1,017 research outputs found
Unusual echocardiographic finding leading to diagnosis of pulmonary sequestration
Pulmonary sequestration is an embryonic mass of non- functioning lung tissue that
does not communicate with the tracheobronchial tree and has a reported incidence of
0.15%-6.4% of all the pulmonary malformations. This anomaly is classified as either
intralobar or extralobar with the later variety lying outside the normal investment of
visceral pleura. The arterial supply is predominantly by an anomalous artery usually
arising from either abdominal or thoracic aorta, while the venous drainage occurs
commonly via systemic rather than pulmonary veins. Identification of the anomalous arterial supply has therapeutic implication because the majority of infants clinically present large shunt lesions attributed to these
channels in early infancy.
The diagnosis in such cases is usually established by computed tomography (CT), angiography, magnetic resonance angiography and conventional angiography. This article reports a 28 day old neonate who presented with features of large shunt lesion, in which echocardiography was instrumental in the diagnosis of a large collateral supplying the sequestrated lung.peer-reviewe
The study of multifragmentation around transition energy in intermediate energy heavy-ion collisions
Fragmentation of light charged particles is studied for various systems at
different incident energies between 50 and 1000 MeV/nucleon. We analyze
fragment production at incident energies above, below and at transition
energies using the isospin dependent quantum molecular dynamics(IQMD) model.
The trends observed for the fragment production and rapidity distributions
depend upon the incident energy, size of the fragments, composite mass of the
reacting system as well as on the impact parameter of the reaction. The free
nucleons and light charged particles show continous homogeneous changes
irrespective of the transition energies indicating that there is no relation
between the transition energy and production of the free as well as light
charged particles
A Study of Periodic and Aperiodic Ferromagnetic Antidot Lattices
This thesis reports our study of the effect of domain wall pinning by ferromagnetic (FM) metamaterials [1] in the form of periodic antidot lattices (ADL) on spin wave spectra in the reversible regime. This study was then extended to artificial quasicrystals in the form of Penrose P2 tilings (P2T). Our DC magnetization study of these metamaterials showed reproducible and temperature dependent knee anomalies in the hysteretic regime that are due to the isolated switching of the FM segments. Our dumbbell model analysis [2] of simulated magnetization maps indicates that FM switching in P2T is nonstochastic. We have also acquired the first direct, two-dimensional images of the magnetization of Permalloy films patterned into P2T using scanning electron microscopy with polarization analysis (SEMPA). Our SEMPA images demonstrate P2T behave as geometrically frustrated networks of narrow ferromagnetic film segments having near-uniform, bipolar (Ising-like) magnetization, similar to artificial spin ices (ASI). We find the unique aperiodic translational symmetry and diverse vertex coordination of multiply-connected P2T induce a more complex spin-ice behavior driven by exchange interactions in vertex domain walls, which differs markedly from the behavior of disconnected ASI governed only by dipolar interactions
Performance of agriculture insurance schemes in India
Risk and Uncertainty,
MOLECULAR DOCKING STUDIES OF SIDDHA HERBAL FORMULATION KUPPAIMENI CHOORNAM ON HUMAN HISTAMINE RECEPTOR (3RZE)
Background: Molecular docking has tremendous applications in the field of Siddha medicine especially herbal formulations were the interactions of the lead molecules of the formulation with that of receptors can be elucidated at the molecular level and furthermore to reach an assumption of its fundamental biochemical processes to which the formulation is targeting. Kuppaimeni Choornam (KC) is a simple herbal formulation used in Siddha medicine for urticaria and other skin allergies. As far as skin allergy is concerned Amino acids such as Asparagine (ASN), Tryptophan (Trp), Aspartate (Asp), Tyrosine (Tyr), Serine (Ser), Isoleucine (Ile), Lysine (Lys), Threonine (Thr), Phenylalanine (Phe) are the main core residues involved in mediating Human histamine receptor (3RZE). Binding of lead compounds with this core residue may inhibit the enzyme activity. Aim & Objectives: Molecular docking studies of Siddha herbal formulation KC and to screen the lead component interaction on the Human Histamine Receptor (3RZE). Methodology: Docking calculations were carried out using Auto Dock 4. Gasteiger partial charges were added to the ligand atoms. Docking simulations were performed using the Lamarckian genetic algorithm (LGA) and the Solis & Wets local search method. Initial position, orientation, and torsions of the ligand molecules were set randomly. All rotatable torsions were released during docking. Results and Conclusion: The compounds present in KC like beta-sitosterol, apigenin, luteolin, cuminaldehyde, kaempferol, and triacetonamine showed maximum interactions with 3RZE when compared to that of the standard cetirizine. Hence, these compounds of test drug possess promising Human histamine 1 receptor (3RZE) inhibition activity. For prospective pharmacological validation of Kuppaimeni Choornam, the docking studies were an important step for its scientific justification
Covid-19: Shortage of ventilators; IIT team pitches Bag Valve Mask as alternative
A team of IIT-Hyderabad professors has pitched for adopting bag valve masks as alternatives to ventilators
- …