Risk assessment of electromagnetic fields exposure with metallic orthopedic implants: a cadaveric study.

Metallic materials are well known to strongly interact with electromagnetic fields. While biological effects of such field have been extensively studied, only few works dealt with the interactions of electromagnetic waves with passive metallic device implanted in biological system. Hence only several numerical and phantom simulation studies were focusing on this aspect, whereas no in situ anatomic experiment has been previously performed. In this study the effect of electromagnetic waves on eight different orthopaedic medical devices (six plates from 55 to 318mm length, a total knee and a total hip prosthesis) were explored on six human cadavers. To mimic a random environmental exposure resulting from the most common frequencies band used in domestic environment and medical applications (TV and radio broadcasting, cell phone communication, MRI, diathermy treatment), a multifrequency generator emitting in VHF, UHF, GSM and GCS frequency bands was used. The different medical devices were exposed to an electromagnetic field at 50W/m(2) and 100W/m(2). After 6min exposure, the temperature was measured on three points close to each medical device, and the induced currents were estimated. No significant temperature increase (<0.2°C) was finally detected; beside, a slight induced tension (up to 1.1V) was recorded but would appear too low to induce any biological side effect.

Carbon nanotubes induce inflammation but decrease the production of reactive oxygen species in lung.

With the rapid spread of carbon nanotubes (CNTs) applications, the respiratory toxicity of these compounds has attracted the attention of many scientists. Several studies have reported that after lung administration, CNTs could induce granuloma, fibrosis, or inflammation. By comparison with the mechanisms involved with other toxic particles such as asbestos, this effect could be attributed to an increase of oxidative stress. The aim of the present work was to test this hypothesis in vivo. Mice were intranasally instilled with 1.5mg/kg of double walled carbon nanotubes (DWCNTs). Six, 24, or 48h after administration, inflammation and localisation of DWCNTs in lungs were microscopically observed. Local oxidative perturbations were investigated using ESR spin trapping experiments, and systemic inflammation was assessed by measuring the plasma concentration of cytokines TNF-alpha, IL-1alpha, IL-1beta, IL-6, IGF-1, Leptin, G-CSF, and VEGF. Examination of lungs and the elevation of proinflammatory cytokines in the plasma (Leptin and IL-6 at 6h) confirmed the induction of an inflammatory reaction. This inflammatory reaction was accompanied by a decrease in the local oxidative stress. This effect could be attributed to the scavenger capability of pure CNTs.

[Effects of mobile phones and radar radiofrequencies on the eye]. / Effets des ondes hyperfréquences des téléphones mobiles et des radars sur l'oeil.

The increasing applications of microwaves, mainly in mobile phones and radar, induce a higher rate of exposed people, sometimes cause of worry. Eyeballs are hotspots of radiofrequency field radiation because of their anatomy and composition. We propose a review of the various effects on the eye. The studies are hardly comparable because the exposure systems, power densities and dosimetries are different. While the thermal effects on the eye are well known including cataracts, corneal edema, endothelial cell loss and retinal degeneration, the non-thermal effects are still controversial. Cell cycle abnormalities, early apoptosis were reported in experimental conditions likely due to oxidative stress, but the studies could not show any significant effect on human eyes when exposed to long-term and low-dose radiation. Next studies need to be closer to human exposure.

Pulsed electromagnetic field at 9.71 GHz increase free radical production in yeast (Saccharomyces cerevisiae).

Potential human health hazards have been reported after exposure to electromagnetic fields at low power density. Increased oxidative stress has been suggested as a potential mechanism involved in long-term effect of such exposure. In the present work, yeast cultures were exposed for 20 min to a 9.71 GHz pulsed electromagnetic field at specific absorption rates (SAR) from 0.5 W/kg to 16 W/kg. Oxidative perturbations were investigated using ESR spin trapping experiments and their impacts on membrane fluidity were assessed using spin label five nitroxide stearate. The experiments using the water-soluble spin trap alpha-(4-pyridyl-1-oxide)-N-t-butylnitrone and the lipid-soluble N-tert-butyl-alpha-phenylnitrone showed an increase of spin adduct production both in low power density exposure (SAR<4 W/kg) and in thermal conditions (SAR>4 W/kg). The membrane fluidity diminutions after exposure in all the conditions were consistent with lipid peroxidation. The overall results suggest an increase of the free radical production in the intra cellular compartment; however no effect on the yeast vitality was found.

