Pressure therapy (PT) and silicone therapy are recommended as first-line non-invasive treatment for Hypertrophic Scar (HS), yet the effectiveness of the combination of these two treatments through an RCT trial has not been established yet. This study aims to examine the effectiveness of the combination of adequate pressure therapy and silicone gel sheeting implemented by Smart Scar Care Pad (SSCP) + conventional Pressure Garment (PG) versus conventional Pressure Garment (PG) alone in the management of HS in adult with total hip replacement (THR) and total knee replacement (TKR). This study also aims to find out the prevalence of hypertrophic scar among patients with THR and TKR. This study is a randomised controlled trial with two parallel arms, with allocation ratio (Experimental: Control) of 1: 1 in order to establish the superiority of SSCP + PG over PG. Subjects with hypertrophic scar will be randomly assigned to either treatment or control group. The subjects in the treatment group will be provided with the SSCP and PG for treatment, whereas the subjects in the control group will be prescribed only the PG. The treatment will last for a total of 6 months. A variety of objective outcome measures will be used to analysis the treatment effect.
Hypertrophic scar (HS) is a challenging yet common complication of dermal injuries such as burns, surgeries, and trauma. It is characterized as a raised, rigid, hyper-vascular, and abnormally pigmented scar confined within the border of the initial injury. The induced aesthetic defect and impaired physical function could adversely affect quality of life.1 Pressure therapy (PT) and silicone therapy are recommended as first-line non-invasive treatments HS. Recent reviews suggested PT was able to decrease scar height and erythema3,4. The inconclusive outcome results from fact that seldom research address the issue of adequate pressure dosage, which is essential for the treatment effect of PT. It is recommended that an interface pressure of 15-25 mmHg should be given and maintained through a 23 hrs/day wearing regime in order to achieve optimal treatment outcomes5. However, maintaining adequate pressure dosage through pressure garment alone is usually uncomfortable and sometimes impossible, especially over bodily concave area. Therefore, pressure inserts are used in conjunction with pressure garment to increase local pressure6. Despite the documented use of pressure inserts in various journals, pressure garment alone remains the mainstream treatment for hypertrophic scar. Cochrane review conducted on silicone gel sheet (SGS) revealed SGS's ability in reducing scar thickness and improving scar color, but insufficient data on its effect on scar pliability5. SGS are commonly used to occlude and provide hydration to scar tissues.5, 6 They are mainly used for small scars or surgical scars. They are generally costly and thin in physical form, rendering them incapable of exerting sufficient pressure. The joint effectiveness of these two treatment modalities in scar management is always drawing the interests from researchers. Various studies reported that enhanced effectiveness could be achieved through the combination of PT and SGS especially in terms of scar pliability, though all subjectively measured6-8. Therefore, there is an urging need to establish the effectiveness of the combination of these two treatments through an RCT. In order to address the adequate pressure as well as the silicone gel sheeting effect at the same time, a newly invented insert material, the Smart Scar Care Pad (SSCP), is adopted in this study as treatment modality. The Smart Scar Care Pad is especially designed with a rubbery silicone stiffener layer and medical grade silicone gel lining layer underneath. The medical grade silicone gel lining layer underneath serves as the occlusion layer. The rubbery silicone stiffener layer is designed with numerous studs. By cutting the individual studs into gradient height, the Smart Scar Care Pad (SSCP), creates tailor made localized pressure under pressure garment. Studs are also aligned in honey cone style in order to maximize conformability over different bodily contours. In that case, the Smart Scar Care Pad (SSCP) not only increases local pressure but also provides occlusion to HS tissue.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
60
Smart Scar Care Pad (SSCP) + conventional Pressure Garment in the management of HS in adult with total hip replacement (THR) and total knee replacement (TKR)
Conventional Pressure Garment (PG) alone in the management of HS in adult with total hip replacement (THR) and total knee replacement (TKR)
Department of Orthopaedics & Traumatology
Hong Kong, Hong Kong
Changes from baseline hypertrophic Scar Thickness at 1 months post-surgical to total knee/hip arthroplasty
Using an ultrasound machine, thickness of scar is aggregately measured to the average of 3 points: the center of the inner ring, 5 mm on both side of the centre point, which reflected the points of circumference of the selected scar sites.
