Search results for "P wave"

showing 10 items of 32 documents

Automatic detection of P, QRS and T patterns in 12 leads ECG signal based on CWT

2016

International audience; In this paper, a new method based on the continuous wavelet transform is described in order to detect the QRS, P and T waves. QRS, P and T waves may be distinguished from noise, baseline drift or irregular heartbeats. The algorithm, described in this paper, has been evaluated using the Computers in Cardiology (CinC) Challenge 2011 database and also applied on the MIT-BIH Arrhythmia database (MITDB). The data from the CinC Challenge 2011 are standard 12 ECG leads recordings with full diagnostic bandwidth compared to the MITDB which only includes two leads for each ECG signal. Firstly, our algorithm is validated using fifty 12 leads ECG samples from the CinC collection…

[ MATH ] Mathematics [math][ INFO ] Computer Science [cs]Computer science0206 medical engineeringYouden's J statisticHealth Informatics[ SPI.SIGNAL ] Engineering Sciences [physics]/Signal and Image processing02 engineering and technologyQRS[SPI]Engineering Sciences [physics]QRS complexT waveT waves0202 electrical engineering electronic engineering information engineering[ SPI ] Engineering Sciences [physics][INFO]Computer Science [cs][MATH]Mathematics [math]wavelet transformContinuous wavelet transformECGPdelineationECGP waveWavelet transformP020601 biomedical engineering3. Good healthSignal Processing020201 artificial intelligence & image processingEcg leadEcg signalAlgorithm[SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing
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Hippocampal Sharp Waves: A Physiological Correlate of LTP?

1988

The irregularly occurring large amplitude hippocampal sharp waves (SPWs) are correlated with synchronous population bursts of CA1-CA3 and subicular pyramidal cells, dentate granule cells and interneurons in all hippocampal fields. We suggest that the SPW-associated neuronal burst is the best candidate for a physiological basis of long-term potentiation (LTP).

education.field_of_studynervous systemChemistrymusculoskeletal neural and ocular physiologyPopulationGranule (cell biology)Long-term potentiationPopulation spikeHippocampal formationeducationNeuroscienceSharp wave
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Most hippocampal CA1 pyramidal cells in rabbits increase firing during awake sharp-wave ripples and some do so in response to external stimulation an…

2020

Hippocampus forms neural representations of real-life events including multimodal information of spatial and temporal context. These representations, i.e. organized sequences of neuronal firing are repeated during following rest and sleep, especially when so-called sharp-wave ripples (SPW-Rs) characterize hippocampal local-field potentials. This SPW-R –related replay is thought to underlie memory consolidation. Here, we set out to explore how hippocampal CA1 pyramidal cells respond to the conditioned stimulus during trace eyeblink conditioning and how these responses manifest during SPW-Rs in awake adult female New Zealand White rabbits. Based on reports in rodents, we expected SPW-Rs to ta…

hippocampusPhysiologyConditioning Classicalclassical conditioningHippocampusStimulationHippocampal formation03 medical and health sciences0302 clinical medicinemedicineAnimalspyramidisoluthippokampusTheta RhythmCA1 Region Hippocampalmuisti (kognitio)030304 developmental biologypyramidal cell0303 health sciencesBehavior AnimalBlinkingChemistrymusculoskeletal neural and ocular physiologyGeneral NeuroscienceCa1 pyramidal neuronPyramidal CellsClassical conditioningneurotieteetBrain Wavessharp-wave ripplehermosolutehdollistuminenmedicine.anatomical_structurenervous systemEyeblink conditioningthetaFemaleElectrocorticographyRabbitsPyramidal cellNeuroscienceSharp wave030217 neurology & neurosurgeryJournal of neurophysiology
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Analysis of in-silico body surface P-wave integral maps show important differences depending on the connections between coronary sinus and left atrium

2016

The electrical connections between the atrial coronary sinus (CS) and the left atrial (LA) myocardium have an effect on the overall atrial activation pattern and the P-wave morphology. In this study, we use our validated multi-scale 3D human atrial-torso model to elucidate which electro-anatomical configuration of connections between CS and LA more accurately reproduces a set of body surface P-wave integral maps (BSPiM) acquired in the clinic. We performed atrial biophysical simulations by pacing in distal and proximal LA sites. The corresponding in-silico BSPiM were then computed and compared with published clinical patterns obtained from patients. Important differences in BSPiM were obser…

medicine.medical_specialty0206 medical engineeringP waveLeft atrium02 engineering and technologyAnatomyAtrial activation020601 biomedical engineering030218 nuclear medicine & medical imaging03 medical and health sciencesOstium0302 clinical medicinemedicine.anatomical_structureLeft atrialInternal medicineBody surfacecardiovascular systemmedicineCardiologycardiovascular diseasesCoronary sinusMathematics
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Silent atrial fibrillation during the acute phase of myocardial infarction

2013

medicine.medical_specialtyEjection fractionbusiness.industryP waveLeft atrium12 lead ecgElectrocardiography in myocardial infarctionElectrographic monitoringAtrial fibrillationmedicine.diseasemedicine.anatomical_structureInternal medicinemedicineCardiologyMyocardial infarctionCardiology and Cardiovascular MedicinebusinessEuropean Heart Journal
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Evaluation of atrial function by 2D strain echocardiography in patients with atrial fibrillation

