1. Salvaggio A., et al. (2020) Effect of the topical Klox fluorescence biomodulation system on the healing of canine surgical wounds. Veterinary Surgery. 49: 719– 727.
  2. Marchegiani A., et al. (2019) Fluorescence biomodulation in the management of canine interdigital pyoderma cases: a prospective, singleblinded, randomized and controlled clinical study. Vet Dermatol, 30: 371-e109.
  3. Marchegiani, A., et al. (2021) Applications and Future Perspectives of Fluorescence Light Energy Biomodulation in Veterinary Medicine. Vet. Sci., 8, 20.
  4. Marchegiani A., et al. (2021) The Effectiveness of Fluorescent Light Energy as Adjunct Therapy in Canine Deep Pyoderma: A Randomized Clinical Trial, Veterinary Medicine International, vol. 2021, Article ID 6643416.
  5. Marchegiani A, Spaterna A, Fruganti A and Cerquetella M (2023) Exploring fluorescent light energy as management option for canine superficial bacterial folliculitis. Front. Vet. Sci. 10:1155105.
  6. Apostolopoulos N., (2020) Mayer U. Use of fluorescent light energy for the management of bacterial skin infection associated with canine calcinosis cutis lesions. Vet Rec Case Rep; 8:e001285.
  7. Marchegiani, A., et al. (2020) Management of canine perianal fistula with fluorescence light energy: preliminary findings. Vet Dermatol, 31: 460-e122.
  8. Scapagnini G., et al. (2019) Management of all three phases of wound healing through the induction of fluorescence biomodulation using fluorescence light energy. Photonic Diagnosis and Treatment of Infections and Inflammatory Diseases II. Vol. 10863. International Society for Optics and Photonics.
  9. O Neill DG., et al. (2014) Prevalence of Disorders Recorded in Dogs Attending Primary Care Veterinary Practices in England. PLoS ONE 9(3)
  10. Romanelli M., et al. (2018) Evaluation of fluorescence biomodulation in the real life management of chronic wounds: the EUREKA trial. Journal of wound care; 27(11):744-753.
  11. Antoniou C., et al. (2016) A multicenter, randomized, splitface clinical trial evaluating the efficacy and safety of chromophore gelassisted blue light phototherapy for the treatment of acne. Int J Dermatol. Dec;55(12):1321-1328.
  12. Mellergaard M., et al. (2021) Evaluation of Fluorescent Light Energy for the Treatment of Acute Second degree Burns, Military Medicine, Volume 186, Issue Supplement_1, January-February, Pages 416–423.
  13. Dini V., et al. (2019) Biomodulation induced by fluorescent light energy versus standard of care in venous leg ulcers: a retrospective study. J Wound Care. Nov 2;28(11):730-736.
  14. Mosca, M., Briand, A., Carrasco, I., Luciani, L. and Fantini, O. (2023) Impact of Fluorescent Light Energy on the Quality of Life of Dogs with Dermatologic Disease and Their Owners. Open Journal of Veterinary Medicine, 13, 122-135.
  15. Marchegiani, A.; Fruganti, A.; Bazzano, M.; Cerquetella, M.; Dini, F.; Spaterna, A. Fluorescent Light Energy in the Management of Multi Drug Resistant Canine Pyoderma: A Prospective Exploratory Study. Pathogens 2022, 11, 1197.
  16. Marchegiani A, Fruganti A, Gavazza A, Spaterna A and Cerquetella M (2022) Fluorescence Biomodulation for Canine Interdigital Furunculosis: Updates for Once-Weekly Schedule. Front. Vet. Sci. 9:880349.
  17. Marchegiani, A.; Troisi, A.; Bazzano, M.; Spaterna, A.; Fruganti, A. A Prospective, Blinded, Open-Label Clinical Trial to Assess the Ability of Fluorescent Light Energy to Enhance Wound Healing after Mastectomy in Female Dogs. Animals 2024, 14, 1250.