Your search keyword '"RED light"' showing total 5,566 results

1. Enhanced luminescence encryption via Mn4+ activation with organic acid surface modification.

Author

Yu, Yan, Zhang, Yiqing, Li, Yongshuai, Xie, Wenjing, Wang, Yuhang, Gao, Xianwu, Yu, Tong, Wang, Tiantian, Chang, Guangtao, and Li, Ruoxin

Subjects

*RED light, *INFORMATION technology security, *EDITING software, *POLYVINYL alcohol, *ORGANIC acids

Abstract

Mn4+-activated luminescent materials exhibit high color purity red light emission, but their limited water resistance hinders practical applications. In this study, citric and oxalic acids are innovatively employed for surface modification, resulting in luminescent materials with enhanced water resistance while preserving their luminescent intensity. This enhancement provides a prerequisite for their application in anti-counterfeiting films and aqueous fluorescent inks. Furthermore, the potential for optical information storage is successfully demonstrated by utilizing the photochromic fluorescent properties of polyvinyl alcohol films deposited on oxalic acid-modified K 2 SiF 6 :Mn4+. Exploiting the 3 ms day time difference between equivalently and non-equivalently doped Mn4+ fluoride, a millisecond information encryption mode is proposed by combining oxalic acid-modified K 2 SiF 6 :Mn4+ (long decay time, τ = 8.99 ms) and K 3 AlF 6 :Mn4+ (short decay time, τ = 5.31 ms). This mode can be effectively decoded using digital cameras and editing software, achieving high-level anti-counterfeiting capabilities. This work advances the application of highly efficient Mn4+-activated red phosphors in the realm of information security. [ABSTRACT FROM AUTHOR]

Published

2024

2. Illuminating stomatal responses to red light: establishing the role of Ci-dependent versus -independent mechanisms in control of stomatal behaviour.

Author

Taylor, Georgia, Walter, Julia, and Kromdijk, Johannes

Abstract

The stomatal response to red light appears to link stomatal conductance (g s) with photosynthetic rates. Initially, it was suggested that changes in intercellular CO2 concentration (C i) provide the main cue via a C i - dependent response. However, evidence for C i-independent mechanisms suggests an additional, more direct relationship with photosynthesis. While both C i-dependent and -independent mechanisms clearly function in stomatal red light responses, little is known regarding their relative contribution. The present study aimed to quantify the relative magnitude of C i-dependent and -independent mechanisms on the stomatal red light response, to characterize their interplay and to assess the putative link between plastoquinone redox state and C i-independent stomatal responses. Red light response curves measured at a range of C i values for wild-type Arabidopsis (Col-0) and the CO2 hyposensitive mutant ca1ca4 allowed deconvolution of C i-dependent and -independent pathways. Surprisingly, we observed that both mechanisms contribute equally to stomatal red light responses, but C i-independent stomatal opening is suppressed at high C i. The present data are also consistent with the involvement of the plastoquinone redox state in coordinating the C i - independent component. Overall, it seems that while C i-independent mechanisms are distinct from responses to C i, interplay between these two pathways is important to facilitate effective coordination between g s and photosynthesis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Thermal enhanced upconversion luminescent of Sc2W3O12:Yb3+/Er3+ for optical temperature measurement.

Author

Wu, Yuxiang, Duan, Bin, Yao, Jiancheng, Ding, Changchun, Fan, Rangrang, Wang, Fengyi, Liu, Tong, Jin, Wei, and Hu, Junshan

Subjects

*ENERGY levels (Quantum mechanics), *GREEN light, *RED light, *OPTICAL measurements, *LIGHT absorption, *PHOTON upconversion

Abstract

In recent years, people have higher requirements for temperature measurement with the development of optical temperature measurement. Meanwhile, the emission intensity of most fluorescent materials is quenched by thermal effects as the temperature rises, making it challenging to meet the specifications of fluorescent materials employed in the field of pyrometry. In this work, the pure phase of Yb3+/Er3+ ions co-doped Sc 2 W 3 O 12 phosphor was successfully prepared. Sc 2 W 3 O 12 : Yb3+, Er3+ samples showed strong green emission and weak red emission. The optimal doping concentrations of Yb3+ and Er3+ ions are 0.3 and 0.02, respectively. The potential upconversion luminescence (UCL) mechanism was investigated by analyzing the UCL spectra, downshift emission spectra and power dependence spectra of Yb3+/Er3+ ions co-doped Sc 2 W 3 O 12. The upconversion emission excitation path is mainly through Er3+ ions from 4I 11/2 absorption photon excitation to 4F 7/2 energy level, then the photons of 4F 7/2 relaxes to green and red emission energy levels and returns to ground state for emitting green and red light. In addition, according to the UCL green light intensity increasing with temperature, it serves as an optical temperature sensor. The temperature sensitivity of the sample was explored in the temperature range of 298 K–673 K. This study provides new materials and ideas for non-contact temperature sensing. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Methylene Blue/Sodium Sulfinate Photo‐Initiating System for the Red‐Light Emulsion Photopolymerization of Methyl Methacrylate.

Author

Kalout, Hanine, Lansalot, Muriel, Bourgeat‐Lami, Elodie, Morlet‐Savary, Fabrice, Lacôte, Emmanuel, and Lalevée, Jacques

Subjects

*METHYL methacrylate, *POLYMERIZATION kinetics, *METHYLENE blue, *MIE scattering, *PHOTOPOLYMERIZATION

Abstract

The emulsion photopolymerization of methyl methacrylate (MMA) using red light is reported. The synthesis of poly(methyl methacrylate) (PMMA) latexes is initiated by irradiation of a new, very efficient red‐absorbing methylene blue (MB)/sodium para‐toluenesulfinate (NapTS) system in the red region (660 nm). Visible, and especially red light penetrates the dispersed medium imposed by the emulsion process better than ultra‐violet photons (UVs). However, emulsion photopolymerizations require the development of fully water‐soluble initiating systems activable by red light, which is still hugely challenging because red photons are much less energetic, therefore generally lead to less efficient photochemical processes. The influence of the surfactant concentration and the solids content is examined over particle sizes and polymerization kinetics. The polymerizations work for solids contents between 10 and 25 wt%, with narrowly distributed particles of average sizes ranging from 40 to 65 nm. Calculations of Mie scattering support the observation that at a given wavelength the larger the particles the lower the penetration. All latexes obtained are slightly blue, which are traced to the regeneration of MB when the latexes are exposed to dioxygen. The dye regeneration enables the reactivation of the photopolymerization process. [ABSTRACT FROM AUTHOR]

Published

2024

5. Myopia control strategies: A systematic review and meta‐meta‐analysis.

Author

Zaabaar, Ebenezer, Asiamah, Randy, Kyei, Samuel, and Ankamah, Samuel

Subjects

*RED light, *SOFT contact lenses, *PHOTOTHERAPY, *ATROPINE, *MYOPIA

Abstract

Purpose Method Results Conclusion To summarise pooled estimates of the efficacies of various myopia control interventions, as drawn from published meta‐analyses.PubMed, SCOPUS and Web of Science were searched from inception to February 2024 for systematic reviews and meta‐analyses reporting treatment effects of various myopia control strategies. The qualities of the included meta‐analyses were assessed using the 16‐item A MeaSurement Tool to Assess systematic Reviews (AMSTAR) 2. An intervention was defined as having a clinically significant effect if it resulted in a change in spherical equivalent refraction (SER) of ≥0.50 D/year or axial length (AL) change of ≤−0.18 mm/year.A total of 38 studies were identified. The overall respective changes in SER and AL, mean difference (95% CI) were high‐concentration (≥0.5%) atropine 0.67 D (0.58–0.77) and −0.24 mm (−0.36 to −0.11); moderate‐concentration (>0.05% to <0.5%) atropine 0.48 D (0.34–0.62) and −0.23 mm (−0.27 to −0.19); low‐concentration (0.01%, 0.025%, 0.05%) atropine 0.33 D (0.23–0.43) and −0.14 mm (−0.19 to −0.09); orthokeratology −0.47 mm (−0.66 to −0.28); peripheral plus soft contact lenses 0.30 D (0.18–0.42) and −0.35 mm (−0.62 to −0.08); peripheral plus spectacles 0.77 D (0.40–1.14) and −0.43 mm (−0.78 to −0.08); multifocal spectacles 0.21 D (0.11–0.31); repeated low‐level red light therapy 0.55 D (0.46–0.65) and −0.25 mm (−0.29 to −0.20); outdoor time 0.17 D (0.16–0.18) and −0.04 mm (−0.06 to −0.01).High and moderate concentrations of atropine, orthokeratology, peripheral plus spectacles and repeated low‐level red light demonstrated clinically significant effects on slowing AL elongation, while high and moderate concentrations of atropine, peripheral plus spectacles and repeated low‐level red light demonstrated clinically significant effects on slowing SER progression. [ABSTRACT FROM AUTHOR]

Published

2024

6. Fabrication of POE/POE‐g‐PHEMA/EuFT light conversion films for photovoltaic modules.

Author

Xu, Mengnan, Zhang, Zhiyuan, Tao, Jiajun, Nai, Yan, Su, Chenglong, and Jiang, Shan

Subjects

RED light, FOURIER transform infrared spectroscopy, SOLAR cell efficiency, FLUORESCENCE spectroscopy, LIGANDS (Chemistry)

Abstract

In this paper, the rare earth europium complex Eu(FTFA)3TPPO2 (EuFT) was synthesized by using europium as the central ion, 4‐trifluoro‐1‐(2‐furanyl)‐1,3‐butanedione (FTFA) as the first ligand, and triphenylphosphine oxide (TPPO) as the second ligand. The structure was characterized by Fourier transform infrared spectroscopy (FTIR), and the photoluminescence process was investigated by UV and fluorescence spectra. The luminescent film was prepared by adding EuFT and the compatibilizer POE‐g‐PHEMA into the POE matrix, which can convert the UV light to the red light, and improve the photovoltaic conversion efficiency while reducing the effect of UV aging on the cell. Experimental results show that the complex can absorb UV light (200–400 nm) and emit red light (612 nm), the luminescent film also maintains good luminescence performance. The peel strength of POE/POE‐g‐PHEMA/EuFT film achieves 23.9 N cm−1，while that of POE film is 12.8 N cm−1. The silicon cell prepared by POE/POE‐g‐PHEMA/EuFT film also showed higher EQE in UV region, and its current density–voltage (J–V) curve revealed that Jsc increased from 33.05 to 34.25 mA/cm2, the conversion efficiency increased from 12.99% to 13.39%, and the relative efficiency increased by 3.08%. The rare earth europium complex effectively improved the photoelectric conversion efficiency of solar cells. [ABSTRACT FROM AUTHOR]

Published

2024

7. Self‐reduction triggered color tuning of Eu3+‐doped aluminosilicate glass for solid‐state white illumination.

Author

Chen, Hang, Zhou, Chunming, Chen, Xu, Min, Chang, Lin, Shenghui, Li, Yanbin, Zhou, Tianyuan, Kang, Jian, Shi, Chaofan, Shao, Cen, Han, Pengde, Strek, Wieslaw, Chen, Hao, and Zhang, Le

Subjects

*RED light, *COLOR temperature, *THERMAL conductivity, *EPOXY resins, *GLASS melting

Abstract

Rare earth‐doped transparent glass, boasting high transmittance and excellent luminescent properties, holds great potential in the field of all‐inorganic solid‐state white illumination. Currently reported single‐structure solid‐state white lighting usually has the problems of low color rendering index (CRI) and high correlated color temperature (CCT) due to the lacking of red light emission. In this work, a novel single‐structure MgO–Al2O3–SiO2–Eu2O3 (MAS: Eu) glass with color tuning was prepared by the simple glass melting process. Interestingly, the prepared Eu3+‐doped aluminosilicate glass possessed a unique capability to achieve color emission under different excitation wavelengths. The reason for this was attributed to the good self‐reduction capability of the MAS glass, which effectively reduced Eu3+ to Eu2+ under an air atmosphere. Meanwhile, only by regulating the Eu3+ doping concentration, the MAS glass also achieved a tunable emission from blue to white to red light under 380 nm excitation. The acquisition of white light was realized through the multispectral emission of blue–green light emitted by Eu2+ and orange–red light emitted by Eu3+. Remarkably, the single‐structure MAS glass doped with 8 wt.% Eu3+ successfully achieved high‐quality white light and high thermal stability, exhibiting a high CRI of 86, a low CCT of 2761 K, good chromaticity parameters of (0.407 and 0.3192), and the emission intensity at 423 K remains above 86.35% that of room temperature. Meanwhile, the doped Eu3+ exceeded 12 wt.%, without any observable concentration quenching. Moreover, the MAS: Eu glass showed a high transmittance of 90 and a moderate thermal conductivity of 1.45 W/mK (epoxy resin ∼0.17 W/mK). These results would dramatically inspire the development of high‐quality solid‐state white lighting applications. [ABSTRACT FROM AUTHOR]

Published

2024

8. Red-light photons on skin cells and the mechanism of photobiomodulation.

Author

Herrera, Manuel Alejandro, Ribas, Arthur Pereira, da Costa, Paulo Eduardo, and Baptista, Mauricio S.

