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6. Intensity variations associated with fast sausage modes.

Author

Gruszecki, M., Nakariakov, V. M., and Van Doorsselaere, T.

Subjects
*OSCILLATIONS, *SPEED, *MAGNETIC fields, *ASTRONOMY, *PLASMA gases
Abstract

Aims. We determine the dependence of the observed properties of fast magnetoacoustic axisymmetric oscillations (the sausage mode) of a thick and dense flaring coronal loop, modelled by a magnetic cylinder, on the parameters of the equilibrium plasma configuration. The plasma inside and outside the cylinder is of low-beta, and penetrated by a straight magnetic field. The plasma density has a smooth profile across the magnetic field. Methods. We use three-dimensional ideal magnetohydrodynamic equations to model numerically the development of the perturbations of the cylindrical equilibrium, considering both leaky and trapped regimes. Results. Short-period sausage oscillations, trapped by the cylinder, are qualitatively consistent with the analytical results obtained in the models of a plasma slab or a cylinder with a step-function transverse profile. The period of trapped sausage oscillations is determined by the ratio of the phase speed, with the value between the internal and external Alfvén speeds, to the wavelength. Longer-period sausage oscillations are leaky, and their decay times are longer for higher density contrasts between the internal and external media. Leaky sausage oscillations have longer periods than trapped sausage oscillations of the same cylinder. In the coronal conditions, sausage oscillations are essentially compressible and transverse, hence produce modulation of the thermal optically thin emission intensity and periodic Doppler broadening of emission lines. However, if the oscillating plasma non-uniformity is poorly spatially resolved, the variation in the emission intensity is weak and proportional to the actual amplitude of the oscillation squared. The latter variation property is connected with the transverse nature of the oscillation, causing the conservation of mass in the transverse cross-section of the oscillating plasma structure. [ABSTRACT FROM AUTHOR]

Published
2012
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7. NUMERICAL SIMULATIONS OF IMPULSIVELY EXCITED ACOUSTIC-GRAVITY WAVES IN A STELLAR ATMOSPHERE.

Author

GRUSZECKI, M., MURAWSKI, K., KOSOVICHEV, A. G., PARCHEVSKY, K. V., and ZAQARASHVILI, T.

Subjects
*COMPUTER simulation, *ACOUSTIC surface waves, *GRAVITATIONAL waves, *STELLAR atmospheres, *HYDRODYNAMICS, *VORTEX motion
Abstract

We aim to consider impulsively-generated non-linear acoustic-gravity waves in a gravitationally-stratified stellar atmosphere. Two-dimensional hydrodynamic equations are solved numerically for an ideal plasma with a realistic temperature profile. The numerical results show that an initial pulse in vertical velocity excites a leading wave front which is followed by a dispersive wake, oscillating with a period close to the acoustic cut-off period Pac of the chromosphere. Impulses launched deeper within a low region of the stellar atmosphere result in a wake of smaller Pac. They form quasiperiodic shocks traveling from the chromosphere to the corona. The interaction of the secondary ("rebound") shocks with the chromosphere-corona transition region generates vortex motions, which may play important role the transition region dynamics. [ABSTRACT FROM AUTHOR]

Published
2011
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8. VERTICAL OSCILLATIONS OF A CURVED CORONAL SLAB IN AN IN HOMOGENEOUS PLASMA.

Author

GRUSZECKI, M., MURAWSKI, K., FROMANG, S., and TEYSSIER, R.

Subjects
*OSCILLATIONS, *PLASMA gases, *QUANTUM tunneling, *MAGNETOHYDRODYNAMICS, *ATTENUATION (Physics)
Abstract

The influence of a few different Alfven speed profiles VA(z) on the development of vertical oscillations of a curved coronal slab is investigated. Three particular cases are discussed: (a) dVA/dz < 0, (b) dVA/dz = 0, (c) dVA/dz > 0. These cases correspond respectively to the presence of wave tunnelling into the ambient medium above the slab (a), lack of any tunnelling (b), and tunnelling into the ambient medium below the slab (c). Two-dimensional ideal magnetohydrodynamic equations are solved by numerical means and the slab oscillations are triggered impulsively by an initial pulse in the vertical component of the momentum. We find that vertical oscillations exhibit time-signatures with characteristic wave period P and attenuation time τ. These parameters vary with VA(z). A smallest value of P is associated with the case of (c). A strongest attenuation (smallest τ) of vertical oscillations takes place in the case of (a). A simple model of coronal loop oscillations leads to numerical results which are akin to the observational data of Wang and Solanki (2004). [ABSTRACT FROM AUTHOR]

Published
2009

9. Forward-Angle Yields of 2 ≤ Z ≤ 11 Isotopes in the Reaction of [sup 18]O (35A MeV) with [sup 9]Be.

Author

Artukh, A. G., Gridnev, G. F., Gruszecki, M., Koscielniak, F., Semchenkov, A. G., Semchenkova, O. V., Sereda, Yu. M., Szmider, J., and Teterev, Yu. G.

Subjects
COLLISIONS (Nuclear physics), ISOTOPES
Abstract

A systematic investigation of the forward-angle inclusive yields of 2 ≤ Z ≤ 11 isotopes produced in collisions of [sup 18]O projectile nuclei with a [sup 9]Be target in the Fermi energy region (35A MeV) is performed. The measurements were based on the use of the COMBAS double achromatic kinematical separator in the spectrometry mode at the Flerov Laboratory of Nuclear Reactions at the Joint Institute for Nuclear Research, FLNR (JINR, Dubna). The velocity, isotopic, and element distributions are presented. There is no unique mechanism that would explain the total set of results obtained in this experiment. A dominant role of low-energy reaction mechanisms is observed. The intensity of secondary beams of halolike nuclei [sup 11]Li, [sup 12]Be, and [sup 14]Be is determined. [ABSTRACT FROM AUTHOR]

Published
2002
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13. Some regularities in the beam-direct production of isotopes with <f>2&les;Z&les;11</f> induced in reactions of 18O (35 <f>A </f>MeV) with Be and Ta

Author

Artukh, A.G., Gridnev, G.F., Gruszecki, M., Koscielniak, F., Semchenkov, A.G., Semchenkova, O.V., Sereda, Yu.M., Szmider, I., and Teterev, Yu.G.

