Directional flow in perivascular networks: mixed finite elements for reduced-dimensional models on graphs.

Flow of cerebrospinal fluid through perivascular pathways in and around the brain may play a crucial role in brain metabolite clearance. While the driving forces of such flows remain enigmatic, experiments have shown that pulsatility is central. In this work, we present a novel network model for simulating pulsatile fluid flow in perivascular networks, taking the form of a system of Stokes-Brinkman equations posed over a perivascular graph.

A Quasi-Isotropic Probe for High-Power Microwave Field Measurement.

In the paper, a new design of a quasi-isotropic antenna for high-power electromagnetic (EM) field measurement is presented, along with its investigation into suitability. The measuring probe is intended for assessing pulsed microwaves, which cannot be measured by available meters due to the high value of electric field strength and short pulse duration. The measurement of such a strong field is required according to guidelines for protecting people against microwave fields, especially those emitted by radars.

Sleep cycle-dependent vascular dynamics in male mice and the predicted effects on perivascular cerebrospinal fluid flow and solute transport.

Perivascular spaces are important highways for fluid and solute transport in the brain enabling efficient waste clearance during sleep. However, the underlying mechanisms augmenting perivascular flow in sleep are unknown. Using two-photon imaging of naturally sleeping male mice we demonstrate sleep cycle-dependent vascular dynamics of pial arteries and penetrating arterioles: slow, large-amplitude oscillations in NREM sleep, a vasodilation in REM sleep, and a vasoconstriction upon awakening at the end of a sleep cycle and microarousals in NREM and intermediate sleep.

A cell-based framework for modeling cardiac mechanics.

Cardiomyocytes are the functional building blocks of the heart-yet most models developed to simulate cardiac mechanics do not represent the individual cells and their surrounding matrix. Instead, they work on a homogenized tissue level, assuming that cellular and subcellular structures and processes scale uniformly. Here we present a mathematical and numerical framework for exploring tissue-level cardiac mechanics on a microscale given an explicit three-dimensional geometrical representation of cells embedded in a matrix.

Investigating molecular transport in the human brain from MRI with physics-informed neural networks.

In recent years, a plethora of methods combining neural networks and partial differential equations have been developed. A widely known example are physics-informed neural networks, which solve problems involving partial differential equations by training a neural network. We apply physics-informed neural networks and the finite element method to estimate the diffusion coefficient governing the long term spread of molecules in the human brain from magnetic resonance images.

Encoder-decoder neural networks for predicting future FTIR spectra - application to enzymatic protein hydrolysis.

In the process of converting food-processing by-products to value-added ingredients, fine grained control of the raw materials, enzymes and process conditions ensures the best possible yield and economic return. However, when raw material batches lack good characterization and contain high batch variation, online or at-line monitoring of the enzymatic reactions would be beneficial. We investigate the potential of deep neural networks in predicting the future state of enzymatic hydrolysis as described by Fourier-transform infrared spectra of the hydrolysates.

How does the presence of neural probes affect extracellular potentials?

Objective: Mechanistic modeling of neurons is an essential component of computational neuroscience that enables scientists to simulate, explain, and explore neural activity. The conventional approach to simulation of extracellular neural recordings first computes transmembrane currents using the cable equation and then sums their contribution to model the extracellular potential. This two-step approach relies on the assumption that the extracellular space is an infinite and homogeneous conductive medium, while measurements are performed using neural probes.

The expression of sialyltransferases is regulated by the bioavailability and biosynthesis of sialic acids.

Glycosylation is the most frequent and important post-translational modification of proteins. It occurs on specific consensus sequences but the final structure of a particular glycan is not coded on the DNA, rather it depends on the expression of the required enzymes and the availability of substrates (activated monosaccharides). Sialic acid (Sia) is the terminal monosaccharide of most glycoproteins or glycolipids (= glycoconjugates) and involved in a variety of function on molecular (e.

A numerical investigation of intrathecal isobaric drug dispersion within the cervical subarachnoid space.

Intrathecal drug and gene vector delivery is a procedure to release a solute within the cerebrospinal fluid. This procedure is currently used in clinical practice and shows promise for treatment of several central nervous system pathologies. However, intrathecal delivery protocols and systems are not yet optimized.

Beta-palmitate - a natural component of human milk in supplemental milk formulas.

The composition and function of human milk is unique and gives a basis for the development of modern artificial milk formulas that can provide an appropriate substitute for non-breastfed infants. Although human milk is not fully substitutable, modern milk formulas are attempting to mimic human milk and partially substitute its complex biological positive effects on infants. Besides the immunomodulatory factors from human milk, research has been focused on the composition and structure of human milk fat with a high content of β-palmitic acid (sn-2 palmitic acid, β-palmitate).

Pulmonary function tests in type 1 diabetes adolescents with diabetic cardiovascular autonomic neuropathy.

Chronic diabetic complications may afflict all organ tissues including cardiovascular and respiratory system. The aim of the study was to establish if the presence of cardiovascular autonomic neuropathy (CAN) was associated with impaired pulmonary function tests in adolescents with type 1 diabetes (T1D). 46 adolescents with T1D and 25 healthy subjects at the age 15-19years were enrolled to the study.

Sheep Model of Hemodialysis Arteriovenous Fistula Using Superficial Veins.

Current models of animal arteriovenous fistula (AVF) are swine models of femoral vein terminolaterally anastomosed to femoral artery, creating a deep AVF. This feature sets it aside from human AVFs using superficial veins. Our AVF model uses sheep superficial veins to create an AVF almost identical to human model.

[Image analysis in the differential diagnosis of renal parenchyma lesions].

