Influence of hematoporphyrin derivative concentration, incubation time, temperature during incubation and laser dose fractionation on photosensitivity of normal hemopoietic progenitors or leukemic cells

Photodynamic therapy represents a new approach for the local control of cancers. It has recently been claimed that photodynamic therapy mediated by hematoporphyrin derivative (HPD) is selectively more efficient for killing leukemic cells than normal progenitors. To improve this effect, we studied the influence of hematoporphyrin dose, temperature during incubation and/or treatment, hematoporphyrin derivative incubation time, and fractionation of the argon laser light (488-514 nm) used for hematoporphyrin stimulation. Plating efficiency calculated after a 7-day period of growth on collagen gel medium showed a dose-dependent phototoxicity of HPD reaching 0.01% for normal hemopoietic progenitors and 0.001% for leukemic cells (dose = 12.5 micrograms/ml). The 10:1 ratio of normal hemopoietic progenitors to leukemic cells was also found to be the same or increased when temperature was 37 degrees C during incubation and 4 degrees C during laser irradiation. Similar results were also found when incubation time was varied from 75-120 min, or when laser irradiation dose was fractionated into 2 or 3 periods. The ratio of normal progenitors to leukemic cells reached 100:1 when 75 J/cm2 were fractionated into 3 periods after an incubation time of 120 min with 10 micrograms/ml HPD. Selectivity in photodynamic treatment seems to occur between normal hemopoietic progenitors and leukemic cells. The mechanism of this selectivity remains unclear, but experiments with the fractionated irradiation dose suggest that as in radiotherapy, better potentially lethal damage repair in normal cells could be a factor for selectivity in photodynamic therapy. Our results obtained with leukemic cells are fully in agreement with data in the literature concerning similar experimental models.     

Effect of low-power red light laser irradiation on the viability of human skin fibroblast

Human skin fibroblast monolayers (S-126 cell line) were exposed to laser radiation (wavelength 670 nm, power density 40 mW/cm²). The energy densities were 2 J/cm² and 12 J/cm², respectively, and the irradiation was carried out at a temperature of 22°C. For fibroblast viability evaluation, the colorimetric assay (conversion of thiazolyl blue to formazan) was used. The experiments were carried out at 37°C, in the presence of 5% CO₂, and at different time periods of incubation after irradiation (2, 4, 8 h and 1, 2, 3, 4, 5 days). The results indicated that there was a certain stimulating effect on the long-term proliferation of skin fibroblasts and that the stimulation proceeded in two stages, the first one 2 h and the second one 3 days post-irradiation. Received 7 January 1998 / Accepted in revised form: 11 June 1998     

A study of the effect of low-intensity laser radiation of the blue, green, and red spectral regions on the healing of experimental skin wounds in rats

The effect of low-intensity laser radiation of the blue (441.2 nm), green (532 nm), and red (632.8 nm) spectral regions on the healing of experimental skin wounds in rats has been studied. The effect of the traditionally applied laser radiation in the red region has been compared with the effect of laser radiation in the other spectral regions, assuming that, upon irradiation of wounds by lasers emitting in the blue and green regions, a similar effect can be achieved at lower doses. The following parameters characterizing the healing of experimental wounds were used: the functional activity of phagocytes of wound exudates, which was determined by luminol-dependent chemiluminescence, and their number; the antioxidant activity of wound exudates; and the rate of healing, which was determined as a change in the wound area. It was shown that irradiation with laser accelerated the healing of wounds in all cases. The exposure to laser radiations in the red (1.5 J/cm), blue, and green (0.75 J/cm2) spectral regions shortened the time of wound healing from 22 to 17 and 19 days, respectively. The functional activity of leukocytes after the exposure increased on day 5 after the infliction of the wound, whereas in the control it decreased. The superoxide dismutase activity increased in all experimental groups by day 5 after the operation. A maximum increase in the superoxide dismutase activity occurred after the exposure to laser radiation in the red region at a dose of 1.5 J/cm and in the blue and green spectral regions at a dose of 0.75 J/cm2.     