Subjects
*COLLISIONS (Nuclear physics), *SPECTROMETRY
Abstract

A systematic study of the forward-angle production of nuclei with 2&les;Z&les;11 induced in nucleus–nucleus collisions of 18O with 9Be and 181Ta in the Fermi energy domain (35 A MeV) has been performed. The reaction products were measured by using the double achromatic fragment-separator COMBAS in the spectrometry mode. The inclusive velocity, the isotopic and element distributions were measured. The dominant role of low-energy reaction mechanisms is observed. [Copyright &y& Elsevier]

Published
2002
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14. Acute sport-related concussion alters cardiac contribution to cerebral oxygenation during repeated squat stands.

Author

Singh J, Ellingson CJ, Ellingson CA, Shafiq MA, Dech RT, Sirant LW, Dorsch KD, Gruszecki M, Kratzig GP, and Neary JP

Subjects
Humans, Male, Young Adult, Female, Heart Rate physiology, Oxyhemoglobins metabolism, Hemoglobins metabolism, Adolescent, Heart physiopathology, Oxygen metabolism, Oxygen blood, Oxygen Consumption physiology, Homeostasis physiology, Brain Concussion physiopathology, Spectroscopy, Near-Infrared, Prefrontal Cortex metabolism, Prefrontal Cortex physiopathology, Athletic Injuries physiopathology, Blood Pressure physiology, Cerebrovascular Circulation physiology
Abstract

Assessment of cerebral oxygenation during repeated squat stands following an acute sport-related concussion (SRC) has the potential to identify physiological changes following SRC. All varsity university athletes completed a pre-season assessment and 53 were followed up within 5-days of suffering an SRC. Of the 53 participants, 29 had continuous beat-to-beat blood pressure (BP; sampled at 200 hz) collected by finger photoplethysmography, and 53 had right prefrontal cortex oxygenation collected by near-infrared spectroscopy (NIRS; sampled at 10 hz). Participants completed a 5-min repeated squat (10 s) stand (10 s) manoeuvre (0.05 hz). Wavelet transformation was applied to the signals, separating them into smooth muscle cell (0.05 to 0.145 hz), respiratory (0.145 to 0.6 hz) and cardiac (0.6 to 2 hz) frequency intervals, with the 5-min squat stand manoeuvre compared from pre-season to post-concussion. A significant amplitude increase ( p  < 0.05) in oxyhaemoglobin, total haemoglobin and haemoglobin difference following SRC was found at the cardiac interval. During the squat stand dynamic cerebral autoregulation challenge, this exploratory study found an elevated contribution from the heart to the oxygenation response at the right prefrontal cortex, suggestive of a cardiac compensatory response during concussion. Future research with cerebral blood flow alongside NIRS can provide greater insight to dynamic cerebral autoregulation.

Published
2024
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15. Evaluation of the Effectiveness of Compression Therapy Combined with Exercises Versus Exercises Only Among Lipedema Patients Using Various Outcome Measures.

Author

Czerwińska M, Gruszecki M, Rumiński J, and Hansdorfer-Korzon R

Abstract

The treatment of lipedema remains challenging, largely due to widespread misconceptions. Selecting the appropriate treatment method necessitates the use of accurate outcome measures. This study aims to evaluate the effectiveness of compression therapy combined with exercises versus exercises alone in lipedema patients using various outcome measures. Twenty-four women with lipedema were divided into two equal groups: one group received compression therapy plus exercises while the other group performed exercises only. The effectiveness of the treatment was assessed before and after the intervention using several measures: an SF-36 questionnaire, a symptom severity survey, circumference (via 3D scanning), and body composition analysis. Significant improvements were observed in the SF-36 Physical Functioning and SF-36 Energy/Fatigue scores among participants in the compression group. Additionally, there was a reduction in the heaviness of extremities, the disproportion between the trunk and limbs, and the level of swelling in the compression therapy. Circumferences decreased in both groups. Although more circumferences were significantly reduced in the compression group, the reduction at the point above the knee was greater in the non-compression group. Compression therapy is an effective treatment for lipedema. Various measures, such as quality-of-life questionnaires and symptom severity surveys, can be used as valuable tools for assessing the effectiveness of lipedema treatment.

Published
2024
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16. Sport-related concussion alters cerebral hemodynamic activity during controlled respiration.

Author

Ellingson CA, Singh J, Ellingson CJ, Shafiq MA, Sirant LW, Dorsch KD, Gruszecki M, Kratzig GP, and Neary JP

Subjects
Humans, Prefrontal Cortex, Hemoglobins, Respiration, Cerebrovascular Circulation physiology, Hemodynamics, Brain Concussion
Abstract

Sport-related concussion (SRC) is known to disrupt neurohemodynamic activity, cardiac function, and blood pressure (BP) autoregulation. This study aims to observe changes in cerebrovascular and cardiovascular responses during controlled respiration after sustaining an SRC. University varsity athletes ( n = 81) completed a preseason physiological assessment and were followed up within 5 days of sustaining an SRC. During preseason and follow-up assessments, participants' continuous beat-to-beat BP was collected by finger photoplethysmography, and right prefrontal cortex oxygenation was collected using near-infrared spectroscopy (NIRS). Participants completed 5 min of seated rest and 5 min of a 6-breaths per minute controlled breathing protocol (5 s inhale and 5 s exhale; 0.10 Hz). Wavelet transformation was applied to the NIRS and BP signals, separating them into respiratory (0.10-0.6 Hz) and cardiac (0.6-2 Hz) frequency intervals. Of the 81 participants, 74 had a usable BP signal, 43 had usable NIRS signals, and 28 had both usable BP and NIRS signals. Wavelet amplitudes were calculated and coherence between NIRS and BP on the 28 participants were assessed. There was a significant ( P < 0.05) decrease in oxygenated hemoglobin amplitude from 0.062 to 0.054 Hz and hemoglobin difference amplitude from 0.059 to 0.051 Hz, both at the respiratory (0.10-0.6 Hz) frequency interval, from preseason to acute SRC, respectively. Therefore, during controlled respiration, there was a reduction in intensity at the respiratory band, suggesting a protective, reduced respiratory contribution to cerebral hemodynamic activity following acute SRC. NEW & NOTEWORTHY This study investigated cerebral hemodynamic activity following sport-related concussion. Prefrontal cortex oxygenation was assessed by near-infrared spectroscopy (NIRS) during a controlled breathing protocol. Wavelet transformation of the NIRS signals showed significant decreases in HbO 2 and HbD amplitude at the respiratory frequency interval (0.10-0.6 HZ) from preseason baseline to acute concussion. These results suggest a decreased respiratory contribution to cerebral hemodynamic activity following acute concussion.

