The present paper is aimed to study the processes of stress reaction and their judgment bases in rat induced by 35 GHz millimeter wave quantitatively. The relative change in the average energy of each EEG frequency band decomposed by wavelet analysis was calculated for extracting the stress indicator for the purpose. The rat would experience quiet period, guarding period, deadlock period and prostrating period in sequence. The judgment bases of different stress periods in rat induced by millimeter wave were obtained by analyzing the skin temperature, skin injury and changes of blood biochemical indexes during each stress period. The stress period changed from quiet period to guarding period when the skin temperature of irradiated area reached the thermal pain threshold. It was from guarding period to deadlock period when the skin had gotten serious injury. Then the rat reaction sensitivity decreased, and injury of its visceral organs occurred. The rat got to prostrating period when the sustained irradiation caused the rat's visceral organs to get more serious injury. The further sustained irradiation finally induced death of the rat.
Animals ; Dose-Response Relationship, Radiation ; Electroencephalography ; radiation effects ; Electromagnetic Radiation ; Male ; Random Allocation ; Rats ; Rats, Sprague-Dawley ; Skin ; radiation effects ; Skin Temperature ; radiation effects ; Stress, Physiological ; radiation effects

PURPOSE: Neurointerventional radiology procedures often require a long time to perform. Patient radiation dose is an important issue due to the hazards of ionizing radiation. The objective of this study was to measure the peak skin dose (PSD) and effective dose to estimate the deterministic and stochastic effects of a therapeutic interventional neuroradiologic procedure. MATERIALS AND METHODS: The cumulative dose (CD) and dose area product (DAP) were automatically recorded by a fluoroscopic machine and collected prospectively between April and November 2015. The study included 54 patients who underwent therapeutic neurointerventional radiology procedures. The CD of each patient was used to estimate the peak skin dose and the DAP was also calculated to estimate the effective dose. RESULTS: The average estimated peak skin dose was 1,009.68 mGy. Two patients received radiation doses of more than 2 Gy, which is the threshold that may cause skin complications and radiation-induced cataract. The average effective dose was 35.32 mSv. The majority of patients in this study (85.2%) who underwent therapeutic neurointerventional radiologic procedures received effective doses greater than 20 mSv. CONCLUSION: Not all therapeutic neurointerventional radiology procedures are safe from deterministic complications. A small number of patients received doses above the threshold for skin complications and radiation induced cataract. In terms of stochastic complications, most neurointerventional radiology procedures in this study were quite safe in terms of radiation-induced cancer.
Cataract ; Endovascular Procedures ; Humans ; Neoplasms, Radiation-Induced ; Prospective Studies ; Radiation Dosage ; Radiation Effects ; Radiation, Ionizing ; Skin ; Tertiary Healthcare*

OBJECTIVETo investigate the effect of chronic ultraviolet (UV) exposure on skin barrier function and photoaging process.

METHODSOne hundred and fifty-six volunteers from Hanghzou areas were enrolled in the study. UV-exposed skin areas (neck, dorsum of hand or frontier chest) and UV-unexposed areas (waist, buttock or abdomen) were tested. Probe CM 825 of skin multi-functional detector MPA9 was applied to test the skin water content; probe TM 300 was applied to test transepidermal water loss (TEWL) and probe RVM 600 was applied to detect skin elasticity (Ur/Uf). Relative perfusion unit (PU) of the skin was detected by laser doppler flowmetry (LDF).

RESULTSkin water content value at UV-exposed skin areas was 12.78 ± 2.36 in elderly group (>50y), which was significantly lower than that of UV-unexposed skin areas(23.68 ± 3.24, P= 0.036). Highest level of TEWL (12.98 ± 2.86) g . m(-2) . h(-1) was detected at UV-exposed areas in elderly group; there were trends of increasing TEWL levels at UV-exposed areas than at UV-unexposed areas in all age groups, however, there were no statistical differences (P>0.05). The elasticity of Ur/Uf value at UV-exposed skin areas in elderly group was 0.11 ± 0.07, which was remarkably lower than that of UV-unexposed skin areas (0.32 ± 0.1, P=0.028). No significant difference of skin perfusion was observed between UV-exposed and UV-unexposed areas.

