1,519 research outputs found
Touch me not
Central Poststroke Pain syndrome (CPSP) can occur due to disruption of the somatosensory pathways of the brain at any level such as the thalamus, medulla, or cerebral cortex. It is characterized by sensory abnormalities and hyperesthesia in the part of the body correlating to the central lesion. The treatment of this pain syndrome is often difficult, and it does not usually respond to traditional analgesics. The first line of treatment is drugs aimed at lowering neuronal hyperexcitability, for example, amitriptyline or lamotrigine, with gabapentin considered a second line
Foregrounds for redshifted 21 cm studies of reionization: GMRT 153 MHz observations
Foreground subtraction is the biggest challenge for future redshifted 21 cm
observations to probe reionization. We use a short GMRT observation at 153 MHz
to characterize the statistical properties of the background radiation across ~
one degree to sub-arcminutes angular scales, and across a frequency band of 5
MHz with 62.5 kHz resolution. The statistic we use is the visibility
correlation function, or equivalently the angular power spectrum C_l. We
present the results obtained from using relatively unsophisticated,
conventional data calibration procedures. We find that even fairly simple
minded calibration allows one to estimate the visibility correlation function
at a given frequency V_2(U,0). From our observations we find that V_2(U,0) is
consistent with foreground model predictions at all angular scales except the
largest ones probed by our observations where the the model predictions are
somewhat in excess. On the other hand the visibility correlation between
different frequencies kappa(U, Delta nu), seems to be much more sensitive to
calibration errors. We find a rapid decline in kappa(U, Delta nu), in contrast
with the prediction of less than 1 % variation across 2.5 MHz. In this case
however, it seems likely that a substantial part of the discrepancy may be due
to limitations of data reduction procedures.Comment: 10 pages, 7 figures, 1 table, Accepted for Publication in MNRA
Bayou virus-associated hantavirus pulmonary syndrome in Eastern Texas: identification of the rice rat, Oryzomys palustris, as reservoir host.
We describe the third known case of hantavirus pulmonary syndrome (HPS) due to Bayou virus, from Jefferson County, Texas. By using molecular epidemiologic methods, we show that rice rats (Oryzomys palustris) are frequently infected with Bayou virus and that viral RNA sequences from HPS patients are similar to those from nearby rice rats. Bayou virus is associated with O. palustris; this rodent appears to be its predominant reservoir host
Sizing Of Trousers and Shirts for Indian Army Personnel : An Anthropometric Application
The paper describes how anthropometric data obtained on 4400 Indian Army personnel was utilized in evolving size rolls for the trousers and shirts. A bivariate frequency distribution of abdominal circumference and abdominal height indicated that the data could be grouped into 14 sizes and such grouping could provide good fitting trousers to 92.52 percent of the troops. For shirts, the bivariate frequency distribution of chest circumference and arm length grouped army personnel again into 14 sizes. Such grouping encompassed 84.22 percent of the personnel studied. An extra large size has been provided for those not covered by these 14 size. In this study, 95 army officersâ clothing measurements essential for their good fitting trousers and shirts were taken along with the relevant body measurements. A stepwise linear regression analysis was also carried out to predict clothing measurements from body measurements. These regression equations were used to work out the dimensions of the trousers and shirts for different sizes from the classified anthropometric data
Gravitational Wave Detection Using Redshifted 21-cm Observations
A gravitational wave traversing the line of sight to a distant source
produces a frequency shift which contributes to redshift space distortion. As a
consequence, gravitational waves are imprinted as density fluctuations in
redshift space. The gravitational wave contribution to the redshift space power
spectrum. has a different \mu dependence as compared to the dominant
contribution from peculiar velocities. This allows the two signals to be
separated. The prospect of a detection is most favourable at the highest
observable redshift z. Observations of redshifted 21-cm radiation from neutral
hydrogen (HI) hold the possibility of probing very high redshifts. We consider
the possibility of detecting primordial gravitational waves using the redshift
space HI power spectrum. However, we find that the gravitational wave signal,