Published
2024
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18. Mild poikilocapnic hypoxia increases very low frequency haemoglobin oxygenation oscillations in prefrontal cortex.

Author

Gruszecka A, Waskow M, Malkiewicz MA, Neary JP, Singh J, Teckchandani T, Kratzig GP, Wszedybyl-Winklewska M, Frydrychowski AF, Rumiński J, Głowacka N, Lass P, Winklewski PJ, and Gruszecki M

Subjects
Adolescent, Adult, Female, Hemoglobins, Humans, Hypoxia, Male, Prefrontal Cortex, Spectroscopy, Near-Infrared, Young Adult, Cerebrovascular Circulation, Lung Diseases
Abstract

Background: The aim of the study was to investigate the effect of mild cerebral hypoxia on haemoglobin oxygenation (HbO 2 ), cerebrospinal fluid dynamics and cardiovascular physiology. To achieve this goal, four signals were recorded simultaneously: blood pressure, heart rate / electrocardiogram, HbO 2  from right hemisphere and changes of subarachnoid space (SAS) width from left hemisphere. Signals were registered from 30 healthy, young participants (2 females and 28 males, body mass index = 24.5 ± 2.3 kg/m 2 , age 30.8 ± 13.4 years)., Results: We analysed the recorded signals using wavelet transform and phase coherence. We demonstrated for the first time that in healthy subjects exposed to mild poikilokapnic hypoxia there were increases in very low frequency HbO 2 oscillations (< 0.052 Hz) in prefrontal cortex. Additionally, SAS fluctuation diminished in the whole frequency range which could be explained by brain oedema., Conclusions: Consequently the study provides insight into mechanisms governing brain response to a mild hypoxic challenge. Our study supports the notion that HbO 2 and SAS width monitoring might be beneficial for patients with acute lung disease., (© 2021. The Author(s).)

Published
2021
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19. Coupling between Blood Pressure and Subarachnoid Space Width Oscillations during Slow Breathing.

Author

Gruszecka A, Nuckowska MK, Waskow M, Kot J, Winklewski PJ, Guminski W, Frydrychowski AF, Wtorek J, Bujnowski A, Lass P, Stankovski T, and Gruszecki M

Abstract

The precise mechanisms connecting the cardiovascular system and the cerebrospinal fluid (CSF) are not well understood in detail. This paper investigates the couplings between the cardiac and respiratory components, as extracted from blood pressure (BP) signals and oscillations of the subarachnoid space width (SAS), collected during slow ventilation and ventilation against inspiration resistance. The experiment was performed on a group of 20 healthy volunteers (12 females and 8 males; BMI=22.1±3.2 kg/m2; age 25.3±7.9 years). We analysed the recorded signals with a wavelet transform. For the first time, a method based on dynamical Bayesian inference was used to detect the effective phase connectivity and the underlying coupling functions between the SAS and BP signals. There are several new findings. Slow breathing with or without resistance increases the strength of the coupling between the respiratory and cardiac components of both measured signals. We also observed increases in the strength of the coupling between the respiratory component of the BP and the cardiac component of the SAS and vice versa. Slow breathing synchronises the SAS oscillations, between the brain hemispheres. It also diminishes the similarity of the coupling between all analysed pairs of oscillators, while inspiratory resistance partially reverses this phenomenon. BP-SAS and SAS-BP interactions may reflect changes in the overall biomechanical characteristics of the brain.

Published
2021
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20. Comparison of near infrared spectroscopy (NIRS) and near-infrared transillumination-backscattering sounding (NIR-T/BSS) methods.

Author

Gruszecka A, Gruszecki M, Neary JP, Singh J, Teckchandani T, Waskow M, Wszedybyl-Winklewska M, Guminski W, Frydrychowski AF, Rumiński J, Lass P, Kratzig GP, and Winklewski PJ

Subjects
Adult, Female, Humans, Male, Wavelet Analysis, Young Adult, Spectroscopy, Near-Infrared methods, Transillumination methods
Abstract

The aim of the study was to compare simultaneously recorded a NIR-T/BSS and NIRS signals from healthy volunteers. NIR-T/BSS is a device which give an ability to non-invasively detect and monitor changes in the subarachnoid space width (SAS). Experiments were performed on a group of 30 healthy volunteers (28 males and 2 females, age 30.8 ± 13.4 years, BMI = 24.5 ± 2.3 kg/m 2 ). We analysed recorded signals using analysis methods based on wavelet transform (WT) for the wide frequency range from 0.0095 to 2 Hz. Despite the fact that both devices use a similar radiation source both signals are distinct from each other. We found statistically significant differences for WT amplitude spectra between both signals. Additionally, we showed different relationships of both signals to blood pressure. Collectively, based on the present findings and those of previous studies, we can conclude that the combination of NIR-T/BSS or NIRS signals and time-frequency analysis opens new frontiers in science, and give possibility to understand and diagnosis of various neurodegenerative and ageing related diseases to improve diagnostic procedures and patient prognosis.