2012

Abstract Objectives To evaluate atrial function by 2D strain in patients with atrial fibrillation (AF) and normal or slightly increased atrial size and to verify whether lower atrial strain is associated with more frequent AF recurrences. Materials and methods We studied 50 patients with AF, mean age 59.6 ± 13 years and 50 age-and gender-matched controls. We analyzed left atrial function through 2Dstrain imaging, after the re-establishment of sinus rhythm (SR) and we investigated about the recurrences of the arrhythmia. Results Atrial strain (AS) was lower in AF patients vs controls (LA p Conclusions The assessment of atrial function by strain imaging might help to identify patients who nee…

medicine.medical_specialtyPopulationLeft atrialRecurrenceInternal medicineAtrial strainNuclear Medicine and ImagingmedicineRadiology Nuclear Medicine and imagingSinus rhythmIn patientcardiovascular diseaseseducation2d strainSinus rhythmeducation.field_of_study2D strain; Atrial fibrillation; Atrial strain; Recurrence; Sinus rhythm; Cardiology and Cardiovascular Medicine; Radiology Nuclear Medicine and Imagingbusiness.industryP wave2D strainAtrial fibrillationmedicine.diseaseAtrial fibrillationAtrial straincardiovascular systemCardiologybusinessCardiology and Cardiovascular MedicineRadiology
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An irregular atrial tachycardia : What is the underlying mechanism?

2017

medicine.medical_specialtySettore MED/09 - Medicina InternaMechanism (biology)business.industryECGP waveMEDLINE030204 cardiovascular system & hematology03 medical and health sciencesText mining0302 clinical medicineInternal medicineCardiologyMedicineIrregular tachycardia030212 general & internal medicinemedicine.symptomCardiology and Cardiovascular MedicinebusinessAtrial tachycardia
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A particular bigeminy during atrial tachycardia.

2014

The ECG shows clearly visible P waves only in lead V1 (Fig. 1). Regular PP intervals and an isoelectric baseline are present between the P waves, so the diagnosis is atrial tachycardia [1]. During the ECG recording, lead V1 shows 12 P waves but some of these are not visible because they are concealed by the QRS complex (Fig. 2). In lead V1, the beats following the long RR intervals are conducted by the first and the seventh P wave and the premature QRS complexes are conducted by the third and the ninth P wave because the fourth and the tenth P wave are too close to the following QRS complex to conduct the impulse. Consequently, the atrial tachycardia presents an alternating 2:1 and 4:1 cond…

medicine.medical_specialtySettore MED/09 - Medicina InternaRhythm Puzzle - Questionbusiness.industryRR intervalP wavebigeminy atrial tachycardiamedicine.diseaseAtrioventricular nodeQRS complexmedicine.anatomical_structureBigeminyInternal medicineAberrant conductioncardiovascular systemmedicineCardiologyRhythm Puzzle - Answercardiovascular diseasesPR intervalmedicine.symptombusinessCardiology and Cardiovascular MedicineAlgorithmAtrial tachycardiaNetherlands heart journal : monthly journal of the Netherlands Society of Cardiology and the Netherlands Heart Foundation
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Electrocardiographic Diagnosis of Atrial Tachycardia: Classification, P-Wave Morphology, and Differential Diagnosis with Other Supraventricular Tachy…

2014

Atrial tachycardia is defined as a regular atrial activation from atrial areas with centrifugal spread, caused by enhanced automaticity, triggered activity or microreentry. New ECG classification differentiates between focal and macroreentrant atrial tachycardia. Macroreentrant atrial tachycardias include typical atrial flutter and other well characterized macroreentrant circuits in right and left atrium. Typical atrial flutter has been described as counterclockwise reentry within right atrial and it presents a characteristic ECG “sawtooth” pattern on the inferior leads. The foci responsible for focal atrial tachycardia do not occur randomly throughout the atria but tend to cluster at chara…

medicine.medical_specialtybusiness.industryP waveGeneral MedicineReentrymedicine.diseaseAdenosinePhysiology (medical)Internal medicineTypical atrial fluttercardiovascular systemmedicineCardiologycardiovascular diseasesSupraventricular tachycardiamedicine.symptomDifferential diagnosisCardiology and Cardiovascular MedicinebusinessAtrial tachycardiaAtrial fluttermedicine.drugAnnals of Noninvasive Electrocardiology
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Quantitative assessment of regularity and synchronization of intracardiac recordings during human atrial fibrillation

2003

This study proposes the morphology-based evaluation of the regularity (R) and the synchronization (S) of intra-atrial electrograms acquired during atrial fibrillation (AF). R is defined as the degree of repetitiveness over time of the shapes of the activation waves detected in single atrial recordings. S accounts for the simultaneous presence of morphologically similar activation waves in two atrial electrograms, and for the dispersion of the propagation delays between the two sites. Both R and S resulted unitary for normal sinus rhythm and decreased significantly moving from atrial flutter (R=0.93, S=0.88) to AF of increasing complexity class (type I AF: R=0.75, S=0.66; type II AF: R=0.32,…

medicine.medical_specialtymedicine.diagnostic_testP waveAtrial fibrillationmedicine.diseaseIntracardiac injectionSynchronizationInternal medicineSettore ING-INF/06 - Bioingegneria Elettronica E Informaticacardiovascular systemCardiologymedicineQuantitative assessmentcardiovascular diseasesCardiology and Cardiovascular MedicineNormal Sinus RhythmElectrocardiographySoftwareAtrial flutterMathematics
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