

• Pain reduction

• Easy handling ( outpatient )

• Cost effective

TIME - principles of wound bed preparation

• Tissue revascularization removal of non-viable or deficient tissue

• Infection control of infection or inflammationlocal antisepticsystemic antibiotics

• MoistureExsudate management

• Edge of wound excavation hyperceratosis maceration epitheliasation

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Case 1Case 1

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Case 1Case 1

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Case 2

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Case 2

2020

Case 2

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Case 2

Case 2

Local wound therapy - dressings

• A lot of different dressings available

• A lot of confusion which one to take according to wound situation

• Costs ?

• Low evidence of what is the best

Povidone iodine

infected woundeasy to handlecheap

potential cytotoxicIodine allergic patientsNeeds secondary dressing

Alginates with/without silver

Infected woundsKeeps wound moistImproves granulationgood for excavates wounds

Secondary dressing necessaryHigher costs than iodine

Hydrogel

Improves autolysisKeeps wound moistImproves granulationSecondary dressing necessary

Hydrocolloid

minor exsudating woundsKeeps wound moistImproves granulation

Foams – polyurethane

Moderate exsudating woundKeeps wound moist

sometimes adheres to wound bedpainful dressing changealterates wound bed

Superabsorber

highly exsudating woundsavoids macerationprimary and secondary dressing

VAC – vaccuum assisted closure

large excavated woundsGood exsudate controlimproves granulation

expensivedifficult for outpatient

Summary conventional wound dressings

• Dressings have different characteristics• Use of many different dressings in each

phase of wound healing process is possible

• Need for high expertise to choose the best one in a certain situation

• Need for different combinations increases costs

PolyMem®

Multifunctional dressings

These multifunctional dressings promote:• Gentle autolytic debridement• Rapid debriding and wound healing results• Reduction of pain and inflammation around the wound• Non-adherence of dressings to the wound bed• Quick, simple and pain-free dressing changes

Might look and feel like foam dressings but due their composition they have an entirely different mode of action.

PolyMem®

Multifunctional dressings

All PolyMem dressings have the same core technology• Hydrophilic Polyurethane (carrier)• Wound cleanser - F-68 Surfactant• Moisturizer – Glycerin• Superabsorbent ( Copolymer )

– absorbs fluids 10 ( Polymem ) to 16 fold ( Polymax ) of own weight

• Semi-permeable backing film ( not on cavity products)

Release of wound-cleanser and glycerine onto the wound bed.

Application of PolyMem on wound, wound fluid is immediately absorbed into the dressing.

Wound fluid absorbed into the dressing making it swell and fill the wound contours.

Surfactant and glycerine stimulate autolytic debridement. Exudate retained in the dressing due to superabsorbents.

PolyMem ® Silver ™

• All the advantages of PolyMem dressings, plus the antimicrobial benefits of silver!

• In vitro testing demonstrates kill of at least 99.9% of all bacteria and fungi populations*

• Nano-crystalline silver particles are equally distributed throughout and bound into the membrane.

• Unlike other silver dressings - Non cytotoxic!

• No skin staining

*Organisms tested – Klebsiella pneumoniae, Staphylococcus aureus, Pseudominas aeruginosa, Enterococcus faecalis, Staphylococcus aureus, Candid albicans

Example of effect after 24 hours

24/7

25/7

• Stagnating (4 months) wound on tibia after trauma.

• PolyMem has reduced the hypergranulation, odour and pain in only 24 hours.

• Note the clean wound surface and absence of the slimey film and slough that had previously covered the wound.

No need for additional cleansing!

• Inhibits the actions of the pain-sensing nerve endings under the dressings*. (“nociceptors”)

• These same nerves, when activated, create the series of events that result in;- bruising- swelling- edema- pain.

• Evidence suggests that the dressing might absorb sodium ions, by capillary action, from the skin and from the subcutaneous tissues.

If this is true, then this local decrease in sodium ions would result in reduced nociceptor nerve conduction, which could account for the observed pain relief.

How does PolyMem reduce pain?

Inflammation

An incisional study on a rodent model

The coming slide demonstrates how PolyMem reduces the spread of inflammation (and pain which is linked to inflammation) in the tissue surrounding the trauma (in this case, inscisions/cuts)

The inscisions on the animals were either:

- left uncovered- covered with gauze (earlier study showed same result with gauze and a placebo foam)- covered with PolyMem

Following slide show histological photos of the inflammatory reaction of surrounding tissue.

Photos courtesy of Dr. Alvin J. Beitz, University of Minnesota

An incisional study on a rodent model

The vertical lines measure the extent of the inflammation, which is dramatically more localized with Polymem®.

Photos courtesy of Dr. Alvin J. Beitz, University of Minnesota

Blunt trauma animal model

• Uniform blunt trauma to both legs on 14 anesthetized animals• PolyMem® dressing plus a compression wrap applied to one leg• Only the compression wrap was applied to the other leg • Two independent observers evaluated swelling (0 – 4 scale)

PMD + wrap wrap PMD+wrap wrap

Data courtesy of Dr. Alan R. Kahn, University of Minnesota

Charcot foot treated with PolyMem®

4,5 months to closure with PolyMem Silver WIC + PolyMem (without silver). The wound was NOT debrided or cleansed in-between dressing changes. Poster presented at EWMA 2008

Heel ulcer 1. treated with PolyMem®

3 months to closure with PolyMem Silver WIC + PolyMem. The wound was NOT debrided or cleansed in-between dressing changes. Poster presented at EWMA 2008

Heel ulcer 2. treated with PolyMem®

8 months to closure with PolyMem + PolyMem WIC. The wound was NOT debrided or cleansed in-between dressing changes. Poster presented at EPUAP 2009

PolyMem® Wic Silver Rope

• Main indication is tunneling wounds/fistulas

• Reinforced with a surgical mesh (top and bottom)

• Can be cut in half lengthwise (use slits as guide)

• Absorbs up to 6x its own weight (will swell up to 1/3)

• One piece removal.

PolyMem® Wic Silver Rope

Local treatment – summary

• Optimum: one product for all options

• Monotherapy

• Factors for cost effectiveness

– price

– nursing time

– need for hospital stay

– need for additional treatment ( pain, cleansing etc )

– storage costs

– healing time

• First line local treatment