Published
2020
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21. Current understanding of the effects of inspiratory resistance on the interactions between systemic blood pressure, cerebral perfusion, intracranial pressure, and cerebrospinal fluid dynamics.

Author

Winklewski PJ, Wolf J, Gruszecki M, Wszedybyl-Winklewska M, and Narkiewicz K

Subjects
Animals, Cerebrospinal Fluid physiology, Cerebrospinal Fluid Pressure physiology, Humans, Blood Pressure physiology, Cerebrovascular Circulation physiology, Inhalation physiology, Intracranial Pressure physiology
Abstract

Negative intrathoracic pressure (nITP) is generated by the respiratory muscles during inspiration to overcome inspiratory resistance, thus enabling lung ventilation. Recently developed noninvasive techniques have made it possible to assess the effects of nITP in real time in several physiological aspects such as systemic blood pressure (BP), intracranial pressure (ICP), and cerebral blood flow (CBF). It has been shown that nITP from 0 to -20 cmH 2 O elevates BP and diminishes ICP, which facilitates brain perfusion. The effects of nITP from -20 to -40 cmH 2 O on BP, ICP, and CBF remain largely unrecognized, yet even nITP at -40 cmH 2 O may facilitate CBF by diminishing ICP. Importantly, nITP from -20 to -40 cmH 2 O has been documented in adults in commonly encountered obstructive sleep apnea, which justifies research in this area. Recent revelations about interactions between ICP and BP have opened up new fields of research in physiological regulation and the pathophysiology of common diseases, such as hypertension, brain injury, and respiratory disorders. A better understanding of these interactions may translate directly into new therapies in various fields of clinical medicine.

Published
2019
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22. Impact of slow breathing on the blood pressure and subarachnoid space width oscillations in humans.

Author

Nuckowska MK, Gruszecki M, Kot J, Wolf J, Guminski W, Frydrychowski AF, Wtorek J, Narkiewicz K, and Winklewski PJ

Subjects
Adolescent, Adult, Carbon Dioxide analysis, Female, Healthy Volunteers, Heart Rate, Humans, Male, Monitoring, Physiologic methods, Oxyhemoglobins analysis, Photoplethysmography, Wavelet Analysis, Young Adult, Blood Pressure physiology, Respiratory Rate physiology, Subarachnoid Space physiology
Abstract

The aim of the study was to assess cardiac and respiratory blood pressure (BP) and subarachnoid space (SAS) width oscillations during the resting state for slow and fast breathing and breathing against inspiratory resistance. Experiments were performed on a group of 20 healthy volunteers (8 males and 12 females; age 25.3 ± 7.9 years; BMI = 22.1 ± 3.2 kg/m 2 ). BP and heart rate (HR) were measured using continuous finger-pulse photoplethysmography. SAS signals were recorded using an SAS monitor. Oxyhaemoglobin saturation (SaO 2 ) and end-tidal CO 2 (EtCO 2 ) were measured using a medical monitoring system. Procedure 1 consisted of breathing spontaneously and at controlled rates of 6 breaths/minute and 6 breaths/minute with inspiratory resistance for 10 minutes. Procedure 2 consisted of breathing spontaneously and at controlled rates of 6, 12 and 18 breaths/minute for 5 minutes. Wavelet analysis with the Morlet mother wavelet was applied for delineation of BP and SAS signals cardiac and respiratory components. Slow breathing diminishes amplitude of cardiac BP and SAS oscillations. The overall increase in BP and SAS oscillations during slow breathing is driven by the respiratory component. Drop in cardiac component of BP amplitude evoked by slow-breathing may be perceived as a cardiovascular protective mechanism to avoid target organ damage. Further studies are warranted to assess long-term effects of slow breathing.

Published
2019
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23. Coupling of Blood Pressure and Subarachnoid Space Oscillations at Cardiac Frequency Evoked by Handgrip and Cold Tests: A Bispectral Analysis.

Author

Gruszecki M, Tkachenko Y, Kot J, Radkowski M, Gruszecka A, Basiński K, Waskow M, Guminski W, Anand JS, Wtorek J, Frydrychowski AF, Demkow U, and Winklewski PJ

Subjects
Adult, Cold Temperature, Female, Heart Rate, Humans, Male, Wavelet Analysis, Young Adult, Blood Pressure, Hand Strength, Subarachnoid Space physiology
Abstract

The aim of the study was to assess blood pressure-subarachnoid space (BP-SAS) width coupling properties using time-frequency bispectral analysis based on wavelet transforms during handgrip and cold tests. The experiments were performed on a group of 16 healthy subjects (F/M; 7/9) of the mean age 27.2 ± 6.8 years and body mass index of 23.8 ± 4.1 kg/m 2 . The sequence of challenges was first handgrip and then cold test. The handgrip challenge consisted of a 2-min strain, indicated by oral communication from the investigator, at 30% of maximum strength. The cold test consisted of 2 min of hand immersion to approximately wrist level in cold water of 4 °C, verified by a digital thermometer. Each test was preceded by 10 min at baseline and was followed by 10-min recovery recordings. BP and SAS were recorded simultaneously. Three 2-min stages of the procedure, baseline, test, and recovery, were analyzed. We found that BP-SAS coupling was present only at cardiac frequency, while at respiratory frequency both oscillators were uncoupled. Handgrip and cold test failed to affect BP-SAS cardiac-respiratory coupling. We showed similar handgrip and cold test cardiac bispectral coupling for individual subjects. Further studies are required to establish whether the observed intersubject variability concerning the BP-SAS coupling at cardiac frequency has any potential clinical predictive value.

Published
2019
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24. Human subarachnoid space width oscillations in the resting state.

