This is an observational cohort study which will look at the biomarkers from blood and tissue sample for adult patients with hypertrophic scarring due to burns/trauma incident over 12 months from date of recruitment. The study will assess the kinetics of the response to fractionated carbon dioxide laser therapy in hypertrophic scars.
Research has identified a gap in the knowledge of how fractional ablative carbon dioxide laser works on hypertrophic (thickened) scars. At present there is no accurate measure of how effective the benefit is objectively (medically), subjectively (to the patient) and histologically (on a microscopic level). Recent systematic review has shown an improvement in scars following laser therapy, however it found the quality of the data to be poor, confounded by multiple bias, identifying the lack of evidence to prove the worth and effectiveness of lasers. It concluded the need for more robust studies. The study plans to observe a group of patients with hypertrophic burn and/or trauma scars (over 1 year old) and see what happens to their scars using the fractionated carbon dioxide laser therapy. Two similar scars will be identified per patient volunteer and will randomly allocate to receive either fractionated carbon dioxide laser therapy or standard care. An independent assessor will be blinded to the intervention and control scar sites. The trial will aim to identify any biological markers found in participants blood and scar tissue and if they change through the course of and following laser therapy. This will help with understanding the mechanism of how the carbon dioxide laser works on scars. As part of the evaluation of the impact of laser treatment on patients' quality of life, a patient reported outcome measures (PROMS) validation study will be carried out. PROMs describe how the patient is functioning or feeling without input from clinical staff providing a unique perspective of patients' lived experience of the disease as not all symptoms or impacts are obvious to clinicians. In order for PROMs to be effective in clinical trials and practice, they have to capture information on domains that matter to the patient. These include: scarring, movement and function, scar sensation, psychological distress, body image and confidence, engagement in activities, treatment burden and impact on relationships. The scars will be assessed in a number of different ways; scar assessment tools/questionnaires, clinical inspection, photography, use of ultrasound, probes with suction to test the elasticity and pliability of the scars and the colour, microscopic evaluation and the identification of biomarkers from blood samples and scar and normal tissue biopsy.
Study Type
OBSERVATIONAL
Enrollment
60
University Hospitals Birmingham NHS Foundation Trust
Birmingham, United Kingdom
RECRUITINGDetect the number of senescent cells and the sub-population of fibroblasts 12 months after the last CO2 laser therapy
Measuring the proportion of senescent cells and the proportion and sub-population of fibroblasts following treatment to determine positive effect of CO2 laser therapy through histological assessment. In particular, to assess: 1. Changes in the proportion of senescent cells (marker: p16) and types of fibroblasts (αSMA and CD90/Thy1) from baseline at 3 weeks after 1st laser treatment. 2. Changes in the proportion of senescent cells (marker: p16) and types of fibroblasts (αSMA and CD90/Thy1) from baseline at 3 months after 1st laser treatment. 3. Changes in the proportion of senescent cells (marker: p16) and types of fibroblasts (αSMA and CD90/Thy1) from baseline at 6 months after 1st laser treatment. 4. Changes in the protortion of senescent cells (marker: p16) and types of fibroblasts (αSMA and CD90/Thy1) from baseline at 18 months after 1st laser treatment.
Time frame: 18 months
Vancouver Scar Scale
This scale uses a numerical assessment of four skin characteristics including: Height (range, 0-4), Pliability (range, 0-4), Vascularity (range, 0-3), and Pigmentation (range, 0-3). The assessors choose a numerical value for each of these characteristics based on a comparison with normal skin.
Time frame: 18 months
Patient and Observer Scar Assessment Scale (POSAS)
POSAS questionnaire seeks to measure scar quality. POSAS, version 2.0 is a subjective scar scale that consists of two parts: a Patient Scale and an Observer Scale. Both scales contain six items that are scored numerically on a ten-step scale and together they make up the 'Total Score' of the Patient and Observer Scale. The POSAS Observer scale assesses the scar in terms of vascularity, pigmentation, thickness, relief, pliability, surface area and overall opinion. The POSAS Patient scale assesses the scar in terms of pain, itching, scar colour, stiffness, thickness and irregularity, and overall opinion.
Time frame: 18 months
Brisbane Burn Scar Impact Profile (BBSIP)
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
The Brisbane Burn Scar Impact Profile (BBSIP, version 1.0) is a questionnaire that was developed to assess the health-related quality of life in people with burn scars. It consists of seven parts which measure the overall impact of burn scars; itch, pain and other sensations (and their impact on the subject); impact of the burn scars on work and daily activities; impact of the burn scars on relationships and social interactions; subjects perception of the impact of the burn scars on their appearance; their emotional reactions towards their scars; and physical symptoms caused by the burn scars.
Time frame: 18 months
Health status
The EQ-5D is a questionnaire used for measuring generic health status. The EQ-5D questionnaire consists of 5 questions relating to different domains of quality of life (mobility, self-care, usual activities, pain/discomfort, anxiety/depression) for each of which there are 3 levels of response (no problems, some problems or severe problems).
Time frame: 18 months
Quantify scar colour
The DSM III Colormeter (Cortex Technology) combines two methods of quantifying colour: narrow-band spectrophotometry (melanin, erythema) and tristimulus reflectance colorimetry in a single measurement. It has a skin measuring area of .7mm in diameter.
Time frame: 18 months
Quantify scar thickness
The Dermascan C USB (Cortex Technology) is a high-frequency (20MHz) ultrasound scanner that enables the imaging of soft tissue at high resolution with a computer, and comes with software that allows automated skin thickness measurement. A medium focus transducer will be used with a 12mm wide viewing field and penetration depth of 15mm. All measurements are to be performed with an ultrasound frequency set at 1580m/s. Thickness and density (as a measure of total intensity in percentage) measurements are then generated using the dedicated software (Advance Control 6 Analysis SW package, Cortex). The thickness measured is defined as the distance between the echogenic stratum corneum and the inner surface of the dermis (in millimetres).
Time frame: 18 months
Quantify scar elasticity
The cutometer (MPA 580, Courage and Khazaka) is an electronic instrument that assesses skin elasticity. The probe of the device is placed over the area of measurement, and then generates a negative pressure which draws the skin into a hollow aperture in the centre of the probe and then uses a laser to estimate the amount of skin displacement. The probe with a 6-mm diameter hollow aperture was chosen for this study as previous studies have determined it to be the most efficient size to measure the visco-elasticity properties of the dermis. For this study, mode 1 was chosen. This delivers three cycles of negative air pressure (500 mbar) for 2 seconds, followed by 2 seconds of no pressure. Results are expressed as the means of the three measurement cycles.
Time frame: 18 months
Quantify scar volume
The Vectra H1 handheld imaging system delivers high resolution 3D images for clinical use. Three-dimensional (3D) measurement systems are used to overcome the limitation of 2D photograph, mostly used for clinical documentation. They can be utilised to measure surface area of wounds, but additionally be able to measure the volume of scars much more quickly and easily compared to traditional methods such as moulding. The study will measure the volume of scar in cubic centimetre.
Time frame: 18 months
Novel markers associated with scar formation, wound healing and variables of scar behaviours in response to CO2 laser therapy
The following will be assessed: 1. The percentage expression of TGF-beta at time points on day1, 3 weeks, 3 months 6 months and 18 months. 2. The percentage expression of PDGF at time points on day1, 3 weeks, 3 months 6 months and 18 months. 3. The percentage expression of Decorin (%) at time points on day1, 3 weeks, 3 months 6 months and 18 months.
Time frame: 18 months