FLE线粒体再生技术：

治疗仪和光转换凝胶联合作用，产生斯托克斯位移（Stokes shift）及原子跃迁，向皮肤输送独特的光子能量，通过刺激线粒体细胞色素c氧化酶（CCO）功能和氧化磷酸化来发挥光化学效应，以恢复线粒体膜电位（MMP）并提高ATP产量靶向修复线粒体，激发细胞活性并增殖，是一种无痛、无损、无激素、无异体反应的治疗方案，能够有效治疗炎症，促进伤口愈合，改善皮肤状况，从而达到伤口治疗和皮肤管理的目的。

研究论文

1. Russo A, Mellergaard M, Pellacani G, Nistic S, Nielsen MCE. Fluorescent light energy combined with systemic isotretinoin A 52 weeks follow-up evaluating efficacy and safety in treatment of moderate-severe acne. June 2020. doi10.2254.pdf

2. Scarcella, G, Gerber, PA, Edge, D, Nielsen, MCE. Effective removal of solar lentigines by combination of pre– And post–fluorescent light energy treatment with picosecond laser treatment. Clin Case Rep. 2020; 00 1– 4. httpsdoi.org10..pd

3. Edge D., Schødt M., Nielsen M.C.E. (2020) Biophotonic Therapy Induced Photobiomodulation. In Fimiani M., Rubegni P., Cinotti E. (eds) Technology in Practical Dermatology. Springer, Cham. ISBN 978-3-030-45350-3; httpsdoi.org10.100797.pd

4. Gerber PA, Scarcella G, Edge D, Nielsen MCE. Biophotonic pretreatment enhances the targeting of senile lentigines with a 694 nm QS-ruby laser. Photodermatol Photoimmunol Photomed. 2020;36(2)159-160. doi10.1111phpp.12518.pd

5. Ferroni L, Zago M, Patergnani S, et al. Fluorescent Light Energy (FLE) Acts on Mitochondrial Physiology Improving Wound Healing. J Clin Med. 2020;9(2)1-20. doi10.3390jcm9020559.pdf

6. Zago M, Dehghani M, Jaworska J, et al. Fluorescence biomodulation in wound healing when is a photon something more 2020;(March)9. doi10.111712.2546694.pdf

7. Dini V, Janowska A, Davini G, Kerihuel JC, Fauverghe S, Romanelli M. Biomodulation induced by fluorescent light energy versus standard of care in venous leg ulcers A retrospective study. J Wound Care. 2019;28(11)730-736. doi10.12968.pd

8. Koceva I, Rümmelein B, Gerber PA, Edge D, Nielsen MCE. Fluorescent light energy A new therapeutic approach to effectively treating acne conglobata and hidradenitis suppurativa. Clin Case Reports. 2019;7(9)1769-1772. doi10.1002ccr3.2.pdf

9. Jalili A. Chromophore gel-assisted phototherapyChromophor-Gel-assistierte Phototherapie. J für Ästhetische Chir. 2019;12(S1)1-5. doi10.1007s12631-018-0121-z.pd

10. Edge D, Mellergaard M, Dam-Hansen C, et al. Fluorescent light energy The future for treating inflammatory skin conditions J Clin Aesthet Dermatol. 2019;12(5)E61-E68. httpjcadonline.comfle-may-2019..pd

11. Liu RC, Makhija M, Wong XL, Sebaratnam DF. Treatment of granulomatous rosacea with chromophore gel-assisted phototherapy. Photodermatol Photoimmunol Photomed. March 2019phpp.12463. doi10.1111phpp.12463.pd

12. Mahendran A, Wong XL, Kao S, Sebaratnam DF. Treatment of erlotinib-induced acneiform eruption with chromophore gel-assisted phototherapy. Photodermatology Photoimmunology and Photomedicine. 2019..pd

13. Scapagnini G, Marchegiani A, Rossi G, et al. Management of all three phases of wound healing through the induction of fluorescence biomodulation using fluorescence light energy. In Dai T, Wu MX, Popp J, eds. Photonic Diagnosis and T.pdf

14. Scarcella G, Dethlefsen MW, Nielsen MCE. Treatment of solar lentigines using a combination of picosecond laser and biophotonic treatment. Clin Case Reports. 2018;6(9)1868-1870. doi10.1002ccr3.1749.pdf

15. Sannino M, Lodi G, Dethlefsen MW, Nisticò SP, Cannarozzo G, Nielsen MCE. Fluorescent light energy Treating rosacea subtypes 1, 2, and 3. Clin Case Reports. 2018;6(12)2385-2390. doi10.1002ccr3.1891.pdf

16. Davinelli S, Nielsen ME, Scapagnini G. Astaxanthin in skin health, repair, and disease A comprehensive review. Nutrients. 2018;10(4)522. doi10.3390nu10040522.pdf

17. Fogacci T, Cattin F, Semprini G, Frisoni G, Fabiocchi L, Samorani D. The use of chromophore gel-assisted blue light phototherapy (Lumiheal) for the treatment of surgical site infections in breast surgery. Breast J. 2018;24(6)1135. d.pd

18. Romanelli M, Piaggesi A, Scapagnini G, et al. Evaluation of fluorescence biomodulation in the real-life management of chronic wounds The EUREKA trial. J Wound Care. 2018;27(11)744-753. doi10.12968jowc.2018.27.11.744.pdf

19. Nikolis A, Fauverghe S, Scapagnini G, et al. An extension of a multicenter, randomized, split-face clinical trial evaluating the efficacy and safety of chromophore gel-assisted blue light phototherapy for the treatment of acne. Int.pdf

20. Braun SA, Gerber PA. A photoconverter gel-assisted blue light therapy for the treatment of rosacea. Int J Dermatol. 2017;56(12)1489-1490. doi 10.1111ijd.13724.pd

21. Nielsen, ME, Devemy E, Jaworksa J et al. Introducing photomodulation by low energy chromophore-induced fluorescent light. Mechanisms of Photobiomodulation. In SPIE Photonics West BIOS Conference January 28 – February 2. San Francisc.pdf

22. Antoniou C, Dessinioti C, Sotiriadis D, et al. A multicenter, randomized, split-face clinical trial evaluating the efficacy and safety of chromophore gel-assisted blue light phototherapy for the treatment of acne. Int J Dermatol. 20.pd

23. Nikolis A, Bernstein S, Kinney B, Scuderi N, Rastogi S, Sampalis JS. A randomized, placebo-controlled, single-blinded, split-faced clinical trial evaluating the efficacy and safety of KLOX-001 gel formulation with KLOX light-emittin.pdf

24. Nikolis A, Fauverghe S, Vezina D, Scapagnini G. non-healing diabetic foot ulcer  A case report. 2016;4(2)25-31. httpwww.diabeticfootcanadajournal.cajournal-contentviewevaluation-of-biophotonic-therapy-in-a-non-healing-diabetic-foot-.pdf

25.  Nikolis A, Grimard D, Pesant Y, Scapagnini G, Vezina D. A prospective case series evaluating the safety and efficacy of the Klox BioPhotonic System in venous leg ulcers. Chronic Wound Care Manag Res. 2016; Volume 3101-111. doi10.214.pdf