Purpose: Visual analysis of echo intensity is of importance for the differential diagnosis of focal renal lesions. Quantification of the echo intensity and of other parameters might help with differential diagnosis.

Materials And Methods: In 145 patients with focal renal lesions, digitized images were evaluated (40 angiomyolipomas [group A], 70 renal cell carcinomas [group B], 20 pseudo-tumors [group C] and 15 other focal lesions in group D).

[The quantitative measurement of the echogenicity of the renal parenchyma].

The qualitative assessment of the echogenicity of the renal cortex and the medulla is one of the most important diagnostic criteria in the assessment of diffuse renal parenchymal disease. It is of interest to complete this assessment by quantitative data. The echogenicity of the cortex and medulla was quantitatively analysed in digitized images.

Labeling of the neuropeptide enkephalin with functionalized tris(pyrazolyl)borate complexes: solid-phase synthesis and characterization of p-[Enk-OH]COC6H4TpPtMe3 and p-[Enk-OH]COC6H4TpMeRe(CO)3.

Bioconjugates of the neuropeptide Enkephalin (Enk = -Tyr-Gly-Gly-Phe-Leu-) labeled with organotransition metal tris-pyrazolylborate (Tp) complexes are reported. p-[Enk-OH]COC6H4TpPtMe3 and p-[Enk-OH]COC6H4Tp(Me)Re(CO)3 have been synthesized by solid-phase peptide synthesis (SPPS), purified by RP-HPLC, and characterized by ESI-mass spectrometry and 1H NMR and IR spectroscopies. p-[Enk-OH]COC6H4TpPtMe3 and p-[Enk-OH]COC6H4Tp(Me)Re(CO)3 constitute the first examples of Tp complexes employed in SPPS.

Adrenergic and acetylcholinesterase-positive innervation of palatine tonsils in mammals.

Innervation of human, feline and rabbit palatine tonsils was investigated. Adrenergic nerve components were visualized by formaldehyde-induced fluorescence of catecholamines and 5-HT, or by glyoxylic acid fluorescence, whereas acetylcholinesterase (AChE)-positive nerve structures were demonstrated by the direct thiocholine method. The largest density of adrenergic and AChE-positive nerve profiles was found in the adventitia of arterial branches in the fibrous capsula and septa, mainly in the form of periarterial nerve plexuses of different density.

[Regulation of respiration and its sleep-related disorders].

Four basic control mechanisms of breathing (brainstem respiratory centre, peripheral and central chemoreceptors, intero- and exteroceptive reflexes and suprapontine influences), as well as their sleep-related disorders are analysed. A decrease in central chemoreceptor sensitivity to CO2 and an increase in upper airway resistance during sleep result in hypoventilation and mild hypoxaemia already in physiological conditions. Compensatory increase in ventilatory effort with synchronous inhibition of pharyngeal dilators during sleep reduces the upper airway lumen manifesting with snoring, upper airway resistance syndrome, and OSA.

Smokers--vitamin C--hypercholesterolaemia.

Cigarette smoking is one of the major public health problems of our times. Smokers are damaged by free radicals formed during smoking. The antioxidant capacity of smokers is reduced.

Dietary flavonoids and risk of coronary heart disease.

Flavonoids, a group of phenolic compounds found naturally in fruit, vegetables, nuts, flowers, seeds and bark are an integral part of the human diet. They have been reported to exhibit a wide range of biological effects, including antiischemic, antiplatelet, antineoplastic, antiinflammatory, antiallergic, antilipoperoxidant or gastroprotective actions. Furthermore, flavonoids are potent antioxidants, free radical scavengers and metal chelators, and inhibit lipid peroxidation.

[Experience with polysomnography in the diagnosis of sleep apnea].

Whole-night recording of 9-30 parameters and calculation of various indices allow differentiation of various sleep related breathing disorders and estimation of their severity (Fig. 1, 2). Parallel monitoring of changes in ventilation, arterial oxygen saturation, ECG, EEG, EMG and others, give a possibility to appreciate the gradual development of cardiovascular, neuropsychic, endocrine-metabolic and other consequences of sleep related breathing disorders, their dependence on different phases and stages of sleep as well as their alterations by treatment.

Synthesis and Structure of [Tp(Bu)()t()2]In, a Highly Twisted [Tris(3,5-di-tert-butylpyrazolyl)hydroborato]indium(I) Complex: Comparison with the Re-Evaluated Ordered Structure of [Tp(Bu)()t]In.

The indium(I) complex [Tp(Bu)()t()2]In ([Tp(Bu)()t()2] = tris(3,5-di-tert-butylpyrazolyl)hydroborato), synthesized by the reaction of [Tp(Bu)()t()2]Na with InCl, exhibits a structure in which the [Tp(Bu)()t()2] ligand adopts a highly twisted configuration due to steric interactions of the tert-butyl substituents in the 5-positions of the pyrazolyl groups. In contrast, the absence of 5-tert-butyl substituents allows the pyrazolyl groups in [Tp(Bu)()t]In to be coplanar with their respective In-N-N-B planes. The structure of [Tp(Bu)()t]In has been previously reported but was noted to exhibit an unusual type of disorder in which a nitrogen atom of one molecule was coincident with the boron atom of its disordered configuration [Dias, H.

[Passive smoking as a risk factor for allergic diseases in children].

The authors examined anamnestically, by interdermal tests with tobacco extract, by assessment of serum IgE and thiocyanates in saliva (according to David and Densen) 234 children with allergic diseases (rhinitis pollinosa, asthma bronchiale, dermorespiratory syndrome). They revealed a high ratio of positive tests in passive smokers (71.8% of the tested children), as compared with children not exposed to smoking (16.