Influence des paramètres de procédés sur les propriétés et éco-composites à base de polylactides

Le travail présenté dans ce manuscrit concerne la fabrication de biomatériaux poreux à base d acide polylactique pour les tissus conjonctifs et calcifiés en utilisant des procédés de chimie verte. Le but de cette thèse est de corréler l influence de certains paramètres de procédés à la structure morphologique et les propriétés des mousses générées. Nous avons étudié, d un côté, les effets de mélange d acide hyaluronique et d acides polylactiques afin d améliorer les propriétés d adhésion de ces biomatériaux. Nos résultats montrent bien une augmentation de l énergie d adhésion mais aussi une diminution de la taille équivalente des pores et de la porosité des biomatériaux poreux après moussage par les fluides supercritiques. D un autre côté, nous avons étudié les effets de mélanges des triphosphates de calcium et d acides polylactiques en tant que substitut osseux. L influence d un ajout de cires en tant qu agent porogène a été discutée et les méthodes de préparation des pastilles (voie sèche ou humide) ont été analysées. Dans cette optique la fabrication semi-industrielle de biomatériaux poreux a été testée en fixant les paramètres du procédé de moussage par le CO2 supercritique (pression, température et temps de saturation, vitesse de dépressurisation) et nous avons contrôlé les mousses de formulations optimisées en termes de porosité et de distribution des pores. En conclusion, ce travail rend possible d adapter les paramètres des procédés de CO2 supercritique et de co-broyage aux propriétés des biomatériaux poreux. En perspective, cette ouvre la voie à de nouvelles recherches à la fois dans les domaines des modèles 3D tumoraux et d ingénierie tissulaire.The work presented in this manuscript concerns the production of scaffolds based polylactides for connective tissues and bone regeneration by adapting green technology. The aim of this thesis was to correlate the influence of different process parameters on the morphological structures and properties of the scaffold generated. On one hand, we studied effect of the blending of hyaluronic acid and polylactides to enhance the surface adhesion properties of scaffolds. Our results relate to an increase in surface properties but a decrease of equivalent pore size and porosity after foaming scaffolds by supercritical process. Calcium Tri-Phosphate On other hand, we studied the effect of the blending of calcium tri-phosphates and polylactides as bone substitute. Influence of adding wax as porogen agent has been discussed and a comparison between wet and dry methods to generate scaffolds has been analyzed. For this purpose, semi-industrial fabrication of porous biomaterials has been tested by blocking supercritical CO2 parameters (saturation pressure, temperature and time, depressurization rate) and you have control the optimized formulation composite scaffold, in term of porosity and distribution of pores. In conclusion, this work made it possible to adapt the process parameters of supercritical CO2 and co-grinding at the properties of scaffolds. In perspective, this research opens new development ways in scaffolds, in both domains of 3D tumoral model and tissue engineering.TOULOUSE-INP (315552154) / SudocSudocFranceF

Cytotoxicity, In vitro anti-Leishmanial and fingerprint HPLC- photodiode array analysis of the roots of Trillium govanianum.

Trillium govanianum Wall. ex D. Don (Melanthiaceae alt. Trilliaceae), commonly known as 'nagchhatry' or 'teen patra', distributed from Pakistan to Bhutan about 2500-3800 m altitude is indigenous to Himalayas region. In folk medicine the plant has been reported for the treatment of wound healing, sepsis and in various sexual disorders. This paper reports, for the first time, to evaluate the cytotoxicity, in vitro anti-leishmanial (promastigotes) and fingerprint HPLC-photodiode array analysis of the MeOH extract of the roots of T. govanianum and its solid phase extraction fractions. Reverse phase HPLC-PDA based quantification revealed the presence of significant amount of quercetin, myrecetin and kaemferol ranging from 0.221to 0.528 μg/mg DW. MeOH extract revealed distinguishable protein kinase inhibitory activity against Streptomyces 85E strain with 18 mm bald phenotype. The remarkable toxicity profile against brine shrimps and leishmanial was manifested by MeOH extract with LC50 10 and 38.5 μg/mL, respectively

Influence des paramètres de procédés sur les propriétés et éco-composites à base de polylactides

