Search results for "Low frequency band"

showing 3 items of 3 documents

Selection of blood pressure signal for baroreflex analysis

2020

This study aims to evaluate the strength of the causal coupling among systolic, mean and diastolic blood pressure (SBP, MBP and DBP) with heart period (RR interval) (evaluating cardiac chronotropic baroreflex arm) and peripheral vascular resistance (PVR) (evaluating vascular resistance baroreflex arm) in frequency domain using partial spectral decomposition method. We recorded beat-to-beat RR, SBP, MBP and DBP and PVR values in 39 volunteers during supine rest and head-up tilt. Our results showed that during supine rest the most dominant causal coupling was from DBP to RR in both low and high frequency bands and significantly decreased during orthostasis. The strength of spectral couplings …

Chronotropicmedicine.medical_specialtySupine positionbusiness.industryRR intervalLow frequency bandBaroreflexBlood pressuremedicine.anatomical_structureInternal medicineSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaCardiologyVascular resistanceBlood pressureMedicinecardiovascular diseasesbusinesscirculatory and respiratory physiology

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Are mussels able to distinguish underwater sounds? Assessment of the reactions of Mytilus galloprovincialis after exposure to lab-generated acoustic …

2016

This study examined the effects of lab-generated acoustic signals on the behaviour and biochemistry of Mediterranean mussels (Mytilus galloprovincialis). The experiment was carried out in a tank equipped with a video-recording system using six groups of five mussels exposed to five acoustic treatments (each treatment was replicated three times) for 30 min. The acoustic signals, with a maximum sound pressure level of 150 dB rms re 1 μPa, differed in frequency range as follows: low (0.1–5 kHz), mid-low (5–10 kHz), mid (10–20 kHz), mid-high (20–40 kHz) and high (40–60 kHz). The exposure to sweeps did not produce any significant changes in the mussels' behaviour. Conversely, the specimens expos…

0106 biological sciencesHemocytesPhysiologyVideo RecordingMytilus galloprovincialiLow frequency band010501 environmental sciencesAcoustic signal01 natural sciencesBiochemistryAnimal scienceBiochemical streHemolymphAnimalsHSP70 Heat-Shock ProteinsSeawaterBehaviourUnderwaterSound pressureMolecular BiologyEcosystem0105 earth and related environmental sciencesMytilusVideo recordingBehavior Animalbiology010604 marine biology & hydrobiologyBiochemical stressProteinsAcousticsbiology.organism_classificationMytilusFisheryGlucoseAcoustic StimulationAcetylcholinesteraseFish <Actinopterygii>Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology

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Nitric oxide and cortico-striato-pallidal motor circuitry: Quantitative EEG analysis of surface and depth recordings

2002

Rats treated with i.p. 7-NI showed a significant increase in cortical higher frequency EEG bands, associated with a corresponding and significant decrease in delta band activity. In the striatum, reduced levels of NO induced an increase in the low frequency band, and a decrease at higher frequencies. Pallidal depth recordings showed modifications to several frequency bands, similar to those found in the cortex. Although 7-NI was administered at increasing doses (from 40 to 70 mg kg–1), it was not possible to demonstrate a relationship between modified band activities and the dose of 7-NI. As suggested indirectly by the quantitative EEG data reported in this study, NO plays a fundamental rol…

medicine.diagnostic_testChemistryGeneral NeuroscienceLow frequency bandStriatumElectroencephalographyNitric oxideCortex (botany)Quantitative eegchemistry.chemical_compoundGlobus pallidusnervous systemmedicineEfferent PathwayNeuroscienceNeuroscience Research Communications

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