though present, will not be detectable on super-horizon scales because of
cosmic variance and on sub-horizon scales where the signal is highly
suppressed.Comment: Published in Physical Review D, Conclusions changed - signal not
detectable - cosmic variance dominate
Regression of Body Density on Skinfold Thicknesses in High Altitude Natives: Decline in the Predictive Efficiency on De-Acclimatisation to Low Altitude
Body density, stature, body weight and skinfold thickness at 11 sites were experimentally measured on two groups of high altitude natives (HAN) of Ladakh. Group 1, consisting of 38 similar volunteers was studied after 4-week stay at an altitude of 3658 m and Group 2, consisting of 38 similar volunteers was studied after 4-week stay at Delhi (altitude, 200m). Although, there was a strong relationship between skinfolds, other anthropometric measurements and body density (R=0.898) at high altitude (HA), this relationship was significantly reduced at Delhi (R=0.642). Appropriate regression equations predicting body density from skinfold thicknesses, stature and body weight are given for HAN at both the locations. It is concluded that hyperhydration of the lean body and the adipose tissue may be responsible for the weakening of the multiple Rs on de-acclimatisation to low altitude
Spectra of Coherent Smith-Purcell Radiation Observed from Short Electron Bunches: Numerical and Experimental Studies
MOPWA056 - ISBN978-3-95450-122-9International audienceThere is a significant interest in the development of compact particle accelerators within research areas including X-ray and THz (T-ray) sources of radiation, particle physics and medical sciences. To support the progress in these areas, non-invasive, electron beam diagnostics that are capable of measuring a single femtosecond electron bunch are required. At the current stage such beam diagnostics for femtosecond-long electron bunches are still not available. The goal of the work presented is to understand the spectral characteristics of coherent Smith-Purcell radiation to enable its quick and reliable interpretation including the longitudinal profile reconstruction of electron bunches. The research presented comprises results from numerical modelling and experimental studies. Using the numerical data, we discuss the radiated spectra dependence on the electron bunch profile and analyse the results. We also discuss the experimental data and compare it with theoretical predictions
Nanoantenna-enhanced ultrafast nonlinear spectroscopy of a single gold nanoparticle
Optical nanoantennas are a novel tool to investigate previously unattainable
dimensions in the nanocosmos. Just like their radio-frequency equivalents,
nanoantennas enhance the light-matter interaction in their feed gap. Antenna
enhancement of small signals promises to open a new regime in linear and
nonlinear spectroscopy on the nanoscale. Without antennas especially the
nonlinear spectroscopy of single nanoobjects is very demanding. Here, we
present for the first time antenna-enhanced ultrafast nonlinear optical
spectroscopy. In particular, we utilize the antenna to determine the nonlinear
transient absorption signal of a single gold nanoparticle caused by mechanical
breathing oscillations. We increase the signal amplitude by an order of
magnitude which is in good agreement with our analytical and numerical models.
Our method will find applications in linear and nonlinear spectroscopy of
nanoobjects, ranging from single protein binding events via nonlinear tensor
elements to the limits of continuum mechanics
Governing stem cell therapy in India: regulatory vacuum or jurisdictional ambiguity?
Stem cell treatments are being offered in Indian clinics although preclinical evidence of their efficacy and safety is lacking. This is attributed to a governance vacuum created by the lack of legally binding research guidelines. By contrast, this paper highlights jurisdictional ambiguities arising from trying to regulate stem cell therapy under the auspices of research guidelines when treatments are offered in a private market disconnected from clinical trials. While statutory laws have been strengthened in 2014, prospects for their implementation remain weak, given embedded challenges of putting healthcare laws and professional codes into practice. Finally, attending to the capacities of consumer law and civil society activism to remedy the problem of unregulated treatments, the paper finds that the very definition of a governance vacuum needs to be reframed to clarify whose rights to health care are threatened by the proliferation of commercial treatments and individualized negligence-based remedies for grievances
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