Le travail présenté dans ce manuscrit concerne la fabrication de biomatériaux poreux à base d’acide polylactique pour les tissus conjonctifs et calcifiés en utilisant des procédés de chimie verte. Le but de cette thèse est de corréler l’influence de certains paramètres de procédés à la structure morphologique et les propriétés des mousses générées. Nous avons étudié, d’un côté, les effets de mélange d’acide hyaluronique et d’acides polylactiques afin d’améliorer les propriétés d’adhésion de ces biomatériaux. Nos résultats montrent bien une augmentation de l’énergie d’adhésion mais aussi une diminution de la taille équivalente des pores et de la porosité des biomatériaux poreux après moussage par les fluides supercritiques. D’un autre côté, nous avons étudié les effets de mélanges des triphosphates de calcium et d’acides polylactiques en tant que substitut osseux. L’influence d’un ajout de cires en tant qu’agent porogène a été discutée et les méthodes de préparation des pastilles (voie sèche ou humide) ont été analysées. Dans cette optique la fabrication semi-industrielle de biomatériaux poreux a été testée en fixant les paramètres du procédé de moussage par le CO2 supercritique (pression, température et temps de saturation, vitesse de dépressurisation) et nous avons contrôlé les mousses de formulations optimisées en termes de porosité et de distribution des pores. En conclusion, ce travail rend possible d’adapter les paramètres des procédés de CO2 supercritique et de co-broyage aux propriétés des biomatériaux poreux. En perspective, cette ouvre la voie à de nouvelles recherches à la fois dans les domaines des modèles 3D tumoraux et d’ingénierie tissulaire.The work presented in this manuscript concerns the production of scaffolds based polylactides for connective tissues and bone regeneration by adapting green technology. The aim of this thesis was to correlate the influence of different process parameters on the morphological structures and properties of the scaffold generated. On one hand, we studied effect of the blending of hyaluronic acid and polylactides to enhance the surface adhesion properties of scaffolds. Our results relate to an increase in surface properties but a decrease of equivalent pore size and porosity after foaming scaffolds by supercritical process. Calcium Tri-Phosphate On other hand, we studied the effect of the blending of calcium tri-phosphates and polylactides as bone substitute. Influence of adding wax as porogen agent has been discussed and a comparison between wet and dry methods to generate scaffolds has been analyzed. For this purpose, semi-industrial fabrication of porous biomaterials has been tested by blocking supercritical CO2 parameters (saturation pressure, temperature and time, depressurization rate) and you have control the optimized formulation composite scaffold, in term of porosity and distribution of pores. In conclusion, this work made it possible to adapt the process parameters of supercritical CO2 and co-grinding at the properties of scaffolds. In perspective, this research opens new development ways in scaffolds, in both domains of 3D tumoral model and tissue engineering

Effectiveness of electric toothbrush as vibration method on orthodontic tooth movement: a split-mouth study

Abstract Objective: To investigate the effects of application of vibratory stimuli, using an electric toothbrush, on the rate of orthodontic tooth movement during maxillary canine retraction. Methods: A split-mouth study was conducted in 28 subjects (mean age = 20.8 years; ranging from 18 to 24 years) whose bilateral maxillary first premolars were extracted with subsequent canine retraction. On the Vibration side, light force (100 g) was applied to the canine for 90 days, in combination with vibratory stimuli provided by an electric toothbrush; only orthodontic force was applied to the canine on the non-vibration side. Amount of canine movement was measured monthly. Related to electronic toothbrush usage, a diary was provided to each patient for recording discomfort during experimental period, having 100-mm visual analogue scale (VAS). The paired t-test was used to assess the differences in amount of tooth movement between canines of the vibration and non-vibration sides. Results: The amount of tooth movement was similar for canines on the vibration side and on the non-vibration side (mean 0.81 ± 0.10 mm and 0.82 ± 0.11 mm, respectively, p> 0.05). Plaque accumulation was minimal in any subject throughout the study. No subject reported discomfort as a result of using the electric toothbrush. Conclusions: This study demonstrates that application of vibratory stimuli using an electric toothbrush, in combination with light orthodontic force, do not accelerate orthodontic tooth movement

Molecular docking of Diospyrin as a LOX inhibitory compound

Diospyros lotus is traditionally used in various diseases including inflammation. In the current study an effort has been made to identify a bioactive constituent from D. lotus in order to scientifically validate its use in inflammatory disorders. Diospyrin was isolated from D. lotus and exhibited significant lipoxygenase (LOX) inhibitory activity (IC50 value: 31.89 ± 0.14 μmol). Molecular docking revealed significant molecular interactions between Diospyrin and LOX showing promising potential for further optimization as a potential anti-inflammatory lead compound

Screening of Different Varieties of Okra (Abelmoschus esculentus L.) against Sucking Insect Pests

The screening of different varieties is one of the key strategies used in Integrated Pest Management to control the insect population and to escape the use of synthetic insecticides. This study was aimed to screen different okra varieties against sucking insect pest complex such as thrip, jassid, aphid, whitefly and mealybug. The experiment was conducted at Agriculture Research Institute Tandojam. The varieties such as Rama Krishna, Silky-460 and Bharat Kawairi were cultivated in RCBD layout and each treatment was replicated five times. The results revealed that the most infested variety was Bharat Kaiwari followed by Silky-460 and Rama Krishna throughout the experimental period. The highest mean population of the sucking insect pests (thrip, jassid, aphid, whitefly and mealybug) was 9.61±0.35, 3.22±0.13, 18.33±0.50, 3.25±0.15 and 3.75±0.19 respectively was observed on Bharat Kaiwari and the lowered on Rama Krishna. However, the attack of aphid was prominent on all okra varieties and overall pest attack was higher in the month of June. Similarly, the co-efficient correlation analysis showed a positive relationship of temperature and humidity (r= 0.012; r = 0.128) with thrip population whereas there was a negative relationship between temperature and humidity with remaining sucking pests. Both jassid and mealybug population indicated a significant difference with temperature. Similarly, relative humidity displayed a significant impact on population of mealybug (r = 0.365) and aphid (r = -0.096). Thus, it could be concluded based on the results that Rama Krishna is the most resistance against sucking insect pests as compared to Silky-460 and Bharat Kaiwairi

