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primary human gingival keratinocytes phgks  (ATCC)


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    ATCC primary human gingival keratinocytes phgks
    Influence of blue (457 nm, A-D) and violet (418 nm, E-F) light upon the metabolic activity and cytotoxicity of pHGFs (A, C and E, respectively) and <t>pHGKs</t> (B, D and F, respectively). Cells were irradiated with different fluences of blue and violet light. At 24 h post-treatment, the metabolic activity of the cells was assessed using AlamarBlue™. Metabolic activity was expressed as a percentage change compared to untreated controls; where the untreated controls were normalised to 100%, represented by the dashed line. LDH release, a marker of cytotoxicity, was also assessed 24 h post-treatment and cytotoxicity calculated as the percentage change in LDH levels compared to untreated controls, normalised to 0%. N = 3, mean ± SD (*p < 0.05, **p < 0.01, ****p < 0.0001)
    Primary Human Gingival Keratinocytes Phgks, supplied by ATCC, used in various techniques. Bioz Stars score: 96/100, based on 160 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 96 stars, based on 160 article reviews
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    1) Product Images from "Contrasting biological responses of gingival fibroblasts and keratinocyte to blue and violet light irradiation: implications for photobiomodulation use in the therapeutic management of periodontal disease"

    Article Title: Contrasting biological responses of gingival fibroblasts and keratinocyte to blue and violet light irradiation: implications for photobiomodulation use in the therapeutic management of periodontal disease

    Journal: Lasers in Medical Science

    doi: 10.1007/s10103-026-04817-4

    Influence of blue (457 nm, A-D) and violet (418 nm, E-F) light upon the metabolic activity and cytotoxicity of pHGFs (A, C and E, respectively) and pHGKs (B, D and F, respectively). Cells were irradiated with different fluences of blue and violet light. At 24 h post-treatment, the metabolic activity of the cells was assessed using AlamarBlue™. Metabolic activity was expressed as a percentage change compared to untreated controls; where the untreated controls were normalised to 100%, represented by the dashed line. LDH release, a marker of cytotoxicity, was also assessed 24 h post-treatment and cytotoxicity calculated as the percentage change in LDH levels compared to untreated controls, normalised to 0%. N = 3, mean ± SD (*p < 0.05, **p < 0.01, ****p < 0.0001)
    Figure Legend Snippet: Influence of blue (457 nm, A-D) and violet (418 nm, E-F) light upon the metabolic activity and cytotoxicity of pHGFs (A, C and E, respectively) and pHGKs (B, D and F, respectively). Cells were irradiated with different fluences of blue and violet light. At 24 h post-treatment, the metabolic activity of the cells was assessed using AlamarBlue™. Metabolic activity was expressed as a percentage change compared to untreated controls; where the untreated controls were normalised to 100%, represented by the dashed line. LDH release, a marker of cytotoxicity, was also assessed 24 h post-treatment and cytotoxicity calculated as the percentage change in LDH levels compared to untreated controls, normalised to 0%. N = 3, mean ± SD (*p < 0.05, **p < 0.01, ****p < 0.0001)

    Techniques Used: Activity Assay, Irradiation, Marker

    Assessment of ROS generation following the blue light (457 nm) treatment of pHGFs ( A ) and pHGKs ( B ). ROS levels were determined immediately following blue light treatment and the oxidation of added H 2 DCFDA resulting in the emittance of a green, fluorescent signal. ROS generation is reported as a value proportional to relative fluorescence units (RFU). N = 3, mean ± SD (*p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001)
    Figure Legend Snippet: Assessment of ROS generation following the blue light (457 nm) treatment of pHGFs ( A ) and pHGKs ( B ). ROS levels were determined immediately following blue light treatment and the oxidation of added H 2 DCFDA resulting in the emittance of a green, fluorescent signal. ROS generation is reported as a value proportional to relative fluorescence units (RFU). N = 3, mean ± SD (*p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001)

    Techniques Used: Fluorescence

    Heatmaps depicting the fold changes in the gene expression of specific antioxidants (defined in Table ), proposed to be upregulated through ROS generation and measured at 6 h ( A , C ) and 24 h ( B , D ) in pHGFs and pHGKs, respectively. Relative gene expression is displayed as colours ranging from black to yellow, according to the scale, where the highest fold change is shown in yellow. Expression of target genes in untreated samples is represented by 1 on the colour scale (N = 3)
    Figure Legend Snippet: Heatmaps depicting the fold changes in the gene expression of specific antioxidants (defined in Table ), proposed to be upregulated through ROS generation and measured at 6 h ( A , C ) and 24 h ( B , D ) in pHGFs and pHGKs, respectively. Relative gene expression is displayed as colours ranging from black to yellow, according to the scale, where the highest fold change is shown in yellow. Expression of target genes in untreated samples is represented by 1 on the colour scale (N = 3)

    Techniques Used: Gene Expression, Expressing



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    Influence of blue (457 nm, A-D) and violet (418 nm, E-F) light upon the metabolic activity and cytotoxicity of pHGFs (A, C and E, respectively) and pHGKs (B, D and F, respectively). Cells were irradiated with different fluences of blue and violet light. At 24 h post-treatment, the metabolic activity of the cells was assessed using AlamarBlue™. Metabolic activity was expressed as a percentage change compared to untreated controls; where the untreated controls were normalised to 100%, represented by the dashed line. LDH release, a marker of cytotoxicity, was also assessed 24 h post-treatment and cytotoxicity calculated as the percentage change in LDH levels compared to untreated controls, normalised to 0%. N = 3, mean ± SD (*p < 0.05, **p < 0.01, ****p < 0.0001)

