Estimation of vitamin D level in low backache cases and their outcome after treatment with vitamin D

Background: Vitamin D has a significant role to play in bone metabolism and neuromuscular function. Several researchers have indicated that vitamin D deficiency may be possibly related to chronic musculoskeletal pain including chronic low back pain (CLBP). Objectives of this present study were conducted to rule out the vitamin D deficiency in a patient can also be a cause of low backache other than various spinal disorders like PIVD, spondylolisthesis etc.  Methods: A total of 50 patients, of any age who visited the Department of Orthopedics outpatient/Emergency, with chief complaint of low backache without any low backache disease like PIVD and spondylolisthesis etc. were thoroughly interviewed and examined for any concomitant pathological disease of spine. Patient’s Blood sample of about 5 ml with syringe of 10 cc. were taken and the serum vitamin D level was assayed by “direct competitive chemiluminescence immunoassay” (CLIA). Results: Out of 50 patients of low backache and vitamin D deficiency, 33 patients have good outcome in their pain after getting treatment in form of Vitamin D.  Conclusions: We concluded that the vitamin D plays a major role in low backache and after treatment there is significant improvement in low backache.  

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Not AvailableA experiment was carried out in 2015 under Factorial RBD with treatments consisting 20 pearl millet accession and 2 cutting management [C1-Single cut at 50 DAS for green fodder and left for grain purpose, C2-three cut for green fodder purpose at 50, 80 and 110 DAS] under saline irrigation water (EC~6dS m-1). Irrespective of cutting management ICFH -15, ICFH -16, ICFH -17 recorded significantly highest value for plant height, Number of leaves, tillers, stem girth, fodder yield, net return and benefit cost ratio than rest others. Among cutting management treatment C1 (for dual purpose) proved superior in comparison to C2 (Multicut purpose). Therefore, our results suggest that accession ICFH -15, ICFH -16, ICFH -17 for dual purpose might be adapted as a strategy for getting higher Green fodder yield under saline environment in north-western region of India and elsewhere under similar agro-climatic conditions.Not Availabl

Assessment of carbonaceous aerosols at Mukteshwar: A high-altitude (~2200 m amsl) background site in the foothills of the Central Himalayas

The present study examined the equivalent black carbon (eBC) mass concentrations measured over 10.5 years (September 2005–March 2016) using a 7-wavelength Aethalometer (AE-31) at Mukteshwar, a high-altitude and regional background site in the foothills of Indian central Himalayas. The total spectral absorption coefficient (babs) was divided into three categories: black carbon (BC) and brown carbon (BrC); fossil fuels (FF) and wood/biomass burning (WB/BB); and primary and secondary sources. At the wavelength of 370 nm, a significant BrC contribution (25 %) to the total babs is identified, characterized by a pronounced seasonal variation with winter (December–January-February) maxima (31 %) and post-monsoon (October and November) minima (20 %); whereas, at 660 nm, the contribution of BrC is dramatically less (9 %). Climatologically, the estimated BCFF at 880 nm ranges from 0.25 ± 0.19 μg m−3 in July to 1.17 ± 0.80 μg m−3 in May with the annual average of 0.67 ± 0.63 μg m−3, accounting for 79 % of the BC mass. The maximum BCFF/BC fraction reaches its peak value during the monsoon (July and August, 85 %), indicating the dominance of local traffic emissions due to tourism activities. Further, the highest BCWB concentration observed during pre-monsoon (March–May) suggests the influence of local forest fires along with long-range transported aerosols from the low-altitude plains. The increased contribution of BrC (26 % at 370 nm) and WB absorption (61 % at 370 nm) to the total absorption at the shorter wavelengths suggests that wood burning is one of the major sources of BrC emissions. Secondary BrC absorption accounts for 24 % [91 %] of the total absorption [BrC absorption] at 370 nm, implying the dominance of secondary sources in BrC formation. A trend analysis for the measured BC concentration shows a statistically significant increasing trend with a slope of 0.02 μgm−3/year with a total increase of about 22 % over the study period. A back trajectory-based receptor model, potential source contribution function (PSCF), was used to identify the potential regional source region of BC. The main source regions of BC are the northwest states of India in the IGP region and the northeast Pakistan region

Chemical Composition and Source Apportionment of Total Suspended Particulate in the Central Himalayan Region