Subjects

RED light, SUNSHINE, NITRIC oxide regulation, VISIBLE spectra, EXCITED states

Abstract

Red light (600–700 nm, ∼2.1–1.8 eV) consists of a low-energy radiation with a high capacity to penetrate the skin and to induce stimulatory effects. These characteristics make this wavelength range very promising for light-based therapies. Aiming to discuss the mechanisms of action of photobiomodulation, we start by providing a broad perspective of the skin and of its interaction with light, focusing on the endogenous photosensitizers, on the formation of excited states and reactive oxidants, and on the activation of signaling effectors. The peculiar aspect of the photons in the red spectral range is that they are much less absorbed by the endogenous photosensitizers and consequently generate a lot fewer reactive oxidants (when compared with the other ranges of visible light), allowing the skin to mainly experience the consequences of several signaling pathways that are activated during the skin interaction with red-light photons. Indeed, the effects of red light in epithelial cells involve the control of metabolic responses, the modulation of several key genes and transcriptions factors, as well as the regulation of the intracellular nitric oxide stocks. In this article, we discuss how red light interacts with all these variables and end up causing a vigorous tissue activation. We also analyzed the effect of red-light photons on the nitric oxide homeostasis, with implications for the phototherapy of psoriasis. It is likely that several of the observations and mechanisms described for the interactions of red-light photons may also be occurring during and after the interaction with other photons with similar energy. [ABSTRACT FROM AUTHOR]

Published

2024

9. Ion‐Dependent Stability of DNA Origami Nanostructures in the Presence of Photo‐Generated Reactive Oxygen Species.

Author

Rabbe, Lukas, Garcia‐Diosa, Jaime Andres, Grundmeier, Guido, and Keller, Adrian

Subjects

*DNA folding, *DNA nanotechnology, *RED light, *REACTIVE oxygen species, *METHYLENE blue

Abstract

DNA origami nanostructures are promising carries for drug delivery applications. However, their limited stability under relevant conditions often presents a challenge. Herein, the structural stability of DNA origami nanostructures is investigated in a setting compatible with their application in photodynamic therapy (PDT). To this end, DNA origami triangles and six‐helix bundles (6HBs) are loaded with the clinically tested photosensitizer methylene blue, which upon irradiation with red light generates reactive oxygen species (ROS) that attack the DNA origami nanostructures. ROS‐induced structural damage is observed to depend on the ionic composition of the surrounding medium and becomes more severe at low ionic strength. Mg2+ ions can efficiently protect the DNA origami nanostructures from ROS‐induced damage and may even heal some of the damage obtained under Mg2+‐free conditions when added after irradiation. Finally, the employed DNA origami 6HBs are more resistant toward ROS‐induced structural damage than the triangles, which is attributed to their markedly different mechanical properties. These results thus provide some fundamental insights into the stabilizing role of DNA origami superstructure that may guide the selection or design of DNA origami nanocarriers with optimized stability for their application in PDT. [ABSTRACT FROM AUTHOR]

Published

2024

10. Effect of low‐level light therapy in individuals with dry eye disease.

Author

Antwi, Antoinette, Schill, Alexander W., Redfern, Rachel, and Ritchey, Eric R.

Subjects

*RED light, *MEIBOMIAN glands, *PHOTOTHERAPY, *DRY eye syndromes, *SYMPTOMS

Abstract

Introduction: Low‐level light therapy (LLLT) or photobiomodulation, the application of red light to the eye, is used for the treatment of dry eye. Limited studies have investigated the efficacy of LLLT as a stand‐alone treatment. The investigation aimed to evaluate the effect of LLLT on signs and symptoms of dry eye. Methods: Participants with mild to moderate dry eye were recruited for this three‐visit study. Visits were 7 (±3) days apart and all participants received 633 nm LLLT (eye‐light®) for 15 min at each visit. Clinical measures including first and average non‐invasive keratograph tear break‐up time (NIKBUT), tear meniscus height (TMH), meibomian gland (MG) loss for upper and lower eyelids, ocular surface disease index (OSDI) score, tear film lipid layer thickness, meibum quality score, Schirmer's test, corneal fluorescein staining and eyelid temperature for external upper (EUL) and external lower (ELL) eyelids were measured from the right eye of participants before and after treatment. Results: Thirty participants (mean [SD] age: 31.1 [9.5] years) completed the study. Treatment with LLLT resulted in significant differences in first and average NIKBUT, TMH, tear film lipid layer thickness, OSDI score, Schirmer's test, meibum quality score and eyelid temperature over time (all p < 0.05). Compared to baseline, TMH, tear film lipid layer thickness and eyelid temperature significantly increased by 0.06 mm (95% CI: 0.01–0.11), 12.9 nm (95% CI: 1.18–24.55), and 7.0°C, respectively, for both EUL (95% CI: 6.17–7.84) and ELL (95% CI: 6.17–7.73). The respective decrease in the OSDI score and Schirmer's test was 10.2 (95% CI: −15.15 to −5.26) and 4.4 mm (95% CI: −7.31 to −1.42; all p < 0.05). There was no significant difference in corneal fluorescein staining and MG loss after LLLT. Conclusion: Low‐level light therapy treatment significantly improved signs and symptoms of dry eye in the early phases of treatment, suggesting its efficacy for dry eye management. [ABSTRACT FROM AUTHOR]

Published

2024

11. A Comprehensive Systematic Review of the Effects of Photobiomodulation Therapy in Different Light Wavelength Ranges (Blue, Green, Red, and Near-Infrared) on Sperm Cell Characteristics in Vitro and in Vivo.

Author

Moradi, Ali, Ghaffari Novin, Marefat, and Bayat, Mohammad

Abstract

Around 7% of the male population in the world are entangle with considerable situation which is known as male infertility. Photobiomodulation therapy (PBMT) is the application of low-level laser radiation, that recently used to increase or promote the various cell functions including, proliferation, differentiation, ATP production, gene expressions, regulation of reactive oxygen spices (ROS), and also boost the tissue healing and reduction of inflammation. This systematic review's main idea is a comprehensive appraisal of the literatures on subjects of PBMT consequences in four light ranges wavelength (blue, green, red, near-infrared (NIR)) on sperm cell characteristics, in vitro and in vivo. In this study, PubMed, Google Scholar, and Scopus databases were used for abstracts and full-text scientific papers published from 2003–2023 that reported the application of PBM on sperm cells. Criteria's for inclusion and exclusion to review were applied. Finally, the studies that matched with our goals were included, classified, and reported in detail. Also, searched studies were subdivided into the effects of four ranges of light irradiation, including the blue light range (400–500 nm), green light range (500–600 nm), red light range (600–780 nm), and NIR light range (780–3000 nm) of laser irradiation on human or animal sperm cells, in situations of in vitro or in vivo. Searches with our keywords results in 137 papers. After primary analysis, some articles were excluded because they were review articles or incomplete and unrelated studies. Finally, we use the 63 articles for this systematic review. Our category tables were based on the light range of irradiation, source of sperm cells (human or animal cells) and being in vitro or in vivo. Six% of publications reported the effects of blue, 10% green, 53% red and 31% NIR, light on sperm cell. In general, most of these studies showed that PBMT exerted a positive effect on the sperm cell motility. The various effects of PBMT in different wavelength ranges, as mentioned in this review, provide more insights for its potential applications in improving sperm characteristics. PBMT as a treatment method has significant effectiveness for treatment of different medical problems. Due to the lack of reporting data in this field, there is a need for future studies to assessment the biochemical and molecular effects of PBMT on sperm cells for the possible application of this treatment to the human sperm cells before the ART process. [ABSTRACT FROM AUTHOR]

Published

2024

12. Repeated Low-Level Red Light Therapy for Myopia Control in High Myopia Children and Adolescents: A Randomized Clinical Trial.

Author

Xu, Yan, Cui, Lipu, Kong, Miao, Li, Qian, Feng, Xueliang, Feng, Kehong, Zhu, Huang, Cui, Hongping, Shi, Caiping, Zhang, Jian, and Zou, Haidong

Subjects

*RED light, *PHOTOBIOMODULATION therapy, *CLINICAL trials, *OPHTHALMOLOGY practice, *ANISOMETROPIA

Abstract

To assess the effectiveness and safety of repeated low-level red light (RLRL), which is a newly available treatment for myopia control in children and adolescents with high myopia. Multicenter, randomized, parallel-group, single-blind clinical trial (randomized controlled trial; NCT05184621). Between February 2021 and April 2022, 192 children aged 6 to 16 years were enrolled. Each child had at least 1 eye with myopia of cycloplegic spherical equivalent refraction (SER) at least –4.0 diopters (D), astigmatism of ≤2.0 D, anisometropia of ≤3.0 D, and best-corrected visual acuity (BCVA) of 0.2 logarithm of the minimum angle of resolution or better. Follow-up was completed by April 2023. Participants were randomly assigned at a 1:1 ratio to intervention (RLRL treatment plus single-vision spectacles) or control (single-vision spectacles) groups. The RLRL treatment was administered for 3 minutes per session, twice daily with a minimum interval of 4 hours, 7 days per week. The primary outcome and key secondary outcome were changes in axial length (AL) and cycloplegic SER measured at baseline and the 12-month follow-up visit. Participants who had at least 1 postrandomization follow-up visit were analyzed for treatment efficacy. Among 192 randomized participants, 188 (97.91%) were included in the analyses (96 in the RLRL group and 92 in the control group). After 12 months, the adjusted mean change in AL was –0.06 mm (95% confidence interval [CI], –0.10 to –0.02 mm) and 0.34 mm (95% CI, 0.30 to 0.39 mm) in the intervention and control groups, respectively. A total of 48 participants (53.3%) in the intervention group were still experiencing axial shortening >0.05 mm at the 12-month follow-up. The mean SER change after 12 months was 0.11 D (95% CI, 0.02to 0.19 D) and –0.75 D (95% CI, –0.88 to –0.62 D) in the intervention and control groups, respectively. Repeated low-level red light demonstrates stronger treatment efficacy among those with high myopia, with 53.3% experiencing substantial axial shortening. Repeated low-level red light provides an excellent solution for the management of high myopia progression, a significant challenge in ophthalmology practice. The author(s) have no proprietary or commercial interest in any materials discussed in this article. [ABSTRACT FROM AUTHOR]

Published

2024

13. Deciphering the Physical Characteristics of Ophthalmic Filters Used in Optometric Vision Therapy.

Author

Ibrahimi, Danjela, Aviles, Marcos, Valencia Luna, Guillermo, and Rodriguez Resendiz, Juvenal

Subjects

MATERIALS testing, VISION disorders, LENSES, SPECTROPHOTOMETERS, SURFACE properties, VISUAL pigments, QUANTITATIVE research, PHOTOTHERAPY, RESEARCH methodology, SCATTERING (Physics), RED light