Author

Gruszecki M, Lancaster G, Stefanovska A, Neary JP, Dech RT, Guminski W, Frydrychowski AF, Kot J, and Winklewski PJ

Subjects
Adolescent, Adult, Blood Flow Velocity, Blood Pressure physiology, Cerebrovascular Circulation physiology, Female, Healthy Volunteers, Heart Rate physiology, Humans, Hypertension cerebrospinal fluid, Hypertension diagnosis, Male, Multiple Sclerosis cerebrospinal fluid, Multiple Sclerosis diagnosis, Spectroscopy, Near-Infrared methods, Wavelet Analysis, Cerebrospinal Fluid physiology, Pulsatile Flow, Subarachnoid Space physiology
Abstract

Abnormal cerebrospinal fluid (CSF) pulsatility has been implicated in patients suffering from various diseases, including multiple sclerosis and hypertension. CSF pulsatility results in subarachnoid space (SAS) width changes, which can be measured with near-infrared transillumination backscattering sounding (NIR-T/BSS). The aim of this study was to combine NIR-T/BSS and wavelet analysis methods to characterise the dynamics of the SAS width within a wide range of frequencies from 0.005 to 2 Hz, with low frequencies studied in detail for the first time. From recordings in the resting state, we also demonstrate the relationships between SAS width in both hemispheres of the brain, and investigate how the SAS width dynamics is related to the blood pressure (BP). These investigations also revealed influences of age and SAS correlation on the dynamics of SAS width and its similarity with the BP. Combination of NIR-T/BSS and time-frequency analysis may open up new frontiers in the understanding and diagnosis of various neurodegenerative and ageing related diseases to improve diagnostic procedures and patient prognosis.

Published
2018
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25. Oscillations of Subarachnoid Space Width as a Potential Marker of Cerebrospinal Fluid Pulsatility.

Author

Gruszecki M, Nuckowska MK, Szarmach A, Radkowski M, Szalewska D, Waskow M, Szurowska E, Frydrychowski AF, Demkow U, and Winklewski PJ

Subjects
Humans, Cerebrospinal Fluid physiology, Pulsatile Flow physiology, Subarachnoid Space physiology
Abstract

In the cerebrospinal fluid (CSF) circulation, two components can be distinguished: bulk flow (circulation) and pulsatile flow (back and forth motion). CSF pulsatile flow is generated by both cardiac and respiratory cycles. Recent years have seen increased interest in cardiac- and respiratory-driven CSF pulsatility as an important component of cerebral homeostasis. CSF pulsatility is affected by cerebral arterial inflow and jugular outflow and potentially linked to white matter abnormalities in various diseases, such as multiple sclerosis or hypertension. In this review, we discuss the physiological mechanisms associated with CSF pulsation and its clinical significance. Finally, we explain the concept of using the oscillations of subarachnoid space width as a surrogate for CSF pulsatility.

Published
2018
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26. Increased inspiratory resistance affects the dynamic relationship between blood pressure changes and subarachnoid space width oscillations.

Author

Wszedybyl-Winklewska M, Wolf J, Swierblewska E, Kunicka K, Mazur K, Gruszecki M, Winklewski PJ, Frydrychowski AF, Bieniaszewski L, and Narkiewicz K

Subjects
Adolescent, Adult, Female, Healthy Volunteers, Heart Rate physiology, Humans, Male, Subarachnoid Space diagnostic imaging, Ultrasonography, Doppler, Transcranial, Young Adult, Blood Flow Velocity physiology, Blood Pressure physiology, Cerebrovascular Circulation physiology, Respiration, Subarachnoid Space physiology
Abstract

Background and Objective: Respiration is known to affect cerebrospinal fluid (CSF) movement. We hypothesised that increased inspiratory resistance would affect the dynamic relationship between blood pressure (BP) changes and subarachnoid space width (SAS) oscillations., Methods: Experiments were performed in a group of 20 healthy volunteers undergoing controlled intermittent Mueller Manoeuvres (the key characteristic of the procedure is that a studied person is subjected to a controlled, increased inspiratory resistance which results in marked potentiation of the intrathoracic negative pressure). BP and heart rate (HR) were measured using continuous finger-pulse photoplethysmography; oxyhaemoglobin saturation with an ear-clip sensor; end-tidal CO2 with a gas analyser; cerebral blood flow velocity (CBFV), pulsatility and resistive indices with Doppler ultrasound. Changes in SAS were recorded with a new method i.e. near-infrared transillumination/backscattering sounding. Wavelet transform analysis was used to assess the BP and SAS oscillations coupling., Results: Initiating Mueller manoeuvres evoked cardiac SAS component decline (-17.8%, P<0.001), systolic BP, diastolic BP and HR increase (+6.3%, P<0.001; 6.7%, P<0.001 and +2.3%, P<0.05, respectively). By the end of Mueller manoeuvres, cardiac SAS component and HR did not change (+2.3% and 0.0%, respectively; both not statistically significant), but systolic and diastolic BP was elevated (+12.6% and +8.9%, respectively; both P<0.001). With reference to baseline values there was an evident decrease in wavelet coherence between BP and SAS oscillations at cardiac frequency in the first half of the Mueller manoeuvres (-32.3%, P<0.05 for left hemisphere and -46.0%, P<0.01 for right hemisphere) which was followed by subsequent normalization at end of the procedure (+3.1% for left hemisphere and +23.1% for right hemisphere; both not statistically significant)., Conclusions: Increased inspiratory resistance is associated with swings in the cardiac contribution to the dynamic relationship between BP and SAS oscillations. Impaired cardiac performance reported in Mueller manoeuvres may influence the pattern of cerebrospinal fluid pulsatility.

Published
2017
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27. Acute hypoxia diminishes the relationship between blood pressure and subarachnoid space width oscillations at the human cardiac frequency.

