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Journal of Biophotonics May 2024Light exposure has been proven to have a significant impact on human health. As a result, researchers are increasingly exploring its potential benefits and drawbacks.... (Review)
Review
Light exposure has been proven to have a significant impact on human health. As a result, researchers are increasingly exploring its potential benefits and drawbacks. With advancements in understanding light and the manufacturing of light sources, modern health lighting has become widely utilized in daily life and plays a critical role in the prevention and treatment of various illnesses. The use of light in healthcare is a global trend, with many countries actively promoting the development and application of relevant scientific research and medical technology. This field has gained worldwide attention and support from scientists and doctors alike. In this review, we examine the application of lighting in human health and recent breakthroughs in light exposure related to pathology, therapeutic strategies, molecular changes, and more. Finally, we also discuss potential future developments and areas of application.
Topics: Humans; Light; Health; Phototherapy; Lighting
PubMed: 38576140
DOI: 10.1002/jbio.202400023 -
Scientific Reports Jul 2023We assessed the effectiveness of light-guided-tip intense pulsed light (IPL) with meibomian gland expression (MGX) in chalazion treatment. Ninety-five eyes with...
We assessed the effectiveness of light-guided-tip intense pulsed light (IPL) with meibomian gland expression (MGX) in chalazion treatment. Ninety-five eyes with chalazion received a light-guided-tip IPL-MGX treatment (IPL-MGX group), and another 95 eyes with chalazion received incision with curettage treatment (Control group). Prior to IPL or incision, as well as 1 month after the final treatment, data were gathered pertaining to the lesion location and size, hyperemia, lesions regression or recurrence, and a comprehensive ophthalmic examination. The total size of the chalazia in the IPL-MGX group was significantly reduced after the final treatment, with an average resolution rate of 70.5%, which is comparable to excision surgery. A significant decrease in chalazion recurrence rate was apparent after treatment in the IPL-MGX group compared with control. Moreover, the IPL-MGX demonstrated significant advancements throughout noninvasive tear film breakup time (NIBUT) as well as meibum grade in comparison to baseline and those in the the Control group. The use of IPL-MGX was found to be an efficient therapy for reducing the size and recurring frequency of chalazia, as well as for improving the meibomian gland function. It may be considered as a first-line treatment for cases of primary or recurrent chalazia with inflammation.
Topics: Humans; Chalazion; Meibomian Glands; Phototherapy; Intense Pulsed Light Therapy; Tears; Ascomycota; Dry Eye Syndromes
PubMed: 37524772
DOI: 10.1038/s41598-023-39332-x -
Lasers in Medical Science Jul 2023Hair removal with lasers and intense pulsed light (IPL) is considered safe. However, data on the efficacy and safety of these procedures specifically in the pediatric...
Hair removal with lasers and intense pulsed light (IPL) is considered safe. However, data on the efficacy and safety of these procedures specifically in the pediatric population remain sparse. To determine the efficacy and safety of lasers and IPL for hair reduction in children and adolescents, a systematic review was conducted of original studies evaluating hair removal with lasers or IPL in patients aged less than 18 years. Primary outcome measures were efficacy and safety of treatment. The literature review yielded 2 retrospective cohort studies and 11 case reports/case series including a total of 71 patients aged 9 months to 17 years. Diagnoses ranged from localized lumbosacral to generalized hypertrichosis. Six treatment modalities were evaluated: alexandrite, Nd:YAG, Q-switched Nd:YAG, ruby, and diode lasers and IPL. Only one of the cohort studies (n = 28), using the ruby laser, provided efficacy data. The results showed a 63% hair loss in 89% of patients after completion of treatment, although partial regrowth was evident during 6 to 32 weeks of follow-up. Most of the case reports and case series (10/11) reported significant hair reduction following laser and IPL treatments. None of the patients experienced scarring or dyspigmentation. Some kind of pain management was necessary in 65% of patients; 25% required general anesthesia. On the basis of the limited available data which consisted primary of case reports and case series, lasers and IPL might be effective for pediatric hair reduction. Recurrence following treatment may be higher in children than adults, and pain control may be a limiting factor.
Topics: Adult; Adolescent; Humans; Child; Hair Removal; Retrospective Studies; Phototherapy; Hair; Laser Therapy; Lasers, Solid-State; Treatment Outcome
PubMed: 37402025
DOI: 10.1007/s10103-023-03821-2 -
ACS Nano Oct 2023Low-temperature photothermal therapy (PTT) is a noninvasive method that harnesses the photothermal effect at low temperatures to selectively eliminate tumor cells, while...
