РЕЗУЛЬТАТЫ ЭТАПНОГО ХИРУРГИЧЕСКОГО ЛЕЧЕНИЯ ИНФАНТИЛЬНЫХ И ЮВЕНИЛЬНЫХ СКОЛИОЗОВ С ИСПОЛЬЗОВАНИЕМ РАЗЛИЧНЫХ МЕТОДИК

Introduction. The analysis Results of surgical treatment of growing children with infantile and juvenile scoliosis (IS) can the optimal method of treatment select. In young children with significant growth potential spinal fusion may not be the best option as it limits further longitudinal growth of the spine and may to the thoracic insufficiency syndrome result. To address this problem recently several techniques focused, their have advantages and drawbacks.Material and methods. Since 2008 year 127 patients (64 girls, 63 boys) aged (4.5 ± 2.1) years were operated on. In group I 65 patients were operated on using VEPTR (Vertical Expandable Prosthetic Titanium Rib) instrumentation, in group II 42 patients using various spinal instrumentation. 20 patients with congenital kyphosis were excluded. The average follow-up time was (5.6 ± 1.1) years.Results. In group I average value of the primary scoliotic curve before surgery was (74.7 ± 22.9), secondary curve (42.8 ± 16.0), thoracic kyphosis (46.3 ± 27.4), lumbar lordosis (54.6 ± 14). Average value of the primary scoliotic curve after surgery was reduced to (51 ± 20) (correction 31.7%), at followup to (56.5 ± 18.5), secondary curve (31.8 ± 12.8) (25.7%), at follow-up to (32.4 ± 18.4), thoracic kyphosis (36.8 ± 20.8) (20,5%), at follow-up to (41.8 ± 21.0), lumbar lordosis (45.4 ± 12.7) (16,9%), at follow-up to (48.2 ± 11.7) (p < 0.05). Space available for lung before surgery was (84.5 ± 8.7) %, after surgery was (94.8 ± 6.7)%, at follow-up increased to (98.6 ± 5.4) % (p < 0.05). Complications included 11 implant dislocations and 1 infection. In group II average value of the primary scoliotic curve before surgery was (87.6 ± 6.6), secondary curve (47.8 ± 4.6), thoracic kyphosis (61.4 ± 10.4), lumbar lordosis (61.8 ± 4.9). Average value of the primary scoliotic curve after surgery was reduced to 50.6 ± 5.3 (correction 42.3%), at follow-up to (66.1 ± 6.3), secondary curve (24.1 ± 2.9) (49.6%), at follow-up to (37 ± 5.4), thoracic kyphosis (38.8 ± 7.7) (36.8%), at follow-up to (59.4 ± 11.2), lumbar lordosis (47.5 ± 4.1) (23.2%), at follow-up to (64.5 ± 4.5) (p < 0.05). Complications included 23 implant dislocations and 1 infection. No neurological complications.Conclusion. Stage correction fusions using various instrumentation is a method of choice for controlled correction of growing children with IS.Введение. Анализ результатов хирургического лечения сколиотических деформаций позвоночника у активно растущих детей позволяет выбрать оптимальный метод лечения. Стабилизация позвоночника является быть оптимальным вариантом, так как может привести к ограничению его дальнейшего роста и развитию синдрома торакальной недостаточности. На решение этой задачи в последнее время ориентировано несколько методик, имеющих свои достоинства и недостатки.Цель исследования – проанализировать результаты хирургического лечения инфантильных и ювенильных сколиозов с использованием различного инструментария.Материал и методы. В период с 1998 по2014 г. оперировано 127 детей (64 девочки и 63 мальчика) с инфантильными и ювенильными деформациями позвоночника различной этиологии. Операции проводились по двум методикам: первая группа (65 больных) – по методике VEPTR (Vertical Expandable Prosthetic Titanium Rib, США), вторая (42 больных) – с использованием дорсального сегментарного инструментария. Средний возраст начала лечения составил (4,5 ± 2,1) года (I группа), (7,6 ± 2,4) года (II группа). Сроки послеоперационного наблюдения составили (5,6 ± 1,1) года (от 6 мес до 12 лет).Результаты. В группе I средняя величина основной сколиотической дуги перед началом лечения составляла (74,7 ± 22,9)°, противоискривления – (42,8 ± 16)°, грудного кифоза – (46,3±27,4)°, поясничного лордоза – (54,6 ± 14)°. Величина основной сколиотической дуги после операции составляла (51,0 ± 20,0)° (коррекция 31,7%), противоискривления – (31,8 ± 12,8)° (коррекция 25,7%), кифоза – (36,8 ± 20,8)° (коррекция 20,5%), лордоза – (45,4 ± 12,7)° (коррекция 16,9%) (p < 0,05). В конце срока наблюдения величина основной сколиотической дуги составила (56,5 ± 18,5)°, противоискривления – (32,4 ± 18,4)°, кифоза – (41,8 ± 21,0)°, лордоза – (48,2 ± 11,7)° (p < 0,05). При использовании инструментария VEPTR отмечено увеличение отношения пространств доступных для легких в сравнении с исходным – (84,5 ± 8,7), послеоперационным – (94,8 ± 6,7) и значением в конце срока наблюдения – (98,6 ± 5,4) (p < 0,05). У 11 пациентов отмечена нестабильность захватов инструментария, 1 случай нагноения. Во II группе средняя величина основной сколиотической дуги перед началом лечения составляла (87,6 ± 6,6)°, противоискривления – (47,8 ± 4,6)°, грудного кифоза – (61,4 ± 10,4)°, поясничного лордоза – (61,8 ± 4,9)°. Величина основной сколиотической дуги после операции составляла (50,6 ± 5,3)° (коррекция 42,3%), противоискривления – (24,1 ± 2,9)° (коррекция 49,6%), кифоза – (38,8 ± 7,7)° (коррекция 36,8%), лордоза – (47,5 ± 4,1)° (коррекция 23,2%) (p < 0,05). В конце срока наблюдения величина основной сколиотической дуги составила (66,1 ± 6,3)°, противоискривления – (37,0 ± 5,4)°, кифоза – (59,4 ± 11,2)°, лордоза – (64,5 ± 4,5)° (p < 0,05). У 23 пациентов отмечена нестабильность захватов инструментария, 1 случай нагноения. Неврологических осложнений не отмечено.Вывод. При хирургическом лечении инфантильных и ювенильных сколиозов методом выбора являются этапные коррекции с использованием различного инструментария