Abstract

Background: This paper aimed to measure and characterize eleven monochromatic filters and twenty-two combinations used empirically to treat patients with visual dysfunctions to propose enhanced protocols based on solid evidence. Their wavelength, transmittance, and relative sensitivity were defined on the retinal cone cells. Methods: A double-beam UV-VIS-NIR spectrophotometer, VARIAN brand, Cary 5000 model, owned by the National Center of Metrology, with high precision and accuracy, was used to characterize all filters. Filters were purchased from Optomatters Corporation, Belgium. Results: When two or three filters are combined, their transmittance and relative sensitivity on the retinal cone cells decrease regardless of wavelength. As a result, the efficiency of combined filters may decrease during treatments. Additionally, most filters and combinations, regardless of the wavelength, transmit a considerable percentage of light from the red spectrum. A depressant is the best monochromatic filter, and Upsilon–Neurasthenic is the strongest combination to stimulate blue cone cells. In contrast, Stimulant and Delta–Theta are best for red and green cone cells. Mu–Delta and Mu–Theta can be interchangeable, as well as Alpha–Delta and Alpha–Theta. Conclusions: Results suggest that the current phototherapy treatment protocol must be deeply revised, and the number of filters and combinations should be reduced to reduce costs and time and boost efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

14. Light-induced remodeling of phytochrome B enables signal transduction by phytochrome-interacting factor.

Author

Wang, Zhengdong, Wang, Wenfeng, Zhao, Didi, Song, Yanping, Lin, Xiaoli, Shen, Meng, Chi, Cheng, Xu, Bin, Zhao, Jun, Deng, Xing Wang, and Wang, Jizong

Subjects

*RED light, *CELLULAR signal transduction, *PHYTOCHROMES, *PHOTOACTIVATION, *ARABIDOPSIS, *PHOTORECEPTORS

Abstract

Phytochrome B (phyB) and phytochrome-interacting factors (PIFs) constitute a well-established signaling module critical for plants adapting to ambient light. However, mechanisms underlying phyB photoactivation and PIF binding for signal transduction remain elusive. Here, we report the cryo-electron microscopy (cryo-EM) structures of the photoactivated phyB or the constitutively active phyBY276H mutant in complex with PIF6, revealing a similar trimer. The light-induced configuration switch of the chromophore drives a conformational transition of the nearby tongue signature within the phytochrome-specific (PHY) domain of phyB. The resulting α-helical PHY tongue further disrupts the head-to-tail dimer of phyB in the dark-adapted state. These structural remodelings of phyB facilitate the induced-fit recognition of PIF6, consequently stabilizing the N-terminal extension domain and a head-to-head dimer of activated phyB. Interestingly, the phyB dimer exhibits slight asymmetry, resulting in the binding of only one PIF6 molecule. Overall, our findings solve a key question with respect to how light-induced remodeling of phyB enables PIF signaling in phytochrome research. [Display omitted] • Red light activates phyB by remodeling the head-to-tail dimer in the dark-adapted state • PIF6-APB binding stabilizes the NTE domain and a head-to-head dimer of activated phyB • The asymmetric phyB dimer can accommodate only one PIF6-APB molecule • The constitutively active phyBY276H assembles a similar trimeric complex with PIF6-APB Cryo-EM structures of Arabidopsis photoactivated phyB and its constitutively active phyBY276H mutant in complex with the N terminus of PIF6 provide insights into light-induced photoreceptor remodeling and signal transduction. [ABSTRACT FROM AUTHOR]

Published

2024

15. Impact of red and blue monochromatic light on the visual system and dopamine pathways in juvenile zebrafish.

Author

Lu, Yan and Tong, Meiling

Subjects

MONOCHROMATIC light, BLUE light, VISION, LIGHT intensity, DOPAMINE

Abstract

Background: The development of the zebrafish visual system is significantly influenced by exposure to monochromatic light, yet investigations into its effects during juvenile stages are lacking. This study evaluated the impacts of varying intensities and durations of red and blue monochromatic light on the visual system and dopamine pathways in juvenile zebrafish. Methods: Juvenile zebrafish were exposed to red (650 nm) and blue (440 nm, 460 nm) monochromatic lights over four days at intensities ranging from 500 to 10,000 lx, for durations of 6, 10, and 14 h daily. A control group was maintained under standard laboratory conditions. Post-exposure assessments included the optokinetic response (OKR), retinal structural analysis, ocular dopamine levels, and the expression of genes related to dopamine pathways (Th, Dat, and Mao). Results: (1) OKR enhancement was observed with increased 440 nm light intensity, while 460 nm and 650 nm light exposures showed initial improvements followed by declines at higher intensities. (2) Retinal thinning in the outer nuclear layer was observed under the most intense (10,000 lx for 14 h) light conditions in the 440 nm and 650 nm groups, while the 460 nm group remained unaffected. (3) Dopamine levels increased with higher intensities in the 440 nm group, whereas the 460 nm group exhibited initial increases followed by decreases. The 650 nm group displayed similar trends but were statistically insignificant compared to the control group. (4) Th expression increased with light intensity in the 440 nm group. Dat showed a rising and then declining pattern, and Mao expression significantly decreased. The 460 nm group exhibited similar patterns for Th and Dat to the behavioral observations, but an inverse pattern for Mao. The 650 nm group presented significant fluctuations in Th and Dat expressions, with pronounced variations in Mao. Conclusions: Specific red and blue monochromatic light conditions promote visual system development in juvenile zebrafish. However, exceeding these optimal conditions may impair visual function, highlighting the critical role of dopamine pathway in modulating light-induced effects on the visual system. [ABSTRACT FROM AUTHOR]

Published

2024

16. Exploring the photosensitizing potential of Nanoliposome Loaded Improved Toluidine Blue O (NLITBO) Against Streptococcus mutans: An in-vitro feasibility study.

Author

Panda, Swagatika, Rout, Lipsa, Mohanty, Neeta, Satpathy, Anurag, Sankar Satapathy, Bhabani, Rath, Shakti, and Gopinath, Divya

Subjects

*TOLUIDINE blue, *SCANNING transmission electron microscopy, *STREPTOCOCCUS mutans, *RED light, *CHLORHEXIDINE

Abstract

Background: Streptococcus mutans is a major contributor to dental caries due to its ability to produce acid and survive in biofilms. Microbial resistance towards common antimicrobial agents like chlorhexidine and triclosan has shifted the research towards antimicrobial Photodynamic therapy (PDT). In this context, Toluidine Blue O (TBO) is being explored for its photosensitizing properties against Streptococcus mutans. There is a huge variation in the effective concentration of TBO among the current studies owing to the differences in source of and delivery system TBO as well as the time, power and energy densities of light. Objective: The primary objectives of this study are to encapsulate improved Toluidine Blue O (ITBO) in nanoliposomes (NLITBO), characterize it, and evaluate its antibacterial photosensitizing potential against Streptococcus mutans suspensions in vitro. Method: ITBO was synthesised as per Indian patent (number -543908). NLITBO was prepared using the thin-film hydration method. Dynamic light scattering experiment determined the vesicle size, polydispersity index (PDI), and zeta potential. Surface features were characterized by Scanning and Transmission Electron microscopy. ITBO release from NLITBO was assessed using the extrapolation method. The antibacterial activity of the NLITBO was determined by evaluating the zone of inhibition (ZOI) in the Streptococcus mutans culture and comparing with 2% chlorhexidine gluconate. The minimum inhibitory concentration (MIC) of NLITBO as a photosensitizer with red light (wavelength 650nm, power density 0.1 W/cm2, energy density 9–9.1 J/ cm2, 90seconds time) was evaluated against Streptococcus mutans cells by colorimetric method in 96 well plate. Results: Percentage drug loading, loading efficiency, yield percentage, vesicle size, PDI, Zeta potential of NLTBO was reported as 9.3±0.4%, 84.4±7.6%, 73.5%, 123.52 nm, 0.57, -39.54mV respectively. Clusters of uni-lamellar nanovesicles with smooth non-perforated surfaces were observed in SEM and TEM. The size of the vesicle was within 100 nm. At 24 hours, a cumulative 79.81% of ITBO was released from NLITBO. Mean ZOI and MIC of NLITBO (1 μg /ml) were found to be 0.7±0.2 mm, 0.6μg/ml respectively. Conclusion: We have synthesized and encapsulated improved Toluidine Blue O (ITBO) in nanoliposomes (NLITBO) and thoroughly characterized the formulation. The antibacterial efficacy of NLITBO without light was demonstrated by ZOI which is similar to 2% chlorhexidine gluconate. MIC of NLITBO as a photosensitiser along with the optimal light parameter was also proposed in this study. These findings suggested that NLITBO could serve as an effective alternative to conventional antibacterial treatments in managing Streptococcus mutans rich biofilms. It can have potential pharmaceutical application in oral health care. [ABSTRACT FROM AUTHOR]

Published

2024

17. Reviewing the efficiency of photobiomodulation therapy in oncological treatment.

Author

Luitel, Bibhus, Duggisani, Tanush, Luitel, Anuj, and LaRocco, John

Subjects

PHOTOBIOMODULATION therapy, CANCER cell growth, RED light, CANCER invasiveness, BLUE light

Abstract

The aim of the present systematic review is to evaluate the effects of different photobiomodulation therapy (PBMT) approaches in oncological treatment practices. The review follows the PRISMA guidelines. Specifically, the review is composed of laser PBMT and LED PBMT. A total of 23 studies were included, 14 investigating laser PBMT and 9 examining LED PBMT. In vitro studies demonstrated laser PBMT's potential to induce apoptosis and cytotoxicity in various cancer cell lines while enhancing sensitivity to chemotherapeutics and natural compounds. However, some studies highlighted divergent effects between in vitro (promoted proliferation) and in vivo xenograft models (slowed tumor growth) for certain laser wavelengths. LED PBMT studies showed blue light inhibited melanoma and pancreatic cancer cell growth, potentially via ROS generation, while red light raised concerns about enhancing oral cancer invasiveness. Both modalities mitigated treatment side effects like oral mucositis, xerostomia, peripheral neuropathy, and improved quality of life. While promising, the outcomes varied based on light parameters, cancer type, and experimental setting, necessitating further optimization of PBMT protocols through well-designed studies to establish long-term safety and efficacy across clinical scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

18. Development of bacteriostatic central venous port using photobiomodulation: a comparative in vitro study.

Author

Takara, Yuki, Yunaiyama, Daisuke, Yasutomi, Mika, Arai, Tsunenori, Nara, Kazutaka, Nakamura, Shigeki, Saguchi, Toru, Nakai, Motoki, and Saito, Kazuhiro

Subjects

*PHOTOBIOMODULATION therapy, *RED light, *METHICILLIN-resistant staphylococcus aureus, *LIGHT emitting diodes, *CELL growth

Abstract

Photobiomodulation (PBM) occurs when a cell is exposed to low energy intensities. A novel central venous port (CVP) with light-emitting diodes (LEDs) that emits red light with a wavelength of 680 nm via wireless energy transmission technology has been established. This comparative in vitro study examined whether PBM can reduce the growth of methicillin-resistant Staphylococcus aureus (MRSA), a common cause of central venous (CV) infections, in vitro. In this comparative in vitro study, the red light with a wavelength of 680 nm was used to irradiate an MRSA suspension in phosphate-buffered saline for 7.5, 15, 30, or 60 min in a 3.5 cm Petri dish with an area of 8.5 cm2. The total energy was 85 J at 7.5 min, 170 J at 15 min, 340 J at 30 min, and 680 J at 60 min. Six dishes for each time and 6 temperature-controlled samples were prepared. Each sample was incubated overnight at 37℃. The Shapiro-wilk test was used to determine whether the data were normally distributed. The numbers of colonies were counted and compared using one-factor ANOVA and Bonferroni's post-hoc test. The mean numbers of colonies in the control group were 60.3, where the numbers of colonies in the irradiated group were 51.4 at 7.5 min, 53.5 at 15 min, 44.6 at 30 min, 34.3 at 60 min. The mean number of colonies in the 60 min irradiated group differed significantly from that in the control, 7.5 min, and 15 min groups. The Bonferroni's post-hoc test showed significant difference in the number of colonies between control vs. 30 min control vs. 60 min, 7.5 min vs. 60 min, 15 min vs. 60 min. PBM with 680 nm LEDs on MRSA for 340 J at 30 min and 680 J at 60 min inhibited the growth of cell colonies. These findings support the use of photobiomodulation in Central venous port to prevent CV access port-Blood stream infection. [ABSTRACT FROM AUTHOR]

Published

2024

19. Preventing Sleep Disruption With Bright Light Therapy During Chemotherapy for Breast Cancer: A Phase II Randomized Controlled Trial.