Investigating the Potential Climatic Effects of Atmospheric Pollution across China under the National Clean Air Action Plan

To reduce air pollution, China adopted rigorous control mechanisms and announced the Air Pollution Prevention and Control Action Plan (APPCAP) in 2013. Here, using OMI satellite, the NASA Socioeconomic Data and Application Center (SEDAC), and Fifth ECMWF (ERA5) data at a 0.25° × 0.25° resolution, we explored changes in NO2, PM, SO2, and O3 and climatology over China in response to the Action Plan between 2004 and 2021. This study attempts to investigate the long term trend analysis of air pollution and climatic variations during two scenarios before (2004–2013) and after (2013–2021) APPCAP. We investigated the climatic effects of air pollution in China before and after APPCAP adoption using geographically weighted regression (GWR) and differential models to assess the contribution of air pollution. The spatial representation analysis demonstrated how air pollution affected climatic factors before and after the APPCAP. Several important findings were derived: (1) the APPCAP significantly influenced air pollution reduction in China post-scenario (2013–2021); (2) the Mann Kendall test investigated that all pollutants showed an increasing trend pre-APPCAP, while they showed a decreasing trend, except for O3, post-APPCAP; (3) for climatic factors, the MK test showed an increasing trend of precipitation and mean minimum air temperature tmin post-APPCAP; (4) innovative trend analysis (ITA) showed a reduction in NO2, SO2, and PM, although O3 showed no trend post-APPCAP; and (5) pre-scenario, NO2 contributed to an increase in the mean maximum air temperature (tmax) by 0.62 °C, PM contributed to raising tmin by 0.41 °C, while O3 reduced the tmax(tmin) by 0.15 °C (0.05 °C). PM increased tmax and precipitation with a magnitude 0.38 °C (7.38 mm), and NO2 contributed to increasing tmin by (0.35 °C), respectively, post-scenario. In particular, post-scenario led to an increase in tmin and precipitation across China. The results and discussion presented in this study can be beneficial for policymakers in China to establish long-term management plans for air pollution and climatological changes

Deciphering the Potential of Bioactivated Rock Phosphate and Di-Ammonium Phosphate on Agronomic Performance, Nutritional Quality and Productivity of Wheat (Triticum aestivum L.)

Wheat is one of the leading staple crops in many countries. Phosphorus (P) plays an important role for wheat growth and yield as it takes part in many metabolic pathways. Even for soluble phosphatic fertilizers, most of the Pakistani soils, being alkaline and calcareous in nature, show phosphorus use efficiency (PUE) not more than 10–25%. The major issue is the unavailability of P due to fixation and precipitation reactions with soil particles. Composting of rock-phosphate with animal and poultry manures supplied with bio-stimulated phosphate solubilizing bacteria (PSB) not only enhances the RP solubilization but also serves as a potent source of P for plants. Composted/bio-activated rock-phosphate (B-RP), prepared by group of three bacterial strains i.e., Pseudomonas sp. (E11), Bacillus sp. (MN54) and Enterobacter sp. (MN17) aided with molasses (5%) and urea (10%), was tested alone and in various combinations with di-ammonium phosphate (DAP). In this pot trial, the combined application of B-RP and DAP was found superior to the sole application of B-RP. Even the combination of B-RP and DAP sharing equal amount of recommended P showed better results as compared to the sole application of DAP, giving improved shoot biomass (25%), total P-uptake (67%), recovery efficiency of P (75%), dry matter (29%), crude protein (29%), and other yield, physiological and nutritional quality parameters of wheat. So, it could be concluded that integrated use of B-RP and DAP with equal proportion of recommended P could serve as a better management practice for not only improving quantity but also the quality of the wheat grain

Cytotoxicity, <i>In vitro</i> anti-Leishmanial and fingerprint HPLC- photodiode array analysis of the roots of <i>Trillium govanianum</i>

<p><i>Trillium govanianum</i> Wall. ex D. Don (Melanthiaceae <i>alt.</i> Trilliaceae), commonly known as ‘nagchhatry’ or ‘teen patra’, distributed from Pakistan to Bhutan about 2500–3800 m altitude is indigenous to Himalayas region. In folk medicine the plant has been reported for the treatment of wound healing, sepsis and in various sexual disorders<i>.</i> This paper reports, for the first time, to evaluate the cytotoxicity, <i>in vitro</i> anti-leishmanial (promastigotes) and fingerprint HPLC-photodiode array analysis of the MeOH extract of the roots of <i>T. govanianum</i> and its solid phase extraction fractions. Reverse phase HPLC-PDA based quantification revealed the presence of significant amount of quercetin, myrecetin and kaemferol ranging from 0.221to 0.528 μg/mg DW. MeOH extract revealed distinguishable protein kinase inhibitory activity against <i>Streptomyces</i> 85E strain with 18 mm bald phenotype. The remarkable toxicity profile against brine shrimps and leishmanial was manifested by MeOH extract with LC₅₀ 10 and 38.5 μg/mL, respectively.</p