CONCLUSIONChronic exposure to UV may damage skin barrier function and therefore play a role in skin photoaging process.

Adolescent ; Adult ; Aged ; Elasticity ; radiation effects ; Female ; Humans ; Male ; Middle Aged ; Skin ; radiation effects ; Skin Aging ; radiation effects ; Ultraviolet Rays ; adverse effects ; Young Adult

To evaluate the influence of tourniquet ischemia and hyperthermia on the radiation effect of skin, theexperimental study was undertaken using a total of 344 mice. A single dose of irradiation from 2000 rads to 8000rads was delivered on skin of mouse tail after hyperthermia of 40degrees(C) to 42degrees(C) with or withouttourniquet application in various subgroups. The resuls are summarized as follows; 1. Tourniquet ischemia duringirradiation caused radioprotective effect. 2. Hyperthermia before irradiation induced radiosensitizing effect,which was increased with temperature elevation of hyperthermia. 3. In combination of tourniquet ischemia andhyperthermia, evident radiosensitizing effect waas noticed. This enhancing effect on irradiation was greater thanthe effect i hyperthermia only. It could be suggested that the combination of tourniquet application andhyperthermia might be intorduced in clinical radiotherapy after trail of clinical experiments on applicable typeand sutiable location of tumors.
Animals ; Fever ; Ischemia ; Mice ; Radiation Effects ; Radiation-Sensitizing Agents ; Radiotherapy ; Skin ; Tail ; Tourniquets

OBJECTIVETo investigate the effect of static magnetic field on deep wound healing of SD rats and VEGF during the wound healing and different strength static magnetic field on deep wound healing of SD rats.

METHODSDivided forty-eight SD rats into three groups: 0.16 T magnetic disk treatment (0.16 T group), 0.32 T magnetic disk treatment (0.32 T group), control group. General wounds healing situation was observated on the 3, 6, 9, 12 day. The area of every wound was calculated. The tissue of granulation was dyeing by immune tissue chemical decoration method, in which VEGF protein content with its range in tissue was measured.

RESULTSThe healing index of 0.16 T magnetic group wounds were larger than that of control group on 6th and 9th day, there were statistical difference. The healing index of 0.32 T magnetic group wounds were larger than that of control group on 3rd, 6th, 9th and 12th day, there were statistical difference. The healing index of 0.32 T group wounds contrasted to that of 0.16 T group wounds had no statistical significance. Observation of VEGF at the course of wound healing:the expressing of VEGF in magnetic group wounds on 3rd and 6th was stronger than in control group wounds, there were statistical difference. While there were no obvious difference between them on 9th and 12th day (P>0.05). But the contrast between that in 0.32 T group and in 0.16 T group had no statistical difference. The expressing strength of VEGF in magnetic group reached the peak amplitude on the 6th day, and that in control group reached peak amplitude on 9th day. And the peak amplitude of magnetic group was stronger than that of control group.

CONCLUSIONStatic magnetic disc of 0.16T and 0.32 T can promote deep wound of SD rats heal. The mechanism of static magnetic field promoting wound heal may be relative to the expressing highly of VEGF during early and middle time.

Animals ; Magnetic Field Therapy ; Male ; Rats ; Rats, Sprague-Dawley ; Regeneration ; physiology ; radiation effects ; Skin ; radiation effects ; Vascular Endothelial Growth Factor A ; genetics ; metabolism ; Wound Healing ; radiation effects