Author

Wszedybyl-Winklewska M, Wolf J, Swierblewska E, Kunicka K, Gruszecka A, Gruszecki M, Kucharska W, Winklewski PJ, Zabulewicz J, Guminski W, Pietrewicz M, Frydrychowski AF, Bieniaszewski L, and Narkiewicz K

Subjects
Adult, Blood Flow Velocity physiology, Blood Gas Analysis, Brain physiology, Carbon Dioxide chemistry, Cerebrospinal Fluid, Cerebrovascular Circulation, Female, Healthy Volunteers, Heart Rate, Hemodynamics, Homeostasis, Humans, Male, Oscillometry, Oxygen metabolism, Oxyhemoglobins chemistry, Photoplethysmography, Scattering, Radiation, Subarachnoid Space pathology, Transillumination methods, Wavelet Analysis, Young Adult, Blood Pressure, Heart physiology, Hypoxia, Subarachnoid Space metabolism
Abstract

Background: Acute hypoxia exerts strong effects on the cardiovascular system. Heart-generated pulsatile cerebrospinal fluid motion is recognised as a key factor ensuring brain homeostasis. We aimed to assess changes in heart-generated coupling between blood pressure (BP) and subarachnoid space width (SAS) oscillations during hypoxic exposure., Methods: Twenty participants were subjected to a controlled decrease in oxygen saturation (SaO2 = 80%) for five minutes. BP and heart rate (HR) were measured using continuous finger-pulse photoplethysmography, oxyhaemoglobin saturation with an ear-clip sensor, end-tidal CO2 with a gas analyser, and cerebral blood flow velocity (CBFV), pulsatility and resistive indices with Doppler ultrasound. Changes in SAS were recorded with a recently-developed method called near-infrared transillumination/backscattering sounding. Wavelet transform analysis was used to assess the relationship between BP and SAS oscillations., Results: Gradual increases in systolic, diastolic BP and HR were observed immediately after the initiation of hypoxic challenge (at fifth minute +20.1%, +10.2%, +16.5% vs. baseline, respectively; all P<0.01), whereas SAS remained intact (P = NS). Concurrently, the CBFV was stable throughout the procedure, with the only increase observed in the last two minutes of deoxygenation (at the fifth minute +6.8% vs. baseline, P<0.05). The cardiac contribution to the relationship between BP and SAS oscillations diminished immediately after exposure to hypoxia (at the fifth minute, right hemisphere -27.7% and left hemisphere -26.3% vs. baseline; both P<0.05). Wavelet phase coherence did not change throughout the experiment (P = NS)., Conclusions: Cerebral haemodynamics seem to be relatively stable during short exposure to normobaric hypoxia. Hypoxia attenuates heart-generated BP SAS coupling.

Published
2017
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28. Thermodynamics and kinetics of amphotericin B self-association in aqueous solution characterized in molecular detail.

Author

Zielińska J, Wieczór M, Bączek T, Gruszecki M, and Czub J

Subjects
Biological Transport, Cell Membrane chemistry, Circular Dichroism, Fungi, Humans, Hydrophobic and Hydrophilic Interactions, Kinetics, Lipid Bilayers chemistry, Molecular Dynamics Simulation, Solutions, Species Specificity, Static Electricity, Thermodynamics, Amphotericin B chemistry, Antifungal Agents chemistry, Cholesterol chemistry, Ergosterol chemistry, Water chemistry
Abstract

Amphotericin B (AmB) is a potent but toxic drug commonly used to treat systemic mycoses. Its efficiency as a therapeutic agent depends on its ability to discriminate between mammalian and fungal cell membranes. The association of AmB monomers in an aqueous environment plays an important role in drug selectivity, as oligomers formed prior to membrane insertion - presumably dimers - are believed to act differently on fungal (ergosterol-rich) and mammalian (cholesterol-rich) membranes. In this work, we investigate the initial steps of AmB self-association by studying the structural, thermodynamic and spectral properties of AmB dimers in aqueous medium using molecular dynamics simulations. Our results show that in water, the hydrophobic aggregation of AmB monomers yields almost equiprobable populations of parallel and antiparallel dimers that rapidly interconvert into each other, and the dipole-dipole interaction between zwitterionic head groups plays a minor role in determining the drug's tendency for self-aggregation. A simulation of circular dichroism (CD) spectra indicates that in experimental measurements, the signature CD spectrum of AmB aggregates should be attributed to higher-order oligomers rather than dimers. Finally, we suggest that oligomerization can impair the selectivity of AmB molecules for fungal membranes by increasing their hydrophobic drive for non-specific membrane insertion.

Published
2016
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29. Survival of tunneled hemodialysis catheters after percutaneous placement.

Author

Weber E, Liberek T, Wołyniec W, Gruszecki M, and Rutkowski B

Subjects
Humans, Catheters, Indwelling, Renal Dialysis instrumentation
Abstract

Background: Tunneled catheters are becoming increasingly used as a permanent dialysis access. Easy way of insertion and good long-term patency make them competitive to fistulas in some groups of patients., Methods: Late complications and survival of 180 tunneled catheters inserted from June 2010 to December 2013 in 171 unselected hemodialysis patients were analyzed., Results: The cumulative time of observation was 2103.5 patient-months and median observation was 9 months (range of 0.5-45 months). Only 19 out of 180 catheters were removed due to complications (12 for infections, 4 due to malfunction and 3 because of mechanical damage). Majority of catheters were removed electively: 27 after maturation of arterio-venous fistula (AVF), 4 after kidney transplant, 5 after transfer to peritoneal dialysis and 3 due to the recovery of renal function. At the end of the observation, 58 catheters were still in use and 64 patients had died with functioning catheter. When censored for elective catheter removal and patient death, 88.2% of catheters survived for 1 year. Catheter survival was significantly better in older patients (over 65 years, in comparison to patients < 65 years, p = 0.046)., Conclusions: Nearly 90% of all inserted catheters gave reliable dialysis access as long as it was needed. Among them, over 30% of the inserted catheters were in use at the end of the observation period, and over 30% of patients had died with a functioning catheter. The results of tunneled catheters survival are encouraging and they should be taken into consideration during decision-making on vascular access, especially in the older patients.

Published
2016
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30. Pial artery and subarachnoid width response to apnoea in normal humans.