大鼠脊髓损伤的弱激光治疗参数选择

弱激光在周围神经损伤治疗中取得了理想效果,但在脊髓损伤修复方面的研究很少.本实验应用Allen＇s造模法构建大鼠急性脊髓损伤模型,通过测量穿透功率及组织温度变化筛选出用于脊髓损伤治疗的弱激光照射参数,照射组按照筛选出的参数连续治疗14 d,于术后1、3、7、14、21 d应用BBB评分法评价大鼠后肢运动功能的恢复情况,苏木精-伊红染色（HE染色）观察脊髓病理变化并测量空洞面积.结果显示应用筛选出的照射参数（810 nm、光斑面积0.2 cm2、500 mW/cm2、510 J/cm2）连续照射14 d,术后21 d照射组的运动功能评分显著高于未照射组（P＜0.05）,术后7、14、21d照射组脊髓空洞面积显著小于未照射组（P＜0.05）.结果表明810 nm、光斑面积0.2 cm2、500 mW/cm2、510 J/cm2的弱激光照射能促进急性脊髓损伤大鼠后期运动功能的恢复.     

胶原合成介导的软骨细胞的光生物调节作用

目的:了解低强度激光照射对软骨细胞增殖的影响及其机制。方法:选取3周龄新西兰白兔分离培养软骨细胞,在2.5%新生牛血清中培养,用半导体激光(650 nm,2.96 mW/cm2)(sem iconductor laser irrad iation,SLI)照第4代软骨细胞,每天分别照射1 m in、3 m in、5 m in、7 m in、10 m in、20 m in,共6 d。收集激光照射后第2 d、4 d、6 d、8 d、10 d和12 d的细胞培养液,用氯胺T消化法检测羟脯氨酸(H rp)的含量。在培养至第13 d时,用XTT法检测细胞的活性,了解细胞的增殖情况。结果:在2.5%新生牛血清中,SLI对软骨细胞具有明显的光生物调节作用:(1)在培养至第13 d时,所有剂量组在照射后XTT吸光度值均有不同程度的增高,其中3 m in、5 m in、7 m in和10 m in组的增高较为明显(P<0.01);(2)两因素重复测定资料的方差分析结果显示,SLI照射后软骨细胞合成胶原的能力在逐步增加,而对照组在培养至第2周开始H rp含量明显下降。结论:SLI照射可促进2.5%新生牛血清中兔软骨细胞增殖,这个过程可能是通过促进胶原合成实现的。     

510.6nm激光照射对兔血管平滑肌细胞增殖的影响

本文用５１０．６ｎｍ 波长激光以功率密度１、５、１０ ｍ Ｗ／ｃｍ ２ 和能量密度２、４、６Ｊ／ｃｍ ２ 照射体外培养的兔血管平滑肌细胞（ＳＭＣ）,通过３Ｈ－ ＴｄＲ掺入率和细胞生长曲线测定细胞增殖率。结果显示,上述激光照射量均能抑制细胞增殖率,其中以１０ｍ Ｗ／ｃｍ ２ 组的作用最为显著     

578.2 nm激光照射对兔视网膜的损伤效应研究

研究578.2 nm激光照射对兔视网膜的作用特点,以新西兰白兔5只10眼为实验对象,铜蒸汽激光(578.2 nm)通过裂隙灯照射兔视网膜后极部,照射时间为100 s,光斑直径为2 mm,照射剂量分别为60 J/cm2、80 J/cm2、100 J/cm2、120 J/cm2、160 J/cm2、200 J/cm2,每组4个光斑。照后1 h及24 h进行眼底照相及光镜观察。照光后可见,随激光功率密度的增加,兔视网膜的损伤也逐渐加重,并且照后24 h的损伤要重于照后1h。80 J/cm2和60 J/cm2在照后1 h和24 h均未发现明显改变。578.2 nm激光照射白兔后的主要病理学改变位于脉络膜。因此,以578.2 nm激光作为光动力治疗眼底疾病的光源时,照射剂量不宜超过80 J/cm2。     

不同功率的激光刺激对小鼠C2C12成肌细胞耗氧率水平的影响及机制

目的：探讨不同功率的低强度650 nm激光刺激对C₂C₁₂成肌细胞耗氧率水平和相关蛋白的影响及其机制。方法：以体外培养的C₂C₁₂小鼠成肌细胞作为实验对象,以4×10⁵个/孔接种于牵张6孔板中,采用输出功率5 mW,波长650 nm的二极管激光进行单次刺激,激光照射剂量分别0 J/cm²（0 min）、0.4 J/cm²（12.8 min）、0.8 J/cm²（25.6 min）。实验结束后,采用耗氧率试剂盒（Luxcel Biosciences）检测细胞耗氧率;提取细胞总蛋白,采用Western blot技术检测成肌调节因子（MyoD）、过氧化物酶体增殖活化受体γ共激活因子1α（PGC-1α）、雷帕霉素靶蛋白和磷酸化蛋白（p-mTOR/mTOR）表达。结果：与对照组相比,低剂量组细胞氧化耗氧率结果、MyoD、PGC-1α蛋白表达显著增加（P<0.05）,高剂量组MyoD、PGC-1α蛋白表达显著增加（P<0.05）,p-mTOR/mTOR蛋白显著降低（P<0.05）。结论：较低剂量（0.4 J/cm²）的650 nm低强度激光增强了细胞氧化功能水平,并对细胞分化相关蛋白有一定影响。其机制可能与适宜的激光刺激影响PGC-1α蛋白的表达,进而影响线粒体氧化呼吸有关。     

