18 results on '"Piazena, Helmut"'
Search Results
2. From Localized Mild Hyperthermia to Improved Tumor Oxygenation: Physiological Mechanisms Critically Involved in Oncologic Thermo-Radio-Immunotherapy.
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Vaupel, Peter, Piazena, Helmut, Notter, Markus, Thomsen, Andreas R., Grosu, Anca-L., Scholkmann, Felix, Pockley, Alan Graham, and Multhoff, Gabriele
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TUMOR treatment ,THERMOTHERAPY ,VASODILATION ,RADIATION-sensitizing agents ,TUMORS ,REACTIVE oxygen species ,RADIOIMMUNOTHERAPY ,ONCOLOGY ,OXYGEN in the body ,ACIDOSIS - Abstract
Simple Summary: Mild hyperthermia (mHT, 39–42 °C) is a potent modality when combined with existing radio-, chemo-, or immunotherapy, leading to enhanced microcirculatory blood flow and improved tumor oxygenation. Currently, the mechanisms responsible for these mHT-related effects are not fully understood, and the extent and kinetics of therapy-promoting changes are not yet completely clarified. Herein, we review and discuss mHT-induced biological mechanisms that are relevant to radio-oncology and immunotherapy. The short-term increase in tumor perfusion induced by mHT may be caused by vasodilation of co-opted vessels and upstream normal tissue vasculature, as well as decreases in viscous resistance to flow. More sustained effects seem to result from a reduction in interstitial fluid pressure and VEGF-triggered angiogenesis. Increased microcirculatory tumor blood flow after mHT seems to be the prime driver for the enhanced tumor oxygenation, and this is supported by increasing O
2 diffusivities and O2 extraction and facilitated O2 unloading from oxyhemoglobin due to right-shifts of the HbO2 -dissociation curve by hyperthermia per se and intensified tumor acidosis. (1) Background: Mild hyperthermia (mHT, 39–42 °C) is a potent cancer treatment modality when delivered in conjunction with radiotherapy. mHT triggers a series of therapeutically relevant biological mechanisms, e.g., it can act as a radiosensitizer by improving tumor oxygenation, the latter generally believed to be the commensurate result of increased blood flow, and it can positively modulate protective anticancer immune responses. However, the extent and kinetics of tumor blood flow (TBF) changes and tumor oxygenation are variable during and after the application of mHT. The interpretation of these spatiotemporal heterogeneities is currently not yet fully clarified. (2) Aim and methods: We have undertaken a systematic literature review and herein provide a comprehensive insight into the potential impact of mHT on the clinical benefits of therapeutic modalities such as radio- and immuno-therapy. (3) Results: mHT-induced increases in TBF are multifactorial and differ both spatially and with time. In the short term, changes are preferentially caused by vasodilation of co-opted vessels and of upstream normal tissue vessels as well as by improved hemorheology. Sustained TBF increases are thought to result from a drastic reduction of interstitial pressure, thus restoring adequate perfusion pressures and/or HIF-1α- and VEGF-mediated activation of angiogenesis. The enhanced oxygenation is not only the result of mHT-increased TBF and, thus, oxygen availability but also of heat-induced higher O2 diffusivities, acidosis- and heat-related enhanced O2 unloading from red blood cells. (4) Conclusions: Enhancement of tumor oxygenation achieved by mHT cannot be fully explained by TBF changes alone. Instead, a series of additional, complexly linked physiological mechanisms are crucial for enhancing tumor oxygenation, almost doubling the initial O2 tensions in tumors. [ABSTRACT FROM AUTHOR]- Published
- 2023
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3. Clinical wIRA-hyperthermia: heating properties and effectiveness in lower trunk regions and its accordance with ESHO quality criteria for superficial hyperthermia.
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Piazena, Helmut, Vaupel, Peter, and Thomsen, Andreas R.