Infrared radiation is increasingly and uncritically used for cosmetic and wellness purposes, despite the poorly understood biologic effects of such treatments on humans. In the present study, we investigated the effects of infrared radiation on collagen and elastin production in dermal fibroblasts, as well as the clinical and histopathologic effects of infrared radiation on photo-aged facial skin lesions. In order to determine the effects of infrared radiation on collagen and elastin production, dermal fibroblasts were exposed to infrared radiation for varying lengths of time and collagen and elastin contents were subsequently determined. Additionally, 20 patients with mild to moderate facial wrinkles and hyperpigmented lesions received daily treatments of far infrared radiation (900 to 1000micronm) for six-months. During the treatment, patients and a medical observer conducted independent photographic and clinical evaluations every 4 weeks, and skin biopsies were obtained for histological analysis at baseline and one month post-treatment. We found that the content of collagen and elastin produced by the fibroblasts increased after infrared radiation, and that this increase was proportional to the duration of irradiation exposure. Following 6 months of treatment, all patients reported good (51-75%) improvements in skin texture and roughness. Additionally, patients noted fair (25-50%) improvement in color tone of the skin; however, improvements in hyperpigmented lesions were not observed. Objective medical evaluation of the patients indicated that roughness and laxity were fairly improved, but there was no significant improvement in hyperpigmented lesions. Histological examination failed to reveal any differences as well. These results suggest that infrared radiation may have beneficial effects on skin texture and wrinkles by increasing collagen and elastin contents from the stimulated fibroblasts. Therefore, skin treatment with infrared radiation may be an effective and safe non-ablative remodeling method, and may also be useful in the treatment of photo-aged skin.
Time Factors ; Skin Pigmentation/*radiation effects ; *Skin Aging ; Skin/*radiation effects ; Middle Aged ; *Light ; *Infrared Rays ; Humans ; Fibroblasts/metabolism ; Female ; Elastin/metabolism ; Collagen/metabolism ; Biopsy ; Adult

Low-frequency ultrasound can increase the transdermal delivery of many drugs, including macromolecular drugs. The main mechanism is ultrasonic cavitation. Most researchers pointed out that it could change the form-structure of stratum corneum keratinocytes and, in this way, it can improve the permeability of skin. Low-frequency sonophoresis has been in use for in-vitro experiments and in-vivo animal experiments, and so far, both small-molecules transdermal delivery and macromolecules transdermal delivery have been successfully performed in many experiments. However, there are few reports about the real low-frequency sonophoresis for clinical treatment. A large number of clinical trials are necessary to confirm its safety and practicality. Once its safety is confirmed and the suitable low-frequency sonophoresis devices are developed successfully, Low-frequency Sonophoresis will come to be a safe, effective, controllable, and economic new delivery method.
Administration, Cutaneous ; Animals ; Humans ; Skin ; diagnostic imaging ; metabolism ; Skin Absorption ; radiation effects ; Ultrasonography

Various kinds of glycosaminoglycans (GAGs) and proteoglycans (PGs) have been known to be involved in structural and space-filling functions, as well as many physiological regulations in skin. To investigate ultraviolet (UV) radiation-mediated regulation of GAGs and PGs in cultured human dermal fibroblasts, transcriptional changes of many types of PGs and GAG chain-synthesizing enzymes at 18 hr after 75 mJ/cm2 of UV irradiation were examined using quantitative real-time polymerase chain reaction methods. Hyaluronic acid synthase (HAS)-1, -2, and -3 and hyaluronidase-2 mRNA expressions were significantly increased by UV irradiation. Expressions of lumican, fibromodulin, osteoglycin, syndecan-2, perlecan, agrin, versican, decorin, and biglycan were significantly decreased by UV irradiation, while syndecan-1 was increased. Expressions of GAG chain-synthesizing glycosyltransferases, xylosyltransferase-1, beta1,3-glucuronyltransferase-1, beta1,4-galactosyltransferase-2, -4, exostosin-1, chondroitin polymerizing factor, and chondroitin sulfate synthase-3 were significantly reduced, whereas those of beta1,3-galactosyltransferase-6, beta1,4-galactosyltransferase-3, -7, beta-1,3-N-acetylglucosaminyltran sferase-2, and -7 were increased by UV irradiation. Heparanase-1 mRNA expression was increased, but that of heparanase-2 was reduced by UV irradiation. Time-course investigation of representative genes showed consistent results. In conclusion, UV irradiation may increase hyaluronic acid production through HAS induction, and decrease other GAG productions through downregulation of PG core proteins and GAG chain-synthesizing glycosyltransferases in cultured human dermal fibroblasts.
Cell Line ; Fibroblasts/metabolism/radiation effects ; Gene Expression Regulation/radiation effects ; Glucuronosyltransferase/genetics/radiation effects ; Glycosaminoglycans/*biosynthesis/chemistry ; Glycosyltransferases/genetics/*metabolism ; Humans ; Hyaluronic Acid/biosynthesis ; Hyaluronoglucosaminidase/genetics/radiation effects ; Polymerase Chain Reaction ; Proteoglycans/*biosynthesis/genetics/radiation effects ; RNA, Messenger/analysis/genetics ; Skin/*metabolism/radiation effects ; Transcription, Genetic/radiation effects ; *Ultraviolet Rays