Low-temperature photothermal therapy (PTT) is a noninvasive method that harnesses the photothermal effect at low temperatures to selectively eliminate tumor cells, while safeguarding normal tissues, minimizing thermal damage, and enhancing treatment safety. First we evaluated the transcriptome of tumor cells at the gene level following low-temperature treatment and observed significant enrichment of genes involved in cell cycle and heat response-related signaling pathways. To address this challenge, we have developed an engineering multifunctional nanoplatform that offered an all-in-one strategy for efficient sensitization of low-temperature PTT. Specifically, we utilized MoS nanoparticles as the photothermal core to generate low temperature (40-48 °C). The nanoplatform was coated with DPA to load CPT-11 and Fe and was further modified with PEG and iRGD to enhance tumor specificity (MoS/Fe@CPT-11-PEG-iRGD). Laser- and acid-triggered release of CPT-11 can significantly increase intracellular HO content, cooperate with Fe ions to increase intracellular lipid ROS content, and activate ferroptosis. Furthermore, CPT-11 induced cell cycle arrest in the temperature-sensitive S-phase, and increased lipid ROS levels contributed to the degradation of HSPs protein expression. This synergistic approach could effectively induce tumor cell death by the sensitized low-temperature PTT and the combination of ferroptosis and chemotherapy. Our nanoplatform can also maximize tumor cell eradication and prolong the survival time of tumor-bearing mice in vivo. The multifunctional approach will provide more possibilities for clinical applications of low-temperature PTT and potential avenues for the development of multiple tumor treatments.
Topics: Animals; Mice; Temperature; Photothermal Therapy; Irinotecan; Molybdenum; Reactive Oxygen Species; Hydrogen Peroxide; Neoplasms; Nanoparticles; Lipids; Phototherapy; Cell Line, Tumor
PubMed: 37838975
DOI: 10.1021/acsnano.3c05991 -
Nano Letters Sep 2023Although gene therapy has shown prospects in treating triple-negative breast cancer, it is insufficient to treat such a malignant tumor. Herein, nanoparticles...
Although gene therapy has shown prospects in treating triple-negative breast cancer, it is insufficient to treat such a malignant tumor. Herein, nanoparticles (NPs)-embedded dissolving microneedles (IR780-PL/pFBXO44@MNs) with steerable and flectional property were developed to achieve the codelivery of FBXO44-targeted CRISPR/Cas9 plasmids (pFBXO44) and hydrophobic photosensitizers. For improved NP penetration in tumor tissue, collagenase@MNs were preapplied to degrade the tumor matrix. Under light irradiation, IR780 exhibited remarkable phototherapy, while the escape efficiency of NPs from lysosomes was improved. pFBXO44 was subsequently released in tumor cell cytoplasm via reducing the disulfide bonds of NPs, which could specifically knock out the gene to inhibit the migration and invasion of tumor cells. As a result, tumor cells were eradicated, and lung metastasis was effectively suppressed. This micelle-incorporated microneedle platform broadens the potential of combining gene editing and photo synergistic cancer therapy.
Topics: Photosensitizing Agents; CRISPR-Cas Systems; Combined Modality Therapy; Phototherapy; Lysosomes; Neoplasms
PubMed: 37595030
DOI: 10.1021/acs.nanolett.3c01914 -
Polydopamine nanomaterials and their potential applications in the treatment of autoimmune diseases.Drug Delivery Dec 2023The conventional treatment methods used for the management of autoimmune diseases (ADs) have limited efficacy and also exhibit significant side effects. Thus,... (Review)
Review
The conventional treatment methods used for the management of autoimmune diseases (ADs) have limited efficacy and also exhibit significant side effects. Thus, identification of novel strategies to improve the efficacy and safety of ADs treatment is urgently required. Overactivated immune response and oxidative stress are common characteristics associated with ADs. Polydopamine (PDA), as a polymer material with good antioxidant and photothermal conversion properties, has displayed useful application potential against ADs. In addition, PDA possesses good biosafety, simple preparation, and easy functionalization, which is conducive for the pharmacological development of PDA nanomaterials with clinical transformation prospects. Here, we have first reviewed the preparation of PDA, the different functional integration strategies of PDA-based biomaterials, and their potential applications in ADs. Next, the mechanism of action of PDA in ADs has been elaborated in detail. Finally, the application opportunities and challenges linked with PDA nanomaterials for ADs treatment are discussed. This review is contributed to design reasonable and effective PDA nanomaterials for the diagnosis and treatment of ADs.