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FEVER ,LUMBOSACRAL region ,THERMAL batteries ,ABDOMINAL wall ,SKIN temperature - Abstract
The heating characteristics of water-filtered infrared-A (wIRA) radiation were investigated in vivo in two body regions of healthy humans according to the quality standards of the European Society for Hyperthermic Oncology (ESHO) using an irradiance (infrared-A) of 146 W m
−2 as recommended for clinical superficial hyperthermia (HT). wIRA was applied to the abdominal wall and lumbar region for 60 min. Skin surface temperature was limited to ≤43 °C. Tissue temperatures were measured invasively at 1-min intervals before, during and after wIRA exposure using five fiber-optical probes at depths of 1–20 mm. Significant differences between body regions occurred during the heating-up phase at depths of 5–15 mm. Thermal steady states were reached at depths ≤5 mm after exposures of 5–6 min, and ≤20 mm after 20 min. On average, the minimum requirements of ESHO were exceeded in both regions by the following factors: ≈3 for the heating rate, ≈2 for the specific absorption rate and ≈1.4 for the temperature rise. Tissue depths with T90 ≥ 40 °C and T50 > 41 °C were ≤10 mm, and ≤20 mm for Tmax ≤ 43 °C. The temperature decay time after termination of irradiation was 1–5 min. Corresponding temperatures were ≤42.2 °C for CEM43 and ≤41.8 °C for CEM43 T90 , i.e., they are inadequate for direct thermal cell killing. Thermography-controlled wIRA-HT complies with the ESHO criteria for superficial HT as a radiosensitizer and avoids the risk of thermal skin toxicity. [ABSTRACT FROM AUTHOR]- Published
- 2023
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4. Strong correlation between specific heat capacity and water content in human tissues suggests preferred heat deposition in malignant tumors upon electromagnetic irradiation.
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Vaupela, Peter and Piazena, Helmut
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SPECIFIC heat capacity ,TEMPERATURE distribution ,THERMAL properties ,TISSUES ,IRRADIATION - Abstract
Purpose: Tumor perfusion is considered to be the principal factor determining the build-up of therapeutically effective thermal fields. This assumes that malignancies have lower perfusions than their homologous tissues. This assumption, however, ignores the fact that several tumor types have higher perfusions than their healthy counterparts. Additionally, flow changes upon hyperthermia (39–43 °C) are non-predictable and extremely heterogeneous. Therefore, modeling temperature distribution further requires a more robust parameter, different in malignancies and healthy tissues, i.e., water content (C
w ), which highly determines thermal properties upon electromagnetic irradiation. Method: Systematic literature reviews of Cw and specific heat capacities (cp ) were conducted up to 28 February 2022, providing an updated, comprehensive data overview based on original manuscripts, reviews and databases. Results: Cw - and cp -values of cancers and their corresponding healthy tissues are presented. Strong correlations between these two parameters are described. In general, malignant tumors have distinctly higher Cw values than their homologous tissues. With increasing Cw in low-water-content normal tissues (<70 wt.%), cp rises exponentially from 1.5 to 3.3 J·g–1 ·K–1 . In high-water-content normal tissues (≥70 wt.%), cp increases linearly from 3.5 to 3.8 J·g–1 ·K–1 . In malignant tumors (>80 wt.%), cp rises linearly from 3.6 to 3.9 J·g–1 ·K–1 . Cancers contain up to 27% more water than their tissues of origin and must be considered as ‘high-capacitance-tissues’. Conclusions: Hyperhydration of cancers result in higher cp -values, causing cancers to be better heat reservoirs than corresponding normal tissues upon electromagnetic irradiation. Reliable, tissue-/cancer-specific cp values must be considered when modeling temperature distributions in hyperthermic treatment. [ABSTRACT FROM AUTHOR]- Published
- 2022
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5. Lichttherapie zur Delirprävention bei Intensivpatienten: Was sagt die Evidenz?
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Schmidt, Sebastian, Hancke, Laura, Spies, Claudia, Piazena, Helmut, and Luetz, Alawi
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- 2022
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6. wIRA-heating of piglet skin and subcutis in vivo: proof of accordance with ESHO criteria for superficial hyperthermia.