Time frame: 1 month post total knee/hip arthroplasty operation
Changes from baseline hypertrophic Scar Thickness at 3 months post-surgical to total knee/hip arthroplasty
Using an ultrasound machine, thickness of scar is aggregately measured to the average of 3 points: the center of the inner ring, 5 mm on both side of the centre point, which reflected the points of circumference of the selected scar sites.
Time frame: 3 month post total knee/hip arthroplasty operation
Changes from baseline hypertrophic Scar Thickness at 6 months post-surgical to total knee/hip arthroplasty
Using an ultrasound machine, thickness of scar is aggregately measured to the average of 3 points: the center of the inner ring, 5 mm on both side of the centre point, which reflected the points of circumference of the selected scar sites.
Time frame: 6 month post total knee/hip arthroplasty operation
Changes of scar vascularity and pigmentation at 1 month post-surgical to total knee/hip arthroplasty
Hypertrophic scar vascularity and pigmentation will be measured using the Dermlite Foto II Pro (3GEN Inc., San Juan Capistrano, CA, USA).
Time frame: 1 month post total knee/hip arthroplasty operation
Changes of scar vascularity and pigmentation at 3 months post-surgical to total knee/hip arthroplasty
Hypertrophic scar vascularity and pigmentation will be measured using the Dermlite Foto II Pro (3GEN Inc., San Juan Capistrano, CA, USA).
Time frame: 3 months post total knee/hip arthroplasty operation
Changes of scar vascularity and pigmentation at 6 month post-surgical to total knee/hip arthroplasty
Hypertrophic scar vascularity and pigmentation will be measured using the Dermlite Foto II Pro (3GEN Inc., San Juan Capistrano, CA, USA).
Time frame: 6 month post total knee/hip arthroplasty operation
Changes of scar elasticity at 1 month post-surgical to total knee/hip arthroplasty
Hypertrophic scar elasticity will be measured using the DermaLab Combo (Cortex Technology, Hadsund, Denmark)
Time frame: 1 month post total knee/hip arthroplasty operation
Changes of scar elasticity at 3 months post-surgical to total knee/hip arthroplasty
Hypertrophic scar elasticity will be measured using the DermaLab Combo (Cortex Technology, Hadsund, Denmark)
Time frame: 3 months post total knee/hip arthroplasty operation
Changes of scar elasticity at 6 months post-surgical to total knee/hip arthroplasty
Hypertrophic scar elasticity will be measured using the DermaLab Combo (Cortex Technology, Hadsund, Denmark)
Time frame: 6 months post total knee/hip arthroplasty operation
Changes of range of motion (ROM) of knee joint or hip joint at 1 month post-surical to total knee/hip arthroplasty
It describes the joint movement range. Physical therapist will manually bend and straighten patients' knee, passively moving legs .
Time frame: 1 month post total knee/hip arthroplasty operation
Changes of range of motion (ROM) of knee joint or hip joint at 3 months post-surical to total knee/hip arthroplasty
It describes the joint movement range. Physical therapist will manually bend and straighten patients' knee, passively moving legs .
Time frame: 3 months post total knee/hip arthroplasty operation
Changes of range of motion (ROM) of knee joint or hip joint at 6 months post-surical to total knee/hip arthroplasty
It describes the joint movement range. Physical therapist will manually bend and straighten patients' knee, passively moving legs .
Time frame: 6 months post total knee/hip arthroplasty operation
Changes of circumference measurement of knee joint or hip joint at 1 month post-surgical to total knee/hip arthroplasty
It describes the circumference of joint in centimeter units.
Time frame: 1 month post-surgical to total knee/hip arthroplasty
Changes of circumference measurement of knee joint or hip joint at 3 months post-surgical to total knee/hip arthroplasty
It describes the circumference of joint in centimeter units.
Time frame: 3 months post-surgical to total knee/hip arthroplasty
Changes of circumference measurement of knee joint or hip joint at 6 months post-surgical to total knee/hip arthroplasty
It describes the circumference of joint in centimeter units.