The present study analyzes data from total suspended particulate (TSP) samples collected during 3 years (2005–2008) at Nainital, central Himalayas, India and analyzed for carbonaceous aerosols (organic carbon (OC) and elemental carbon (EC)) and inorganic species, focusing on the assessment of primary and secondary organic carbon contributions (POC, SOC, respectively) and on source apportionment by positive matrix factorization (PMF). An average TSP concentration of 69.6 ± 51.8 µg m−3 was found, exhibiting a pre-monsoon (March–May) maximum (92.9 ± 48.5 µg m−3) due to dust transport and forest fires and a monsoon (June–August) minimum due to atmospheric washout, while carbonaceous aerosols and inorganic species expressed a similar seasonality. The mean OC/EC ratio (8.0 ± 3.3) and the good correlations between OC, EC, and nss-K+ suggested that biomass burning (BB) was one of the major contributing factors to aerosols in Nainital. Using the EC tracer method, along with several approaches for the determination of the (OC/EC)pri ratio, the estimated SOC component accounted for ~25% (19.3–29.7%). Furthermore, TSP source apportionment via PMF allowed for a better understanding of the aerosol sources in the Central Himalayan region. The key aerosol sources over Nainital were BB (27%), secondary sulfate (20%), secondary nitrate (9%), mineral dust (34%), and long-range transported mixed marine aerosol (10%). The potential source contribution function (PSCF) and concentration weighted trajectory (CWT) analyses were also used to identify the probable regional source areas of resolved aerosol sources. The main source regions for aerosols in Nainital were the plains in northwest India and Pakistan, polluted cities like Delhi, the Thar Desert, and the Arabian Sea area. The outcomes of the present study are expected to elucidate the atmospheric chemistry, emission source origins, and transport pathways of aerosols over the central Himalayan region

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Not AvailableEstablishing tree plantations on saline soil irrigated with saline ground waters may provide an economic use of abandoned lands, but a knowledge gap exists on potential of growing commercially important fast growing tree species under salt affected soils with saline irrigation and their impact on soil physico-chemical properties. The present study has been initiated to establish Melia composita and Eucalyptus tereticornis based agroforestry models and evaluate the performance of crops under trees and vice versa irrigated with the help of saline water irrigation. The treatments comprised of five tree and crop combinations viz., Eucalyptus tereticornis +crops, Melia composita +crops, Sole Eucalyptus tereticornis, Sole Melia compositaand sole crops i.e. pearlmillet and mustard under open conditions. Eucalyptusand Melia tree species recorded 78% and 70% survival, respectively. Growth performance of the two tree species was recorded one year after transplanting. Eucalyptus attained higher plant height (269.36cm) as compared to Melia (223.38cm) whereas diameter at breast height (DBH) was more in Melia (4.46cm) as compared to Eucalyptus (3.15cm). Longest branches, crown spread and number of branches were higher in case of Eucalyptusas compared to Melia. In general, declining growth trend was observed with increase in soil salinity. Mustard was sown as intercrop in between Melia and Eucalyptus rows. Germination of mustard crop showed variable response depending upon level of salinity. Germination percentage varied -1 -1 -1 from nil (EC :7.28 dSm ) to 85.0 (EC :2.40 dSm ) under Eucalyptus trees whereas it ranged from nil (EC :7.29 dSm ) to 70.0 2 2 2 -1 (EC :2.40 dSm ) under Melia trees. The average germination under Eucalyptus and Melia plantation was 27.91% and 2 30.42%, respectively. Results on growth parameters is also reported in this paper.ICAR-CSSR

CNS Aspergilloma Mimicking Tumors: Review of CNS Aspergillus Infection Imaging Characteristics in the Immunocompetent Population

BACKGROUND AND PURPOSE: CNS Aspergillosis is very rare and difficult to diagnose clinically and on imaging. Our objective was to elucidate distinct neuroimaging pattern of CNS aspergillosis in the immunocompetent population that helps to differentiate from other differential diagnosis. METHODS: Retrospective analysis of brain imaging findings was performed in eight proven cases of central nervous system aspergillosis in immunocompetent patients. Immunocompetent status was screened with clinical and radiological information. Cases were evaluated for anatomical distribution, T1 and T2 signal pattern in MRI and attenuation characteristics in CT scan, post-contrast enhancement pattern, internal inhomogeneity, vascular involvement, calvarial involvement and concomitant paranasal, cavernous sinus or orbital extension. All patients were operated and diagnosis was confirmed on histopathology. RESULTS: The age range was 19-50 years with mean age of 33.7 years. Concomitant sinonasal disease was seen in six patients (75%). Three patients had orbital extensions. Most of the lesions (n=7) were profoundly hypointense in T2-weighted imaging. The most common enhancement pattern was bright, solid and homogenous enhancement (n=7). Cavernous extension with ICA encasement was always associated with paranasal sinus disease. Six patients showed demineralization or complete resorption of involved bone. All of the fungal masses appear hyperdense on available CT scan images. CONCLUSION: CNS aspergillus infection in immunocompetent patients has distinct imaging features as compared to CNS aspergillosis in immunocompromised patients. A high index of suspicion in proper clinical settings, even with immunocompetent status and typical imaging features allow us to diagnose CNS aspergillosis in such patients

Investigating the Interaction of Endophytic Bacteria and Biochemical Compounds in Pearl Millet (Pennisetum glaucum)