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Piazena, Helmut, Müller, Werner, and Vaupel, Peter
- Abstract
Purpose: The quality assurance guidelines of the European Society for Hyperthermic Oncology (ESHO) specify the requirements for appropriate superficial heating using phantoms. In this current piglet study, we have examined these requirements under in vivo conditions. Materials and methods: The evaluation is based on simultaneous, invasive temperature measurements at 8 different depths between 2 and 20 mm in the thigh of anesthetized piglets during irradiation with water-filtered infrared radiation (wIRA). Temperature probes were equally distributed in an area of 10 cm diameter of homogeneously irradiated skin. Piglets were irradiated to 126.5 mW cm
-2 in the spectral range of IR-A. Results: Heating rates and specific absorption rates were in full accordance with the ESHO standards. Due to early onset of thermoregulation, the desired temperature rise of 6 K at a depth of 5 mm was achieved after about 10 min of exposure, i.e. 4 min later than required for phantoms. After reaching thermal steady state, on average T90 ≥ 40 °C occurred in tissue depths up to 20 mm, T50 ≥ 41 °C up to 16 mm, and a mean CEM43 T90 ≈ 1 min was calculated for depths up to 8 mm. Conclusions: Piglet data are comparable with preliminary literature data assessed in vivo in the abdominal wall and in recurrent breast cancer of humans. The potential of wIRA-HT for adequate treatment of superficial tissues/cancers in the clinical setting thus is confirmed. To ensure therapeutically needed doses of wIRA-HT, irradiation times should be extended. [ABSTRACT FROM AUTHOR]- Published
- 2020
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7. Thermal field formation during wIRA-hyperthermia: temperature measurements in skin and subcutis of piglets as a basis for thermotherapy of superficial tumors and local skin infections caused by thermosensitive microbial pathogens.
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Piazena, Helmut, Müller, Werner, Pendl, Wolfgang, von Ah, Sereina, Cap, Veronika H., Hug, Petra J., Sidler, Xaver, Pluschke, Gerd, and Vaupel, Peter
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SKIN temperature ,SKIN infections ,TEMPERATURE measurements ,BURULI ulcer ,SKIN tumors ,THERMOTHERAPY - Abstract
Purpose: The temporal and spatial formation of the temperature field and its changes during/upon water-filtered infrared-A (wIRA)-irradiation in porcine skin and subcutis were investigated in vivo in order to get a detailed physical basis for thermotherapy of superficial tumors and infections caused by thermosensitive microbial pathogens (e.g., Mycobacterium ulcerans causing Buruli ulcer). Methods: Local wIRA-hyperthermia was performed in 11 anesthetized piglets using 85.0mW cm
-2 , 103.2mW cm-2 and 126.5mW cm-2 , respectively. Invasive temperature measurements were carried out simultaneously in 1-min intervals using eight fiber-optical probes at different tissue depths between 2 and 20 mm, and by an IR thermometer at the skin surface. Results: Tissue temperature distribution depended on incident irradiance, exposure time, tissue depths and individual 'physiologies' of the animals. Temperature maxima were found at depths between 4 and 7 mm, exceeding skin surface temperatures by about 1-2 K. Tissue temperatures above 37 °C, necessary to eradicate M. ulcerans at depths <20 mm, were reached reliably. Conclusions: wIRA-hyperthermia may be considered as a novel therapeutic option for treatment of local skin infections caused by thermosensitive pathogens (e.g., in Buruli ulcer). To ensure temperatures required for heat treatment of superficial tumors deeper than 4 mm, the incident irradiance needed can be controlled either by (a) invasive temperature measurements or (b) control of skin surface temperature and considering possible temperature increases up to 1-2 K in underlying tissue. [ABSTRACT FROM AUTHOR]- Published
- 2019
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8. Biophysical and photobiological basics of water-filtered infrared-A hyperthermia of superficial tumors.
