Michiel C E van Leeuwen1, Anne Eva J Bulstra2, A J van der Veen3, W B Bloem3, P A M van Leeuwen4, F B Niessen2. 1. Department of Plastic and Reconstructive Surgery, VU University Medical Center, Amsterdam, The Netherlands. Electronic address: mc.vanleeuwen@vumc.nl. 2. Department of Plastic and Reconstructive Surgery, VU University Medical Center, Amsterdam, The Netherlands. 3. Department of Physics and Medical Technology, VU University Medical Center, Amsterdam, The Netherlands. 4. Department of Surgery, VU University Medical Center, Amsterdam, The Netherlands.
Abstract
BACKGROUND:Intralesional (IL) cryotherapy is a new technique for the treatment of keloid scars, in which the scar is frozen from inside. Two cryodevices are available, which were recently evaluated. Both devices showed promising results, but differed in clinical outcome. To explain these differences, more understanding of the working mechanism of both devices is required. OBJECTIVE: This experimental study was designed to investigate and compare the thermal behavior of an argon gas- and a liquid nitrogen-based device. Thermal behavior constitutes: (1) minimum tissue temperature (°C), (2) the freezing rate (°C/min). The thermal behavior was measured inside and on the outer surface of the scar. Both devices were tested ex vivo and in vivo. RESULTS: Ex vivo, when determining the maximum freezing capacity, the argon gas device showed a higher end temperature compared to the liquid nitrogen device (argon gas: -120°C, liquid nitrogen: -140°C) and a faster freezing rate (argon gas: -1300°C/min, liquid nitrogen: -145°C/min). In vivo, measured inside the keloid, the argon gas device showed a lower end temperature than the liquid nitrogen device (argon gas: -36.4°C, liquid nitrogen: -8.1°C) and a faster freezing rate (argon gas: -14.7°C/min, liquid nitrogen: -5°C/min). The outer surface of the scar reached temperatures below -20°C with both devices as measured with the thermal camera. CONCLUSION: In conclusion, the argon gas device displayed a lower end temperature and a faster freezing rate in vivo compared to the liquid nitrogen device. Although this resulted in lower recurrence rates for the argon gas device, more hypopigmentation was seen compared to the liquid nitrogen device following treatment. Finally, the low outer surface temperatures measured with both devices, suggest that some hypopigmentation following treatment is inevitable.
RCT Entities:
BACKGROUND: Intralesional (IL) cryotherapy is a new technique for the treatment of keloid scars, in which the scar is frozen from inside. Two cryodevices are available, which were recently evaluated. Both devices showed promising results, but differed in clinical outcome. To explain these differences, more understanding of the working mechanism of both devices is required. OBJECTIVE: This experimental study was designed to investigate and compare the thermal behavior of an argon gas- and a liquid nitrogen-based device. Thermal behavior constitutes: (1) minimum tissue temperature (°C), (2) the freezing rate (°C/min). The thermal behavior was measured inside and on the outer surface of the scar. Both devices were tested ex vivo and in vivo. RESULTS: Ex vivo, when determining the maximum freezing capacity, the argon gas device showed a higher end temperature compared to the liquid nitrogen device (argon gas: -120°C, liquid nitrogen: -140°C) and a faster freezing rate (argon gas: -1300°C/min, liquid nitrogen: -145°C/min). In vivo, measured inside the keloid, the argon gas device showed a lower end temperature than the liquid nitrogen device (argon gas: -36.4°C, liquid nitrogen: -8.1°C) and a faster freezing rate (argon gas: -14.7°C/min, liquid nitrogen: -5°C/min). The outer surface of the scar reached temperatures below -20°C with both devices as measured with the thermal camera. CONCLUSION: In conclusion, the argon gas device displayed a lower end temperature and a faster freezing rate in vivo compared to the liquid nitrogen device. Although this resulted in lower recurrence rates for the argon gas device, more hypopigmentation was seen compared to the liquid nitrogen device following treatment. Finally, the low outer surface temperatures measured with both devices, suggest that some hypopigmentation following treatment is inevitable.