[Per(6-deoxy) derivative of beta-cyclodextrin (B6): physicochemical characterization, haemolytic activity and membrane properties]. / Caractérisation physicochimique du dérivé amphiphile per(6-déoxy) de la bêta-cyclodextrine (B6) et étude de son activité hémolytique et de son action vis-à-vis des membranes.

Natural beta-cyclodextrin bears an internal crown consisting of six primary alcohol groups. Their removal leads to per(6-deoxy)beta-cyclodextrin (B6). The physicochemical properties of B6 and its interactions with membranes were investigated to give an evaluation of haemolytic activity and complexing properties of this chemical species. This was achieved by using surface tension and haemolytic activity (i.e.DH50 determination, the concentration inducing 50% haemolysis) measurements,1H-31P-NMR and EPR spectroscopies. Whereas B6 solubility in the water is close to that of natural beta CD (about 5 g/L at 20 degrees C) and exhibits amphiphilic properties greater than those of beta CD (log P: -1.36 at 300 K), B6 forms micelles in aqueous solution of 20 molecules, even at low concentration 0.8mM. In addition, B6 exhibits tensioactive properties leading to solubilization and even, in some cases orientation of synthetic membranes. Although no complex formation with membrane components was observed, NMR and ESR showed interactions with the surface of the membrane. Subsequently, B6 exhibits an important haemolytic activity, whose mechanism, different from that of beta CD, is discussed.

[Biologic effects of millimeteric waves (94 GHz). Are there long term consequences?]. / Effets biologiques des rayonnements millimétriques (94 GHz). Quelles conséquences à long terme ?

Active Denial Systems (ADS) is a millimetric wave radiation emitting technology now included in the non lethal weapon arsenal. Such devices emit electromagnetic, thus agitating water in the skin and causing feeling of heat enough that target individual retreats from the beam. They can be used at up to 1 km from the target. We have reviewed the literature on the interactions of millimetric waves (MMW) with biological systems. An opposition appears between the observations performed in the Former Soviet Union and Russia showing potential interaction sometimes deleterious while generally of good influence and used in therapy. By way of contrast, most of the other studies, performed in USA, address local acute effects, exclusively located on the skin and eyes of the target, and considered as completely reversible.

Characterisation and dissolution of depleted uranium aerosols produced during impacts of kinetic energy penetrators against a tank.

Aerosols produced during impacts of depleted uranium (DU) penetrators against the glacis (sloping armour) and the turret of a tank were sampled. The concentration and size distribution were determined. Activity median aerodynamic diameters were 1 microm (geometric standard deviation, sigma(g) = 3.7) and 2 microm (sigma(g) = 2.5), respectively, for glacis and turret. The mean air concentration was 120 Bq m(-3), i.e. 8.5 mg m(-3) of DU. Filters analysed by scanning electron microscopy (SEM) and X ray diffraction showed two types of particles (fine particles and large molten particles) composed mainly of a mixture of uranium and aluminium. The uranium oxides were mostly U3O8, UO2.25 and probably UO3.01 and a mixed compound of U and Al. The kinetics of dissolution in three media (HCO3-, HCl and Gamble's solution) were determined using in-vitro tests. The slow dissolution rates were respectively slow, and intermediate between slow and moderate, and the rapid dissolution fractions were mostly intermediate between moderate and fast. According to the in-vitro results for Gamble's solution, and based on a hypothetical single acute inhalation of 90 Bq, effective doses integrated up to 1 y after incorporation were 0.54 and 0.56 mSv, respectively, for aerosols from glacis and turret. In comparison, the ICRP limits are 20 mSv y(-1) for workers and 1 mSv y(-1) for members of the public. A kidney concentration of approximately 0.1 microg U g(-1) was predicted and should not, in this case, lead to kidney damage.

[In vitro uranyle affinity of per (3,6-anhydro-2-O-carboxyméthyle)-alpha-cyclodextrin and conditions required for in vivo application]. / Affinité in vitro de la per (3,6-anhydro-2-O-carboxyméthyle)-alpha-cyclodextrine pour les uranyles et conditions requises en vue d'une application in vivo.