Влияние различных источников света на продукционный процесс томата в интенсивной светокультуре

Introduction. The development of ideas about the influence of the light environment - the radiation spectrum, intensity and duration of exposure, on the physiology of plants, serves as the basis for the creation of effective light sources for protected ground.Purpose. Comparative test of the influence of a light environment with different spectral composition on the productivity and quality of tomatoes in conditions of intensive photo culture.Methods. Investigations were made under controlled conditions of intensive photoculture when growing dwarf tomatoes of the variety Natasha selections of the “Federal Scientific Vegetable Center” on thin-layer soil analogs with the supply of a nutrient solution to the plant roots through a slit capillary in vegetative light installations developed at the ARI. The light sources were high-pressure sodium lamps and LED lamps SD1, SD2, and SD3 with different emission spectra. Results. Tomatoes of the Natasha variety, illuminated during development with HPS lamps, formed almost the same yield with an average fruit weight of 42.5 kg/m2 per layer per year. Natasha tomato grown under LED lamps showed a tendency to lower productivity by 29% under SD1 and by 8% under SD2 and higher by 19% under underSD3 compared to that under HPS lamps. A comparative assessment of the biochemical composition of tomato fruits indicates their high quality under all tested light sources.Conclusion. Cultivation of dwarf tomato varieties on thin-layer soil analogs showed the best results in terms of productivity with good quality plant products under LED lamps SD3 with a radiation spectrum close to sunlight.Введение. Развитие представлений о влиянии световой среды – спектра излучения, интенсивности и продолжительности воздействия, на физиологию растений, служит основой для создания эффективных источников света для защищенного грунта.Цель. Сравнительное испытание влияния световой среды с различным спектральным составом на продуктивность и качество томатов в условиях интенсивной светокультуры.Методы. Исследования проводили в регулируемых условиях интенсивной светокультуры при выращивании томата карликового сорта Наташа селекции ФГБНУ «Федеральный центр овощеводства» на тонкослойных аналогах почвы (ТАП) с подачей питательного раствора к корням растений по щелевому капилляру в вегетационных светоустановках, разработанных в ФГБНУ АФИ. Источниками света служили натриевые лампы высокого давления и светодиодные светильники СД1, СД2 и СД3с различными спектрами излучения.Результаты. Растения томата сорта Наташа, освещаемый в процессе развития лампами ДНаЗ, сформировали практически одинаковую урожайность со средней массой плодов 42,5 кг/м2 с одного яруса в год. Выращенные под светодиодными светильниками растения томата сорта Наташа показали тенденцию к более низкой продуктивности на 29% под СД1 и на 8% –под СД2 и более высокой – на 19% под СД3 по сравнению с таковой под лампами ДНаЗ. Сравнительная оценка биохимического состава плодов томата свидетельствует о высоком их качестве под всеми тестируемыми источниками света.Заключение. Культивирование растений карликовых сортов томата на ТАП показало наилучшие результаты по продуктивности при хорошем качестве растительной продукции под светодиодными светильниками СД3 со спектром излучения, близким к солнечному свету