Proliferation of normal and tumor cells at the presence of serum from patients with breast cancer after phototherapy with visible and near infrared light

Simultaneous low-intensity visible (VIS) and near infrared (nIR) irradiation from laser and non-laser sources was used for treatment of complications developing in cancer patients after surgical tumor resection, chemo- and radiation therapy. However, the question remains about the impact of this physiotherapeutic method on proliferative activity of the patients' tumor cells and cells involved in wound healing, fibroblasts (FB) and keratinocytes (KC). In this paper, we studied the effect blood serum obtained from the patients with breast cancer after the course of irradiation with visible and NI light (480--3400 nm, 95 % polarization, 40 mW/cm2, 12 J/cm2) in postoperative period on the proliferative activity of primary cultures of human FB and KC, and of several human tumor cell lines (BT-474, HBL-100, Hs578T and A431). Seven-day course of phototherapy increase proliferation of FB (as compared to the initial level) and KC (as compared to postoperative level) by 22 and 28 %, respectively. The tumor cells BT-474, Hs578T and A431 showed statistically significant decrease in proliferative activity compared with the preoperative (initial) level by 31.5, 8.97 and 6.47%, respectively, whereas the cells BT-474, HBL-100, Hs578T and A431 also reduced their proliferative activity by 32,16, 8.65 and 6.26%, respectively, as compared with postperative level. The results obtained demonstrate the safety of the phototherapy with the visible and NI light for BC patients in the postoperative period.     

Low-Power GaAlAs Laser Irradiation Promotes the Proliferation and Osteogenic Differentiation of Stem Cells via IGF1 and BMP2

Low-power laser irradiation (LPLI) has been found to induce various biological effects and cellular processes. Also, LPLI has been shown to promote fracture repair. Until now, it has been unclear how LPLI promotes bone formation and fracture healing. The aim of this study was to investigate the potential mechanism of LPLI-mediated enhancement of bone formation using mouse bone marrow mesenchymal stem cells (D1 cells). D1 cells were irradiated daily with a gallium-aluminum-arsenide (GaAlAs) laser at dose of 0, 1, 2, or 4 J/cm(2). The lactate dehydrogenase (LDH) assay showed no cytotoxic effects of LPLI on D1 cells, and instead, LPLI at 4 J/cm(2) significantly promoted D1 cell proliferation. LPLI also enhanced osteogenic differentiation in a dose-dependent manner and moderately increased expression of osteogenic markers. The neutralization experiments indicated that LPLI regulated insulin-like growth factor 1 (IGF1) and bone morphogenetic protein 2 (BMP2) signaling to promote cell proliferation and/or osteogenic differentiation. In conclusion, our study suggests that LPLI may induce IGF1 expression to promote both the proliferation and osteogenic differentiation of D1 cells, whereas it may induce BMP2 expression primarily to enhance osteogenic differentiation.     

Modulating effect of helium-neon laser radiation on the state of antioxidant and hydroxylation systems of quail liver under X-ray irradiation and chemical intoxication

Red laser light (lambda = 633 nm) in a dose of 9.5 mJ/cm2 defends quail's embryo from X-ray irradiation (8.5 Gr). It is expressed in the 1.9 times decrease of embryo mortality on early term of incubation and 1.6 times increase of hatch in a group of embryos, which were affected by X-rays and laser radiation compared with an embryo, irradiated only by X-rays. Repeated laser irradiation of adult quails (dose 21 J) after CCl4-intoxication led to normalization of hydroxylation and antioxidant systems functions.     

