Your search keyword '"Angélica P. Ríos-Gallardo"' showing total 9 results

1. Exercise intolerance in volume overload heart failure is associated with low carotid body mediated chemoreflex drive

Author

David C. Andrade, Esteban Díaz-Jara, Camilo Toledo, Karla G. Schwarz, Katherin V. Pereyra, Hugo S. Díaz, Noah J. Marcus, Fernando C. Ortiz, Angélica P. Ríos-Gallardo, Domiziana Ortolani, and Rodrigo Del Rio

Subjects

Medicine, Science

Abstract

Abstract Mounting an appropriate ventilatory response to exercise is crucial to meeting metabolic demands, and abnormal ventilatory responses may contribute to exercise-intolerance (EX-inT) in heart failure (HF) patients. We sought to determine if abnormal ventilatory chemoreflex control contributes to EX-inT in volume-overload HF rats. Cardiac function, hypercapnic (HCVR) and hypoxic (HVR) ventilatory responses, and exercise tolerance were assessed at the end of a 6 week exercise training program. At the conclusion of the training program, exercise tolerant HF rats (HF + EX-T) exhibited improvements in cardiac systolic function and reductions in HCVR, sympathetic tone, and arrhythmias. In contrast, HF rats that were exercise intolerant (HF + EX-inT) exhibited worse diastolic dysfunction, and showed no improvements in cardiac systolic function, HCVR, sympathetic tone, or arrhythmias at the conclusion of the training program. In addition, HF + EX-inT rats had impaired HVR which was associated with increased arrhythmia susceptibility and mortality during hypoxic challenges (~ 60% survival). Finally, we observed that exercise tolerance in HF rats was related to carotid body (CB) function as CB ablation resulted in impaired exercise capacity in HF + EX-T rats. Our results indicate that: (i) exercise may have detrimental effects on cardiac function in HF-EX-inT, and (ii) loss of CB chemoreflex sensitivity contributes to EX-inT in HF.

Published

2021

2. Dietary supplementation of a sulforaphane-enriched broccoli extract protects the heart from acute cardiac stress

Author

Katherin V. Pereyra, David C. Andrade, Camilo Toledo, Karla G. Schwarz, Atenea Uribe-Ojeda, Angélica P. Ríos-Gallardo, Rodrigo A. Quintanilla, Samuel Contreras, Andrea Mahn, and Rodrigo Del Rio

Subjects

Broccoli extract, Sulforaphane, Antioxidant, Cardiac arrhythmias, Autonomic balance, Nutrition. Foods and food supply, TX341-641

Abstract

Cardiac arrythmias play a critical role in several pathological conditions. Importantly, increased arrhythmic risk is associated with systemic oxidative stress and activation of the autonomic nervous system. Thus, we hypothesized that dietary antioxidant supplementation may help in reducing cardiac stress-induced arrhythmias. Sulforaphane (SFN), an isothiocyanate present in Brassicaceaes, is recognized as a powerful health-promoting compound with known antioxidant properties. Then, we aimed to generate a broccoli extract (BE) enriched in SFN and determine whether oral BE supplementation induced cardio-protection during acute cardiac stress in rats. BE decreases cardiac sympathetic drive and increases parasympathetic cardiac modulation as evidenced by heart rate variability (HRV) shifts. In addition, isoproterenol-induced cardiac stress (a sympathomimetic agent) induced a ~ 4-fold increase in arrhythmia incidence and this effect was almost completely abolished by BE treatment. In conclusion, dietary supplementation with a BE regulates cardiac autonomic drive and protects the heart from acute cardiac stress.

Published

2020

3. Exercise training reduces brainstem oxidative stress and restores normal breathing function in heart failure

Author

Hugo S. Díaz, Katherin V. Pereyra, Marcelo E. Andia, Rodrigo R. del Río, Esteban Díaz-Jara, Gigliola Ramírez, Camilo Toledo, David C. Andrade, Angélica P. Ríos-Gallardo, Fernando C. Ortiz, Karla G. Schwarz, and Domiziana Ortolani

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Chemoreceptor, medicine.disease_cause, Biochemistry, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Internal medicine, medicine, Animals, Plethysmograph, Heart Failure, chemistry.chemical_classification, Reactive oxygen species, Central chemoreceptors, business.industry, Respiration, medicine.disease, Rats, Oxidative Stress, 030104 developmental biology, Endocrinology, chemistry, Heart failure, Breathing, Brainstem, business, 030217 neurology & neurosurgery, Oxidative stress, Brain Stem

