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Case studies2018-05-09T15:07:55+01:00
Evaluation of Novel Sub-Epidermal Moisture (SEM) Technology in Early Pressure Ulcer Detection Versus Conventional Techniques2019-05-20T13:29:41+01:00

Evaluation of Novel Sub-Epidermal Moisture (SEM) Technology in Early Pressure Ulcer Detection Versus Conventional Techniques

Sharon O’Keeffe Wound C.N.S. & Ms Pat McClusky A.N.P. Wound Management
Abstract submitted and accepted to the Tissue Viability Society, 2019

Background and Objectives

Hospital Acquired Pressure Ulcers (HAPUs) remain a challenge and, despite intensive and varied practices for predicting and preventing pressure ulcers (PU), diagnosis is typically based upon subjective visual skin assessment (VSA). Unfortunately, such qualitative methods can be unreliable and may delay both the diagnosis and implementation of preventative measures.

Sub-Epidermal Moisture (SEM)

Advanced near-patient diagnostic techniques exploit the discovery that increasing levels of SEM may be indicative of tissue inflammation, oedema and impending PU.1, 2

As a measurable biophysical marker, even small differences in SEM within adjacent anatomical locations can be quantified, compared and recorded over time, using non-invasive technology. The results alert clinicians to nascent tissue damage, often before redness (erythema) is visible; this enables the timely deployment of preventative interventions.1, 3

Quantitative measurement

SEM levels are measured during routine skin inspection using a hand-held scanner device. Multiple readings are taken over high-risk anatomical locations (target) and the adjacent skin (control) (fig. 2). If the difference in sub-epidermal moisture levels (SEM Δ ) are ≥0.6 a positive result is recorded, suggestive of imminent tissue damage. If a second positive reading is obtained within 48 hours, a diagnosis of Category 1 PU3 is confirmed.

Aim

To compare the clinical utility of using a SEM scanning device versus subjective visual skin inspection in the early detection of Category 1 PU.3

Objectives

  • To observe whether SEM data triggers the allocation of preventative interventions
  • To compare the rate of hospital-acquired pressure ulcers (HAPU) before and during the SEM scanner evaluation

Figure 1. SEM Scanner in use

Figure2. SEM measurement sites

Materials & Methods

Population

Acute care patients in a combined orthopaedic/plastic surgery ward in Cork University Hospital, Ireland.

Sample

Waterlow Score ≥ 10 (‘at risk’ to ‘very high risk’ of PU)

Duration

12 weeks

Target anatomical locations

Three consecutive readings taken over sacrum, heels, hips and ischial tuberosities

Device

SEM Scanner (Bruin Biometrics LLC): plus training and induction

Tissue assessment criteria

  • SEM ∆ scores of ≥0.6 = increased risk of PU
  • Blanching or non-blanching (Category 1)3 erythema

Interventions

  • Turning & mobilisation regimen
  • Pressure redistribution mattress/cushion
  • Heel elevation

Outcome measurements

  • SEM scan findings & visual skin assessment
  • Preventative care interventions
  • Number of HAPU across the study population compared to pre-evaluation data

Results

32 subjects were evaluated over a 12-week period; 23 (72%) had evidence of incipient tissue damage detected by SEM scan (fig. 3).

Figure 3. Positive SEM (Δ≥0.6)

Of the 15 subjects with no visible signs of damage, 33% (n=5) had a positive SEM scan result, indicative of underlying PU (fig. 4).

Figure 4. Non-visible tissue damage

Across all anatomical locations, positive SEM scans picked up areas of pressure injury that were not apparent on visual skin assessment (fig. 5). Preventative interventions were initiated or ‘stepped up’ based upon SEM findings.

Figure 5. SEM vs. VSA

SEM scanning represents an exciting innovation that offers, for the first time, a method of objectively assessing tissue health at the bedside before damage becomes visible. During this evaluation, real-time quantitative data identified 23 (72%) subjects with evidence of underlying tissue damage compared to 17 (53%) subjects diagnosed by visual skin assessment. When positive readings were recorded (SEM Δ ≥ 0.6), frontline staff were prompted to implement targeted interventions/changes in patients’ pressure area care, with five subjects potentially receiving preventative measures that they may not have otherwise had.