Author

Rissling, Michelle, Lianqi Liu, Youngstedt, Shawn D., Trofimenko, Vera, Natarajan, Loki, Neikrug, Ariel B., Jeste, Neelum, Parker, Barbara A., and Ancoli-Israel, Sonia

Subjects

SLEEP interruptions, SLEEP duration, NAPS (Sleep), SLEEP quality, RED light

Abstract

Purpose: The goal of this study was to examine whether daily increased morning light exposure would maintain or improve sleep and the circadian pattern of relatively more activity in the day and less during the night in women undergoing chemotherapy for breast cancer. Patients and Methods: Participants were 39 women with newly diagnosed breast cancer, randomized to either 30-mins of daily morning bright white light (BWL) or dim red light (DRL). Sleep/wake was measured objectively for 72-h with wrist actigraphy and subjectively with the Pittsburgh Sleep Quality Index (PSQI) prior to and during chemotherapy cycles 1 and 4. The study was registered with the National Institutes of Health ClinicalTrials.gov (Clinical Trials number: NCT00478257). Results: Results from actigraphy suggested that compared to the DRL group, women in the BWL group had longer night-time sleep, fewer sleep disturbances during the night, and had fewer and shorter daytime naps at the end of cycle 4 of chemotherapy as well as exhibiting less activity at night and more activity during the day by the end of cycle 4. Results from PSQI indicated that components of sleep quality improved but daytime dysfunction deteriorated during cycle 4 treatment in the BWL group; meanwhile the DRL group used more sleep medications in the treatment weeks which might have led to the improved sleep quality during the recovery weeks of both cycles. Conclusion: These results suggest that bright white light therapy administered every morning on awakening may protect women undergoing chemotherapy for breast cancer from nighttime sleep and daytime wake disruption. Randomized clinical trials in larger samples are needed to confirm these findings. [ABSTRACT FROM AUTHOR]

Published

2024

20. Advanced IGZO Phototransistor Arrays: Enhancing Visible Light Detection Through Selectively Electrohydrodynamic Jet‐Printed Photocatalytic Layer Formation.

Author

An, Jong Bin, Kang, Byung Ha, Jung, Sujin, Moon, Kunho, Chung, Jusung, Hong, Seok Min, Park, Kyungho, Ahn, Jong Hyuk, and Kim, Hyun Jae

Subjects

*RED light, *VISIBLE spectra, *PHOTOTRANSISTORS, *MASS customization, *IMAGE sensors

Abstract

Exploring new horizons in phototransistors with an emphasis on mass customization is essential. Herein, a method for enhancing the performance of indium‐gallium‐zinc‐oxide (IGZO) phototransistors by incorporating a selectively formed tungsten trioxide (WO3) photocatalytic layer, utilizing electrohydrodynamic (EHD) jet‐printing is proposed. This approach aims to achieve significant manufacturing advantages and enhance functionality. An oxidizing solution of hydrogen peroxide (H2O2) doped with hydroxyethyl cellulose (HEC) is introduced to selectively oxidize tungsten (W) electrodes. In this mixture, H2O2 is responsible for the selective oxidation of W, whereas HEC contributes to the viscosity regulation and the formation of subgap states. The resulting selectively oxidized photocatalytic layer significantly expands its visible light absorption capacity to red light. Therefore, the optimized device, particularly under red light (635 nm) 5 mW mm−2, shows a remarkable enhancement in its optoelectronic characteristic: photoresponsivity increases from 29.71 to 124.54 A W−1, photosensitivity from 1.99 × 10‐1 to 1.79 × 104, and detectivity from 1.31 × 107 to 1.98 × 108 Jones compared to IGZO phototransistors without selectively oxidized photocatalytic layer. This advancement not only enhances the visible light detection capacity but also minimizes the persistent photoconductance issue inherent in IGZO devices. The demonstration of 6 × 6 phototransistor array illustrates the potential for image sensor applications, showcasing the practicality of mass customization. [ABSTRACT FROM AUTHOR]

Published

2024

21. Light wavelength and intensity effects on larval phototaxis in the Pacific oyster Crassostrea gigas (Thunberg, 1793).

Author

Kim, Hee-Jin, Umino, Shunsuke, and Satuito, Glenn

Subjects

*RED light, *PACIFIC oysters, *LIGHT intensity, *LIGHT absorbance, *NEAR infrared radiation, *BLUE light, *SPECTROPHOTOMETERS

Abstract

Oyster larvae in the settlement stage, referred to as pediveligers, initially have a light sensor eyespot to perceive light wavelength and intensity. Based on this ontogenetic characteristic of oyster larvae, this study investigated the effects of light wavelength and intensity on larval phototaxis in the Pacific oyster Crassostrea gigas. The eyespots of pediveligers were characterized with wavelength-dependent light absorbance, measured by a microspectrophotometer system, and phototaxis was analyzed with the following processes. Horizontal larval phototaxis was observed under lighting conditions with six light wavelengths and three intensities using light-emitting diodes: 5, 15, and 25 W/m2 for near-ultraviolet light and four visible light wavelengths or 25, 50, and 100 lx for near-infrared light. Pediveligers were subjected to each lighting condition for 15 min, and then their distribution inside the experimental container was estimated. The eyespot exhibited maximum absorbance at a visible red light wavelength of approximately 638 nm. The larvae had a propensity for positive phototaxis under red light and negative phototaxis under blue light. The phototactic response varied with the light intensities. The obtained results indicate a possible mechanism for maintaining optimal water depth for the settlement of C. gigas larvae using light wavelength and intensity. [ABSTRACT FROM AUTHOR]

Published

2024

22. Enhanced red emission of MgAl2O4: Cr3+/Mn4+ phosphor co-doped with alkali metal ions.

Author

Zou, Fengxia, Li, Ming, Ma, Xiaofei, and Li, Guanghai

Subjects

*ALKALI metal ions, *RED light, *LIGHT absorption, *VISIBLE spectra, *PHOSPHORS, *LUMINESCENCE spectroscopy

Abstract

A series of MgAl 2 O 4 : Cr, Mn, M (M = Li, Na, K) red phosphors were prepared by solution combustion combined with subsequently annealing treatment. The influence of Cr3+ or Mn4+ single-doping, Cr3+ and Mn4+ double-doping and alkali metal ions co-doping on the luminescence performance of MgAl 2 O 4 phosphors were systematically investigated. XRD and SEM were used to characterize the composition and morphology of the phosphors, and the optical absorption, photoluminescent excitation, photoluminescent emission, fluorescence lifetime and chromaticity coordinate were performed to characterize their luminescence properties. Compared with Cr3+ or Mn4+ single-doped MgAl 2 O 4 phosphors, Cr3+ and Mn4+ double-doped ones can achieve red light emission under a wide range of excitation from ultraviolet to visible light. Co doping with alkali metal ion Li enhances the fluorescence intensity and lifetime of MgAl 2 O 4 : Cr, Mn phosphors. [ABSTRACT FROM AUTHOR]

Published

2024

23. A Study on the Impact of Blue Light and Its Brightness on Long-Term Memory.

Author

Kim, Jin-Ho, Lee, Kee-Sun, Shim, Joung-Myo, and Lee, Chung-Won

Subjects

LONG-term memory, RED light, BLUE light, GALENA, MEMORIZATION

Abstract

The purpose of this study is to evaluate the effect of blue light and its brightness on long-term memory. Blue light was tested under four distinct illuminance conditions ranging from 400 to 1000 lux, and the results were compared with those of red light as a comparison group. A total of 25 individuals, including 16 men and 9 women with a mean age of 22.04 ± 1.74 years, participated in these tests based on a within-subject research design. Initially, each participant was exposed to individual light conditions for 30 min in the morning. Subsequently, they were asked to complete learning memory tasks, which involved memorizing specific words composed of randomly chosen English consonants. Exactly 20 min after these memory tasks, their long-term memory retention was measured through recall. It was found that blue light was superior to red light in terms of long-term memory enhancement; the difference was statistically significant, with a confidence level of 95%. Moreover, brighter light environments were found to affect long-term memory performance more significantly compared to darker light environments. That said, there was no significant difference in interaction effects between light color and brightness. These findings confirm the results of previous studies highlighting the effectiveness of blue light in enhancing memory retention while also demonstrating that the degree of enhancement may vary depending on light brightness. [ABSTRACT FROM AUTHOR]

Published

2024

24. Efficacy in myopia control—The impact of rebound.

Author

Bullimore, Mark A. and Brennan, Noel A.

Subjects

*RED light, *SOFT contact lenses, *PHOTOTHERAPY, *TREATMENT effectiveness, *MYOPIA

Abstract

Purpose Methods Results Conclusions When myopia control treatment is discontinued, progression will increase, but does it revert to expected values based on the age and race of the child or does it accelerate further? The latter scenario is considered a rebound.A PubMed search was conducted with the words ‘rebound’ and ‘myopia control’, identifying further papers from reviews. Inclusion was limited to prospective studies with ≥6 months of treatment, ≥3 months of data following cessation and with axial length data, which allowed calculation of rebound. Nineteen studies were identified, comprising 24 treatment groups. In 10 studies, untreated control children were followed both throughout the treatment and cessation periods, allowing for a concurrent comparison group. In three studies, a control group was followed for 1 or 2 years and thereafter received the treatment under evaluation. Later, treatment ceased in the originally treated children. Finally, six studies were cross‐over designs. For these latter two study designs, initial axial elongation and myopia progression in the control group were extrapolated to the cessation period, accounting for annual slowing. Values from durations of <1 year were annualised.The mean annualised rebound was +0.05 ± 0.10 mm and −0.09 ± 0.24 D for axial length and myopia progression, respectively, and these were correlated (r2 = 0.59, p < 0.001). Rebound was associated with 1‐year treatment efficacy (r2 = 0.43, p < 0.001). The mean annualised rebound with optical corrections was −0.01 ± 0.03 mm. Five of the six highest rebound values (≥0.14 mm) were from red light therapy and atropine studies. Rebound ranged from +0.03 to +0.14 mm for overnight orthokeratology.Consistent with previous statements, no evidence for rebound was found for myopia control spectacles and soft contact lenses. Future research should explore the influence of age and magnitude of treatment efficacy on rebound. [ABSTRACT FROM AUTHOR]

Published

2024

25. Visible light accelerates skin wound healing and alleviates scar formation in mice by adjusting STAT3 signaling.

Author

Deng, Fangqing, Yang, Rong, Yang, Yingchun, Li, Xu, Hou, Jing, Liu, Yanyan, Lu, Jueru, Huangfu, Shuaiqi, Meng, Yuqi, Wu, Si, and Zhang, Lianbing

Subjects

*RED light, *BLUE light, *VISIBLE spectra, *WOUND healing, *REACTIVE oxygen species, *GENETIC transcription

Abstract

During the wound healing process, the activation of signal transducer and activator of transcription 3 (STAT3) is considered crucial for the migration and proliferation of epithelial cells, as well as for establishing the inflammatory environment. However, an excessive STAT3 activation aggravates scar formation. Here we show that 450 nm blue light and 630 nm red light can differentially regulate the phosphorylation of STAT3 (p-STAT3) and its downstream cytokines in keratinocytes. Further mechanistic studies reveal that red light promotes wound healing by activating the PI3 kinase p110 beta (PI3Kβ)/STAT3 signaling axis, while blue light inhibits p-STAT3 at the wound site by modulating cytochrome c-P450 (CYT-P450) activity and reactive oxygen species (ROS) generation. In a mouse scar model, skin wound healing can be significantly accelerated with red light followed by blue light to reduce scar formation. In summary, our study presents a potential strategy for regulating epithelial cell p-STAT3 through visible light to address skin scarring issues and elucidates the underlying mechanisms. In mouse keratinocytes, upregulation of PI3Kβ by red light promotes p-STAT3 and accelerates skin wound healing, whereas ROS induced by blue light inhibits p-STAT3 and alleviates scar formation. [ABSTRACT FROM AUTHOR]

Published

2024

26. Red-light photons on skin cells and the mechanism of photobiomodulation.

Author

Alejandro Herrera, Manuel, Pereira Ribas, Arthur, Eduardo da Costa, Paulo, and Baptista, Mauricio S.

