Victor Constantinescu scite author profile

The cardiovascular system is regulated by the autonomic nervous system, under cortical modulation. Stroke can induce cardiac autonomic imbalance, therefore, causing secondary cardiovascular complications. Heart rate variability (HRV) analysis is a simple method to appraise the autonomic nervous function. The purpose of this study was to investigate the cardiac autonomic activity in patients that suffered an ischemic stroke in middle cerebral artery (MCA) territory. Using Biopac Acquisition System, we monitored ECG in rest condition and during Ewing's tests. From these measurements, HRV parameters (using time and frequency domain analysis) were determined in 20 right MCA and 20 left MCA ischemic stroke patients, in the first 6 months after the acute event. Data were compared with 20 age- and sex-matched healthy controls. All the patients were right handed. In ischemic stroke patients, HRV parameters were significantly modified compared to controls (p < 0.05) and we found asymmetric responses to different stimulation autonomic tests between right and left hemisphere. Parameters illustrating the parasympathetic predominance in time domain (RMSSD) and frequency domain (HF) analysis were higher in left hemisphere stroke compared to right hemisphere stroke patients (p < 0.01) in resting state. From Ewing's battery test, patients with left hemisphere ischemic stroke showed predominance of parasympathetic activity to deep breathing (p < 0.01), while HRV parameters in right hemisphere ischemic stroke patients described a reduced cardiac parasympathetic innervation (p < 0.01). Cardiac autonomic imbalance occurs more often after right hemisphere ischemic stroke. HRV study may highlight cardiac dysfunctions that increase the risk of cardiovascular complications and portends a poor long-term outcome.

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Heart rate variability analysis and cardiac dysautonomia in ischemic stroke patients

Constantinescu

Arsenescu-Georgescu

Matei

et al. 2019

Clinical Neurology and Neurosurgery

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Particularities of Using Contrast Agents in Diagnosis of Stroke

Cuciureanu¹,

Stătescu²,

Sascau³

et al. 2019

Rev. Chim.

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Stroke is the first cause of disability, the second cause of dementia and the third cause of mortality in industrialized countries. Due to its increasing incidence, there is a need to study the possibilities of early prevention and diagnosis. Our study was conducted on a group of 165 selected patients diagnosed with different forms of ischemic strokes, aged between 25 and 50 years. We explored them using contrast injected MRI technique, to show the usefulness of this radiologic method and to propose a protocol for the investigation of clinically diagnosed patients with stroke. Contrast injected MRI is demonstrated to be a gold technique in exploring early cases of ischemic stroke with different anomalies. Special agents combined with this technique allows assessment of the functionality of the blood-brain barrier, revealing the real ischemic penumbra.

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Heart rate variability and vagus nerve stimulation in epilepsy patients

Constantinescu¹,

Matei

Constantinescu

et al. 2019

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Background Vagus nerve stimulation (VNS) exerts a cortical modulating effect through its diffuse projections, especially involving cerebral structures related to autonomic regulation. The influence of VNS on cardiovascular autonomic function in drug-resistant epilepsy patients is still debated. We aimed to evaluate the impact of VNS on cardiovascular autonomic function in drug-resistant epilepsy patients, after three months of neurostimulation, using the heart rate variability (HRV) analysis. Methodology Multiple Trigonometric Regressive Spectral analysis enables a precise assessment of the autonomic control on the heart rate. We evaluated time and frequency-domain HRV parameters in resting condition and during sympathetic and parasympathetic activation tests in five epilepsy patients who underwent VNS procedure. Results We found appropriate cardiac autonomic responses to sympathetic and parasympathetic activation tests, described by RMSSD, pNN50, HF and LF/HF dynamics after three months of VNS. ON period of the neurostimulation may generate a transient vagal activation reflected on heart rate and RMSSD values, as observed in one of our cases. Conclusion VNS therapy in epilepsy patients seems not to disrupt the cardiac autonomic function. HRV represents a useful tool in evaluating autonomic activity. More extensive studies are needed to further explore cardiac autonomic response after neurostimulation.

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