Author

Wszedybyl-Winklewska M, Wolf J, Swierblewska E, Kunicka K, Gruszecki M, Guminski W, Winklewski PJ, Frydrychowski AF, Bieniaszewski L, and Narkiewicz K

Subjects
Adolescent, Adult, Baroreflex, Blood Pressure physiology, Carotid Artery, Internal diagnostic imaging, Cerebrovascular Circulation physiology, Female, Healthy Volunteers, Heart Rate physiology, Humans, Intracranial Pressure physiology, Male, Organ Size, Ultrasonography, Doppler, Young Adult, Apnea physiopathology, Cerebral Arteries physiology, Subarachnoid Space anatomy & histology, Subarachnoid Space physiology
Abstract

Background: Little is known about intracranial pressure (ICP)-cerebral haemodynamic interplay during repetitive apnoea. A recently developed method based on near-infrared transillumination/backscattering sounding (NIR-T/BSS) noninvasively measures changes in pial artery pulsation (cc-TQ) as well as subarachnoid width (sas-TQ) in humans., Method: We tested the complex response of the pial artery and subarachnoid width to apnoea using this method. The pial artery and subarachnoid width response to consecutive apnoeas lasting 30, 60 s and maximal breath-hold (91.1 ± 23.1 s) were studied in 20 healthy volunteers. The cc-TQ and sas-TQ were measured using NIR-T/BSS; cerebral blood flow velocity (CBFV), pulsatility index and resistive index were measured using Doppler ultrasound of the left internal carotid artery; heart rate (HR) and beat-to-beat SBP and DBP blood pressure were recorded using a Finometer; end-tidal CO2 (EtCO2) was measured using a medical gas analyser., Results: Apnoea evoked a multiphasic response in blood pressure, pial artery compliance and ICP. First, SBP declined, which was accompanied by an increase in cc-TQ and sas-TQ. Directly after these changes, SBP exceeded baseline values, which was followed by a decline in cc-TQ and the return of sas-TQ to baseline. During these initial changes, CBFV remained stable. Towards the end of the apnoea, BP, cc-TQ and CBFV increased, whereas pulsatility index, resistive index and sas-TQ declined. Changes in sas-TQ were linked to changes in EtCO2, HR and SBP., Conclusion: Apnoea is associated with ICP swings, closely reflecting changes in EtCO2, HR and peripheral BP. The baroreflex influences the pial artery response.

Published
2015
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31. Effect of Maximal Apnoea Easy-Going and Struggle Phases on Subarachnoid Width and Pial Artery Pulsation in Elite Breath-Hold Divers.

Author

Winklewski PJ, Barak O, Madden D, Gruszecka A, Gruszecki M, Guminski W, Kot J, Frydrychowski AF, Drvis I, and Dujic Z

Subjects
Adolescent, Adult, Blood Pressure, Breath Holding, Case-Control Studies, Female, Healthy Volunteers, Heart Rate, Humans, Male, Wavelet Analysis, Apnea, Blood Flow Velocity physiology, Cerebral Arteries physiology, Cerebrovascular Circulation physiology, Subarachnoid Space physiology
Abstract

Purpose: The aim of the study was to assess changes in subarachnoid space width (sas-TQ), the marker of intracranial pressure (ICP), pial artery pulsation (cc-TQ) and cardiac contribution to blood pressure (BP), cerebral blood flow velocity (CBFV) and cc-TQ oscillations throughout the maximal breath hold in elite apnoea divers. Non-invasive assessment of sas-TQ and cc-TQ became possible due to recently developed method based on infrared radiation, called near-infrared transillumination/backscattering sounding (NIR-T/BSS)., Methods: The experimental group consisted of seven breath-hold divers (six men). During testing, each participant performed a single maximal end-inspiratory breath hold. Apnoea consisted of the easy-going and struggle phases (characterised by involuntary breathing movements (IBMs)). Heart rate (HR) was determined using a standard ECG. BP was assessed using the photoplethysmography method. SaO2 was monitored continuously with pulse oximetry. A pneumatic chest belt was used to register thoracic and abdominal movements. Cerebral blood flow velocity (CBFV) was estimated by a 2-MHz transcranial Doppler ultrasonic probe. sas-TQ and cc-TQ were measured using NIR-T/BSS. Wavelet transform analysis was performed to assess cardiac contribution to BP, CBFV and cc-TQ oscillations., Results: Mean BP and CBFV increased compared to baseline at the end of the easy phase and were further augmented by IBMs. cc-TQ increased compared to baseline at the end of the easy phase and remained stable during the IBMs. HR did not change significantly throughout the apnoea, although a trend toward a decrease during the easy phase and recovery during the IBMs was visible. Amplitudes of BP, CBFV and cc-TQ were augmented. sas-TQ and SaO2 decreased at the easy phase of apnoea and further decreased during the IBMs., Conclusions: Apnoea increases intracranial pressure and pial artery pulsation. Pial artery pulsation seems to be stabilised by the IBMs. Cardiac contribution to BP, CBFV and cc-TQ oscillations does not change throughout the apnoea.

Published
2015
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32. Sympathetic Activation Does Not Affect the Cardiac and Respiratory Contribution to the Relationship between Blood Pressure and Pial Artery Pulsation Oscillations in Healthy Subjects.

Author

Winklewski PJ, Tkachenko Y, Mazur K, Kot J, Gruszecki M, Guminski W, Czuszynski K, Wtorek J, and Frydrychowski AF

Subjects
Adult, Carbon Dioxide metabolism, Female, Heart Rate physiology, Humans, Male, Oxygen metabolism, Pulmonary Ventilation physiology, Arteries physiology, Blood Pressure physiology, Healthy Volunteers, Heart physiology, Pulsatile Flow physiology, Respiration, Sympathetic Nervous System physiology
Abstract