Subjects

RED light, SUNSHINE, NITRIC oxide regulation, VISIBLE spectra, EXCITED states

Abstract

Red light (600-700 nm, ~2.1-1.8 eV) consists of a low-energy radiation with a high capacity to penetrate the skin and to induce stimulatory effects. These characteristics make this wavelength range very promising for light-based therapies. Aiming to discuss the mechanisms of action of photobiomodulation, we start by providing a broad perspective of the skin and of its interaction with light, focusing on the endogenous photosensitizers, on the formation of excited states and reactive oxidants, and on the activation of signaling effectors. The peculiar aspect of the photons in the red spectral range is that they are much less absorbed by the endogenous photosensitizers and consequently generate a lot fewer reactive oxidants (when compared with the other ranges of visible light), allowing the skin to mainly experience the consequences of several signaling pathways that are activated during the skin interaction with red-light photons. Indeed, the effects of red light in epithelial cells involve the control of metabolic responses, the modulation of several key genes and transcriptions factors, as well as the regulation of the intracellular nitric oxide stocks. In this article, we discuss how red light interacts with all these variables and end up causing a vigorous tissue activation. We also analyzed the effect of red-light photons on the nitric oxide homeostasis, with implications for the phototherapy of psoriasis. It is likely that several of the observations and mechanisms described for the interactions of red-light photons may also be occurring during and after the interaction with other photons with similar energy. [ABSTRACT FROM AUTHOR]

Published

2024

27. Effect of Diurnal Light Conditions on Electroretinogram Responses to Red and Blue Flickering Light.

Author

Kozaki, Tomoaki and Takao, Motoharu

Subjects

*T-test (Statistics), *DATA analysis, *RESEARCH funding, *DESCRIPTIVE statistics, *BLUE light, *ELECTRORETINOGRAPHY, *EXPERIMENTAL design, *PHOTOTHERAPY, *CIRCADIAN rhythms, *STATISTICS, *ANALYSIS of variance, *VISUAL acuity, *DATA analysis software, *RED light, *WAVE analysis, *RETINAL ganglion cells

Abstract

Bright light impacts the human circadian system such that exposure to bright light at night can suppress melatonin secretion, and exposure to bright light in the morning prevents light-induced melatonin suppression at night. The preventive effect of morning light may attenuate the prior history of light sensitivity of intrinsically photosensitive retinal ganglion cells (ipRGCs) that regulate the circadian system. In this study, we evaluated electroretinogram (ERG) responses to red and blue flickering lights following dim and bright daylight conditions. Eleven healthy females underwent ERG measurements during exposure to 33 Hz flickering red or blue light under dim and bright daytime conditions. We averaged ERG waves for 50 flickering light pulses of the trigger signal data. We obtained the amplitude of the signal-averaged ERG by calculating the difference between the waves' peaks and bottoms. Although there was no significant dim and bright light difference in the amplitude of ERG waves, the ERG amplitude to flickering blue light under the bright light condition was significantly lower than to flickering blue light under the dim light condition. In this study, blue light stimulated mainly ipRGCs and S-cones. Since S-cones may contribute minimally to the light-adapted 33 Hz flicker ERG results, our findings suggest that bright light during the daytime attenuates the sensitivity of human ipRGCs. [ABSTRACT FROM AUTHOR]

Published

2024

28. Optimization of the Treatment of Squamous Cell Carcinoma Cells by Combining Photodynamic Therapy with Cold Atmospheric Plasma.

Author

Karrer, Sigrid, Unger, Petra, Spindler, Nina, Szeimies, Rolf-Markus, Bosserhoff, Anja Katrin, Berneburg, Mark, and Arndt, Stephanie

Subjects

*COLD atmospheric plasmas, *RED light, *SQUAMOUS cell carcinoma, *ACTINIC keratosis, *IONIZED gases

Abstract

Actinic keratosis (AK) is characterized by a reddish or occasionally skin-toned rough patch on sun-damaged skin, and it is regarded as a precursor to squamous cell carcinoma (SCC). Photodynamic therapy (PDT), utilizing 5-aminolevulinic acid (ALA) along with red light, is a recognized treatment option for AK that is limited by the penetration depth of light and the distribution of the photosensitizer into the skin. Cold atmospheric plasma (CAP) is a partially ionized gas with permeability-enhancing and anti-cancer properties. This study analyzed, in vitro, whether a combined treatment of CAP and ALA-PDT may improve the efficacy of the treatment. In addition, the effect of the application sequence of ALA and CAP was investigated using in vitro assays and the molecular characterization of human oral SCC cell lines (SCC-9, SCC-15, SCC-111), human cutaneous SCC cell lines (SCL-1, SCL-2, A431), and normal human epidermal keratinocytes (HEKn). The anti-tumor effect was determined by migration, invasion, and apoptosis assays and supported the improved efficacy of ALA-PDT in combination with CAP. However, the application sequence ALA-CAP–red light seems to be more efficacious than CAP-ALA–red light, which is probably due to increased intracellular ROS levels when ALA is applied first, followed by CAP and red light treatment. Furthermore, the expression of apoptosis- and senescence-related molecules (caspase-3, -6, -9, p16INK4a, p21CIP1) was increased, and different genes of the junctional network (ZO-1, CX31, CLDN1, CTNNB1) were induced after the combined treatment of CAP plus ALA-PDT. HEKn, however, were much less affected than SCC cells. Overall, the results show that CAP may improve the anti-tumor effects of conventional ALA-PDT on SCC cells. Whether this combined application is successful in treating AK in vivo has to be carefully examined in follow-up studies. [ABSTRACT FROM AUTHOR]

Published

2024

29. Covalent Organic Framework Catalyzed Amide Synthesis Directly from Alcohol Under Red Light Excitation.

Author

Roy, Monojit, Mishra, Bikash, Maji, Shyamali, Sinha, Archisman, Dutta, Supriti, Mondal, Sukanta, Banerjee, Abhik, Pachfule, Pradip, and Adhikari, Debashis

Subjects

*ABSTRACTION reactions, *RED light, *TRANSITION metal catalysts, *HEAT resistant alloys, *HIGH temperature metallurgy, *AMIDES

Abstract

The dehydrogenative coupling of alcohols and amines to form amide bonds is typically catalysed by homogeneous transition metal catalysts at high temperatures ranging from 130–140 °C. In our pursuit of an efficient and recyclable photocatalyst capable of conducting this transformation at room temperature, we report herein a COF‐mediated dehydrogenative synthesis. The TTT‐DHTD COF was strategically designed to incorporate a high density of functional units, specifically dithiophenedione, to trap photogenerated electrons and effectively facilitate hydrogen atom abstraction reactions. The photoactive TTT‐DHTD COF, synthesized using solvothermal methods showed high crystallinity and moderate surface area, providing an ideal platform for heterogeneous amide synthesis. Light absorption by the COF across the entire visible range, narrow band gap, and valence band position make it well‐suited for the efficient generation of excitons necessary for targeted dehydrogenation. Utilizing red light irradiation and employing extremely low loading of the COF, we have successfully prepared a wide range of amides, including challenging secondary amides, in good to excellent yields. The substrates' functional group tolerance, very mild reaction conditions, and the catalyst's significant recyclability represent substantial advancements over prior methodologies. [ABSTRACT FROM AUTHOR]

Published

2024

30. Photobiomodulation as a Potential Therapy for Erectile Function: A Preclinical Study in a Cavernous Nerve Injury Model.

Author

Anita, Limanjaya, Min-Ji Choi, Guo Nan Yin, JiYeon Ock, Mi-Hye Kwon, Beom Yong Rho, Doo Yong Chung, Jun-Kyu Suh, and Ji-Kan Ryu

Subjects

*PERIPHERAL nerve injuries, *PHOTOBIOMODULATION therapy, *DORSAL root ganglia, *RED light, *PERIPHERAL nervous system

Abstract

Purpose: To identify the optimal photobiomodulation (PBM) parameters using molecular, histological, and erectile function analysis in cavernous nerve injury. Materials and Methods: A cavernous nerve injury was induced in 8-week-old C57BL/6J male mice that were subsequently divided randomly into age-matched control groups. Erectile function tests, penile histology, and Western blotting were performed 2 weeks after surgery and PBM treatment. Results: The PBM treatment was administered for five consecutive days with a light-emitted diode (LED) device that delivers 660 nm±3% RED light, and near infra-red 830 nm±2% promptly administered following nerve-crushing surgery and achieved a notable restoration of erectile function approximately 90% of the control values. Subsequent in-vitro and ex-vivo analyses revealed the regeneration of neurovascular connections in both the dorsal root ganglion and major pelvic ganglion, characterized by the sprouting of neurites. Furthermore, the expression levels of neurotrophic, survival, and angiogenic factors exhibited a substantial increase across all groups subjected to PBM treatment. Conclusions: The utilization of PBM employing LED with 660 nm, 830 nm, and combination of both these wavelengths, exhibited significant efficacy to restore erectile function in a murine model of cavernous nerve injury. Thus, the PBM emerges as a potent therapeutic modality with notable advantages such as efficacy, noninvasiveness, and non-pharmacological interventions for erectile dysfunction caused by nerve injury. [ABSTRACT FROM AUTHOR]

Published

2024

31. Development of Promising Red-Light-Induced Chitosan-Based Photocatalysts for Cancer Therapy.

Author

Kyunghwan Roh

Subjects

CHITOSAN, PHOTOCATALYSTS, RED light, PHOTODYNAMIC therapy, CANCER treatment

Abstract

Cancer remains a global health challenge, with lung and skin cancers among the leading causes of mortality. Conventional treatments pose limitations, necessitating innovative approaches. This study explores the application of red-light-induced chitosan-based photocatalysts for photodynamic therapy (PDT). The unique properties of chitosan nanoparticles, derived from chitin, and the photosensitizer protoporphyrin IX (PPIX) are leveraged for targeted cancer treatment. Chitosan nanoparticles were synthesized through chitin deacetylation and ionotropic gelation, reducing the size from 1300 kDa to ~50 kDa. PPIX-chitosan complexes were formed at varying ratios (1:1, 4:1, 16:1, and 160:1) and evaluated for cytotoxicity. A laser device emitting 660 nm red light activated the complexes. A549 lung cancer cells and SK-MEL-2 skin cancer cells were tested, and cell viability was performed. The chitosan nanoparticles exhibited successful formation. Cytotoxicity results revealed optimal chitosan to PPIX ratios of 16:1 and 160:1, minimizing adverse effects. Laser-activated PPIX-chitosan complexes demonstrated significant cell death in A549 and SK-MEL-2 cells, validating their efficacy in cancer treatment. This study pioneers using chitosan-based photocatalysts for cancer therapy, showcasing their potential in PDT. The environmentally friendly nature and cost-effectiveness of chitosan further contribute to its viability for mass production and broad clinical applications. [ABSTRACT FROM AUTHOR]

Published

2024

32. Red 15 Hz flickering light: a novel technique for effective wild bird management.

Author

Honda, Takeshi, Tominaga, Hiroki, and Shimizu, Akio

Subjects

RED light, AIRCRAFT bird collisions, AVIAN influenza, BIRD behavior, HUMAN physiology

Abstract

Human-bird conflicts are in a critical state, involving economic losses such as agricultural losses, bird strikes on aircraft and avian influenza. Traditional technologies leveraging bird vision and hearing often lose their effectiveness over time as birds become habituated to these stimuli. To address these challenges, our study introduces a novel countermeasure technology based on neurophysiology. The human brain reacts to flickering light, which can cause symptoms like headaches, nausea, and dizziness. In extremely rare cases, 15 Hz flickering red light can even lead to epilepsy. Not only humans, but chickens also suffer from 14 Hz flickering light. This led us to consider the possibility that similar flickering light stimuli could be applicable to bird management. In our experiments conducted during the day, we used long-range flashlights. White flickering light had no effect on bird escape behavior. However, when cellophane film was attached to the flashlights to restrict the wavelength, the emitted red light induced escape behavior in birds. Additionally, employing two types of flashlights to generate flickering red + blue or red + green lights elicited escape behavior. However, the blue and green combination proved to be less effective. The most intense flickering frequency for crows was 15 Hz. These results are highly similar to those found in human neurophysiology, showing that red light alone and the combination of red and blue lights have the most significant impact on the brain. By measuring the flight initiation distance (FID) of birds, we found that illuminated areas had a significantly higher FID (137 m) compared to non-illuminated areas (12 m). These findings suggest that applying principles of human physiology to wildlife management can offer new solutions for bird damage control. [ABSTRACT FROM AUTHOR]

Published

2024

33. Application of chlorophyll fluorescence in the assessment of environmental stresses in crops.

Author

Lotfi, R.