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Vaupel, Peter, Piazena, Helmut, Müller, Werner, and Notter, Markus
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VULVAR cancer ,FEVER ,BASAL cell carcinoma ,SKIN temperature ,SURFACE temperature ,POWER steering - Abstract
Thermography-controlled, water-filtered infrared-A (wIRA) is a novel, effective and approved heating technique listed in the ESHO quality assurance guidelines for superficial hyperthermia clinical trials (2017). In order to assess the special features and the potential of wIRA-hyperthermia (wIRA-HT), detailed and updated information about its physical and photobiological background is presented. wIRA allows for (a) application of high irradiances without skin pain and acute grade 2-4 skin toxicities, (b) prolonged, therapeutically relevant exposure times using high irradiances (150-200 mW/cm
2 ) and (c) faster and deeper heat extension within tissues. The deeper radiative penetration depth is mainly caused by forward Mie-scattering. At skin surface temperatures of 42-43 °C, the effective heating depth is 15 mm (T ≥ 40 °C) and 20 mm (T ≥ 39.5 °C). Advantages of wIRA include its contact-free energy input, easy power steering by a feed-back loop, extendable treatment fields, real-time and noninvasive surface temperature monitoring with observation of dynamic changes during HT, and - if necessary - rapid protection of temperature-sensitive structures. wIRA makes the compliant heating of ulcerated and/or bleeding tumors possible, allows for HT of irregularly shaped and diffusely spreading tumors, is independent of individual body contours, allows for very short 'transits' between HT and RT (1-4 min) or continuous heating between both therapeutic interventions. New treatment options for wIRA-HT may include malignant melanoma, vulvar carcinoma, skin metastases of different primary tumors, cutaneous T-and B-cell lymphoma, large-area hemangiomatosis, inoperable squamous cell, basal cell and eccrine carcinoma of the skin with depth extensions ≤20 mm. [ABSTRACT FROM AUTHOR]- Published
- 2018
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9. Spectral Remittance and Transmittance of Visible and Infrared-A Radiation in Human Skin-Comparison Between in vivo Measurements and Model Calculations.
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Piazena, Helmut, Meffert, Hans, and Uebelhack, Ralf
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EFFECT of radiation on skin ,INFRARED radiation in medicine ,TRANSMITTANCE (Physics) ,HEMOGLOBINS ,VISIBLE spectra - Abstract
The aim of the study was to assess the interindividual variability of spectral remittance and spectral transmittance of visible and infrared-A radiations interacting with human skin and subcutaneous tissue, and direct measurements were taken in vivo using healthy persons of different skin color types. Up to wavelengths of about 900 nm, both spectral remittance and spectral transmittance depended significantly on the individual contents of melanin and hemoglobin in the skin, whereas the contents of water and lipids mainly determined spectral slopes of both characteristics of interaction for wavelengths above about 900 nm. In vivo measured data of spectral transmittance showed approximately similar decreases with tissue thickness between about 900 nm and 1100 nm as compared with model data which were calculated using spectral absorption and scattering coefficients of skin samples in vitro published by different authors. In addition, in vivo measured data and in vitro-based model calculations of spectral remittance were approximately comparable in this wavelength range. In contrast, systematic but individually varying differences between both methods were found for both spectral remittance and spectral transmittance at wavelengths below about 900 nm, where interaction of radiation was significantly affected by both melanin and hemoglobin. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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10. Hypofractionated re-irradiation of large-sized recurrent breast cancer with thermography-controlled, contact-free water-filtered infra-red-A hyperthermia: a retrospective study of 73 patients.