Introduction: Using a novel method called near-infrared transillumination backscattering sounding (NIR-T/BSS) that allows for the non-invasive measurement of pial artery pulsation (cc-TQ) and subarachnoid width (sas-TQ) in humans, we assessed the influence of sympathetic activation on the cardiac and respiratory contribution to blood pressure (BP) cc-TQ oscillations in healthy subjects., Methods: The pial artery and subarachnoid width response to handgrip (HGT) and cold test (CT) were studied in 20 healthy subjects. The cc-TQ and sas-TQ were measured using NIR-T/BSS; cerebral blood flow velocity (CBFV) was measured using Doppler ultrasound of the left internal carotid artery; heart rate (HR) and beat-to-beat mean BP were recorded using a continuous finger-pulse photoplethysmography; respiratory rate (RR), minute ventilation (MV), end-tidal CO2 (EtCO2) and end-tidal O2 (EtO2) were measured using a metabolic and spirometry module of the medical monitoring system. Wavelet transform analysis was used to assess the relationship between BP and cc-TQ oscillations., Results: HGT evoked an increase in BP (+15.9%; P<0.001), HR (14.7; P<0.001), SaO2 (+0.5; P<0.001) EtO2 (+2.1; P<0.05) RR (+9.2%; P = 0.05) and MV (+15.5%; P<0.001), while sas-TQ was diminished (-8.12%; P<0.001), and a clear trend toward cc-TQ decline was observed (-11.0%; NS). CBFV (+2.9%; NS) and EtCO2 (-0.7; NS) did not change during HGT. CT evoked an increase in BP (+7.4%; P<0.001), sas-TQ (+3.5%; P<0.05) and SaO2(+0.3%; P<0.05). HR (+2.3%; NS), CBFV (+2.0%; NS), EtO2 (-0.7%; NS) and EtCO2 (+0.9%; NS) remained unchanged. A trend toward decreased cc-TQ was observed (-5.1%; NS). The sas-TQ response was biphasic with elevation during the first 40 seconds (+8.8% vs. baseline; P<0.001) and subsequent decline (+4.1% vs. baseline; P<0.05). No change with respect to wavelet coherence and wavelet phase coherence was found between the BP and cc-TQ oscillations., Conclusions: Short sympathetic activation does not affect the cardiac and respiratory contribution to the relationship between BP-cc-TQ oscillations. HGT and CT display divergent effects on the width of the subarachnoid space, an indirect marker of changes in intracranial pressure.

Published
2015
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33. Self-association of amphotericin B: spontaneous formation of molecular structures responsible for the toxic side effects of the antibiotic.

Author

Starzyk J, Gruszecki M, Tutaj K, Luchowski R, Szlazak R, Wasko P, Grudzinski W, Czub J, and Gruszecki WI

Subjects
Amphotericin B metabolism, Anti-Bacterial Agents metabolism, Circular Dichroism, Dimerization, Hydrogen Bonding, Hydrogen-Ion Concentration, Kinetics, Liposomes chemistry, Liposomes metabolism, Microscopy, Fluorescence, Molecular Dynamics Simulation, Solvents chemistry, Static Electricity, Amphotericin B chemistry, Anti-Bacterial Agents chemistry
Abstract

Amphotericin B (AmB) is a lifesaving antibiotic used to treat deep-seated mycotic infections. Both the pharmaceutical activity and highly toxic side effects of the drug rely on its interaction with biomembranes, which is governed by the molecular organization of AmB. In the present work, we present a detailed analysis of self-assembly of AmB molecules in different environments, interesting from the physiological standpoint, based on molecular spectroscopy techniques: electronic absorption, circular dichroism, steady state and time-resolved fluorescence and molecular dynamic calculations. The results show that, in the water medium, AmB self-associates to dimeric structures, referred to as "parallel" and "antiparallel". AmB dimers can further assemble into tetramers which can play a role of transmembrane ion channels, affecting electrophysiological homeostasis of a living cell. Understanding structural determinants of self-assembly of AmB opens a way to engineering preparations of the drug which retain pharmaceutical effectiveness under reduced toxicity.

Published
2014
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34. Phenomenon of Alfvénic vortex shedding.

Author

Gruszecki M, Nakariakov VM, Van Doorsselaere T, and Arber TD

Abstract

Generation of Alfvénic (magnetohydrodynamic) vortices by the interaction of compressible plasma flows with magnetic-field-aligned blunt obstacles is modeled in terms of magnetohydrodynamics. It is found that periodic shedding of vortices with opposite vorticity is a robust feature of the interaction in a broad range of plasma parameters: for plasma beta from 0.025 to 0.5, and for the flow speeds from 0.1 to 0.99 of the fast magnetoacoustic speed. The Strouhal number is the dimensionless ratio of the blunt body diameter to the product of the period of vortex shedding and the inflow speed. It is found to be consistently in the range 0.15-0.25 in the whole range of parameters. The induced Alfvénic vortices are compressible and contain spiral-armed perturbations of the magnetic field strength and plasma mass density up to 50%-60% of the background values. The generated electric current also has the spiral-armed structuring.

Published
2010
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35. Propranolol prevents the development of venous thrombosis in rats by a platelet-dependent mechanism.

Author

Gruszecki M, Rółkowski R, Pawlak R, and Buczko W

Subjects
Animals, Antihypertensive Agents administration & dosage, Bleeding Time, Blood Pressure drug effects, Hemostasis drug effects, Male, Propranolol administration & dosage, Rats, Rats, Wistar, Venous Thrombosis physiopathology, Antihypertensive Agents pharmacology, Antihypertensive Agents therapeutic use, Platelet Aggregation drug effects, Propranolol pharmacology, Propranolol therapeutic use, Venous Thrombosis drug therapy
Abstract

To clarify if one of the most common antihypertensive drugs, propranolol, can prevent venous thrombotic process, rats were treated with propranolol (PRO; 5 mg/kg i.p.) in an acute or chronic (14 days) manner. Both regimens resulted in a marked reduction of the systolic blood pressure (p < 0.001) and, probably as a consequence, in the shortening of the bleeding time (p < 0.01). After ligation of the vena cava, the incidence of the venous thrombosis and the thrombus weight decreased significantly in both propranolol-treated groups (p < 0.01) when compared to control rats. The antithrombotic effect of PRO was not accompanied by any changes in activated partial thromboplastin time, prothrombin time or euglobulin clot lysis time. However, long-term administfation of PRO resulted in a reduction of the ADP-induced platelet aggregation.

Published
2001

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