Melanosome is a cellular organelle that is composed of a melanosomal matrix and a brown biochrome, melanin which is formed by tyrosine-tyrosinase reactions. The melanosome is formed within the melanocyte and transferred to the surrounding keratinocytes through dendritic processes. Human skin color is related to the number, size, type and distribution of melanosomes, and the major role of melanosomes is to prevent skin from injurious nonionizing ultraviolet radiation. Controlled NaOH hydrolysis and centrifugation of human hair make it possible to isolate large amounts of melanosomes which are synthesized within the follicular melanocytes and transferred to hair matrix cells. In this study, the sun protection factors of topically applied melanosomes isolated from human hair were evaluated using ultraviolet B phototesting. Topically applied melanosomes increased the minimal erythemal doses. And the sun protection factors of each 50% and 25% melanosomal preparation were 12.3 +/- 5.5 and 3.1 +/- 1.3 respectively, and these ultraviolet B protection effects showed statistically significant differences from 10%, 5% and 1% melanosomal preparations and vehicle. Form these results, the dose-related photoprotective role of melanosomes was confirmed.
Human ; Male ; Melanocytes/*physiology ; Skin/*radiation effects ; Support, Non-U.S. Gov't ; Ultraviolet Rays/*adverse effects

OBJECTIVETo investigate the mechanism involved in aging process of immortalized human keratinocyte (HaCaT) and primary human epidermis keratinocyte of adults (HEKa) irradiated by ultraviolet B(UVB).

METHODSHEKa and HaCaT were repeatedly exposed to UVB at a subcytotoxic level. SA-beta-Gal staining was performed to evaluate the senescence state; flow cytometry was applied to detect the changes of apoptosis, necrosis and cell cycle. Intracellular levels of superoxide dismutase (SOD) and malondialdehyde (MDA) were measured by ELISA method. Western blot was performed to detect the expression pattern of redox protein p66Shc and RT-PCR was performed to determine the mRNA level of human telomerase reverse transcriptase (hTERT).

RESULTStrong positive SA-beta-Gal staining was observed in both HEKa cell and HaCaT cells after UVB irradiation. Apoptosis rate increased from (1.81 +/-0.25)% to (4.43 +/-0.28)% and necrosis rate increased from (0.05 +/-0.01)% to (0.10 +/-0.03)% in HaCaT cell, but no marked arrest of cell cycle was observed during UVB irradiation. As a contrast, apoptosis rate of in HEKa cells significantly increased from (0.65 +/-0.05)% to (59.53 +/-2.35)%, and the necrosis rate in HEKa cells also reached (3.89 +/-0.24)%(P<0.05). Growth arrest in G0/G1 phase was also found in HEKa cells. In both cell lines, intracellular level of SOD decreased and MDA increased remarkably after UVB exposure, and an increased expression of p66Shc protein was also observed. High level of hTERT mRNA was detected in HaCaT cells and UVB exposure had little effect on its expression.

CONCLUSIONThe stress-induced premature senescence (SIPS) in HaCaT and HEKa cell lines by UVB irradiation might be closely associated with increased intracellular levels of oxidative stress, not related to the telomerase expression.

Apoptosis ; Cell Line ; Cells, Immobilized ; radiation effects ; Cellular Senescence ; physiology ; radiation effects ; Humans ; Keratinocytes ; cytology ; radiation effects ; Malondialdehyde ; metabolism ; Skin ; cytology ; Superoxide Dismutase ; metabolism ; Telomerase ; genetics ; metabolism ; radiation effects ; Ultraviolet Rays ; beta-Galactosidase ; pharmacology