Environmental assessment of greenhouse herb production: A case of longitudinal improvement options in Sweden

The greenhouse sector has seen many advances to improve its resource demands, though little is known of the environmental impacts. This study aims to assess the environmental performance of a horticultural greenhouse in Sweden producing herbs. Life cycle assessment is employed to analyze different scenarios. These include previous measures, such as switching to organic fertilizers, a pellet burner, and reducing the packaging weight. Future scenarios are assessed, including increasing biofueled logistics, switching to LEDs, densifying production, and including recyclable packaging. The results suggest that GHG emissions were reduced by 32% per kg edible portion through past scenarios in current scenario. Additionally, densifying production and switching to LED lighting can lead to an additional 14% and 10% reduction in GHG emissions compared to the current system respectively, while also reducing other environmental impact categories. These results provide insights into the implications of environmental and resource improvement measures taken at greenhouses

Shedding light upon the complex net of genome size, genome composition and environment in chordates

The nucleotype theory has been advanced on the basis of studies regarding genome size and composition in various plant and animal species, i.e. the influence that genome can have on the phenotype independently of the informational content of DNA. It has also been noted that during evolution various interactions between different environmental factors and genome structural and functional parameters would have occurred. In this review, changes in genome size, transposon content, and base composition occurred during the evolution of chordates were examined. Many environmental stresses, such as temperature, can act on transposons and through these on genome size. Temperature is also one of the most important elements of natural selection able to interact both with base composition and genome size. It has been evidenced that temperature exerts a direct influence on base composition and its increase would have led to an higher content of genome GC-rich components during the evolution of chordates, in particular in endotherms. Temperature would have controlled the rate of biosynthesis in G1 phase and consequently the cell cycle duration which in turn would have interacted with genome size. The combined action of temperature, base composition, and genome size would also have been very important in controlling the metabolic rate. Finally, another important aspect of the nucleotypic effect is the influence that genome size and cell cycle duration, in correlation with environmental temperature, would have exert on embryo and larval development, very important for environmental adaptation. In conclusion, studies here reviewed to confirm the existence in chordates of a mutual influence between environment and genome non-coding components that would have played an important role in the evolution of these animals especially in environmental adaptation processes

Total repair of pulmonary atresia with ventricular septal defect and major aortopulmonary collaterals: An integrated approach

AbstractBackground: Predicting postrepair right ventricular/left ventricular pressure ratio has prognostic relevance for patients undergoing total repair of pulmonary atresia, ventricular septal defect, and major aortopulmonary collateral arteries. To this purpose, we currently rely on 2 novel parameters: (1) preoperative total neopulmonary arterial index and (2) mean pulmonary artery pressure changes during an intraoperative flow study. Methods: Since January 1994, 15 consecutive patients (aged 64 ± 54 months) with pulmonary atresia, ventricular septal defect, and major aortopulmonary collaterals were managed according to total neopulmonary arterial index. Seven patients with hypoplastic pulmonary arteries and a total neopulmonary arterial index less than 150 mm2/m2 underwent palliative right ventricular outflow tract reconstruction followed by secondary 1-stage unifocalization and ventricular septal defect closure. The other 8 patients with a preoperative index of more than 150 mm2/m2 underwent primary single-stage unifocalization and repair. The ventricular septal defect was closed in all cases (reopened in 1). In 9, such decision was based on an intraoperative flow study. Results: Patients treated by right ventricular outflow tract reconstruction had a significant increase of pulmonary artery index (P = .006) within 22 ± 6 months. Repair was successful in 14 cases (postrepair right ventricular/left ventricular pressure ratio = 0.47 ± 0.1). One hospital death occurred as a result of pulmonary vascular obstructive disease, despite a reassuring intraoperative flow study. Accuracy of this test in predicting the postrepair mean pulmonary artery pressure was 89% (95% CI: 51%-99%). At follow-up (18 ± 12 months), all patients are free of symptoms, requiring no medications. Conclusion: The integrated approach to total repair of pulmonary atresia, ventricular septal defect, and major aortopulmonary collaterals by preoperative calculation of total neopulmonary arterial index, right ventricular outflow tract reconstruction (when required), and intraoperative flow study may lead to optimal intermediate results. (J Thorac Cardiovasc Surg 1998;116:914-23

Power Doppler sonography and ultrasound contrast agent in assessing rheumatoid synovitis

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Inter-observer agreement of standard joint counts in early rheumatoid arthritis: a comparison with grey scale ultrasonography—a preliminary study