1064nm Nd：YAG激光对5种甲真菌病重要致病菌的作用

目的观察1064nmNd：YAG激光对5种甲真菌病重要致病菌（红色毛癣菌、须癣毛癣菌、白念珠菌、近平滑念珠菌、烟曲霉）生长的影响。方法将各菌的菌悬液均匀点种于培养基上,生长至形成一定大小的菌落,给予不同能量1064nmNd：YAG激光照射,皮肤癣菌类观察激光照射后第1、3、6天菌落生长受抑制的直径变化情况;念珠菌类观察其次代培养存活率的差异;烟曲霉菌悬液铺满整个平皿,观察经不同能量激光照射受抑制的菌落空白处直径大小差异。结果在体外,当激光能量累计达到3200J／cm^2时,可对培养基上生长的以上各菌产生生长抑制作用,且随着能量增大,抑制作用增强,甚至可发生杀灭作用。结论1064nmNd：YAG激光当能量累计达到一定量时可对甲真菌病致病菌产生明显的生长抑制或杀灭作用。     

The effect of low-intensity laser irradiation in the blue, green, and red spectral ranges on healing of experimental skin wounds in rats

The effects of low-intensity laser irradiation in the red (632.8 nm), green (532 nm), and blue (441.2 nm) spectral ranges on wound healing has been studied in rats. The effect of the traditionally used red laser irradiation has been compared with the effect caused by laser irradiation in other spectral ranges, aiming to support the provisional hypothesis that a similar healing effect could be achieved at lower doses of wound irradiation by lasers emitting in the blue and green spectral ranges. The following parameters have been used to characterize healing of the experimental wounds: the functional activity of phagocytes in the wound exudate, which was determined from luminol-dependent chemiluminescence, the phagocyte number; the wound exudates’ antioxidant activity; and the rate of healing, which was determined as the change of the wound surface area. It was found that in all cases the laser irradiation accelerated the healing of wounds. Exposure to red laser irradiation at the dose of 1.5 J/cm²), and to blue or green laser irradiation at a dose of 0.75 J/cm² shortened the time of the wound healing from 22 to 17 and 19 days, respectively. The functional activity of leukocytes in irradiated groups increased by day 5 after surgery, whereas in the control group it decreased. The superoxide dismutase activity increased in all experimental groups by day 5 after surgery. Laser irradiation in the red spectral range at a dose of 1.5 J/cm² resulted in a larger increase in superoxide dismutase activity, as compared to that found after exposure to laser irradiation in the blue and green spectral ranges at a dose of 0.75 J/cm².     

Antimicrobial activity of argon fluoride (ArF) excimer laser on gram-negative bacteria

The objective of this study was to evaluate the antibacterial activity of argon fluoride (ArF) excimer laser radiation on clinically important strains of gram-negative bacteria. The antibacterial activity of ArF excimer laser radiation was evaluated on two Acinetobacter baumannii, one Enterobacter cloacae, three Escherichia coli, two Helicobacter pylori, one Klebsiella pneumoniae and two Pseudomonas aeruginosa strains. The strains were isolated from clinical specimens and typed by the usual biochemical procedures. Square agar plates of 12 x 12 cm were divided into rectangular (2 x 3 cm) regions and spread with 0.5x 10(4) colony forming units (CFU)/ml of bacterial suspension. The excess liquid was removed and the plates were allowed to dry for 30 min. A total of 96 rectangular (2x3 cm) regions were used for each strain, in order to test an equal number of laser parameters. Each rectangular region was irradiated with different laser parameters, using a 193 nm ArF excimer laser, linked with a simple Galilean afocal system and a rectangular diaphragm of the same dimensions as the original laser beam cross-section, at a distance of 10 cm from the irradiated surface. This system was used in order to keep the laser pulse energy under 80 mJ and to cut-out the non-transverse electromagnetic mode branches of the laser beam. We then studied the bacterial survival ratio versus the number of laser pulses, the repetition frequency and the total laser beam fluence. Our results showed that the total laser beam fluence was the most important parameter to consider in evaluating the bactericidal effect of ArF excimer laser radiation. A critical value of the total fluence was determined for each strain, such that, for laser beam fluences greater than this critical value, no colonies appeared to survive while, for laser fluences less than this critical value, the survival ratio did not exceed 2 x 10(7) CFU (2 x 10(-5)%). These critical values were found to vary between 8 J/cm2 and 16 J/cm2 for the bacterial species studied. Under these conditions, ArF laser irradiation is promising for the sterilisation of hard surfaces and for in situ application.     

Effect of copper vapor laser on the microrelief and ultrastructure of gastric mucosal glandulocytes

It was investigated the influence of low intensive irradiation by the copper++ vapor laser (lambda-510.6 nm) on the glandulocytes of gastric mucosa of 28 white rats. The doses of endogastric irradiation were 6.78, 20.34 and 33.90 J/cm2. It has been shown that after irradiation of gastric mucosa with the copper++ vapor laser the microrelief and ultrastructure of glandulocytes changes testified to stimulation of specific secret function. This changes took place under irradiation doses from 6.78 to 20.34 J/cm2. The doses exceeded 20.34 J/cm2 caused the alterations of the epitheliocytes. Thus it is necessary to take into account that during laser therapy of the ulcers with copper++ vapor laser, doses of 20.34 J/cm2 caused the alterative effect on the epitheliocytes.     

