Inducing stem cell differentiation using low intensity laser irradiation: a possible novel therapeutic intervention

Abrahamse, Heidi

doi:10.2478/s11535-011-0068-y

Cited by 8 publications

(5 citation statements)

References 23 publications

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“…33 Biphasic dose and wavelength-related cellular response to LILI treatment LILI, also known as photobiomodulation, is a non-thermal and non-toxic phototherapy that uses coherent monochromatic low-intensity light, usually corresponding to the visible red (400-720 nm) and the near-infrared (NIR; 700-1000 nm) range of the light spectrum to induce photobiological processes at the cellular level. 34 The clinical use of LILI has so far shown no side effects in patients, making it a promising therapeutic approach in a wide range of clinical applications. 8 In the past decades, the medical application of LILI has been focused on its non-invasive biostimulatory effect.…”

Section: Cscsmentioning

confidence: 99%

Photobiomodulation of breast and cervical cancer stem cells using low-intensity laser irradiation

Abrahamse

2017

Tumour Biol.

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Breast and cervical cancers are dangerous threats with regard to the health of women. The two malignancies have reached the highest record in terms of cancer-related deaths among women worldwide. Despite the use of novel strategies with the aim to treat and cure advanced stages of cancer, post-therapeutic relapse believed to be caused by cancer stem cells is one of the challenges encountered during tumor therapy. Therefore, further attention should be paid to cancer stem cells when developing novel anti-tumor therapeutic approaches. Low-intensity laser irradiation is a form of phototherapy making use of visible light in the wavelength range of 630–905 nm. Low-intensity laser irradiation has shown remarkable results in a wide range of medical applications due to its biphasic dose and wavelength effect at a cellular level. Overall, this article focuses on the cellular responses of healthy and cancer cells after treatment with low-intensity laser irradiation alone or in combination with a photosensitizer as photodynamic therapy and the influence that various wavelengths and fluencies could have on the therapeutic outcome. Attention will be paid to the biomodulative effect of low-intensity laser irradiation on cancer stem cells.

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Section: Cscsmentioning

confidence: 99%

Photobiomodulation of breast and cervical cancer stem cells using low-intensity laser irradiation

Abrahamse

2017

Tumour Biol.

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“…Moreover, a research study reported that intra‐articular injection of ADSCs and laser irradiation prevented knee joint degeneration with induced osteoarthritis [14]. Application of photobiomodulation on the bone marrow to stimulate patient's stem cells and to induce regeneration of damaged tissue is one of the most recent approaches [15,16]. Another study used a 660 nm diode laser on damaged skeletal muscle in rats, reported positive effects and an increase in the muscle regeneration process itself [17].…”

Section: Introductionmentioning

confidence: 99%

Laser‐Induced Differentiation of Human Adipose‐Derived Stem Cells to Temporomandibular Joint Disc Cells

2020

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Background and Objectives Temporomandibular disorder (TMD) is an incapacitating disease with temporomandibular joint (TMJ) disc degenerative changes in patients. Despite several research attempts to find a definitive treatment, there is no evidence of a permanent solution. The objective of the current study was to observe the role of 660 nm diode laser in the differentiation of human adipose‐derived stem cells (ADSCs) to fibroblasts and chondrocytes. Study Design/Materials and Methods After irradiation, the morphology, viability, and adenosine triphosphate (ATP) proliferation of the ADSCs were analyzed at different time intervals. The differentiation of ADSCs toward fibroblastic and chondrogenic phenotypes was supported using flow cytometry and immunofluorescence at 1‐ and 2‐week post‐irradiation. Results More than 90% of viable cells were observed in all experimental groups, with an increase in ATP proliferation. Flow cytometry analyses and immunofluorescence demonstrated the presence of chondrogenic and fibroblastic cell surface markers at 1‐ and 2‐week post‐irradiation. Conclusion This study has demonstrated methods to induce the differentiation of ADSCs toward fibroblastic and chondrogenic phenotypes with a 660 nm diode laser. The study also proposes a future alternative method of treatment for patients with degenerative TMJ disc disorders and presents a positive prospect in the application of photobiomodulation and ADSCs in the treatment of degenerative TMJ disc. Lasers Surg. Med. © 2020 Wiley Periodicals LLC

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“…Generally, the hypothesis supporting the possible curative effect of laser treatment has also been questioned. However, the beneficial effects of LILI using specific light parameters in the treatment of cancer and other medical conditions have been revealed [17]. The use of LILI alone with the aim to eradicate cancer cells has still not yield convincing results.…”

Section: Resultsmentioning

confidence: 99%

“…These photobiological responses to LILI don't induce any significate elevation in temperature and highly depends on factors such as the intensity and wavelength of light applied, and the type of cell. Hence, LILI can be defined as a non-thermal photo-biomodulation technique using optical waves that usually correspond to the visible red or near-infrared (NIR) light and low fluencies to induce photobiological process at the cellular level [17,18].…”

Section: Introductionmentioning

confidence: 99%

The Effect of Low Intensity Laser Irradiation on Breast Cancer Cells and Breast Cancer Stem Cells

Abrahamse¹

2019

SRDT

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The mechanism by which tumor proliferation, invasiveness and recurrence are sustained in malignant cancer has not been fully elucidated. Taking into account the findings of previous researches, one have strong reasons to believe that it might result from a small population of cells referred to as Cancer Stem Cells (CSCs). This study aimed to investigate and compare the photobiomodulative effect of Low Intensity Laser Irradiation (LILI) treatment on Breast Cancer Stem Cells (BCSCs) and Breast Cancer Cells (BCCs). BCSCs were isolated from the MCF-7 cell line based on their CD44+ phenotype using magnetic-activated cell sorting. CD44 antigen was detected in BCSCs using fluorescent microscopy. Cellular response to the treatment was evaluated based on their viability, proliferation and toxicity. Positive detection of CD44 confirmed the stemness of isolated BCSCs. Treated BCCs and BCSCs showed an increase in their proliferation and viability after being exposed to 5-40 J/cm2 using wavelengths of 636, 825 and 1060 nm. Membrane integrity assay revealed a decrease in cytotoxicity in both BCCs and BCSCs after treatment with low fluences of LILI. This study revealed that LILI did not have a bioinhibitory effect on both cell types.

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Inducing stem cell differentiation using low intensity laser irradiation: a possible novel therapeutic intervention

Cited by 8 publications

References 23 publications

Photobiomodulation of breast and cervical cancer stem cells using low-intensity laser irradiation

Photobiomodulation of breast and cervical cancer stem cells using low-intensity laser irradiation

Laser‐Induced Differentiation of Human Adipose‐Derived Stem Cells to Temporomandibular Joint Disc Cells

The Effect of Low Intensity Laser Irradiation on Breast Cancer Cells and Breast Cancer Stem Cells

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