Variations de l'incidence des fractures de l'extrémité supérieure du fémur chez les personnes agées de la région de Québec.

To estimate the incidence of fracture of the proximal end of the femur in people aged 50 years or older living in the Quebec area in 1971, 1976 and 1981 we determined the number of admissions for such fractures to the 15 acute care hospitals in the region. From 1971 to 1981 the number of fractures increased by 71%; the increases for those aged 75 to 84 years and 85 years or over were 98% and 118% respectively. The variation is only partly explained by changes in sex and age distribution of the population; the incidence rates also increased. Among men aged 75 to 84 years the incidence rate per 1000 person-years rose from 2.63 in 1971 to 5.22 in 1981, an increase of 98%; the corresponding figures for men aged 85 years or more were 9.76 and 16.91, an increase of 73%. Among women aged 75 to 84 years the rate rose from 7.28 to 8.81, an increase of 21%; the corresponding figures for women aged 85 years or more were 20.40 and 24.27, an increase of 21% and 19% respectively.     

Activité cholinestérasique des corpuscules sensoriels cutanés de Herbst et de Grandry

Résumé L'activité cholinestérasique (ChE) a été étudiée dans les corpuscules de Herbst et de Grandry du bec de canard par la méthode de Karnovsky. Le BW 284 C 51, l'iso-OMPA et l'ésérine ont été utilisés comme inhibiteurs. Une activité cholinestérasique non spécifique (nsChE) a été identifiée dans les corpuscules. Elle est présente dès le début de leur différenciation.Corpuscule de Herbst: l'activité nsChE est localisée dans les cellules du bulbe interne (citernes périnucléaires, reticulum endoplasmique granulaire, vésicules associées à l'apppareil de Golgi) et à la surface de la membrane plaamique des cellules du bulbe interne et de la terminaison nerveuse.Corpuscule de Grandry: l'activité nsChE est localisée dans les cellules satellites (citernes périnucléaires, reticulum endoplasmique granulaire) et à la surface de la membrane plasmique des cellules satellites, des cellules de Grandry et de la terminaison nerveuse.Une forte activité nsChE a été mise en évidence dans certaines zones de contact entre les cellules dites sensorielles (cellules du bulbe interne et de Grandry) et les terminaisons nerveuses. Une réaction positive a été observée au niveau des mitochondries des cellules satellites et de la terminaison nerveuse du corpuscule de Grandry, et dans des vésicules du réticulum endoplasmique lisse des terminaisons nerveuses.Aucune activité ChE n'a été détectée dans les cellules capsulaires, les cellules de l'espace interne, les cellules de Grandry, et dans les vésicules synaptiques.Ces résultats ont été discutés en relation avec ce que l'on sait sur l'activité ChE des autres types de corpuseules sensoriels. La signification fonctionnelle de cette activité ChE et le problème de l'origine des différentes catégorics cellulaires qui constituent les corpuscules de Herbst et de Grandry ont été envisagés.

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Cholinesterase activity in the Herbst and Grandry cutaneous sensory corpusclesHistochemical study at the light and electron microscope

Summary Cholinesterase activity (ChE) was localized in the Herbst and Grandry cutaneous sensory corpuscle of the duck beak with Karnovsky's method. Controls with BW 284 C 51, iso-OMPA and eserine were carried out. A non-specific cholinesterase activity (nsChE) was identified in the corpuscles. This enzyme activity is present from the beginning of their differenciation.Herbst corpuscle: nsChE activity was localized in the inner bulb cells (perinuclear cisterna, granular endoplasmic reticulum, vesicles associated with the Golgi complex) and along the plasma membrane of inner bulb cells and nerve ending.Grandry corpuscle: nsChE activity was localized in the satellite cells (perinuclear cisterna, granular endoplasmic reticulum) and along the plasma membrane of satellite cells, Grandry cells, and nerve ending.A high nsChE activity was evident in certain zones of contact between the so-called sensory cells (inner bulb and Grandry cells) and the nerve endings. A positive reaction was seen in mitochondria of satellite cells and nerve ending for the Grandry corpuscle, and in smooth endoplasmic vesicles of the nerve endings.No ChE activity was detected in capsular cells, inner space cells, Grandry cells and in synaptic vesicles.These results are discussed in relation with what is known about ChE activity of other sensory corpuscles. The functional significance of this ChE activity and the problem of the origin of the different cells of Herbst and Grandry corpuscles have been considered.