Subjects

RED light, EFFECT of environment on plants, PHOTOSYSTEMS, FLUORIMETRY, BOTANY, CHLOROPHYLL spectra

Abstract

Introduction: Plants in the environment are affected by various stresses, depending on the duration, intensity and growth stage of the plant, these stresses can reduce the process of photosynthesis and affect their growth and performance. However, traditional methods, even technically advanced ones such as the measurements of photosynthetic rates through the gas exchange (CO2, H2O, and O2), are timeconsuming and provide incomplete information on overall photosynthetic function. The development of knowledge in the field of chlorophyll fluorescence shows that this indicator has a high ability to study the photochemical efficiency of plant photosynthesis. Methods: For measuring the chlorophyll fluorescence in plants, leaves were dark-adapted for 30 minutes using leaf clips provided by the producer of handy-PEA. Measurements were performed on the middle of plant leaves following the standard protocol with illumination with continuous red light (peak in 650 nm wavelength; the spectral line half-width of 22 nm) provided by an array of three light-emitting diodes. The light pulse intensity used was 3500 μmol(photon).m-2s-1 and the duration of the light pulse was 1 s. The measured data were used for the calculation of the photosynthetic parameters using Biolyzer v. 3.06 HP software (a software provided with handy-PEA). Some of the parameters we discussed in this article due to their significance are FO = minimum fluorescence, FM = maximum fluorescence, FO/FM = The maximum quantum yield of basal non-photochemical energy losses, FV/FM = the maximum quantum efficiency of PSII, VJ = the relative variable fluorescence in step J after 2 ms, VI = the relative variable fluorescence in step I after 30 ms, N = the number of QA redox turnovers until FM, SM = the pool size of the electron acceptors on the reducing side of PSII, PIABS = performance index. Main Findings: The study of chlorophyll fluorescence can analyze with high detail the function and state of PSII reaction centres, and light-harvesting complexes. This index has a high correlation with other physiological parameters under different environmental stresses. In this article, an overview of the results of chlorophyll fluorescence analysis of crops underenvironmental stressesis given, and the key steps to stresses are presented. Under drought stress the ratio of active reaction centers in chlorophyll, primary photochemical reactions, and electron transfer are affected. By salinity stress in crops, the values of variable and, maximum fluorescence, the energy required to close the reaction centers, and the photosynthetic efficiency index decrease, while the time required to reach the maximum fluorescence increases. Under cold stress conditions, electron transfer flow per reactive centers, the quantum performance of photosystem II, and the efficiency of the water splitting complex in photosystem II decrease. Potassium affects light-dependent steps such as the size of receiving antennae and the electron connection of photosystem II reaction centers. The electron acceptor part of photosystem II is the main site of inhibition of photosynthetic electron transfer under the application of herbicides. Conclusion and Implications: This article has provided an overview of the information about the wide opportunities of using the chlorophyll fluorescence technique in plant science, agriculture and ecological research. The measured parameters of chlorophyll fluorescence are called the JIP-test and its analysis can be used to evaluate the effects of environmental stresses on plants. This technique requires more practical studies in biotic and even non-biotic stress conditions to provide reliable information to investigate the growth and development of plants, and this leads to an increase in our knowledge of the physiological basis of crop photosynthesis under stress conditions. [ABSTRACT FROM AUTHOR]

Published

2024

34. Differential Nitric Oxide Responses in Primary Cultured Keratinocytes and Fibroblasts to Visible and Near-Infrared Light.

Author

Barolet, Augustin C., Magne, Brice, Barolet, Daniel, and Germain, Lucie

Subjects

RED light, NEAR infrared radiation, VISIBLE spectra, FIBROBLASTS, FLUORESCENT probes, BLUE light

Abstract

NO is a crucial signaling molecule involved in skin health, the immune response, and the protection against environmental stressors. This study explores how different wavelengths of light, namely blue (455 nm), red (660 nm), and near infrared (NIR, 850 nm), affect nitric oxide (NO) production in skin cells. Primary keratinocytes and fibroblasts from three donors were exposed to these wavelengths, and NO production was quantified using a DAF-FM fluorescent probe. The results demonstrated that all three wavelengths stimulated NO release, with blue light showing the most pronounced effect. Specifically, blue light induced a 1.7-fold increase in NO in keratinocytes compared to red and NIR light and a 2.3-fold increase in fibroblasts compared to red light. Notably, fibroblasts exposed to NIR light produced 1.5 times more NO than those exposed to red light, while keratinocytes consistently responded more robustly across all wavelengths. In conclusion, blue light significantly boosts NO production in both keratinocytes and fibroblasts, making it the most effective wavelength. Red and NIR light, while less potent, also promote NO production and could serve as complementary therapeutic options, particularly for minimizing potential photoaging effects. [ABSTRACT FROM AUTHOR]

Published

2024

35. Low‐energy red light‐emitting diode irradiation enhances osteogenic differentiation of periodontal ligament stem cells by regulating miR‐146a‐5p.

Author

Ren, Yajiao, Wang, Shifen, Li, Hao, Li, Jiaxin, Lan, Xiaorong, and Wang, Yao

Subjects

DENTAL equipment, SMALL interfering RNA, MITOGEN-activated protein kinases, RESEARCH funding, MICRORNA, BONE growth, ADRENERGIC receptors, DESCRIPTIVE statistics, REVERSE transcriptase polymerase chain reaction, ALKALINE phosphatase, GLYCOPROTEINS, CELLULAR signal transduction, GENE expression, WESTERN immunoblotting, PERIODONTAL ligament, STEM cells, CELL differentiation, RED light, PHYSIOLOGICAL effects of radiation

Abstract

Aims: The study aimed to investigate the role of miR‐146a‐5p in osteogenesis of hPDLSCs irradiated with low‐energy red LEDs. Methods: After irradiation with 5 J/cm2 red LED, miR‐146a‐5p expression was detected by real‐time quantitative polymerase chain reaction (RT‐qPCR), and osteogenic markers expression was determined by RT‐qPCR and Western blotting. Alkaline phosphatase (ALP) activity was assessed by ALP staining, and mineralization was assessed by Alizarin Red staining, respectively. Lentiviral vectors were designed to regulate miR‐146a‐5p expression. Dual‐luciferase reporter assay was performed to confirm the targeted relationship between miR‐146a‐5p and MAPK1. Short hairpin RNA (shRNA) was used to regulate MAPK1 expression. Results: RT‐qPCR and western blotting revealed that 5 J/cm2 irradiation elevated the levels of the osteogenic markers osterix (OSX) and bone sialoprotein (BSP) in hPDLSCs. miR‐146a‐5p is downregulated in hPDLSCs under the low‐energy red LED light irradiation. miR‐146a‐5p underexpression markedly promoted the osteogenic potential of hPDLSCs. miR‐146a‐5p targeted MAPK1. 5 J/cm2 red LED irradiation rescued the inhibitory effects of upregulated miR‐146a‐5p on osteogenic differentiation, and the positive influence of red LED irradiation could be reversed by downregulated MAPK1. Conclusion: These findings confirm that miR‐146a‐5p is involved in the effect of LED irradiation on the osteogenic differentiation of hPDLSCs by targeting MAPK1. Red LED irradiation may be a potential clinical adjunct therapy for periodontal regeneration. [ABSTRACT FROM AUTHOR]

Published

2024

36. A novel application of laser speckle imaging technique for prediction of hypoxic stress of apples.

Author

Pieczywek, Piotr Mariusz, Nosalewicz, Artur, and Zdunek, Artur

Subjects

*SPECKLE interference, *MACHINE learning, *SPECKLE interferometry, *RED light, *CHLOROPHYLL spectra

Abstract

Background: Fruit storage methods such as dynamic controlled atmosphere (DCA) technology enable adjusting the level of oxygen in the storage room, according to the physiological state of the product to slow down the ripening process. However, the successful application of DCA requires precise and reliable sensors of the oxidative stress of the fruit. In this study, respiration rate and chlorophyll fluorescence (CF) signals were evaluated after introducing a novel predictors of apples' hypoxic stress based on laser speckle imaging technique (LSI). Results: Both chlorophyll fluorescence and LSI signals were equally good for stress detection in principle. However, in an application with automatic detection based on machine learning models, the LSI signal proved to be superior, due to its stability and measurement repeatability. Moreover, the shortcomings of the CF signal appear to be its inability to indicate oxygen stress in tissues with low chlorophyll content but this does not apply to LSI. A comparison of different LSI signal processing methods showed that method based on the dynamics of changes in image content was better indicators of stress than methods based on measurements of changes in pixel brightness (inertia moment or laser speckle contrast analysis). Data obtained using the near-infrared laser provided better prediction capabilities, compared to the laser with red light. Conclusions: The study showed that the signal from the scattered laser light phenomenon is a good predictor for the oxidative stress of apples. Results showed that effective prediction using LSI was possible and did not require additional signals. The proposed method has great potential as an alternative indicator of fruit oxidative stress, which can be applied in modern storage systems with a dynamically controlled atmosphere. [ABSTRACT FROM AUTHOR]

Published

2024

37. Three in One: A Versatile p‐i‐n Heterojunction Diode Based on Quasi‐2D Perovskite as a Solar Cell, Red Light Emitting Device and Weak Light Photodetector.

Author

Qiu, Mingxuan, Li, Wanjun, Huang, Xi, Liang, Xiangfei, Shen, Chao, Cai, Wanzhu, Hou, Lintao, Zhao, Chuanxi, Zhao, Zhijuan, and Mai, Wenjie

Subjects

*PHOTOELECTRIC devices, *LIGHT emitting diodes, *RED light, *SOLAR cells, *QUANTUM efficiency, *ELECTROLUMINESCENCE

Abstract

Quasi‐two‐dimensional (Q‐2D) Ruddlesden‐Popper (RP) perovskites are rapidly developed for photoelectric device applications due to their unique multiple quantum‐well structures and adjustable photoelectric properties. Here, a three‐in‐one multifunctional photoelectric device that integrates photovoltaic (PV), electroluminescence (EL), and photodetection performance based on Q‐2D perovskite, which has not yet been reported, is explored and realized. As a solar cell (SC) mode under standard air mass 1.5G illumination, the optimal device has a power conversion efficiency (PCE) of 10.36%; as a light emitting diode (LED) mode under forward bias, the optimal device emits red light at 753 nm and achieves an EL external quantum efficiency (EQEEL) of 0.42%; as a photodetector (PD) mode under a pulsed laser (660 nm), the optimal device exhibits superior weak‐light detection, with a linear dynamic range (LDR) improvement as wide as 161.8 dB, a high detectivity (D*) of 7.88 × 1012 Jones, a fast rise/fall time of 19.1/35.2 µs and excellent stability. This work is of great significance to enrich the physical connotation and comprehensively improve the use efficiency of the multifunctional device. [ABSTRACT FROM AUTHOR]

Published

2024

38. Investigating the influence of varied ratios of red and far-red light on lettuce (Lactuca sativa): effects on growth, photosynthetic characteristics and chlorophyll fluorescence.