    Journal: Lasers in Medical Science

    Article Title: Contrasting biological responses of gingival fibroblasts and keratinocyte to blue and violet light irradiation: implications for photobiomodulation use in the therapeutic management of periodontal disease

    doi: 10.1007/s10103-026-04817-4

    Figure Lengend Snippet: Influence of blue (457 nm, A-D) and violet (418 nm, E-F) light upon the metabolic activity and cytotoxicity of pHGFs (A, C and E, respectively) and pHGKs (B, D and F, respectively). Cells were irradiated with different fluences of blue and violet light. At 24 h post-treatment, the metabolic activity of the cells was assessed using AlamarBlue™. Metabolic activity was expressed as a percentage change compared to untreated controls; where the untreated controls were normalised to 100%, represented by the dashed line. LDH release, a marker of cytotoxicity, was also assessed 24 h post-treatment and cytotoxicity calculated as the percentage change in LDH levels compared to untreated controls, normalised to 0%. N = 3, mean ± SD (*p < 0.05, **p < 0.01, ****p < 0.0001)

    Article Snippet: Primary human gingival fibroblasts (pHGFs) and primary human gingival keratinocytes (pHGKs) were sourced from ATCC/LGC Standards (Manassas, Virginia, USA). pHGF cells (healthy 60-year-old Caucasian female donor) were maintained in Dulbecco’s Modified Eagle Medium (DMEM), 10% foetal calf serum (FCS, ThermoFisher Scientific, Paisley, UK), 100 units/mL penicillin G sodium, 0.1 μg/mL streptomycin sulphate and 0.25 μg/mL amphotericin (ThermoFisher Scientific). pHGKs (healthy 65-year-old Caucasian male donor) and were maintained in Dermal Cell Basal Medium (DCBM, ATCC), supplemented with a Keratinocyte Growth Kit (ATCC).

    Techniques: Activity Assay, Irradiation, Marker

    Assessment of ROS generation following the blue light (457 nm) treatment of pHGFs ( A ) and pHGKs ( B ). ROS levels were determined immediately following blue light treatment and the oxidation of added H 2 DCFDA resulting in the emittance of a green, fluorescent signal. ROS generation is reported as a value proportional to relative fluorescence units (RFU). N = 3, mean ± SD (*p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001)

    Journal: Lasers in Medical Science

    Article Title: Contrasting biological responses of gingival fibroblasts and keratinocyte to blue and violet light irradiation: implications for photobiomodulation use in the therapeutic management of periodontal disease

    doi: 10.1007/s10103-026-04817-4

    Figure Lengend Snippet: Assessment of ROS generation following the blue light (457 nm) treatment of pHGFs ( A ) and pHGKs ( B ). ROS levels were determined immediately following blue light treatment and the oxidation of added H 2 DCFDA resulting in the emittance of a green, fluorescent signal. ROS generation is reported as a value proportional to relative fluorescence units (RFU). N = 3, mean ± SD (*p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001)

    Article Snippet: Primary human gingival fibroblasts (pHGFs) and primary human gingival keratinocytes (pHGKs) were sourced from ATCC/LGC Standards (Manassas, Virginia, USA). pHGF cells (healthy 60-year-old Caucasian female donor) were maintained in Dulbecco’s Modified Eagle Medium (DMEM), 10% foetal calf serum (FCS, ThermoFisher Scientific, Paisley, UK), 100 units/mL penicillin G sodium, 0.1 μg/mL streptomycin sulphate and 0.25 μg/mL amphotericin (ThermoFisher Scientific). pHGKs (healthy 65-year-old Caucasian male donor) and were maintained in Dermal Cell Basal Medium (DCBM, ATCC), supplemented with a Keratinocyte Growth Kit (ATCC).

    Techniques: Fluorescence

    Heatmaps depicting the fold changes in the gene expression of specific antioxidants (defined in Table ), proposed to be upregulated through ROS generation and measured at 6 h ( A , C ) and 24 h ( B , D ) in pHGFs and pHGKs, respectively. Relative gene expression is displayed as colours ranging from black to yellow, according to the scale, where the highest fold change is shown in yellow. Expression of target genes in untreated samples is represented by 1 on the colour scale (N = 3)

    Journal: Lasers in Medical Science

    Article Title: Contrasting biological responses of gingival fibroblasts and keratinocyte to blue and violet light irradiation: implications for photobiomodulation use in the therapeutic management of periodontal disease

    doi: 10.1007/s10103-026-04817-4

    Figure Lengend Snippet: Heatmaps depicting the fold changes in the gene expression of specific antioxidants (defined in Table ), proposed to be upregulated through ROS generation and measured at 6 h ( A , C ) and 24 h ( B , D ) in pHGFs and pHGKs, respectively. Relative gene expression is displayed as colours ranging from black to yellow, according to the scale, where the highest fold change is shown in yellow. Expression of target genes in untreated samples is represented by 1 on the colour scale (N = 3)

    Article Snippet: Primary human gingival fibroblasts (pHGFs) and primary human gingival keratinocytes (pHGKs) were sourced from ATCC/LGC Standards (Manassas, Virginia, USA). pHGF cells (healthy 60-year-old Caucasian female donor) were maintained in Dulbecco’s Modified Eagle Medium (DMEM), 10% foetal calf serum (FCS, ThermoFisher Scientific, Paisley, UK), 100 units/mL penicillin G sodium, 0.1 μg/mL streptomycin sulphate and 0.25 μg/mL amphotericin (ThermoFisher Scientific). pHGKs (healthy 65-year-old Caucasian male donor) and were maintained in Dermal Cell Basal Medium (DCBM, ATCC), supplemented with a Keratinocyte Growth Kit (ATCC).

    Techniques: Gene Expression, Expressing