Topics: Nanostructures; Indoles; Polymers; Phototherapy
PubMed: 38069584
DOI: 10.1080/10717544.2023.2289846 -
Archives of Dermatological Research Dec 2023Phototherapy and photodynamic therapy (PDT) are ultraviolet light (UV) based therapies for patients with skin diseases, and are sometimes associated with potential...
INTRODUCTION
Phototherapy and photodynamic therapy (PDT) are ultraviolet light (UV) based therapies for patients with skin diseases, and are sometimes associated with potential adverse events (AE)s, including erythema, pain, pruritus, burns, and photoaging.
METHODS
We investigated UV phototherapy and PDT safety using the United States (US) Food and Drug Administration's (FDA)'s Manufacturer and User Facility Device Experience (MAUDE) database. The MAUDE database, including medical device reports (MDR)s informed by voluntary and obligatory reporters since 1991, was searched for AEs associated with UV phototherapy and PDT 1/1/91-3/1/23.
RESULTS
There were 59 UV phototherapy and 33 PDT related MDRs. Burns were the most common AE type for both phototherapy and PDT. The majority of phototherapy AEs occurred during 2021 (52.3%), and were significantly more likely to occur at home than in the clinic. Overall, 76.1% of MDRs associated with home light boxes were prescribed by online retailers, most of the MDRs (59.3%) mentioned that it is prohibited to sell phototherapy devices not prescribed by physicians, and only 8.5% noted poorly written home light box instructions.
DISCUSSION
The COVID-19 pandemic prohibited in-person light treatments, and social distancing requirements may have resulted in increased frequency of home-based light treatments. Hence, while at home treatment may be easier and more accessible, in-office physician supervised UV treatments are associated with less frequent AEs. Moreover, some phototherapy MDRs reported poorly written instructions accompanying the home light box, and some PDT MDRs documented patients receiving inadequate education regarding the procedure. With the rise of at-home treatment options and the ease of obtaining devices on the internet, it is physicians' duty to advise patients against self-treating with home light boxes without prescribed treatment regimens and educate patients that are considering home phototherapy to ensure safer patient experiences.
Topics: Humans; Pandemics; Retrospective Studies; Phototherapy; Burns; Photochemotherapy
PubMed: 38108883
DOI: 10.1007/s00403-023-02765-5 -
Acta Biomaterialia Jan 2024Phototherapy, such as photothermal therapy (PTT) and photodynamic therapy (PDT), has been considered an elegant solution to eradicate tumors due to its minimal... (Review)
Review
Phototherapy, such as photothermal therapy (PTT) and photodynamic therapy (PDT), has been considered an elegant solution to eradicate tumors due to its minimal invasiveness and low systemic toxicity. Nevertheless, it is still challenging for phototherapy to achieve ideal outcomes and clinical translation due to its inherent drawbacks. Owing to the unique biological functions, diverse gases have attracted growing attention in combining with phototherapy to achieve super-additive therapeutic effects. Specifically, gases such as nitric oxide (NO), carbon monoxide (CO), and hydrogen sulfide (HS) have been proven to kill tumor cells by inducing mitochondrial damage in synergy with phototherapy. Additionally, several gases not only enhance the thermal damage in PTT and the reactive oxygen species (ROS) production in PDT but also improve the tumor accumulation of photoactive agents. The inflammatory responses triggered by hyperthermia in PTT are also suppressed by the combination of gases. Herein, we comprehensively review the latest studies on gas-synergized phototherapy for cancer therapy, including (1) synergistic mechanisms of combining gases with phototherapy; (2) design of nanoplatforms for gas-synergized phototherapy; (3) multimodal therapy based on gas-synergized phototherapy; (4) imaging-guided gas-synergized phototherapy. Finally, the current challenges and future opportunities of gas-synergized phototherapy for tumor treatment are discussed. STATEMENT OF SIGNIFICANCE: 1. The novelty and significance of the work with respect to the existing literature. (1) Strategies to design nanoplatforms for gas-synergized anti-tumor phototherapy have been summarized for the first time. Meanwhile, the integration of various imaging technologies and therapy modalities which endow these nanoplatforms with advanced theranostic capabilities has been summarized. (2) The mechanisms by which gases synergize with phototherapy to eradicate tumors are innovatively and comprehensively summarized. 2. The scientific impact and interest. This review elaborates current trends in gas-synergized anti-tumor phototherapy, with special emphases on synergistic anti-tumor mechanisms and rational design of therapeutic nanoplatforms to achieve this synergistic therapy. It aims to provide valuable guidance for researchers in this field.