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Notter, Markus, Piazena, Helmut, and Vaupel, Peter
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BREAST cancer treatment ,MEDICAL thermography ,THERMOTHERAPY ,CANCER radiotherapy ,CANCER relapse ,PHYSIOLOGICAL effects of infrared radiation ,CANCER treatment - Abstract
Purpose:Evaluation of the efficacy and toxicity of a new setup of thermographically controlled water-filtered infra-red-A (wIRA) superficial hyperthermia (HT) combined with hypofractionated re-irradiation (re-RT) to treat large-sized breast cancer recurrences. Methods:Records of 73 heavily pre-irradiated patients with 103 treatment regions, treated from September 2009 to July 2015 were retrospectively analysed. Sixty-four patients with macroscopic disease were treated with 94 regions including 46 patients with lymphangiosis carcinomatosa. Hypofractionated RT consisted of 4 Gy once per week up to a total dose of 20 Gy delivered within 1–4 min after wIRA-HT. Heating of tumour nodules and diffusely spreading cancer lesions was performed under real-time thermographic temperature monitoring, maintaining the maximum skin temperature in the ROI between 42 °C and 43 °C, achieving intratumoural temperatures up to a depth of 2 cm between 39.5 °C and 42 °C. Seventeen patients received re-re-irradiation (re-re-RT) using the same HT/RT-treatment schedule. Results:Response rates in patients with macroscopic disease: 61% CR, 33% PR, 5% NC and 1% PD. Local control throughout life time after CR of macroscopic disease: 59%. All nine patients with microscopic disease had CR and local control throughout lifetime. Only grade 1 toxicities were observed. Conclusions:Application of thermographically controlled wIRA-HT combined with extremely low-dose re-irradiation provides good local control throughout lifetime of heavily pre-treated breast cancer recurrences. The twin wIRA radiator provides a sufficiently homogeneous heat deposition for the treatment of larger areas. The time lag between HT and re-RT is substantially reduced. The possibility of re-re-RT opens new therapeutic options for the future. [ABSTRACT FROM PUBLISHER]
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- 2017
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11. Sustained Increase of 25-Hydroxyvitamin D Levels in Healthy Young Women during Wintertime after Three Suberythemal UV Irradiations—The MUVY Pilot Study.
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Biersack, Maria Gudrun, Hajdukiewicz, Malgorzata, Uebelhack, Ralf, Franke, Leonora, Piazena, Helmut, Klaus, Pascal, Höhne-Zimmer, Vera, Braun, Tanja, Buttgereit, Frank, Burmester, Gerd-Rüdiger, and Detert, Jacqueline
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VITAMIN D deficiency ,DISEASE prevalence ,WOMEN'S health ,RADIATION exposure ,MENTAL depression - Abstract
Objectives: Vitamin D (VitD) deficiency is a health problem prevalent not only in the elderly but also in young adults. The primary objective of our observational pilot study “MUVY” (Mood, UVR, Vitamin D in Young women) was to test both the short-term and long-term effects of a series of three suberythemal UV radiation (UVR) exposures on the VitD status and well-being of young healthy women during winter in a repeat measure design. Methods: 20 healthy young women (Fitzpatrick skin types I–III, aged 21–25 years) received three full body broad band UVR exposures with an escalating erythemally weighted dose schedule during one week in winter, and completed self-report questionnaires monitoring symptoms of depression (Beck Depression Inventory, BDI) and affective state/well-being (Profile of Mood States, POMS) at baseline and three days after the last UVR exposure. 25-hydroxyvitamin D (25(OH)D) and 1,25-dihydroxyvitamin D (1,25(OH)
2 D) were measured in serum at baseline, and at study days 8, 36 and 50. Results: Mean baseline 25(OH)D level was 54.3 nmol/L (standard deviation (s.d.) = 24.1), with seven women having VitD deficient status. Relevant symptoms of depression, as indicated by low BDI total scores (0–8), were absent. After the three UVR exposures the increment of 25(OH)D was an average of 13.9 nmol/L (95% confidence interval (CI) = 9.4–18.4) and 26.2 pmol/L (95%CI = 7.2–45.1) for 1,25(OH)2 D. Δ25(OH)D, and corresponding baseline levels were significantly and inversely associated (rho = -0.493, p = 0.027). Only 25(OH)D remained significantly increased above baseline for at least six weeks after the last UVR exposure. A strong inverse correlation of the POMS subscale “Vigor/Activity” and the increment in 1,25(OH)2 D was found (rho = -0.739, p<0.001) at day 8. Conclusions: Three suberythemal whole body UVR exposures during one week are a simple and suitable method for improving 25(OH)D levels during winter, for at least six weeks, and especially in young women with VitD deficient status. Trial Registration: German Clinical Trials Register (Deutsches Register Kinischer Studien) [ABSTRACT FROM AUTHOR]- Published
- 2016
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12. Effects of Narrow-band IR-A and of Water-Filtered Infrared A on Fibroblasts.
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Knels, Lilla, Valtink, Monika, Piazena, Helmut, Vega Marin, Jamlec, Gommel, Kerstin, Lupp, Amelie, Roehlecke, Cora, Mehner, Mirko, and Funk, Richard H. W.