ВЛИЯНИЕ БИОЛОГИЧЕСКИ АКТИВНЫХ ПРЕПАРАТОВ НА ПРОДУКТИВНОСТЬ И КАЧЕСТВО ПЛОДОВ ПЕРЦА СЛАДКОГО В УСЛОВИЯХ ИНТЕНСИВНОЙ СВЕТОКУЛЬТУРЫ

Effects of humic preparation (HP) Stimulife and PGPR (plant growth promotion rhizobacteria) Bacillus subtilis №2 on the productivity and quality of the sweet pepper (Capsicum annuum L.) fruits were studied in the control conditions. It was experimentally established that the use of Stimulife and bacteria Bacillus subtilis №2 resulted in an increase in plant height, productivity and biochemical composition of sweet peppers. Differences in the effect of the studied preparations on the morphometric, phenological and biochemical characteristics of plants and fruits of pepper varieties Ermak and Cinderella were revealed. The bacteria Bacillus subtilis №2 significantly increased the yield, the number of fruits per one plant and the contents of ascorbic acid and carbohydrates in pepper fruits. In this case, the average weight of one fruit of pepper v. Ermak decreased. HP Stimulife increased the pepper yield due to increasing the mean mass of one fruit in both pepper varieties. Joint used of HP Stimulife and bacteria Bacillus subtilis №2 led to an intensification of the production process of plants compared to the experiment variants, in which HP Stimulife was used alone. The yield of sweet pepper Ermak and Cinderella increased by 10-45%, the maturation period of fruits was reduced by 10-14 days, the content of ascorbic acid increased by 25%, sugar content increased to 26%. The expediency of the joint application of HP Stimulife and bacteria Bacillus subtilis №2 in the cultivation of sweet pepper under controlled conditions is substantiated.В условиях интенсивной светокультуры изучено влияние гуминового препарата (ГП) Стимулайф и PGPR бактерий Bacillus subtilis №2 на продуктивность и качество плодов перца сладкого Capsicum annuum L Экспериментально установлено, что применение ГП Стимулайф и бактерий Bacillus subtilis №2 привело к увеличению высоты растений, показателей продуктивности и улучшению биохимического состава плодов перца сладкого. Выявлены различия в действии изучаемых препаратов на морфометрические, фенологические и биохимические характеристики растений перца сортов Ермак и Золушка. Бактерии Bacillus subtilis №2 достоверно увеличивали урожайность, количество плодов на одном растении у обоих сортов и содержание аскорбиновой кислоты и углеводов в плодах. При этом средняя масса одного плода у перца Ермак не изменилась по сравнению с контролем. ГП Стимулайф увеличивал среднюю массу 1 плода у обоих сортов, за счет чего увеличивалась урожайность. Совместная обработка растений ГП Стимулайф и бактериями Bacillus subtilis №2 привела к интенсификации продукционного процесса растений, по сравнению с вариантами опыта, в которых применялся только ГП Стимулайф. Урожайность перца сладкого сортов Ермак и Золушка увеличилась на 10-45%, сократились сроки созревания плодов на 10-14 суток, содержание аскорбиновой кислоты выросло на 25%, сахаров –до 26%. Обоснована целесообразность совместного применения ГП Стимулайф и бактерий Bacillus subtilis №2 при выращивании перца сладкого в технологиях интенсивной светокультуры