Topics: Humans; Precision Medicine; Phototherapy; Gases; Neoplasms; Combined Modality Therapy; Photochemotherapy; Nanoparticles; Cell Line, Tumor
PubMed: 38092250
DOI: 10.1016/j.actbio.2023.12.012 -
Advanced Healthcare Materials Oct 2023The recurrence and metastasis of colorectal cancer (CRC) have been considered as a severe challenge in clinical treatment. Recent studies have demonstrated that matrix...
The recurrence and metastasis of colorectal cancer (CRC) have been considered as a severe challenge in clinical treatment. Recent studies have demonstrated that matrix metalloproteinases (MMPs) and lactate can promote local tumor angiogenesis, recurrence, and metastasis. The expression of MMPs is highly dependent on energy metabolism, and lactate is considered an alternative energy source for tumor proliferation and metastasis. Therefore, using a rational approach, a photothermal-starvation therapy nanomodulator that can reduce energy metabolism to suppress CRC recurrence and metastasis is designed. To design a suitable nanomodulator, glucose oxidase (GOX), indocyanine green (IR820), and α-cyano-4-hydroxycinnamic acid (CHC) into nanoparticles by a coassembly method are combined. The photothermal properties of IR820 provide the appropriate temperature and oxygen supply for the enzymatic reaction of GOX to promote intracellular glucose consumption. CHC inhibits the expression of monocarboxylate transporter 1 (MCT1), the transporter of lactic acid into cells, and also reduces oxygen consumption and promotes the GOX reaction. Additionally, altering adenosine triphosphate synthesis to block heat shock proteins expression can be an effective means to prevent IR820-mediated photothermal therapy resistance. Thus, this dual photothermal-starvation therapy nanomodulator efficiently suppresses the recurrence and metastasis of CRC by depleting intracellular nutrients.
Topics: Humans; Phototherapy; Photothermal Therapy; Neoplasms; Nanoparticles; Energy Metabolism; Lactates; Matrix Metalloproteinases; Colorectal Neoplasms; Cell Line, Tumor; Glucose Oxidase
PubMed: 37543843
DOI: 10.1002/adhm.202300968 -
Acta Biomaterialia Aug 2023Immune checkpoint blockade (ICB) therapy has shown great potential in the treatment of malignant tumors, but its therapeutic effect on glioblastoma (GBM) is...
Immune checkpoint blockade (ICB) therapy has shown great potential in the treatment of malignant tumors, but its therapeutic effect on glioblastoma (GBM) is unsatisfactory because of the low immunogenicity and T cell infiltration, as well as the presence of blood-brain barrier (BBB) that blocks most of ICB agents to the GBM tissues. Herein, we developed a biomimetic nanoplatform of AMNP@CLP@CCM for GBM-targeted photothermal therapy (PTT) and ICB synergistic therapy by loading immune checkpoint inhibitor CLP002 into the allomelanin nanoparticles (AMNPs) and followed by coating cancer cell membranes (CCM). The resulting AMNP@CLP@CCM can successfully cross the BBB and deliver CLP002 to GBM tissues due to the homing effect of CCM. As a natural photothermal conversion agent, AMNPs are used for tumor PTT. The increased local temperature by PTT not only enhances BBB penetration but also upregulates the PD-L1 level on GBM cells. Importantly, PTT can effectively stimulate immunogenic cell death to induce tumor-associated antigen exposure and promote T lymphocyte infiltration, which can further amplify the antitumor immune responses of GBM cells to CLP002-mediated ICB therapy, resulting in significant growth inhibition of the orthotopic GBM. Therefore, AMNP@CLP@CCM has great potential for the treatment of orthotopic GBM by PTT and ICB synergistic therapy. STATEMENT OF SIGNIFICANCE: The effect of ICB therapy on GBM is limited by the low immunogenicity and insufficient T-cell infiltration. Here we developed a biomimetic nanoplatform of AMNP@CLP@CCM for GBM-targeted PTT and ICB synergistic therapy. In this nanoplatform, AMNPs are used as both photothermal conversion agents for PTT and nanocarriers for CLP002 delivery. PTT not only enhances BBB penetration but also upregulates the PD-L1 level on GBM cells by increasing local temperature. Additionally, PTT also induces tumor-associated antigen exposure and promotes T lymphocyte infiltration to amplify the antitumor immune responses of GBM cells to CLP002-mediated ICB therapy, resulting in significant growth inhibition of the orthotopic GBM. Thus, this nanoplatform holds great potential for orthotopic GBM treatment.
Topics: Humans; Phototherapy; B7-H1 Antigen; Melanins; Glioblastoma; Biomimetics; Immunotherapy; Nanoparticles; Cell Line, Tumor
PubMed: 37236575
DOI: 10.1016/j.actbio.2023.05.037