Search results for "Cardiac"

showing 10 items of 1495 documents

Arterial pCO2 and Blood Flow in Different Parts of the Central Nervous System of the Anesthetized Cat

1969

It cannot be regarded as proven that the mechanisms involved in the regulation of local circulation are identical in all parts of the central nervous system. Evidence has been presented that carbon dioxide exerts differential effects in different parts of the CNS [2, 3, 7, 10].

Cardiac outputmedicine.medical_specialtybusiness.industryCentral nervous systemCervical cordBlood flowDifferential effectsmedicine.anatomical_structureCerebral blood flowInternal medicinemedicineCardiologyArterial pCO2business
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Haemodynamics of primary aldosteronism associated with adrenocortical adenoma: insights from bioimpedance cardiography measurements

2020

In mid 1950s, Dr Jerome Conn described a patient with hypertension, and renal potassium wasting associated with adrenocortical adenoma and increased urinary excretion of a sodium-retaining hormone, initially termed electrocortin, which was subsequently shown to be aldosterone. This was the first full report of primary hyperaldosteronism associated with an aldosterone-producing adenoma (APA). It subsequently became apparent that similar abnormalities can occur in the absence of an adrenocortical tumor, and it is now recognized that the APA is just one of many subtypes of primary aldosteronism (PA).

Cardiac outputmedicine.medical_specialtybusiness.industryHemodynamicsHemodynamicsmedicine.diseaseEssential hypertensionAdrenal Cortex NeoplasmsAdrenocortical adenomaVascular StiffnessVascular stiffnessPrimary aldosteronismInternal medicineAdrenocortical AdenomaHyperaldosteronismInternal MedicinemedicineCardiologyHumansCardiac OutputEssential HypertensionAldosterone - Adrenocortical adenoma - Primary hyperaldosteronism . HemodynamicsbusinessJournal of Internal Medicine
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Ability of short-time Fourier transform method to detect transient changes in vagal effects on hearts: a pharmacological blocking study.

2006

Conventional spectral analyses of heart rate variability (HRV) have been limited to stationary signals and have not allowed the obtainment of information during transient autonomic cardiac responses. In the present study, we evaluated the ability of the short-time Fourier transform (STFT) method to detect transient changes in vagal effects on the heart. We derived high-frequency power (HFP, 0.20–0.40 Hz) as a function of time during active orthostatic task (AOT) from the sitting to standing posture before and after selective vagal (atropine sulfate 0.04 mg/kg) and sympathetic (metoprolol 0.20 mg/kg) blockades. The HFP minimum point during the first 30 s after standing up was calculated and…

Cardiac responseAdultAtropineMalemedicine.medical_specialtySympathetic Nervous SystemPhysiologyAdrenergic beta-AntagonistsPostureBlood PressureMuscarinic AntagonistsDizzinessOrthostatic vital signsPhysiology (medical)Internal medicinemedicineHeart rate variabilityHumansFourier AnalysisChemistryBlocking (radio)Short-time Fourier transformHeartVagus NerveAutonomic AgentsTime–frequency analysisSurgeryAutonomic nervous systemCardiologyTransient (oscillation)Cardiology and Cardiovascular MedicineMetoprololAmerican journal of physiology. Heart and circulatory physiology
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Cardiac response to Nage no Kata in judo

2021

The first world judo Kata competition was held in October 2007 in Tokyo, Japan. The Nage no Kata was developed in 1884 and 1885 at the Kodokan. by Jigoro Kano, the founder of judo, who developed Kata to demonstrate the principles of judo and to provide a type of training which emphasized performing techniques under controlled setting. According to Kano, to fully develop judo skills, it is essential to involve both Randori and Kata techniques [1]. Most highgrade Japanese judo teachers emphasize the importance of Kata performance for judokas’ development, in particular Nage no Kata [2]. Results of the study conducted by Canestri et al. [3] suggested that session-RPE and HR monitoring is a sim…

Cardiac responsemedicine.medical_specialtybusiness.industryInternal medicineCardiologyMedicineOrthopedics and Sports MedicineJudo Rapid weight loss performancebusinessScience & Sports
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Prediction of CRT Activation Sequence by Personalization of Biventricular Models from Electroanatomical Maps

2020

[EN] Optimization of lead placement and interventricular delay settings in patients under cardiac resynchronization therapy is a complex task that might benefit from prior information based on models. Biophysical models can be used to predict the sequence of electrical heart activation in a patient given a set of parameters which should be personalized to the patient. In this paper, we use electroanatomical maps to personalize the endocardial activation of the right ventricle, and the different tissue conductivities in a pig model with left bundle branch block, to reproduce personalized biventricular activations. Following, we tested the personalized heart model by virtually simulating card…

Cardiac resynchronization therapySequencemedicine.medical_specialtyComputer scienceLeft bundle branch blockmedicine.medical_treatmentCardiac resynchronization therapyPig modelmedicine.diseasePersonalizationTECNOLOGIA ELECTRONICATissue properties personalizationmedicine.anatomical_structureVentricleInternal medicinemedicineCardiology03.- Garantizar una vida saludable y promover el bienestar para todos y todas en todas las edadesIn patientLead PlacementBiophysical modeling
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Cardiac stem cell-loaded poly-lactic acid and fibrinoin scaffolds as devices for cardiac muscle tissue regeneration

2011

Cardiac stem cell
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Synthetic scaffolds may be used for the orientation of cardiac stem cells properties, differentiation and extracellular matrix interactions in cardia…

2011

Cardiac stem cells
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Cardiac Stem Cells their origin and their application

2011

Cardiac stem cells
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Biomaterials and bioactive molecules to drive differentiation in striated muscle tissue engineering

2014

Tissue engineering is an innovative, multidisciplinary approach which combines (bio)materials, cells and growth factors with the aim to obtain neo-organogenesis to repair or replenish damaged tissues and organs. The generation of engineered tissues and organs (e. g. skin and bladder) has entered into the clinical practice in response to the chronic lack of organ donors. In particular, for the skeletal and cardiac muscles the translational potential of tissue engineering approaches has clearly been shown, even though the construction of this tissue lags behind others given the hierarchical, highly organized architecture of striated muscles. Cardiovascular disease is the leading cause of deat…

Cardiac stem cells tissue engineering biomolecules striated muscle
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Fibroin and poly-lactic acid scaffolds may be used in cardiac tissue engineering to drive the differentiation of cardiac progenitor cells: in vitro a…

2011

Cardiac stem cellsCardiac Tissue Engineering
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