TNFA-863 polymorphism is associated with a reduced risk of Chronic Obstructive Pulmonary Disease: A replication study

<p/> <p>Background</p> <p>TNF-α mediated inflammation is thought to play a key role in the respiratory and systemic features of Chronic Obstructive Pulmonary Disease. The aim of the present study was to replicate and extend recent findings in Taiwanese and Caucasian populations of associations between COPD susceptibility and variants of the <it>TNFA </it>gene in a Spanish cohort.</p> <p>Methods</p> <p>The 3 reported SNPs were complemented with nine tag single nucleotide polymorphisms (SNP) of the <it>TNFA </it>and <it>LTA </it>genes and genotyped in 724 individuals (202 COPD patients, 90 smokers without COPD and 432 healthy controls). Pulmonary function parameters and serum inflammatory markers were also measured in COPD patients.</p> <p>Results</p> <p>The <it>TNFA </it>rs1800630 (-863C/A) SNP was associated with a lower COPD susceptibility (ORadj = 0.50, 95% CI = 0.33-0.77, p = 0.001). The -863A allele was also associated with less severe forms of the disease (GOLD stages I and II) (ORadj = 0.303, 95%CI = 0.14-0.65, p = 0.014) and with lower scores of the BODE index (< 2) (ORadj = 0.40, 95%CI = 0.17-0.94, p = 0.037). Moreover, the -863A carrier genotype was associated with a better FEV₁percent predicted (p = 0.004) and a lower BODE index (p = 0.003) over a 2 yrs follow-up period. None of the <it>TNFA </it>or <it>LTA </it>gene variants correlated with the serum inflammatory markers in COPD patients (p > 0.05).</p> <p>Conclusions</p> <p>We replicated the previously reported association between the <it>TNFA </it>-863 SNP and COPD. <it>TNFA </it>-863A allele may confer a protective effect to the susceptibility to the disease in the Spanish population.</p

Autophagy acts through TRAF3 and RELB to regulate gene expression via antagonism of SMAD proteins

Macroautophagy can regulate cell signalling and tumorigenesis via elusive molecular mechanisms. We establish a RAS mutant cancer cell model where the autophagy gene ATG5 is dispensable in A549 cells in vitro, yet promotes tumorigenesis in mice. ATG5 represses transcriptional activation by the TGFβ-SMAD gene regulatory pathway. However, autophagy does not terminate cytosolic signal transduction by TGFβ. Instead, we use proteomics to identify selective degradation of the signalling scaffold TRAF3. TRAF3 autophagy is driven by RAS and results in activation of the NF-κB family member RELB. We show that RELB represses TGFβ target promoters independently of DNA binding at NF-κB recognition sequences, instead binding with SMAD family member(s) at SMAD-response elements. Thus, autophagy antagonises TGFβ gene expression. Finally, autophagy-deficient A549 cells regain tumorigenicity upon SMAD4 knockdown. Thus, at least in this setting, a physiologic function for autophagic regulation of gene expression is tumour growth

Mapping tenascin-C interaction with toll-like receptor 4 reveals a new subset of endogenous inflammatory triggers

Pattern recognition underpins innate immunity; the accurate identification of danger, including infection, injury, or tumor, is key to an appropriately targeted immune response. Pathogen detection is increasingly well defined mechanistically, but the discrimination of endogenous inflammatory triggers remains unclear. Tenascin-C, a matrix protein induced upon tissue damage and expressed by tumors, activates toll-like receptor 4 (TLR4)-mediated sterile inflammation. Here we map three sites within tenascin-C that directly and cooperatively interact with TLR4. We also identify a conserved inflammatory epitope in related proteins from diverse families, and demonstrate that its presence targets molecules for TLR detection, while its absence enables escape of innate immune surveillance. These data reveal a unique molecular code that defines endogenous proteins as inflammatory stimuli by marking them for recognition by TLRs