Pearl millet (Pennisetum glaucum) is an important cereal crop in Asia and Africa. This study focuses on quantifying endophytic bacteria in several parts of the pearl millet plant—roots, stems, and leaves. Total phenolic content, orthodihydroxy phenols, total soluble sugars, protein levels, and enzymatic activity (peroxidase, polyphenol oxidase, and catalase) were all measured and linked with the amount of endophytic bacteria. The leaves have the highest total phenolic content, followed by the stem. Orthodihydroxy phenols were also significantly greater in leaves (1.82 mg catechol equi./g) than in stems and roots. Total soluble sugars showed higher levels in leaves (9.97 mg glucose equi./g), in stems (9.21 mg glucose equi./g) and in roots ( 6.83 mg glucose equi./g). Protein content exhibited significant variation among the plant parts, with leaves (10.63%) containing the highest protein content followed by stems and roots (8.47% and 6.67% respectively). Enzymatic activities, crucial for plant defence and growth, varied across the plant sections. Peroxidase activity was highest in roots (359.98 OD/g), followed by stems and leaves. Polyphenol oxidase activity was lowest in the roots (1.63 OD/g) and highest in the leaves with 2.19 OD/g, while catalase activity was the highest activity in the roots with 17.79 OD/g versus 14.79 OD/g and 14.63 OD/gin the leaves and Roots respectively. The number of Pearl millet endophytic bacteria in the roots is 16, whereas the amount in the stem is 12 and 10 in the leaves. This in-depth analysis sheds light on future research targeted at better understanding plant-microbe interactions and developing ways to improve plant health and productivity

An alternative approach for supportive supervision and skill measurements of health workers for integrated management of neonatal and childhood illnesses program in 10 districts of Haryana

Context: “Integrated Management of Neonatal and Childhood Illnesses” (IMNCI) needs regular supportive supervision (SS). Aims: The aim of this study was to find suitable SS model for implementing IMNCI. Settings and Design: This was a prospective interventional study in 10 high-focus districts of Haryana. Subjects and Methods: Two methods of SS were used: (a) visit to subcenters and home visits (model 1) and (b) organization of IMNCI clinics/camps at primary health center (PHC) and community health center (CHC) (model 2). Skill scores were measured at different time points. Routine IMNCI data from study block and randomly selected control block of each district were retrieved for 4 months before and after the training and supervision. Statistical Analysis Used: Change in percentage mean skill score difference and percentage difference in median number of children were assessed in two areas. Results: Mean skill scores increased significantly from 2.1 (pretest) to 7.0 (posttest 1). Supportive supervisory visits sustained and improved skill scores. While model 2 of SS could positively involve health system officials, model 1 was not well received. Outcome indicator in terms of number of children assessed showed a significant improvement in intervention areas. Conclusions: SS in IMNCI clinics/camps at PHC/CHC level and innovative skill scoring method is a promising approach

Semen parameters and fertility potency of a cloned water buffalo (Bubalus bubalis) bull produced from a semen-derived epithelial cell.

Semen contains epithelial cells that can be cultured in vitro. For somatic cell nuclear transfer applications, it is essential to know whether clone(s) produced from semen-derived epithelial cells (SedECs) are healthy and reproductively competent. In this study, the semen and fertility profile of a cloned bull (C1) that was produced from a SedEC were compared with its donor (D1) and with two cloned bulls (C2, C3) that were produced from commonly used skin-derived fibroblast cells (SkdFCs). We observed variations in some fresh semen parameters (ejaculated volume and mass motility), frozen-thawed sperm parameters (plasma membrane integrity, and computer-assisted semen analysis (CASA) indices), but values are within the normal expected range. There was no difference in sperm concentration of ejaculated semen and frozen-thawed semen parameters which include sperm motility, percentage of live and normal morphology sperm, and distance traveled through oestrus mucus. Following in vitro fertilization (IVF) experiments, zygotes from C1 had higher (P < 0.05) cleavage rates (81%) than C2, C3, and D1 (71%, 67%, and 75%, respectively); however, blastocyst development per cleaved embryo and quality of produced blastocysts did not differ. The conception rate of C1 was 46% (7/15) and C2 was 50% (8/15) following artificial insemination with frozen-thawed semen. Established pregnancies resulted in births of 7 and 6 progenies sired by C1 and C2, respectively, and all calves show no signs of phenotypical abnormalities. These results showed that semen from a cloned bull derived from SedECs is equivalent to semen from its donor bull and bulls cloned from SkdFCs

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Not AvailableSomatic cell nuclear transfer (SCNT) technology provides an opportunity to multiply superior animals that could speed up dissemination of favorable genes into the population. In the present study, we attempted to reproduce a superior breeding bull of Murrah buffalo, the best dairy breed of buffalo, using donor cells that were established from tail-skin biopsy and seminal plasma. We studied several parameters such as cell cycle stages, histone modifcations (H3K9ac and H3K27me3) and expression of developmental genes in donor cells to determine their SCNT reprogramming potentials. We successfully produced the cloned bull from an embryo that was produced from the skin-derived cell. Growth, blood hematology, plasma biochemistries, and reproductive organs of the produced cloned bull were found normal. Subsequently, the bull was employed for semen production. Semen parameters such as CASA (Computer Assisted Semen Analysis) variables and in vitro fertilizing ability of sperms of the cloned bull were found similar to non-cloned bulls, including the donor bull. At present, we have 12 live healthy progenies that were produced using artificial insemination of frozen semen of the cloned bull, which indicate that the cloned bull is fertile and can be utilized in the buffalo breeding schemes. Taken together, we demonstrate that SCNT can be used to reproduce superior buffalo bulls.Not Availabl