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PHYSIOLOGICAL effects of infrared radiation ,FIBROBLASTS ,RADIATION exposure ,EFFECT of radiation on skin ,ELECTROMAGNETIC radiation ,WOUND healing - Abstract
Exposures of the skin with electromagnetic radiation of wavelengths between 670 nm and 1400 nm are often used as a general treatment to improve wound healing and reduce pain, for example, in chronic diabetic skin lesions. We investigated the effects of water-filtered infrared A ( wIRA) and of narrow-band IR-A provided by a light-emitting diode LED ( LED- IR-A) irradiation in vitro on 3T3 fibroblast cultures under defined conditions with and without glyoxal administration. Glyoxal triggers the formation of advanced glycation end products, thereby mimicking a diabetic metabolic state. Cell viability and apoptotic changes were determined by flow cytometry after vital staining with Annexin V, YO- PRO-1 and propidium iodide ( PI), and by SubG1 assay. Mitochondrial function and oxidative stress were examined by vital staining for radical production, mitochondrial membrane potential ( MMP) and the ratio of reduced-to-oxidized glutathione ( GSH/ GSSG). The metabolic state was monitored by a resazurin conversion assay. The numbers of apoptotic cells were reduced in cultures irradiated with wIRA or LED- IR-A. More mitochondria showed a well-polarized MMP after wIRA irradiation in glyoxal damaged cells. LED- IR-A treatment specifically restored the GSH/ GSSG ratio. The immediate positive effects of wIRA and LED- IR-A observed in living cells, particularly on mitochondria, reflect the therapeutic benefits of wIRA and LED- IR-A. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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13. Energieoptimierte Beleuchtung bei gleichzeitiger Verbesserung der Lebensqualität durch Nutzung von Tageslicht und neuer Lampen- und Vorschalttechnik.
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Kaase, Heinrich, Aydınlı, Sırrı, Gramm, Stefan, Thiel, Stefan, de Boer, Jan, Erhorn, Hans, Kuhn, Tilman, Wienold, Jan, Hillmann, Gustav, Korolkow, Margarethe, and Piazena, Helmut
- Abstract
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- Published
- 2012
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14. An Experimental Setup for the Measurement of Nonthermal Effects During Water-Filtered Infrared A-Irradiation of Mammalian Cell Cultures.
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Jung, Tobias, Höhn, Annika, Lau, Anne-Marie, Piazena, Helmut, and Grune, Tilman
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INFRARED radiation ,CELL culture ,MAMMAL cytology ,TEMPERATURE effect ,HOMEOSTASIS ,AQUEOUS solutions - Abstract
In many recent publications, supposed athermal effects of water-filtered infrared A (wIRA) irradiation are discussed. Those effects are mainly attributed to wavelengths in the range from 780 to 1440 nm, and should not result from warming of cellular water or any aqueous medium surrounding the irradiated sample caused by wIRA absorption. Athermal effects are considered to be induced directly by absorption of different wavelengths of the wIRA spectrum by cellular molecules or structures except water. To distinguish between thermal and athermal effects, irradiated samples have to be subjected to a very effective and precise temperature homeostasis. Any experimental effects can only be attributed to pure athermal effects, if the temperature of the irradiated samples is verifiably constant and does not result in hyperthermia. Here, data of temperature distribution in Petri dishes of different types filled with aqueous medium are presented which were estimated by model calculation for different setups of cooling. Additionally, the real temperature development was directly measured. Such a cooling unit enables long-term application of high wIRA irradiances and large doses without any detectable warming of the irradiated samples, in single cell layers. Using such a setup, thermal and athermal effects can be compared and in addition to that quantified. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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15. Randomised controlled trial analysing supplementation with 250 versus 500 units of vitamin D3, sun exposure and surrounding factors in breastfed infants.
- Author
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Siafarikas, Aris, Piazena, Helmut, Feister, Uwe, Bulsara, Max K., Meffert, Hans, and Hesse, Volker
- Published
- 2011
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16. Effects of Infrared-A Irradiation on Skin: Discrepancies in Published Data Highlight the Need for an Exact Consideration of Physical and Photobiological Laws and Appropriate Experimental Settings.
