Photobiomodulation of Human Fibroblasts and Keratinocytes with Blue Light: Implications in Wound Healing

Rossi, Francesca; Magni, Giada; Tatini, Francesca; Banchelli, Martina; Cherchi, Federica; Rossi, Michele; Coppi, Elisabetta; Pugliese, Anna Maria; Degl’Innocenti, Donatella; Alfieri, Domenico; Pavone, Francesco S.; Pini, Roberto; Matteini, Paolo

doi:10.3390/biomedicines9010041

Cited by 28 publications

(26 citation statements)

References 35 publications

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“…These cells stimulated (i) an early inflammatory response; (ii) angiogenesis, thanks to the secretion of TNF-α [ 36 ]; and (iii) the response of fibroblasts that switched into myofibroblasts, which played a role in wound closure, evidenced by re-epithelialization and collagen deposition [ 36 , 37 , 38 , 39 , 40 , 41 ]. Therefore, together with our previous investigation [ 15 , 16 , 19 , 41 , 42 , 43 ], these results show that blue-LED-light irradiation induces a quicker healing process.…”

Section: Discussionsupporting

confidence: 85%

Blue-LED-Light Photobiomodulation of Inflammatory Responses and New Tissue Formation in Mouse-Skin Wounds

Magni

Tatini

Siena

et al. 2022

Life

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Background: Recent studies evidence that blue-LED-light irradiation can modulate cell responses in the wound healing process within 24 hours from treatment. This study aims to investigate blue-light (410–430 nm) photobiomodulation used in a murine wound model within six days post-treatment. Methods: A superficial wound was made in 30 CD1 male mice. The injuries were treated with a blue LED light (20.6 J/cm2), and biopsies were collected at 24, 72, and 144 hours. Histology, fluorescence analysis, and advanced microscopy techniques were used. Results: We can observe an increase in the cellular infiltrate response, and in mast-cell density and their degranulation index correlated to the expression of the major histocompatibility complex after 24 hours. Furthermore, after six days, the vessel density increases with the expression of the platelet-derived growth factor in the mast cells. Finally, collagen deposition and morphology in the treated wounds appear more similar to unwounded skin. Conclusions: Blue-light photobiomodulation stimulates several cellular processes that are finely coordinated by mast cells, leading to more rapid wound healing and a better-recovered skin morphology.

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Section: Discussionsupporting

confidence: 85%

Blue-LED-Light Photobiomodulation of Inflammatory Responses and New Tissue Formation in Mouse-Skin Wounds

Magni

Tatini

Siena

et al. 2022

Life

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“…Some authors have recently reported observations of an improved healing process when superficial wounds are treated with blue LED light with wavelengths in the range 410–430 nm, and a study in an animal model indicated that blue light led to a faster healing process in superficial lesions, with fibroblasts and myofibroblasts playing an important role [ 19 ]. After a critical literature review [ 22 ], further analyses of this group focused on the effects of blue light on fibroblasts and keratinocytes; it was observed that blue LED light may be used to modulate the metabolism and proliferation of human fibroblasts, and its effects on wound healing seemed to be particularly evident when studying fibroblast and keratinocyte co-cultures [ 20 , 21 ].…”

Section: Discussionmentioning

confidence: 99%

Photobiomodulation Therapy: A New Light in the Treatment of Systemic Sclerosis Skin Ulcers

et al. 2022

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Introduction Skin ulcers (SU) represent one of the most frequent manifestations of systemic sclerosis (SSc), occurring in almost 50% of scleroderma patients. SSc-SU are often particularly difficult to treat with conventional systemic and local therapies. In this study, a preliminary evaluation of the role and effectiveness of blue light photobiomodulation (PBM) therapy with EmoLED ® in the treatment of scleroderma skin ulcers (SSc-SU) was performed. Methods We retrospectively analyzed 12 consecutive SSc patients with a total of 15 SU on finger hands. All patients were treated with adequate systemic therapy and local treatment for SU; after a standard skin ulcer bed preparation with debridement of all lesions, EmoLED ® was performed. All patients were locally treated every week during 2 months of follow-up; SU data were collected after 4 weeks (T4) and 8 weeks (T8). Eight SSc patients with comparable SU were also evaluated as controls. Results The application of EmoLED ® in addition to debridement apparently produced faster healing of SU. Complete healing of SU was recorded in 41.6% cases during EmoLED ® treatment. Significant improvements in SU area, length, and width, wound bed, and related pain were observed in EmoLED ® patients from T0 to T8. Control subjects treated with standard systemic/local therapies merely showed an amelioration of SU area and width at the end of the follow-up. No procedural or post-procedural adverse events were reported. Conclusions The positive clinical results and the absence of side effects suggest that EmoLED ® could be a promising tool in the management of SSc-SU, with an interesting role to play in the healing process in addition to conventional systemic and local treatments.

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“…Considerable research showed that phototherapy based on blue light has produced beneficial consequences such as treatment of neonatal jaundice ( 123 – 125 ), regulation of melatonin and circadian rhythm ( 126 – 128 ), anti-inflammation ( 129 – 131 ), immunomodulation ( 132 ), wound healing ( 133 – 135 ), tissue regeneration, and anticancer therapies ( 103 , 114 , 133 , 136 ). Furthermore, blue light reduced the follicular colonization of Propionibacterium acnes by activating the endogenous bacterial porphyrin and inhibiting acne development, while possibly interfering with lipogenesis in adipocytes and suppressing sebum formation for acne treatment ( 137 ).…”

Section: Blue Light Photobiomodulation Therapy In Cancer Treatmentmentioning

confidence: 99%

Progress of phototherapy for osteosarcoma and application prospect of blue light photobiomodulation therapy

Yang

Jiang

et al. 2022

Front. Oncol.

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Osteosarcoma (OS) is the most common primary malignant bone tumor that mainly affects the pediatric and adolescent population; limb salvage treatment has become one of the most concerned and expected outcomes of OS patients recently. Phototherapy (PT), as a novel, non-invasive, and efficient antitumor therapeutic approach including photodynamic therapy (PDT), photothermal therapy (PTT), and photobiomodulation therapy (PBMT), has been widely applied in superficial skin tumor research and clinical treatment. OS is the typical deep tumor, and its phototherapy research faces great limitations and challenges. Surprisingly, pulse mode LED light can effectively improve tissue penetration and reduce skin damage caused by high light intensity and has great application potential in deep tumor research. In this review, we discussed the research progress and related molecular mechanisms of phototherapy in the treatment of OS, mainly summarized the status quo of blue light PBMT in the scientific research and clinical applications of tumor treatment, and outlooked the application prospect of pulsed blue LED light in the treatment of OS, so as to further improve clinical survival rate and prognosis of OS treatment and explore corresponding cellular mechanisms.

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Photobiomodulation of Human Fibroblasts and Keratinocytes with Blue Light: Implications in Wound Healing

Cited by 28 publications

References 35 publications

Blue-LED-Light Photobiomodulation of Inflammatory Responses and New Tissue Formation in Mouse-Skin Wounds

Blue-LED-Light Photobiomodulation of Inflammatory Responses and New Tissue Formation in Mouse-Skin Wounds

Photobiomodulation Therapy: A New Light in the Treatment of Systemic Sclerosis Skin Ulcers

Progress of phototherapy for osteosarcoma and application prospect of blue light photobiomodulation therapy

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