Healing of Diabetic Ulcers Using Photobiomodulation

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References

International Year of Light 2015. Available at: http://www.light2015.org/Home.html (Last accessed January 23, 2015 ).

International Diabetes Federation 2014. Available at: http://www.idf.org/about-diabetes (Last accessed January 26, 2015 ).

International Diabetes Federation. IDF Diabetes atlas, 6th ed. 2013. Available at: www.idf.org/diabetesatlas (Last accessed November 25, 2013 ).

Dorresteijn

JAN

, Kriegsman

DMW

, Valk

. Complex interventions for preventing diabetic foot ulceration. Cochrane Database Syst Rev, 2010; 1:CD007610.

Page

. Critiquing clinical research of new technologies for diabetic foot wound management. J Foot Ankle Surg, 2002; 41:251–259.

Nabuurs–Franssen

, Huijberts

, NieuwenhuijzenKruseman

, Willems

, Schaper

. Health-related quality of life of diabetic foot ulcer patients and their caregivers. Diabetologia, 2005; 48:1905–1910.

Al–Watban

FAH

. Laser therapy converts diabetic wound healing to normal healing. Photomed Laser Surg, 2009; 27:127–135.

Aparecida Da Silva

, Leal–Junior

, Alves

, et al. Wound-healing effects of low-level laser therapy in diabetic rats involve the modulation of MMP-2 and MMP-9 and the reduction of collagen types I and III. J Cosmet Laser Ther, 2013; 15:210–216.

Firat

, Dağ

, Gűnay

, et al. The effects of low-level laser therapy on palatal mucoperiosteal wound healing and oxidative stress status in experimental diabetic rats. Photomed Laser Surg, 2013; 31:315–321.

10.

França

, de Loura Santana

, Takahashi

, et al. Effect of laser therapy on skeletal muscle repair process in diabetic rats. Lasers Med Sci, 2013; 28:1331–1338.

11.

Chung

, Peplow

, Baxter

. Laser photobiostimulation of wound healing: defining a dose response for splinted wounds in diabetic mice. Lasers Surg Med, 2010; 42:656–664.

12.

Peplow

, Chung

, Baxter

. Laser photostimulation (660 nm) of wound healing in diabetic mice is not brought about by ameliorating diabetes. Lasers Surg Med, 2012; 44:26–29.

13.

Schindl

, Schindl

, Pernerstorfer–Schon

, Kerschan

, Knobler

, Schindl

. Diabetic neuropatic foot ulcer: successful treatment by low-intensity laser therapy. Dermatology, 1999; 198:314–316.

14.

Minatel

, Frade

, Franca

, Enwemeka

. Phototherapy promotes healing of chronic diabetic leg ulcers that failed to respond to other therapies. Lasers Surg Med, 2009; 41:433–441.

15.

Kaviani

, Djavid

, Ataie–Fashtami

, et al. Randomized clinical trial on the effect of low-level laser therapy on chronic diabetic foot wound healing: a preliminary report. Photomed Laser Surg, 2011; 29:109–114.

16.

Kilík

, Lakyová

, Sabo

, et al. Effect of equal daily doses achieved by different power densities of low-level laser therapy at 635nm on open skin wound healing in normal and diabetic rats. BioMed Res Int, 2014; 2014:269253.

17.

Caetano

, Frade

MAC

, Minatel

, Santana

, Enwemeka

. Phototherapy improves healing of chronic venous ulcers. Photomed Laser Surg, 2009; 27:111–118.

18.

Kajagar

, Goghi

, Pandit

, Khatri

. Efficacy of low level laser therapy on wound healing in patients with chronic diabetic foot ulcers – a randomized control trial. Indian J Surg, 2012; 74:359–363.

19.

Ayuk

, Houreld

, Abrahamse

. Collagen production in diabetic wounded fibroblasts in response to lowintensity laser irradiation at 660 nm. Diabetes Technol Ther, 2012; 14:1110–1117.

20.

Sekhejane

, Houreld

, Abrahamse

. Irradiation at 636 nm positively affects diabetic wounded and hypoxic cells in vitro. Photomed Laser Surg, 2011; 29:521–530.

21.

Houreld

, Abrahamse

. In vitro exposure of wounded diabetic fibroblast cells to a helium-neon laser at 5 and 16 J/cm² . Photomed Laser Surg, 2007; 25:78–84.

22.

Zungu

, Hawkins Evans

, Houreld

, Abrahamse

. Biological responses of injured human skin fibroblasts to assess the efficacy of in vitro models for cell stress studies. African J Biochem Res, 2007; 1:60–71.

23.

Esmaeelinejad

, Bayat

, Darbandi

, Bayat

, Mosaffa

. The effects of low-level laser irradiation on cellular viability and proliferation of human skin fibroblasts cultured in high glucose mediums. Lasers Med Sci, 2014; 29:121–129.

24.

Houreld

, Abrahamse

. Irradiation with a 632.8nm helium-neon laser with 5 J/cm² stimulates proliferation and expression of interleukin-6 in diabetic wounded fibroblast cells. Diabetes Technol Ther, 2007; 9:451–459.

25.

Vinck

, Cagnie

, Cornelissen

, Declercq

, Cambier

. Green light emitting diode irradiation enhances fibroblast growth impaired by high glucose level. Photomed Laser Surg, 2005; 23:167–171.

26.

Houreld

, Masha

, Abrahamse

. Low-intensity laser irradiation at 660 nm stimulates cytochrome c oxidase in stressed fibroblast cells. Lasers Surg Medi, 2012; 44:429–434.

27.

Houreld

, Sekhejane

, Abrahamse

. Irradiation at 830 nm stimulates nitric oxide production and inhibits proinflammatory cytokines in diabetic wounded fibroblast cells. Lasers Surg Med, 2010; 42:494–502.