Per (3.6-anhydro-2-O-carboxymethyle)- alpha-cyclodextrin ([1]) is a polydentate analog of EDTA, a well-known cation chelating reagent. [1] exhibits strong affinities in vitro for lanthanids, cobalt and also for uranyl cations. Hence, a 1:1 stoechiometry and a high affinity for uranyle (6

Phospholipid matrix as a target for sulfur mustard (HD): NMR study in model membrane systems.

Although the interactions of sulfur mustard (HD) with nucleic acids and proteins have been well studied, the toxic interactions with the membrane matrix and specially the phospholipid bilayer have so far been poorly investigated. We have used several NMR techniques to study these interactions: 1H NMR to observe the localization of HD in membranes of small unilamellar vesicles (SUV) of lecithin; 31P NMR to verify the hypothesis of pore formation in membranes of large unilamellar vesicles (LUV); and pseudo solid state 31P and 2H NMR to analyze the dynamic consequences of the presence of HD in multilayer dispersions of dimyristoylphosphatidylcholine (DMPC). Immediate and late modifications of the DMPC-HD complexes have been observed at the macroscopic and microscopic levels. After intoxication, HD is spontaneously incorporated into the membrane and locates at the level of the chain methylene groups. This incorporation occurs without formation of pores in the membrane. The presence of HD in the phospholipid dispersion differentially increases the membrane fluidity depending upon the level involved. Weak at the superficial level (phosphate group), this increase is dose-dependent on progression into the membrane. This increase is related to a lowering of transition temperature when measured at the chain level. Macroscopically, HD induces dose- and time-dependent modifications of the DMPC-HD complexes, leading to the formation of an optically transparent gel. This gel formation is confirmed at a microscopic level, where all structures disappear after intoxication.

Solution structure of 2-(pyrido[1,2-e]purin-4-yl)amino-ethanol intercalated in the DNA duplex d(CGATCG)2.

The solution structure of the complex formed between d(CGATCG)(2) and 2-(pyrido[1,2-e]purin-4-yl)amino-ethanol, a new antitumor drug under design, has been resolved using NMR spectroscopy and restrained molecular dynamic simulations. The drug molecule intercalates between each of the CpG dinucleotide steps with its side chain lying in the minor groove. Analysis of NMR data establishes a weak stacking interaction between the intercalated ligand and the DNA bases; however, the drug/DNA affinity is enhanced by a hydrogen bond between the hydroxyl group of the end of the intercalant side chain and the amide group of guanine G6. Unrestrained molecular dynamic simulations performed in a water box confirm the stability of the intercalation model. The structure of the intercalated complex enables insight into the structure-activity relationship, allowing rationalization of the design of new antineoplasic agents.

Modulation of intercalating properties of pyrido[1,2-e]purins via side-chain modifications: NMR and MD studies.

Two pyrido[1,2-e]purins with different side chain lengths have been synthesized to test their ability to intercalate inside DNA. The interactions of these drugs with synthetic oligodeoxy nucleotide d(CGATCG)2 have been studied with 1H and 31P NMR spectroscopy experiments. Molecule 1, rather amphiphilic (Log(P) = 1.3, due to its hydroxypropyl side chain) can intercalate GC sites of the mini helix, under a fast exchange mechanism and a 2:1 stoechiometry. The presence of a six methylen side chain in 2 (hydroxyhexyl side chain) is responsible for a relatively poor solubility of this molecule in water (log P = 2.3). Binding, rather than intercalation, of 2 to the external GC pairs is observed, severely limited by the formation of aggregates. Models for the intercalation of 1, are proposed using energy minimizations and Molecular Dynamics (MD) calculations subject to restraints from experimental nOe connectivities. Simulations and experiments both indicate fast exchange of 1 in its intercalation site.

Non-thermal effects of continuous 2.45 GHz microwaves on Fas-induced apoptosis in human Jurkat T-cell line.