Time frame: 6 months post-surgical to total knee/hip arthroplasty
Changes of pain/itchiness sensation at 1 month post-surgical to total knee/hip arthroplasty
Numerical rating scale (NRS) will be used to measure itchiness and pain. Patient are asked to point to the number on the Numeric Rating Scale that best represents the intensity of their pain NOW. The scale have a scale ranges from 0 to 10, with higher the number considering the worse possible pain/itchiness sensation.
Time frame: 1 month post-surgical to total knee/hip arthroplasty
Changes of pain/itchiness sensation at 3 months post-surgical to total knee/hip arthroplasty
Numerical rating scale (NRS) will be used to measure itchiness and pain. Patient are asked to point to the number on the Numeric Rating Scale that best represents the intensity of their pain NOW. The scale have a scale ranges from 0 to 10, with higher the number considering the worse possible pain/itchiness sensation.
Time frame: 3 months post-surgical to total knee/hip arthroplasty
Changes of pain/itchiness sensation at 6 months post-surgical to total knee/hip arthroplasty
Numerical rating scale (NRS) will be used to measure itchiness and pain. Patient are asked to point to the number on the Numeric Rating Scale that best represents the intensity of their pain NOW. The scale have a scale ranges from 0 to 10, with higher the number considering the worse possible pain/itchiness sensation.
Time frame: 6 months post-surgical to total knee/hip arthroplasty
Changes of The 36-Item Short Form Health Survey (SF-36) index at 1 month post-surgical to total knee/hip arthroplasty
The 36-Item Short Form Health Survey (SF-36) will be used to measure the health related Quality of Life. The SF-36 has eight scaled scores; the scores are weighted sums of the questions in each section. Scores range from 0 - 100. Lower scores = more disability, higher scores = less disability.
Time frame: 1 month post-surgical to total knee/hip arthroplasty
Changes of The 36-Item Short Form Health Survey (SF-36) index at 3 months post-surgical to total knee/hip arthroplasty
The 36-Item Short Form Health Survey (SF-36) will be used to measure the health related Quality of Life. The SF-36 has eight scaled scores; the scores are weighted sums of the questions in each section. Scores range from 0 - 100. Lower scores = more disability, higher scores = less disability.
Time frame: 3 months post-surgical to total knee/hip arthroplasty
Changes of The 36-Item Short Form Health Survey (SF-36) index at 6 months post-surgical to total knee/hip arthroplasty
The 36-Item Short Form Health Survey (SF-36) will be used to measure the health related Quality of Life. The SF-36 has eight scaled scores; the scores are weighted sums of the questions in each section. Scores range from 0 - 100. Lower scores = more disability, higher scores = less disability.
Time frame: 6 months post-surgical to total knee/hip arthroplasty
Changes of treatment satisfaction value at 1 month post-surgical to total knee/hip arthroplasty
Numerical rating scale (NRS) will be used to measure treatment satisfaction. Patient are asked to point to the number on the Numeric Rating Scale that best represents the intensity of their pain NOW. The scale have a scale ranges from 0 to 10, with higher the number considering the better treatment satisfaction.
Time frame: 1 month post-surgical to total knee/hip arthroplasty
Changes of treatment satisfaction value at 3 months post-surgical to total knee/hip arthroplasty
Numerical rating scale (NRS) will be used to measure treatment satisfaction. Patient are asked to point to the number on the Numeric Rating Scale that best represents the intensity of their pain NOW. The scale have a scale ranges from 0 to 10, with higher the number considering the better treatment satisfaction.
Time frame: 3 months post-surgical to total knee/hip arthroplasty
Changes of treatment satisfaction value at 6 months post-surgical to total knee/hip arthroplasty
Numerical rating scale (NRS) will be used to measure treatment satisfaction. Patient are asked to point to the number on the Numeric Rating Scale that best represents the intensity of their pain NOW. The scale have a scale ranges from 0 to 10, with higher the number considering the better treatment satisfaction.
Time frame: 6 months post-surgical to total knee/hip arthroplasty
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