Author

Xueting Bi, Hong Xu, Chaowei Yang, Haoran Zhang, Wei Li, Wei Su, Mingtao Zheng, and Bingfu Lei

Subjects

RED light, LIGHT sources, LEAF area, CHLOROPHYLL spectra, PHOTOSYNTHETIC pigments, BLUE light, LETTUCE

Abstract

Far red photon flux accelerates photosynthetic electron transfer rates through photosynthetic pigments, influencing various biological processes. In this study, we investigated the impact of differing red and far-red light ratios on plant growth using LED lamps with different wavelengths and Ca1.8Mg1.2Al2Ge3O12:0.03Cr3+ phosphor materials. The control group (CK) consisted of a plant growth special lamp with 450 nm blue light + 650 nm red light. Four treatments were established: F1 (650 nm red light), F2 (CK + 730 nm far-red light in a 3:2 ratio), F3 (650 nm red light + 730 nm far-red light in a 3:2 ratio), and F4 (CK + phosphorconverted far-red LED in a 3:2 ratio). The study assessed changes in red and farred light ratios and their impact on the growth morphology, photosynthetic characteristics, fluorescence characteristics, stomatal status, and nutritional quality of cream lettuce. The results revealed that the F3 light treatment exhibited superior growth characteristics and quality compared to the CK treatment. Notably, leaf area, aboveground fresh weight, vitamin C content, and total soluble sugar significantly increased. Additionally, the addition of far-red light resulted in an increase in stomatal density and size, and the F3 treatments were accompanied by increases in net photosynthetic rate (Pn), transpiration rate (Tr), intercellular CO2 concentration (Ci), and stomatal conductance (Gs). The results demonstrated that the F3 treatment, with its optimal red-to-far-red light ratio, promoted plant growth and photosynthetic characteristics. This indicates its suitability for supplementing artificial light sources in plant factories and greenhouses. [ABSTRACT FROM AUTHOR]

Published

2024

39. Tuning Co‐Operative Energy Transfer in Copper(I) Complexes Using Two‐Photon Absorbing Diimine‐Based Ligand Sensitizers.

Author

Beaucage, Noémie, Singh, Zujhar, Bourdon, Jérémie, and Collins, Shawn K.

Abstract

Photocatalysis mediated by low energy light wavelengths has potential to enable safer, sustainable synthetic methods. A phenanthroline‐derived ligand bathocupSani, with a large two‐photon absorption (TPA) cross section was used to construct a heteroleptic complex [Cu(bathocupSani)(DPEPhos)]BF4 and a homoleptic complex [Cu(bathocupSani)2]BF4. The ligand and the respective homoleptic complex with copper exhibit two‐photon upconversion with an anti‐Stokes shift of 1.2 eV using red light. The complex [Cu(bathocupSani)2]BF4 promoted energy transfer photocatalysis enabling oxidative dimerization of benzylic amines, sulfide oxidation, phosphine oxidation, boronic acid oxidation and atom‐transfer radical addition. [ABSTRACT FROM AUTHOR]

Published

2024

40. Targeted Chemo‐Phototherapy in Red Light with Novel Doxorubicin and Iron(III) Complex‐Functionalized Gold Nanoconjugate (Dox‐Fe@FA‐AuNPs).

Author

Pal, Maynak, Bera, Arpan, Masarkar, Neha, Upadhyay, Aarti, Mukherjee, Sukhes, and Roy, Mithun

Subjects

*RED light, *CANCER cell migration, *DRUG activation, *ANTINEOPLASTIC agents, *GOLD nanoparticles

Abstract

The anticancer efficacy of doxorubicin, an anthracycline‐based and FDA‐approved chemotherapeutic drug, is significantly hindered by acquired chemoresistance and severe side effects despite its potent anticancer properties. To overcome these challenges, we developed an innovative therapeutic formulation that integrates targeted chemotherapy and phototherapy within a single platform using gold nanoparticles (AuNPs). This novel nanoconjugate, designated as Dox‐Fe@FA‐AuNPs, is co‐functionalized with folic acid, doxorubicin, and an iron(III)‐phenolate/carboxylate complex, enabling cancer‐specific drug activation. Here, we report the synthesis, characterization, and comprehensive physico‐chemical and biological evaluations of Dox‐Fe@FA‐AuNPs. The nanoconjugate exhibited excellent solubility, stability, and enhanced cellular uptake in folate receptor‐positive cancer cells. The nanoconjugate was potently cytotoxic against HeLa and MDA‐MB‐231 cancer cells (HeLa: 105.5±16.52 μg mL−1; MDA‐MB‐231: 112.0±12.31 μg mL−1; MDA‐MB‐231 (3D): 156.31±19.35 μg mL−1) while less cytotoxic to the folate(−) cancer cells (MCF‐7, A549 and HepG2). The cytotoxicity was attributed to the pH‐dependent release of doxorubicin, which preferentially occurs in the acidic tumor microenvironment. Additionally, under red light irradiation, the nanoconjugate generated ROS, inducing caspase‐3/7‐dependent apoptosis with a photo‐index (PI) >50, and inhibited cancer cell migration. Our findings underscore the potential of Dox‐Fe@FA‐AuNPs as a highly effective and sustainable platform for targeted chemo‐phototherapy. [ABSTRACT FROM AUTHOR]

Published

2024

41. Cu-doped KTN crystal with controllable, reversible, and fast photochromic properties: A superior electro-optical material for improving beam deflection performance.

Author

Chen, Pan, Wang, Xuping, Liu, Bing, Yan, Liting, Du, Xiaoping, Zhang, Jianwei, and Zhao, Jiguang

Subjects

*RED light, *POTASSIUM niobate, *SINGLE crystals, *VALENCE fluctuations, *CRYSTALS, *DEFLECTION (Mechanics), *ELECTRO-optical effects, *ULTRAVIOLET radiation

Abstract

Improving the deflection performance of a beam deflector is urgently required to acquire optical signals for space laser communication and change the attitude and position of space targets and spacecraft. In this work, a Cu-doped potassium tantalate niobate (Cu-KTN) single crystal with fast photochromic and increased beam deflection properties is synthesized using the top-seeded solution growth method. When a Cu-KTN single crystal is irradiated with 405 nm light or ultraviolet (UV) light, the color changes from pale green to reddish brown. After light irradiation, the color gradually returns to yellowish green. Decolorization is accelerated under irradiation with green light or long-wavelength light, and the color changes to pale green. The origin of reversible photochromism reveals the fast valence change of Cu ions. In addition, ion doping improves the beam deflection angle of the secondary electro-optical effect of Cu-KTN (4.3 mrad, 1000 V) crystal compared with pure KTN (3.2 mrad, 1000 V). This study successfully synthesizes Cu-KTN single crystals with photochromic uses and establishes a new route for beam deflectors with significant deflection angles. Cu-KTN single crystals synthesized using the top-species solution growth method. They are reddish brown under 405 nm light/UV excitation and pale green under green/red light irradiation, exhibiting a controlled and reversible fast photochromic response. Ion doping increases the beam deflection angle of Cu-KTN (4.3 mrad, 1000 V). [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

42. High-efficiency luminescent Eu3+ heavily doped glass prepared from black talc: A promising material for significant applications in W-LED illumination.

Author

Wan, Gan, Yu, Jingbo, Xiao, Zongliang, and Han, Lei

Subjects

*LUMINESCENCE, *RED light, *TALC, *GLASS, *QUANTUM efficiency, *REFRACTIVE index, *PHOSPHATE glass

Abstract

As a distinguished luminescent matrix, rare earth (RE)-doped glass has garnered considerable attention across lighting, display, laser, and related domains. Nonetheless, the limited luminescent efficiency of such glass imposes constraints on its extensive utilization. In addressing this challenge, we have developed a novel formulation involving heavily Eu3+-doped black talc glass, boasting exceptional optical characteristics. Structural examination has validated the successful synthesis of the parent glass matrix comprising [SiO 4 ] and [AlO 4 ] units. With the escalating of Eu3+ doping concentrations, the glass manifested an upward trend in both density and refractive index. Under the excitation of 393 nm light, the glass exhibited strong red light emission, demonstrating a high internal quantum efficiency (IQE) of up to 84.67 %, surpassing markedly other Eu3+-doped glass variants. Furthermore, even under elevated temperatures reaching 150 °C, the glass retained 86.2 % of its luminescent intensity at room temperature, indicative of superior thermal resilience vis-à-vis alternative glass systems. As a proof-of-concept, we encapsulated a white light-emitting diode (W-LED) assembly employing a 395 nm LED chip, Eu3+-doped glass, BaMgAl 10 O 17 :Eu2+ blue phosphor, and Ba 2 SiO 4 :Eu2+ green phosphor. The resultant device exhibited favorable chromaticity coordinates (0.3566, 0.3994), boasting a correlated color temperature (CCT) of 4791K and a high color rendering index (CRI) of 91. In summary, this investigation employs black talc ore to synthesize luminescent glass, thereby not only diversifying the application scope of black talc but also augmenting its additional value, while notably enhancing the luminescent efficiency of the glass through heavy Eu3+ doping. Through empirical validation, the significant potential benefits of Eu3+-doped black talc glass in the realm of W-LED lighting were convincingly demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

43. Enhancing luminescence performance via adjusting the doping concentration and boron aluminum ratio in Dy3+ -activated barium-boroaluminosilicate glasses for laser and W-LED applications.

Author

Li, Yongtao, Wu, Chuhan, Chen, Jie, Gao, Yusheng, Zhang, Xuejian, Pang, Kaige, Qi, Haina, Li, Jiao, Liu, Huisheng, Sun, Xinran, and Mahadevan, C.K.

Subjects

*RED light, *DOPING agents (Chemistry), *LUMINESCENCE, *BLUE light, *BAND gaps, *BORON, *METALLIC glasses, *AUTORADIOGRAPHY

Abstract

A series of barium-boroaluminosilicate [30SiO 2 -11Al 2 O 3 -44B 2 O 3 -5BaO-(10-x)K 2 O-xDy 2 O 3 (with x = 0.25, 0.5, 0.75, 1.0, 1.25, 1.5 mol%)] glasses doped with Dy3+ ions were prepared by the high temperature (melt quenching) method. In the glass matrix, the relationship among structure, luminescence properties, and B/Al ratio was analyzed; also studied are the physical properties of glass and influence of Dy3+ concentration on the luminescence properties. Differential Scanning Calorimeter (DSC) results have shown the glass matrix exhibiting good thermal stability and high resistance to crystallization. FTIR and Raman spectra have confirmed the presence of stretching and bending vibrations of [BO 3 ], [AlO 4 ] and [SiO 4 ] structural units in the prepared glass. The observed UV–Vis–NIR spectra have indicated that the existence of thirteen bands corresponding to the transition Dy3+ ions from 6H 15/2 level to different excited levels; the transmittance curves obtained have shown the transmittance up to 91 %. Increase in Dy3+ concentration is found to decrease the optical band gap; the calculated Judd-Oflet parameter is found to follow the trend Ω 2 ＞Ω 4 ＞Ω 6. Photoluminescence studies have shown three emission peaks which could be associated to the transitions: 4F 9/2 → 6H 15/2 (blue light), 4F 9/2 → 6H 13/2 (yellow light), and 4F 9/2 → 6H 11/2 (red light); the maximum intensity obtained for the glass with x = 0.75 mol%, with spacing between Dy3+ ions being 1.9137 Å; and the decay curve could be fitted with double exponential function. The CIE results have revealed that the chromaticity coordinates are closer to that of standard white light, and the color temperature located in the region of cold white light. [ABSTRACT FROM AUTHOR]

Published

2024

44. Comparative Study of Impact of Gamma and MeV Ion Irradiations on Electrical and Optical Properties Polystyrene/Eu2O3 Nanocomposites.

Author

Bhavsar, Shilpa, Singh, N. L., and Murthy, K. V. R.

Subjects

*RED light, *POLYMERIC nanocomposites, *RARE earth oxides, *ION beams, *BAND gaps

Abstract

In the present study, the effect of gamma irradiation and 90 MeV carbon ion beam irradiation on electrical properties and optical of Polystyrene/Eu2O3 nanocomposites at different fluences were examined. Modified electrical and optical responses of polymer nanocomposites were investigated using Impedance, Photoluminescence and UV-VIS spectroscopies. FTIR analysis shows a reduction of various modes of molecular vibrations caused by 90 MeV carbon ion beam irradiation. The polymer nanocomposites change into a graphite-like structure upon both kinds of irradiations as evidenced by the decrease in the optical band gap. The photoluminescence emission spectra show three characteristic peaks of Eu3+ ions, when excited at 247 nm wavelength. It emits intense red light suggesting its potential for usage in LED technology. The peak intensity of PL emission spectra is enhanced after ion beam irradiation and is because of the formation new radiative combination; however, it decreases upon gamma irradiation. Dielectric responses of pristine and irradiated polymer nanocomposites were studied over the frequency range of 100 Hz to 100 kHz using LCR meter. There appears a significant improvement in the dielectric response as a result of structural changes in both types of irradiations. AFM images show that the film becomes smoother upon both types of irradiations. [ABSTRACT FROM AUTHOR]

Published

2024

45. Self-Assembled Nanoparticles of Silicon (IV)–NO Donor Phthalocyanine Conjugate for Tumor Photodynamic Therapy in Red Light.

