Fractional Laser Photothermolysis Research 
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CONCLUSIONS: There is insufficient evidence to support or refute the effectiveness of laser therapy for treating hypertrophic and keloid scars. The available information is also insufficient to perform a more accurate analysis on treatment-related adverse effects related to laser therapy. Due to the heterogeneity of the studies, conflicting results, study design issues and small sample sizes, further high-quality trials, with validated scales and core outcome sets should be developed. These trials should take into consideration the consumers' opinion and values, the need for long-term follow-up and the necessity of reporti...
Source: Cochrane Database of Systematic Reviews - September 26, 2022 Category: General Medicine Authors: Rafael Leszczynski Carolina Ap da Silva Ana Carolina Pereira Nunes Pinto Uliana Kuczynski Edina Mk da Silva Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
Synergistic Sequential Emission of Fractional 10.600 and 1540 nm Lasers for Skin Resurfacing: An Ex Vivo Histological Evaluation
Conclusions: This study provides important preclinical data for new and early uses of the novel 10.600/1540 nm dual-wavelength non-ablative fractional laser. The synergy of the two wavelengths enhanced all the benefits already available when using CO2 laser systems both in terms of tone strengthening, thanks to a greater shrinking effect, and in terms of stimulation and collagen remodeling thanks to a greater volumetric thermal effect.PMID:36143985 | PMC:PMC9502429 | DOI:10.3390/medicina58091308 (Source: Medicina (Kaunas))
Source: Medicina (Kaunas) - September 23, 2022 Category: Universities & Medical Training Authors: Steven Paul Nistic ò Luigi Bennardo Tiziano Zingoni Laura Pieri Irene Fusco Francesca Rossi Giada Magni Giovanni Cannarozzo Source Type: research