That no subject developed a pressure ulcer during the evaluation, compared to an historic HAPU rate of 12.2%, underpins the potential benefit of including SEM scans into routine clinical assessment.

Key Points

  • SEM Scanner provides real-time, objective data at the bedside
  • SEM is indicative of pathological changes in the tissue
  • SEM is  frequently detected before skin redness is visible
  • Scan results can be used to trigger interventions getting help to the right patient at the right time
  • Early intervention can reduce the risk of HAPU

Acknowledgements

We are grateful for the help and support of Caroline Costello CNM 2 Ward 2A; Orlaith Hogan CNM 2 CUH; Nurses and HCAs of Ward 2A, CUH. Thank you!

References

1.Moore Z, Patton D, Rhodes SL, O’Connor T. Subepidermal moisture (SEM) and bioimpedance: a literature review of a novel method for early detection of pressure-induced tissue damage (pressure ulcers). Int Wound J. 2017;14(2):331-337

2.Oliveria AL, Moore Z, O’Connor T, Patton D. Accuracy of ultrasound, thermography and subepidermal moisture in predicting pressure ulcers: a systematic review. Journal of Wound Care. 2017; (5):199-212.

3.National Pressure Ulcer Advisory Panel, European Pressure Ulcer Advisory panel and Pan Pacific Pressure Injury Alliance. Prevention and Treatment of Pressure Ulcers: Clinical Practice Guideline. Emily Haesler (Ed.). Cambridge Media: Osborne Park, Western Australia; 2014

Chasing Zero Results2019-03-13T09:38:18+01:00

Background & Objectives

Virgin Care Community hospital inpatient service improvement project aimed at supporting early identification and prevention of avoidable hospital acquired pressure ulcers. The project included:

Feasibility pilot of the SEM Scanner
Implementation of a new Pressure Damage Prevention Bundle

Materials & Methods

2 rehabilitation wards selected; 234 patients

6 month feasibility ran June – November 2015

Pressure Ulcer Prevention Bundle included:

Use of the SEM Scanner

Risk matrix tool – to segment patients into 4 categories of risk and guide in clinical decision making

The Results

  • Feasibility phase – grade II to IV reduced by 95%
  • Maintain during introduction of the full prevention bundle
  • Technology was easy to use – reported by 75% nurses
  • Staff reported the time spent carrying out the scanning a downside – this was offset by the positive elements of this time being spent focused on assessing patients skin from a tissue damage perspective

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Decrease Pressure Injuries2019-03-13T09:42:29+01:00

Background & Objectives

504 bedded community hospital. 2010 spot prevalence study identified a prevalence of 25% and incidence close to 15%: despite implementation of multiple activities, there continued to be occurrence of avoidable pressure injury.

Materials & Methods

April 2016 clinical evaluation of the SEM Scanner commenced broken into 2 phases.

Phase 1 (Preparation)

Establishing a baseline and to control for the “Hawthorn” effect. Device used to scan all newly admitted patients on a medical/stoke unit for one month with standard PI intervention protocol based only on nurse’s visual assessment.

Phase 2 (Evaluation)

Two cohorts of patients, 235 patients.
1. Immobile patients admitted to the ALC unit scanned from admission
2. Immobile patients newly admitted – scanned at Emergency Department and followed for 3 days during first 7 days from admission.

In both groups interventions were based on scanner readings and standard care protocol.

The Results

Phase 1: 89 patients scanned; 13.4% incidence | Phase 2: 146 patients scanned; 1.3% incidence
Scanner reduced incidence 10 time (90% reduction)

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Improved Patient Safety2019-05-14T08:43:39+01:00

Background & Objectives

District general hospital receiving medical, surgical and orthopaedic admissions with high proportion of over 65s. Despite implementation of SSKIN bundle and other collaborative efforts the incidence of pressure ulcers/injuries continued to be of concern.

Materials & Methods

SEM Scanner was piloted on one ward for 2 months on medical and non-elective surgery patients who were deemed at risk according to the Waterlow Risk Assessment Tool. 35 patients. Heels and sacrum scanned x1 per day.

The Results

The evaluation included 35 patients. The outcomes of the evaluation suggest that the SEM scanner provided objective evidence that both the interventions being employed and the increase in repositioning and assessment prevented further incipient skin damage.

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