Table 2.
Summary of Studies Investigating the use of OCT to Image Skin Fibrosis
| Authors | Study Aim | Population Characteristics | Findings | Limitations |
|---|---|---|---|---|
| Normal Skin | ||||
| Mogensen et al [19] | To describe normal skin collagen morphology using PS-OCT imaging | Healthy volunteers aged 0.5–59 years; (n = 20); examined forehead, ear lobe, nose, cheek, chin, back of the neck, chest, hands, arms and calf | PS-OCT images showed characteristic structures due to the birefringence differences between epidermis, papillary, and reticular dermis | Small proportion of children relative to adults in the study |
| Pierce et al [25] | To measure anatomic variations in birefringence using PS-OCT | Healthy volunteers aged 24–35 years; (n = 5); examined lower back, temple, and hand | Mean phase retardation highest for skin of the lower back and lowest for skin of the temple | Study limited to male patients; small sample size |
| Pircher et al [27] | To use phase resolved PSOCT to investigate polarization properties of different regions of human skin in vivo | Healthy volunteers; (n not specified); examined fingertip and hand | 3-D PS-OCT has potential to increase contrast and quantify retardation and orientation of birefringent structures in skin | Selected skin regions examined |
| Yasuno et al [37] | To investigate normal skin birefringence using PS-OCT | Healthy volunteers | PS-OCT successfully revealed the birefringent nature of human skin tissue | Limited information on volunteers |
| Fibrosis | ||||
| Abignano et al [1] | To determine if SS-OCT could offer a potential sensitive imaging biomarker to assess and quantify skin fibrosis | Systemic sclerosis patients with mean age of 54 years; (n = 21); examined fingers, hands, and forearms | Systemic sclerosis affected skin displayed consistent decrease of optical density in the papillary dermis, this directly correlated with mRSS score | Selected skin regions scanned; Only two patients underwent skin biopsies and from sites with MRSS of 3 |
| Kunzi-Rapp et al [14] | Use OCT to evaluate new collagen synthesis after scar treatment with the Er:YAG laser | Post-traumatic and acne scar patients aged 12–39 years; (n = 12); examined face and extremities | OCT demonstrated was the production of new collagen bundles after scar treatment with the Er:YAG laser | N/A – OCT was not the main goal of study but rather used in assessment |
| Liew et al [16] | To investigate the utility of OCT to quantify vascularity in hypertrophic scars | Hypertrophic scar patients with mean age of 32 years; (n = 8); examined burn scar sites | Increase in mean density of vasculature in hypertrophic scar tissues (38%) when compared with normal, unscarred skin (22%); proliferation of larger vessels | Pilot study – small sample size; scans acquired in the severely affected areas of each scar |
| Pierce MC, Strasswimmer J et al [26] | To demonstrate the capability of OCT in detecting features of skin fibrosis | Fibrotic scar patient; (n = 1); examined hand | PS-OCT imaging quantitatively demonstrated polarization differences between normal skin and the fibrotic site | Fibrosis examination restricted to the hand; small sample size |