Abstract

Enhanced central chemoreflex drive and irregular breathing are both hallmarks in heart failure (HF) and closely related to disease progression. Central chemoreceptor neurons located within the retrotrapezoid nucleus (RTN) are known to play a role in breathing alterations in HF. It has been shown that exercise (EX) effectively reduced reactive oxygen species (ROS) in HF rats. However, the link between EX and ROS, particularly at the RTN, with breathing alterations in HF has not been previously addressed. Accordingly, we aimed to determine: i) ROS levels in the RTN in HF and its association with chemoreflex drive, ii) whether EX improves chemoreflex/breathing function by reducing ROS levels, and iii) determine molecular alterations associated with ROS generation within the RTN of HF rats and study EX effects on these pathways. Adult male Sprague-Dawley rats were allocated into 3 experimental groups: Sham (n = 5), volume overloaded HF (n = 6) and HF (n = 8) rats that underwent EX training for 6 weeks (60 min/day, 25 m/min, 10% inclination). At 8 weeks post-HF induction, breathing patterns and chemoreflex function were analyzed by unrestrained plethysmography. ROS levels and anti/pro-oxidant enzymes gene expression were analyzed in the RTN. Our results showed that HF rats have high ROS levels in the RTN which were closely linked to the enhanced central chemoreflex and breathing disorders. Also, HF rats displayed decreased expression of antioxidant genes in the RTN compared with control rats. EX training increases antioxidant defense in the RTN, reduces ROS formation and restores normal central chemoreflex drive and breathing regularity in HF rats. This study provides evidence for a role of ROS in central chemoreception in the setting of HF and support the use of EX to reduce ROS in the brainstem of HF animals and reveal its potential as an effective mean to normalize chemoreflex and breathing function in HF.

Published

2021

4. Paraquat herbicide diminishes chemoreflex sensitivity, induces cardiac autonomic imbalance and impair cardiac function in rats

Author

Fernando C. Ortiz, Esteban Díaz-Jara, David C. Andrade, Angélica P. Ríos-Gallardo, Karla G. Schwarz, Katherin V. Pereyra, Rodrigo R. del Río, Domiziana Ortolani, Sussy S. Bastías, and Camilo Toledo

Subjects

Male, Paraquat, inorganic chemicals, Cardiac function curve, medicine.medical_specialty, Physiology, Autonomic Nervous System, Ventricular Function, Left, Autonomic control, Rats, Sprague-Dawley, chemistry.chemical_compound, Heart Rate, Physiology (medical), Internal medicine, Reflex, medicine, Animals, heterocyclic compounds, Lung, Exercise Tolerance, Ventricular Remodeling, Herbicides, business.industry, Arrhythmias, Cardiac, Heart, Chemoreceptor Cells, chemistry, Autonomic imbalance, Breathing, Cardiology, Hypertrophy, Left Ventricular, Pulmonary Ventilation, Cardiology and Cardiovascular Medicine, business

Abstract

Paraquat herbicide is still employed in agricultural practices in several countries. Here, we showed for the first time that 1 mo paraquat administration results in cardiac adverse remodeling, blunts ventilatory chemoreflex drive, and promotes irregular breathing at rest in previously healthy rats. In addition, paraquat exposure induced cardiac autonomic imbalance and cardiac electrophysiology alterations. Lastly, cardiac diastolic dysfunction was overt in rats following 1 mo of paraquat treatment.

Published

2021

5. Heart rate and cardiac autonomic responses to concomitant deep breathing, hand grip exercise, and circulatory occlusion in healthy young adult men and women

Author

Camilo Toledo, Claudia Melipillan, Noah J. Marcus, David C. Andrade, Angélica P. Ríos-Gallardo, Fernando C. Ortiz, Gonzalo Martínez, Rodrigo R. del Río, and Paula Muñoz Venturelli

Subjects

Adult, Male, medicine.medical_specialty, Respiratory rate, QH301-705.5, Diaphragmatic breathing, Autonomic Nervous System, Deep breathing, Young Adult, Heart Rate, Internal medicine, Occlusion, Heart rate, Humans, Medicine, Heart rate variability, Biology (General), Isometric handgrip, Balance (ability), Cardiac autonomic control, Hand Strength, business.industry, Parasympathetic, Circulatory system, Breathing, Cardiology, Female, business, Sympathetic, Research Article