Fat liquefaction: effect of low-level laser energy on adipose tissue

Low-level laser energy has been increasingly used in the treatment of a broad range of conditions and has improved wound healing, reduced edema, and relieved pain of various etiologies. This study examined whether 635-nm low-level lasers had an effect on adipose tissue in vivo and the procedural implementation of lipoplasty/liposuction techniques. The experiment investigated the effect of 635-nm, 10-mW diode laser radiation with exclusive energy dispersing optics. Total energy values of 1.2 J/cm(2), 2.4 J/cm(2), and 3.6 J/cm(2) were applied on human adipose tissue taken from lipectomy samples of 12 healthy women. The tissue samples were irradiated for 0, 2, 4, and 6 minutes with and without tumescent solution and were studied using the protocols of transmission electron microscopy and scanning electron microscopy. Nonirradiated tissue samples were taken for reference. More than 180 images were recorded and professionally evaluated. All microscopic results showed that without laser exposure the normal adipose tissue appeared as a grape-shaped node. After 4 minutes of laser exposure, 80 percent of the fat was released from the adipose cells; at 6 minutes of laser exposure, 99 percent of the fat was released from the adipocyte. The released fat was collected in the interstitial space. Transmission electron microscopic images of the adipose tissue taken at x60,000 showed a transitory pore and complete deflation of the adipocytes. The low-level laser energy affected the adipose cell by causing a transitory pore in the cell membrane to open, which permitted the fat content to go from inside to outside the cell. The cells in the interstitial space and the capillaries remained intact. Low-level laser-assisted lipoplasty has a significant impact on the procedural implementation of lipoplasty techniques.     

基于OCT技术的鼠皮肤激光热损伤修复过程的监测

采用Er:YAG激光(波长为2 940 nm,能量密度为:2.5 J/cm2单光斑,扫描次数为4)照射活体小白鼠皮肤,利用光学相干层析成像(optical coherence tomography,OCT)技术在活体小鼠上观察其皮肤组织在激光作用之前及作用之后光热损伤修复的整个过程,得到了激光光热作用下引起损伤的皮肤组织在此过程中皮肤光学特性参数的变化情况,发现皮肤修复过程中光学参数有显著差异,并分析了这些差异引起的原因,以揭示激光美容中并发症主要因素。     

低功率He-Ne激光照射下细胞内活性氧自由基的产生和游离Ca^2＋浓度的研究

在临床应用中,低功率He-Ne激光(632.8 nm)能促进骨骼肌修复,加速创伤愈合,降低牙齿的超敏感性,减缓疼痛等.大量研究表明:低功率He-Ne激光能调节细胞的众多行为,如细胞增殖、分泌、迁移、粘附、蛋白质合成和基因表达等.但低功率He-Ne激光调节细胞行为的分子机制并未阐明,考察低功率He-Ne激光照射后细胞内活性氧自由基的产生水平和游离ca2 浓度是否会发生变化,通过激光扫描共聚焦显微镜,分别利用H:DCFDA和Fluo-3/AM这两种荧光探针,检测到经He-Ne激光照射后,肺腺癌细胞内活性氧自由基的水平上调以及游离Ca2 浓度增加.该研究为低功率He-Ne激光的生物光刺激效应提供了可能的分子机理.     

The role of TLR4 receptor in the stress response of lymphocytes

In vitro effects of low-level electromagnetic waves (8.18 GHz, frequency swings within 1 s, intensity 1 microW/cm, exposure for 1 h) and low-energy laser light (He-Ne laser with 632.8 nm, 0.2 mW/cm, dose 1.2 x 10(-2) J/cm2) on the expression of receptor protein TLR4, which is known as a part of the system for microbal toxin recognition, were studied in mouse lymphocytes. In addition, TLR4 expression was examined in situations when stress responses to low-level nonionizing radiation were modified by the antibiotic geldanamycin, which suppresses the activity of the heat shock protein Hsp90. It was found that low-level microwaves significantly raised the amount of TLR4; in contrast, laser light decreased the expression of the receptor in lymphocytes. In cells pretreated with geldanamycin, the TLR4 expression in irradiated cells was reduced to minimum levels, much lower than control values. The results showed that TLR4, which is involved in specific binding of toxin from gram-negative bacteria, can regulate cell responses to signals of other origin, in particular to nonionizig radiation, including low-level microwaves and laser light.