Effective transcription factor binding site prediction using a combination of optimization, a genetic algorithm and discriminant analysis to capture distant interactions

<p>Abstract</p> <p>Background</p> <p>Reliable transcription factor binding site (TFBS) prediction methods are essential for computer annotation of large amount of genome sequence data. However, current methods to predict TFBSs are hampered by the high false-positive rates that occur when only sequence conservation at the core binding-sites is considered.</p> <p>Results</p> <p>To improve this situation, we have quantified the performance of several Position Weight Matrix (PWM) algorithms, using exhaustive approaches to find their optimal length and position. We applied these approaches to bio-medically important TFBSs involved in the regulation of cell growth and proliferation as well as in inflammatory, immune, and antiviral responses (NF-κB, ISGF3, IRF1, STAT1), obesity and lipid metabolism (PPAR, SREBP, HNF4), regulation of the steroidogenic (SF-1) and cell cycle (E2F) genes expression. We have also gained extra specificity using a method, entitled SiteGA, which takes into account structural interactions within TFBS core and flanking regions, using a genetic algorithm (GA) with a discriminant function of locally positioned dinucleotide (LPD) frequencies.</p> <p>To ensure a higher confidence in our approach, we applied resampling-jackknife and bootstrap tests for the comparison, it appears that, optimized PWM and SiteGA have shown similar recognition performances. Then we applied SiteGA and optimized PWMs (both separately and together) to sequences in the Eukaryotic Promoter Database (EPD). The resulting SiteGA recognition models can now be used to search sequences for BSs using the web tool, SiteGA.</p> <p>Analysis of dependencies between close and distant LPDs revealed by SiteGA models has shown that the most significant correlations are between close LPDs, and are generally located in the core (footprint) region. A greater number of less significant correlations are mainly between distant LPDs, which spanned both core and flanking regions. When SiteGA and optimized PWM models were applied together, this substantially reduced false positives at least at higher stringencies.</p> <p>Conclusion</p> <p>Based on this analysis, SiteGA adds substantial specificity even to optimized PWMs and may be considered for large-scale genome analysis. It adds to the range of techniques available for TFBS prediction, and EPD analysis has led to a list of genes which appear to be regulated by the above TFs.</p

Chromosome conformation signatures define predictive markers of inadequate response to methotrexate in early rheumatoid arthritis

The authors would like to thank members of OBD Reference Facility Benjamin Foulkes, Chloe Bird, Emily Corfeld and Matthew Salter for expedient processing of clinical samples on the EpiSwitch™ platform and Magdalena Jeznach and Willem Westra for help with preparation of the manuscript. The study employed samples from the SERA Biobank used with permission and approval of the SERA Approval Group. We gratefully acknowledge the invaluable contribution of the clinicians and operating team in SERA. We would also like to thank Prof. Raju Kucherlapati (Harvard Medical School), and Prof. Jane Mellor (Oxford Univ.), Prof. John O’Shea (National Institute of Health) and Prof. John Isaacs (New Castle Univ.) for their independent and critical review of our study. A list of Scottish Early Rheumatoid Arthritis (SERA) inception cohort investigators is provided in Additional fle 1: Additional Note. Funding This work was funded by Oxford BioDynamics.Peer reviewedPublisher PD

Science, practice and the System of Rice Intensification in Indian agriculture

The System of Rice Intensification (SRI) is claimed to be a novel approach to rice cultivation that is both more productive and more sustainable than conventional methods. Such claims have been challenged or dismissed by many rice scientists, however. Despite the lack of clear and unequivocal endorsement by science, SRI seems to have spread widely and rather quickly to many rice-growing regions, including various areas of India. This paper discusses how and considers why SRI seems to have attracted the support of diverse stakeholders in Indian rice farming. As such, the SRI phenomenon should be taken seriously. Nevertheless, many scientific questions remain to be answered, concerning the biophysical mechanisms involved in SRI and their effects on plant performance and crop yields, the true spread of SRI practices among farmers and the system's impacts on farm livelihoods, rice production and resource use. Indian enthusiasm for SRI implies a level of dissatisfaction with conventional approaches to rice intensification and a demand for new methods that can address the perceived problems and challenges of agriculture in the futur