Abstract

Background Deep breathing (DB) and handgrip (HG) exercise -with and without circulatory occlusion (OC) in muscle-, have been shown to have beneficial effects on cardiovascular function; however, the combination of these maneuvers on heart rate (HR) and cardiac sympathovagal balance have not been previously investigated. Therefore, the aim of the present study was to evaluate the effect of simultaneous DB, HG, and OC maneuvers on the sympathovagal balance in healthy women and men subjects. Methods and results Electrocardiogram and ventilation were measured in 20 healthy subjects (Women: n = 10; age = 27 ± 4 years; weight = 67.1 ± 8.4 kg; and height = 1.6 ± 0.1 m. Men: n = 10; age = 27 ± 3 years; weight = 77.5 ± 10.1 kg; and height = 1.7 ± 0.1 m) at baseline and during DB, DB + HG, or DB + HG + OC protocols. Heart rate (HR) and respiratory rate were continuously recorded, and spectral analysis of heart rate variability (HRV) were calculated to indirectly estimate cardiac autonomic function. Men and women showed similar HR responses to DB, DB + HG and DB + HG + OC. Men exhibited a significant HR decrease following DB + HG + OC protocol which was accompanied by an improvement in cardiac autonomic control evidenced by spectral changes in HRV towards parasympathetic predominance (HRV High frequency: 83.95 ± 1.45 vs. 81.87 ± 1.50 n.u., DB + HG + OC vs. baseline; p Conclusions These data indicate that combined DB, HG and OC are effective in altering cardiac sympathovagal balance and reducing resting HR in healthy men and women.

Published

2021

6. Carbamylated form of human erythropoietin normalizes cardiorespiratory disorders triggered by intermittent hypoxia mimicking sleep apnea syndrome

Author

Karla G. Schwarz, Esteban Díaz-Jara, Katherin V. Pereyra, Jean-Paul Richalet, Hugo S. Díaz, Rodrigo Del Rio, Atenea Uribe-Ojeda, Nicolas Voituron, Claudia Melipillan, Julio Alcayaga, Camilo Toledo, Rodrigo Iturriaga, Rodrigo A. Quintanilla, David C. Andrade, and Angélica P. Ríos-Gallardo

Subjects

Male, medicine.medical_specialty, Physiology, Hypoxic ventilatory response, 030204 cardiovascular system & hematology, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Sleep Apnea Syndromes, Internal medicine, Internal Medicine, medicine, Animals, Humans, Respiratory function, 030212 general & internal medicine, Hypoxia, Erythropoietin, business.industry, Respiration, Sleep apnea, Intermittent hypoxia, medicine.disease, Rats, Obstructive sleep apnea, medicine.anatomical_structure, Breathing, Cardiology, Carotid body, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

Background and objective Chronic intermittent hypoxia (CIH), one of the main features of obstructive sleep apnea (OSA), enhances carotid body-mediated chemoreflex and induces hypertension and breathing disorders. The carbamylated form of erythropoietin (cEpo) may have beneficial effects as it retains its antioxidant/anti-inflammatory and neuroprotective profile without increasing red blood cells number. However, no studies have evaluated the potential therapeutic effect of cEpo on CIH-related cardiorespiratory disorders. We aimed to determine whether cEpo normalized the CIH-enhanced carotid body ventilatory chemoreflex, the hypertension and ventilatory disorders in rats. Methods Male Sprague-Dawley rats (250 g) were exposed to CIH (5% O2, 12/h, 8 h/day) for 28 days. cEPO (20 μg/kg, i.p) was administrated from day 21 every other day for one more week. Cardiovascular and respiratory function were assessed in freely moving animals. Results Twenty-one days of CIH increased carotid body-mediated chemoreflex responses as evidenced by a significant increase in the hypoxic ventilatory response (FiO2 10%) and triggered irregular eupneic breathing, active expiration, and produced hypertension. cEpo treatment significantly reduced the carotid body--chemoreflex responses, normalizes breathing patterns and the hypertension in CIH. In addition, cEpo treatment effectively normalized carotid body chemosensory responses evoked by acute hypoxic stimulation in CIH rats. Conclusion Present results strongly support beneficial cardiorespiratory therapeutic effects of cEpo during CIH exposure.