Non-thermal effects of microwaves (MWs) are one of the main issues studied for revising standards. The effects of MW exposure on apoptosis at non-thermal level (48 h, 2.45 GHz, 5 mW/cm2) have been studied. Results obtained assess non-thermal MW effects on Fas, but neither on butyrate- nor on ceramide-induced apoptosis in human Jurkat T-cell line. These data show that MW interacts either with Fas pathway between receptor and caspase-3 activation or on membrane proteins (i.e. Fas receptor or neurosphyngomyelinase).

[Substituted cyclodextrins as chelating reagents for ethers, thioethers and yperite]. / Etude des cyclodextrines substituées comme agents cryptants des éthers, thioéthers et de l'ypérite.

The complexation of mustard gas Cl(CH(2))(2)S(CH(2))(2) Cl, HD, yperite) and of ethers and thioethers derivatives by cyclodextrins: natural alpha-cyclodextrin (ACD) and substituted B-cyclodextrins was studied by NMR. A 1/1 stoechiometry was found in all cases, while affinity constants were found relatively weak (from 5 M(-1) to 100 M(-1)). However, these results show that chelation of HD by cyclodextrins can be reasonably expected, especially if chemical modifications provide stronger affinity constants.

13C-NMR spectrum field and temperature dependence of 13CO bound to hemoglobin.

13Carbon monoxide (CO), when bound to hemoglobin, yields (13)C NMR resonances (CO-Fe resonances). 100% CO liganded tetrameric hemoglobin ((13)C-labelled CO) was prepared for (13)C-NMR observation. The information about exchange kinetics between the four subunits (2alpha and 2B), were derived by changing the temperature (in the range 275-313K) and the observation frequency (4.7T, 9.4T and 18.8T). The first results confirmed previous observations of slow exchange between free and bound (2alpha and 2B together) CO. Besides, the exchange between alpha and B subunits were found slow at the NMR timescale, even under 313K and 4.7T conditions. Furthermore, intermediate temperatures (283-303K) allowed the observation of broad unresolved lines at 9.4T, corresponding both to CSA contribution and exchange linebroadening. Finally, low temperatures (less than 277K, at 9.4T) provided four relatively broad - but clearly distinguishable lines - indicating that a slow exchange rate was reached between four Fe-CO geometries on the subunits. This also indicated that two main Fe-CO orientations were different, even between similar chains (alpha1-alpha2 and B1-B2).

The interactions of substituted pyrido[1,2-e]purines with oligonucleotides depend on the amphiphilic properties of their side chain.

Three pyrido[1,2-e]purines of increasing hydrophilicity have been synthesized to evaluate as anticancer agents. These drugs interact quite differently with a synthetic oligodeoxynucleotide d(CGATCG)2. [1] is very hydrophobic due to a phenyl residue in its side chain. It only shows limited interactions with the minihelix without any evidence of intercalation. [2] and [3], on the other hand, have one ([2]) or two ([3]) hydroxyl groups in their acyl chain and present rather amphiphilic properties. The result is a similar intercalation of these derivatives between C and G base pairs as revealed by intermolecular nOe, 1H and 31P chemical shift variations. Models for the intercalation of [2] are proposed using energy minimizations and molecular dynamics (MD) calculations subject to restraints from nOe connectivities. Simulations and experiments indicate weak stability and thus fast exchange of [2] in its intercalation site.

[Modulation of interactions of pyridopyrines with membrane systems: an NMR study of the role of side chains]. / Modulation des interactions de pyridopurines avec les systèmes membranaires: étude RMN du rôle de la chaîne latérale.

Interactions of three pryridopurines differing by their side chain, -SCH2-Phe [1], -SCH2-CHOH-CH3 [2], and -SCH2-CHOH-CH2OH [3], with model membranes were studied by proton, phosphorus and carbon NMR. Their incorporation in phospholipid multilayers induced a membrane rigidification without altering ther main bilayer structure nor the phase transition. Depending on the more or less amphiphilic properties, these molecule have different behavior when included in small unilamellar vesicles: hydrophobic [1] is found in the deepest part of the membrane, while [2] lies at an intermediate location in the layer. [3] is more hydrophilic: its aromatic moiety is in the intermediate part of the membrane whereas the side chain is found oriented towards the superficial part of the layer. Furthermore, the amphiphilic molecule [2] has transmembrane transport abilities when in the presence of large unilamellar vesicles.