Objectives. The aims of the present study were to assess the inter-observer agreement of standard joint count and to compare clinical examination with grey scale ultrasonography (US) findings in patients with early rheumatoid arthritis (RA). Methods. The study was conducted on 44 RA patients with a disease duration of <2yrs. Clinical evaluation was performed independently by two rheumatologists for detection of tenderness in 44 joints and swelling in 42 joints. All patients underwent US assessment by a rheumatologist experienced in this method and blinded to the clinical findings. Joint inflammation was detected by US when synovial fluid and/or synovial hypertrophy was identified using OMERACT preliminary definitions. The inter-observer reliability was calculated by overall agreement (percentage of observed exact agreement) and kappa (� )-statistics. The reliability of US was calculated in 12 RA patients. Results. There was fair to moderate inter-observer agreement on individual joint counts for either tenderness or joint swelling apart from the glenohumeral joint. US detected a higher number of inflamed joints than did clinical examination. The mean (� S.D.) US joint count for joint inflammation was 19.1 (� 4.1), while the mean (� S.D.) number of swollen joints was 12.6 (� 3.6), with a significant difference of P ¼0.01. Conclusions. Our results provide evidence in favour of the hypothesis that clinical examination is far from optimal for asessing joint inflammation in patients with early RA. Furthermore, this study suggests that US can considerably improve the detection of signs of joint inflammation both in terms of sensitivity and reliability

Improving water use efficiency in vertical farming: Effects of growing systems, far-red radiation and planting density on lettuce cultivation

Vertical farms (VFs) are innovative urban production facilities consisting of multi-level indoor systems equipped with artificial lighting in which all the environmental conditions are controlled independently from the external climate. VFs are generally provided with a closed loop fertigation system to optimize the use of water and nu-trients. The objective of this study, performed within an experimental VF at the University of Bologna, was to quantify the water use efficiency (WUE, ratio between plant fresh weight and the volume of water used) for a lettuce (Lactuca sativa L.) growth cycle obtained in two different growing systems: an ebb-and-flow substrate culture and a high pressure aeroponic system. Considering the total water consumed (water used for irrigation and climate management), WUE of ebb-and-flow and aeroponics was 28.1 and 52.9 g L-1 H2O, respectively. During the growing cycle, the contribution generated by the recovery of internal air moisture from the heating, ventilation and air conditioning (HVAC) system, was quantified. Indeed, by recovering water from the dehu-midifier, water use decreases dramatically (by 67 %), while WUE increased by 206 %. Further improvement of WUE in the ebb-and-flow system was obtained through ameliorated crop management strategies, in particular, by increasing planting densities (e.g., 153, 270 and 733 plants m-2) and by optimizing the light spectrum used for plant growth (e.g., adjusting the amount of far-red radiation in the spectrum). Strategies for efficient use of water in high-tech urban indoor growing systems are therefore proposed

Congenital supravalvar mitral ring: An underestimated anomaly

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The impact of vertebral fractures on quality of life in postmenopausal women with osteoporosis. Validity of the Italian version of mini-Osteoporosis Quality of Life Questionnaire

Background: Vertebral fracture is one of the most commonly occurring osteoporotic fractures. Vertebral fractures associated with osteoporosis are a major cause of pain in elderly people and may hardly affect patient's health-related quality of life (HRQOL), making this an important parameter for assessment in these patients. Studies comparing the performance of HRQOL instruments in osteoporosis are laking. Objectives: The purposes of this study were to assess the effect of vertebral fractures on health HRQOL in postmenopausal women with osteoporosis and to investigate the validity of the Italian version of the mini-Osteoporosis Quality of Life Questionnaire (mini-OQOL) in a clinical setting. Methods: Patients were divided into two study groups, according to fracture status: vertebral fractures (41 patients) and no vertebral fractures (27 patients). Baseline assessments of anthropometric data, medical history, and prevalent fracture status were obtained from all participants. All of the participants were evaluated using both disease-targered mini-OQOL and QUALEFFO, generic instrument (EUROQoL), disability scale (Roland Morris Disability questionnaire- RMDQ) and chronic pain grade questionnaire. Results: Vertebral fractures due to osteoporosis significantly decreases scores on physical function, socio-emotional status, clinical symptoms, and overal HRQOL. Both disease-targeted questionnaires showing an association between the number of prevalent vertebral fractures and decreased HRQOL. Significant correlations existed between scores of similar domains of mini-OQOL and the QUALEFFO, especially for symptoms, physical function, activities of daily living and social function. The receiver operating characteristic (ROC) curve analysis of mini-OQOL and the QUALEFFO indicated that both questionnaires were significantly predictive of vertebral fractures. Number of concomitant diseases presented a weak significant correlation with EUROQoL (p=0,041). Conclusions: Our study suggests that the patients with vertebral fractures due to osteoporosis have a relevant impairment in quality of life. Both disease-targeted questionnaires discriminated between patients with and without vertebral fractures though the mini-OQOL, originally developed to measure the effect of vertebral fractures on quality of life, showed slightly better discriminant power. The benefit of the mini-OQOL is that it is efficient, self administered, and requires 3-4 minutes to complete