     

Stabilité biologique des réseaux de distribution d'eau potable

The maintenance of the quality of water from the outlet of the treatment plant to the consumer tap is a major concern of water distributors. From a biological point of view, this maintenance must be characterized by a stability of biological features, namely bacterial growth from biodegradable organic matter, and protozoan bacterivory which must be not detectable. However, drinking water distribution systems are continuously exposed to a flow of biodegradable organic matter, which can represent around 20–30 % of the total dissolved organic carbon, and a flow of allochthonous microorganisms (bacteria, fungi, protozoa…), coming from the water treatment plant but also from incidents (breaks/repairs) on the distribution network itself. Apart from these microorganisms (heterotrophic bacteria in particular) can grow in this ultra-oligotrophic environment and colonize the all drinking water distribution system. The highest density of microorganisms occurs on the surface of pipewalls where they are organized in microcolonies (biofilm) that are mixed with corrosion products and inorganic precipitates. Five groups of organisms have been identified in distribution networks, in both the water phase and the biofilm: bacterial cells, protozoa, yeast, fungi and algae. The majority of these organisms are not pathogens, nevertheless potentially pathogen bacteria (Legionella…), fecal bacteria (coliforms, E. coli…), and pathogen protozoan cysts (Giardia intestinalis, Cryptosporidium parvum…) can transitorily find favorable conditions for their proliferation in the networks. Bacteria grow from the biodegradable fraction of dissolved organic matter while protozoa grow from dissolved organic matter, other protozoa but especially from bacterial prey items. The protozoan bacterivory was extensively studied in marine aquatic environments and in rivers, lakes,… but very rarely in drinking water distribution networks. Actually, proofs of the protozoan grazing on fixed and free-living bacterial cells were given by photography or film of biofilms accumulation on coupons that were previously immersed in potable water or by direct microscopic observation of bacteria in food vacuole of protozoa from potable water. A single and recent study has estimated protozoan bacterivory rate from laboratory experiences using fluorescent markers. It appears that in an experimental distribution system fed with biologically treated water (ozone/filtration through granular activated carbon), only ciliates present in the biofilm have a measurable grazing activity, estimated at 2 bacteria·ciliate⁻¹·h⁻¹ on average.Bacterial dynamics in drinking water distribution systems is complex and related to different parameters, like the biodegradable fraction of dissolved organic carbon, the presence of a residual of disinfectant, the nature and the state of pipewalls, the relative biomass of free and fixed bacterial, and grazing impact.The preservation of the biological stability of potable water during its storage in reservoir or its transport through the distribution systems can be achieved by (a) the use of chemical disinfectants (in particular by addition of chlorine) which is the widely used technique, or (b) the use of new techniques such as nanofiltration that can eliminate bacteria and significantly decrease the concentrations of organic matter at the inlet of the distribution network and in the potable water.

• (a)The use of oxidant, usually chlorine, induces a number of problems, in particular the development of oxidation by-products like trihalomethans (THM), among which some are recognized as carcinogenic products for animals. In addition, chlorine added at the outlet of treatment plant is consumed in the network and the maintenance of a residual of chlorine along an entire distribution network would need high concentrations of chlorine at the outlet of the treatment plant. This may be incompatible with standards for both residual chlorine and its by-products. Nevertheless, chlorine has a disinfectant effect on planctonic bacteria, if considering that only around 10 % of free bacterial cells are living cells, i.e. are able of respiratory oxidation. However, some studies show that bacteria fixed on granular activated carbon particles can be resistant to chlorine, as well as bacteria in aggregates. Thus, the addition of chlorine in potable water does not inhibit the formation of a biofilm at the surface of pipewalls. In the same way, protozoa transported by potable water can resist to chlorine.
• (b)The above disadvantages permitted the development of membrane filtration techniques like the nanofiltration, which is at the junction between reverse osmosis and ultrafiltration, and which seems to be an interesting alternative to conventional treatments because it presents the advantage to (i) decrease very strongly the concentrations of dissolved organic carbon (on average 90 % for DOC (Dissolved Organic Carbon) and 99 % for BDOC (Biodegradable Dissolved Organic Carbon)), (ii) to remove a very high proportion of almost the entire microorganisms (99 %), precursors of chlorination by-products, and micropollutans, (iii) to decrease the musty flavor of water (2-fold) and (iv) to produce a water that needs low concentration of chlorine.

     

Périodes critiques de plasticité des cartes sensorielles corticales

Cortical sensory maps are topographically ordered projections of the peripheral sensory receptors. The size of the representation of different body parts is determined by the number of sensory receptors in the periphery, with substantial variations between species, even amongst closely related mammals. Maps can be modified during critical periods of development, as has been most thoroughly characterised in the visual and the somatosensory system. Recently the field has moved from a phenomenological to a molecular era: studies using mouse genetics demonstrate the importance of molecules such as neurotrophins and of neurotransmitters such as glutamate, GABA and serotonin for the developmental plasticity of these maps. Serotonin and neurotrophins acts on receptors that are transiently expressed on the thalamocortical axons. The radical changes in gene expression patterns that occurr during this period in both the thalamus and the cerebral cortex could underlie the time course of this very particular form of plasticity.     

Une méthode simple de prévision des tendances appliquée aux séries temporelles de qualité des eaux courantes

Missing values, non-regular sampling, censored data and departure from normality are common problems in the analysis of ecological or environmental time series. For over 20 years, in the scope of the National Basin Network in France, numerous water quality time series have been collected. A method is proposed for the regularization of the series, the detection of trend changes and short-term forecasting, on the basis of the last detected trend, using a non-parametric regression. The method is applied to phosphates and nitrogen concentrations measured on the Sambre river (northern France).