Author

Aikelamu, Kadireya, Bai, Jingya, Zhang, Qian, Huang, Jiamin, Wang, Mei, and Zhong, Chunhong

Subjects

*RED light, *PHOTODYNAMIC therapy, *PRECIPITATION (Chemistry), *REACTIVE oxygen species, *PHOTOTHERAPY

Abstract

The combination of photodynamic therapy (PDT) and pneumatotherapy is emerging as one of the most effective strategies for increasing cancer treatment efficacy while minimizing side effects. Photodynamic forces affect nitric oxide (NO) levels as activated photosensitizers produce NO, and NO levels in the tumor and microenvironment directly impact tumor cell responsiveness to PDT. In this paper, 3-benzenesulfonyl-4-(1-hydroxy ether)-1,2,5-oxadiazole-2-oxide NO donor–silicon phthalocyanine coupling (SiPc–NO) was designed and prepared into self-assembled nanoparticles (SiPc–NO@NPs) by precipitation method. By further introducing arginyl-glycyl-aspartic acid (RGD) on the surface of nanoparticles, NO-photosensitizer delivery systems (SiPc–NO@RGD NPs) with photo-responsive and tumor-targeting properties were finally prepared and preliminarily evaluated in terms of their formulation properties, NO release, and photosensitizing effects. Furthermore, high reactive oxygen species (ROS) generation efficiency and high PDT efficiency in two breast cancer cell lines (human MCF-7 and mouse 4T1) under irradiation were also demonstrated. The novel SiPc–NO@RGD NPs show great potential for application in NO delivery and two-photon bioimaging-guided photodynamic tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2024

46. Low‐symmetry A3B‐type 6H‐1,4‐diazepinoporphyrazines with anti‐Kasha effect as promising photosensitizers.

Author

Tarakanov, Pavel A., Neganova, Margarita E., Mishchenko, Denis V., Bondarenko, Sergey D., Sergeeva, Irina A., Krot, Aleksey R., Goryachev, Nikolay S., Simakov, Anton O., Kukharsky, Michail S., Pukhov, Sergey A., and Pushkarev, Victor E.

Subjects

*RED light, *MORPHOLOGY, *CYTOTOXINS, *ERYTHROCYTES, *BIOLOGICAL models

Abstract

A series of tribenzo[g,l,q]‐6H‐1,4‐diazepino[2,3‐b]porphyrazines has been synthesized. A temperature‐dependent steric effect was applied in the mixed Linstead macrocyclization of phthalonitrile and 5,7‐bis(2′‐arylethenyl)‐6‐propyl‐6H‐1,4‐diazepine‐2,3‐dicarbonitrile to achieve high yield of low‐symmetry A3B‐type Mg(II) tribenzo[g,l,q]‐6H‐1,4‐diazepino[2,3‐b]porphyrazinate. The analysis of photophysical and photochemical properties of the obtained complexes showed the anti‐Kasha effect: the ultrafast spin changes successfully compete with the IC. TD‐DFT calculations showed that the presence of 1,4‐diazepine heterocycle in the porphyrazine structure leads to the formation of additional charge‐transfer triplet state T2. We propose, it could participate in the pumping of T1x state alongside with T1y state (these states are degenerate in D4h symmetry) and, therefore, increase singlet oxygen (1Δg) generation. Stable micellar nanoparticles have been obtained based on the tribenzo[g,l,q]‐6H‐1,4‐diazepino[2,3‐b]porphyrazine Mg(II) and Zn(II) complexes using polyvinylpyrrolidone. The nanoparticles effectively interact with model biological structures (FBS and brain homogenate), leading to disaggregation of the macrocycles. They also exhibit pronounced phototoxic effects in MCF‐7 cells upon red light irradiation. We propose that enhancement in PDT activity could be explained by their increased resistance to aggregation due to the presence of n‐propyl substituent directly attached to the C6 position of the 1,4‐diazepine moiety. The demonstrated results show the promising potential of tribenzo‐6H‐1,4‐diazepinoporphyrazines as heavy atom‐free photosensitizers. [ABSTRACT FROM AUTHOR]

Published

2024

47. Red and near-infrared light-activated photoelectrochemical nanobiosensors for biomedical target detection.

Author

Monsalve, Yeison, Cruz-Pacheco, Andrés F., and Orozco, Jahir

Subjects

*TRANSITION metal chalcogenides, *CHARGE transfer, *SIGNAL-to-noise ratio, *NANOSTRUCTURED materials, *METALLIC oxides, *QUANTUM dots

Abstract

Photoelectrochemical (PEC) nanobiosensors integrate molecular (bio)recognition elements with semiconductor/plasmonic photoactive nanomaterials to produce measurable signals after light-induced reactions. Recent advancements in PEC nanobiosensors, using light-matter interactions, have significantly improved sensitivity, specificity, and signal-to-noise ratio in detecting (bio)analytes. Tunable nanomaterials activated by a wide spectral radiation window coupled to electrochemical transduction platforms have further improved detection by stabilizing and amplifying electrical signals. This work reviews PEC biosensors based on nanomaterials like metal oxides, carbon nitrides, quantum dots, and transition metal chalcogenides (TMCs), showing their superior optoelectronic properties and analytical performance for the detection of clinically relevant biomarkers. Furthermore, it highlights the innovative role of red light and NIR-activated PEC nanobiosensors in enhancing charge transfer processes, protecting them from biomolecule photodamage in vitro and in vivo applications. Overall, advances in PEC detection systems have the potential to revolutionize rapid and accurate measurements in clinical diagnostic applications. Their integration into miniaturized devices also supports the development of portable, easy-to-use diagnostic tools, facilitating point-of-care (POC) testing solutions and real-time monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

48. Shedding the Light on Powdery Mildew: The Use of Optical Irradiation in Management of the Disease.

Author

Suthaparan, Aruppillai and Stensvand, Arne

Abstract

Ultraviolet (UV) irradiation below 300 nm may control powdery mildew in numerous crops. Depending on disease pressure, wavelength, and crop growth stage, one to three applications of 100–200 J/m2 per week at night are as effective or better than the best fungicides. Higher doses may harm the plants and reduce yields. Although red light alone or in combination with UV has a suppressive effect on powdery mildew, concomitant or subsequent exposure to blue light or UV-A strongly reduces the efficacy of UV treatments. To be effective, direct exposure of the pathogen/infection sites to UV/red light is important, but there are clear indications for the involvement of induced resistance in the host. Other pathogens and pests are susceptible to UV, but the effective dose may be phytotoxic. Although there are certain limitations, this technology is gradually becoming more used in both protected and open-field commercial production systems. [ABSTRACT FROM AUTHOR]

Published

2024

49. Integrative analysis of transcriptome and phytohormones reveals new genes network involved in shoot apical meristem development in maize under blue and red light.

Author

Zhang, Xiwen and Liu, Tiedong

Subjects

*BLUE light, *GENE expression, *ALTERNATIVE RNA splicing, *CARBON 4 photosynthesis, *DNA replication, *GENE regulatory networks

Abstract

• 1063 differentially expressed genes mainly annotated by photosynthesis, DNA replication and carbon metabolism. • 45 phytohormones, including ABA, auxin, CK, ETH, GA, JA, and SA were effective expression. • IAA-Glc, IAA-Glu, TRP, mT9G, and GA53 show the strongest correlation with ssu1, ssu2, pep1, me3 , and hsp90. • The putatively Ribosomal L 18p/L5e gene was identified. Blue and red light play a significant role in regulating transcriptional expression, phytohormone levels, and gene signal network reconstruction in the shoot apical meristem. To further elucidate the effects of red and blue light on transcriptional characteristics and phytohormone expression, and to explore signaling pathways and novel genes, we conducted comparative experiments under different light quality treatments. The results are as follows: a total of 22,327 genes were found to be effectively expressed, with a considerable number of alternative splicing events occurring concurrently. Furthermore, 1063 differentially expressed genes were identified, primarily associated with transcriptional variations resulting from the transition from blue light to red light. These differentially expressed genes are predominantly involved in KEGG annotations related to photosynthesis, DNA replication and carbon metabolism. The findings from targeted metabolism analysis reveal significant variations in 45 phytohormones, including ABA, auxin, CK, ETH, GA, JA, and SA. Correlation analysis between transcription and metabolism further indicates that IAA.Glc, IAA.Glu, TRP, mT9G, and GA53 show the strongest correlation with differentially expressed genes, with genes ssu1, ssu2, pep1, me3 , and hsp90 displaying a significant relationship. Additionally, in the protein–protein interaction network, three novel genes (LOC100286132, LOC100510780 , and LOC103653934) were identified as significant responding to the regulation of blue and red light. Following protein function analysis, the proteins were provisionally identified as ubiquitin conjugating enzyme-like, OXIDATIVE STRESS 3LIKE 2-like, and Ribosomal L 18p/L5e, respectively. Conclusively, it is depicted that the most significant impact of transitions between red light, blue light, and two light qualities lies in the transcriptional process of shot apical meristem of the C4 plant maize. This process is intricately linked to nitrogen availability, carbon dioxide assimilation capacity, and the stimulatory effects of auxin, cytokinin, and gibberellin. The expression of the putative L 18/L5e in blue and BTR light conditions may enhance transcript and synthesis capabilities of ribosome. [ABSTRACT FROM AUTHOR]

Published

2024

50. Influence of light-emitting diodes (LEDs) on the 2,4-diclorophenoxyacetic acid phytoremediation by plectranthus neochilus.

Author

Sigal Carriço, Murilo Ricardo, Diaz Rodrigues, Marina, Piaia Ramborger, Bruna, Cristofari Gayer, Mateus, Kanaan, Samia Hassan Husein, Moreira Farias, Fabiane, Gasparotto Denardin, Elton Luis, and Roehrs, Rafael

Subjects

*RED light, *LIGHT emitting diodes, *POLLUTANTS, *BLUE light, *PHYTOREMEDIATION

Abstract

2,4-Dichlorophenoxyacetic acid (2,4-D) is an herbicide widely used in crops against broadleaf weeds. However, 2,4-D residues are considered an environmental pollutant in bodies of water. Phytoremediation with Plectranthus neochilus is a substantial strategy to remove 2,4-D from the aquatic environment. The objective of this study was to verify the efficiency of the association of the photostimulus by Light Emitting Diodes (LED) with P. neochilus to improve phytoremediation of 2,4-D in water. Phytoremediation was evaluated with the following samples: natural light, white LED, blue LED, and red LED, with and without the plant as controls. The data corresponding to the validation of the method were in accordance with the required parameters: R2: 0.9926; RSD: 1.74%; LOD: 0.075 mg.L−1; LOQ: 0.227 mg.L−1 and recovery by SPE was 76.57%. The efficiency of the association of LED with P. neochilus in the 28 days was: ambient light + plant (47.0%); white light + plant (37.10%); blue light + plant (26.80%); red light + plant (3.32%). This study demonstrated, for the first time, the efficiency of using LEDs light in association with P. neochilus for the phytoremediation of 2,4-D in water. NOVELTY STATEMENTS: Phytoremediation of organic compounds in water is a time-consuming process and generally unfavorable to the plant. This study demonstrated that the photostimulation with blue and red LED lights can accelerate the phytoremediation of the herbicide by P. neochilus, decreasing the t1/2 of 2,4-D in water by 2 and 5 times, respectively. We equate the time of this process to physical-chemical degradation methods, but without the use of reagents, creating a green strategy to accelerate the decontamination of water resources contaminated with pesticides. [ABSTRACT FROM AUTHOR]

Published

2024