Dermatology
Goal: Characterization of irritated and inflamed skin.
Why: User-independent assessment of the blood flow variations caused by allergens.
Benefit: High-resolution flow maps allow quantitative characterization of skin microcirculation.
Peripheral vascular disorders
Goal: Monitoring microvascular response in tissue caused by an applied physiological provocation.
Why: Haemodynamic reactions to acute coronary occlusion of diabetic patients can be an indicator of early stage peripheral neuropathy.
Benefit: Measuring Doppler signal from thousands of points simultaneously allows generating microcirculation images in real time.
Rheumatology
Goal: Detecting the vasospasm of Raynaud's phenomenon following a cold water provocation.
Why: Allows monitoring the therapeutic efficacy of different pharmaceutical substances.
Benefit: Easy tool for accurate and patient friendly clinical diagnosis.
Plastic and reconstructive surgery
Goal: Recording perfusion image of the flap/graft in a post-operative phase provides valuable information about the microvascular condition.
Why: Perfusion monitoring gives information regarding possible malfunction in the blood supply to the flap/graft.
Benefit: Statistical Image Enhancement technology provides high measurement accuracy resulting in high-resolution flow-images reach of fine details.