- Author
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Piazena, Helmut and Kelleher, Debra K.
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INFRARED radiation ,SKIN ,PHOTOBIOLOGY ,CARDIOVASCULAR diseases ,SPECTRAL energy distribution - Abstract
Skin exposure to infrared (IR) radiation should be limited in terms of irradiance, exposure time and frequency in order to avoid acute or chronic damage. Recommendations aimed at protecting humans from the risks of skin exposure to IR ( e.g. ICNIRP, ACGIH) are only defined in terms of acute effects ( e.g. heat pain and cardiovascular collapse), whereas the actual exposure conditions ( e.g. spectral distribution, exposure geometry, frequency and number of exposures, thermal exchange with the environment, metabolic energy production and regulatory responses) are not taken into consideration. Since the IR component of solar radiation reaching the Earth’s surface is mainly IR-A, and considering the increased use of devices emitting artificially generated IR-A radiation, this radiation band is of special interest. A number of in vitro and/or in vivo investigations assessing cellular or tissue damage caused by IR-A radiation have been undertaken. While such studies are necessary for the development of safety recommendations, the results of measurements undertaken to examine the interaction between skin and IR radiation emitted from different sources presented in this study, together with the detailed examination of the literature reveals a wide spectrum of contradictory findings, which in some instances may be related to methodological shortcomings or fundamental errors in the application of physical and photobiological laws, thus highlighting the need for physically and photobiologically appropriate experiments. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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17. Randomised controlled trial analysing supplementation with 250 versus 500 units of vitamin D3, sun exposure and surrounding factors in breastfed infants.
- Author
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Siafarikas, Aris, Piazena, Helmut, Feister, Uwe, Bulsara, Max K., Meffert, Hans, and Hesse, Volker
- Subjects
CHOLECALCIFEROL ,VITAMIN D ,PHYSIOLOGICAL effects of solar radiation ,BREASTFEEDING ,INFANT health - Abstract
Background The rate of non-compliance with vitamin D supplementation is as high as 45%. This is why randomised controlled trials are needed to analyse the response to low doses of vitamin D3. Objective (1) To compare supplementation with 250 versus 500 units of vitamin D3 and (2) to analyse sun exposure time/ultraviolet B (UVB) exposure during the first 6 weeks of life. Design 40 breastfed infants (skin photo-types I, II) were recruited in Berlin, Germany (52.5°N), during summer (n=20) and winter (n=20) and randomised into equal groups on either 250 or 500 units of vitamin D3 per day. Outcome measures were: parameters of vitamin D and bone metabolism at delivery and 6 weeks later, sun exposure time, UVB dosimetry and surrounding factors including maternal diet. Results At delivery 25-hydroxy vitamin D levels were insufficient: 68 (53-83) nmol/l in each group. 6 weeks later levels were sufficient: 139 (114-164) nmol/l on 250 units of vitamin D3 per day and 151 (126-176) nmol/l on 500 units/day. There was no seasonal variation. Daily sun exposure time was 0.4-3.5 h and higher in summer. UVB exposure was 0.01-0.08 minimal erythema dose/day. Calcium levels were within normal. Conclusions In Berlin, Germany, supplementation with 250 units of vitamin D3 is sufficient for breastfed infants during their first 6 weeks of life in summer and winter. UVB exposure is very low throughout the year. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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18. Randomised controlled trial analysing supplementation with 250 versus 500 units of vitamin D3, sun exposure and surrounding factors in breastfed infants.
- Author
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Siafarikas, Aris, Piazena, Helmut, Feister, Uwe, Bulsara, Max K., Meffert, Hans, and Hesse, Volker
- Subjects
VITAMIN D ,RANDOMIZED controlled trials - Abstract
An abstract of the study "Randomised Controlled Trial Analysing Supplementation With 250 Versus 500 Units of Vitamin D3, Sun Exposure and Surrounding Factors in Breastfed Infants," is presented.
- Published
- 2011
- Full Text
- View/download PDF
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