Published

2021

7. Exercise intolerance in volume overload heart failure is associated with low carotid body mediated chemoreflex drive

Author

Karla G. Schwarz, Katherin V. Pereyra, Camilo Toledo, Fernando C. Ortiz, Rodrigo R. del Río, Domiziana Ortolani, David C. Andrade, Angélica P. Ríos-Gallardo, Hugo S. Díaz, Noah J. Marcus, and Esteban Díaz-Jara

Subjects

0301 basic medicine, Cardiac function curve, medicine.medical_specialty, Science, Volume overload, Diastole, Exercise intolerance, 030204 cardiovascular system & hematology, Article, Hypercapnia, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Reflex, Medicine, Animals, Hypoxia, Sympathetic tone, Heart Failure, Carotid Body, Multidisciplinary, business.industry, Respiration, Arrhythmias, Cardiac, medicine.disease, Rats, 030104 developmental biology, medicine.anatomical_structure, Cardiovascular diseases, Heart failure, Cardiology, Carotid body, medicine.symptom, business, Training program

Abstract

Mounting an appropriate ventilatory response to exercise is crucial to meeting metabolic demands, and abnormal ventilatory responses may contribute to exercise-intolerance (EX-inT) in heart failure (HF) patients. We sought to determine if abnormal ventilatory chemoreflex control contributes to EX-inT in volume-overload HF rats. Cardiac function, hypercapnic (HCVR) and hypoxic (HVR) ventilatory responses, and exercise tolerance were assessed at the end of a 6 week exercise training program. At the conclusion of the training program, exercise tolerant HF rats (HF + EX-T) exhibited improvements in cardiac systolic function and reductions in HCVR, sympathetic tone, and arrhythmias. In contrast, HF rats that were exercise intolerant (HF + EX-inT) exhibited worse diastolic dysfunction, and showed no improvements in cardiac systolic function, HCVR, sympathetic tone, or arrhythmias at the conclusion of the training program. In addition, HF + EX-inT rats had impaired HVR which was associated with increased arrhythmia susceptibility and mortality during hypoxic challenges (~ 60% survival). Finally, we observed that exercise tolerance in HF rats was related to carotid body (CB) function as CB ablation resulted in impaired exercise capacity in HF + EX-T rats. Our results indicate that: (i) exercise may have detrimental effects on cardiac function in HF-EX-inT, and (ii) loss of CB chemoreflex sensitivity contributes to EX-inT in HF.

Published

2021

8. Corrigendum to 'Exercise training reduces brainstem oxidative stress and restores normal breathing function in heart failure'

Author

Camilo Toledo, Fernando C. Ortiz, Marcelo E. Andia, Rodrigo R. del Río, Gigliola Ramírez, Katherin V. Pereyra, Hugo S. Díaz, Karla G. Schwarz, David C. Andrade, Angélica P. Ríos-Gallardo, Esteban Díaz-Jara, and Domiziana Ortolani

Subjects

medicine.medical_specialty, business.industry, Physiology (medical), Heart failure, Internal medicine, medicine, Cardiology, Brainstem, medicine.disease, business, medicine.disease_cause, Biochemistry, Oxidative stress

Published

2022

9. Dietary supplementation of a sulforaphane-enriched broccoli extract protects the heart from acute cardiac stress

Author

Samuel Contreras, Andrea Mahn, David C. Andrade, Angélica P. Ríos-Gallardo, Camilo Toledo, Atenea Uribe-Ojeda, Rodrigo A. Quintanilla, Katherin V. Pereyra, Rodrigo R. del Río, and Karla G. Schwarz

Subjects

Cardiac arrhythmias, 0301 basic medicine, Antioxidant, Autonomic balance, medicine.medical_treatment, Medicine (miscellaneous), Pharmacology, medicine.disease_cause, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Medicine, Heart rate variability, TX341-641, Dietary supplementation, 030109 nutrition & dietetics, Nutrition and Dietetics, Nutrition. Foods and food supply, business.industry, Broccoli extract, 04 agricultural and veterinary sciences, 040401 food science, Autonomic nervous system, chemistry, Isothiocyanate, Dietary antioxidant, cardiovascular system, business, Sulforaphane, Oxidative stress, Food Science

Abstract

Cardiac arrythmias play a critical role in several pathological conditions. Importantly, increased arrhythmic risk is associated with systemic oxidative stress and activation of the autonomic nervous system. Thus, we hypothesized that dietary antioxidant supplementation may help in reducing cardiac stress-induced arrhythmias. Sulforaphane (SFN), an isothiocyanate present in Brassicaceaes, is recognized as a powerful health-promoting compound with known antioxidant properties. Then, we aimed to generate a broccoli extract (BE) enriched in SFN and determine whether oral BE supplementation induced cardio-protection during acute cardiac stress in rats. BE decreases cardiac sympathetic drive and increases parasympathetic cardiac modulation as evidenced by heart rate variability (HRV) shifts. In addition, isoproterenol-induced cardiac stress (a sympathomimetic agent) induced a ~ 4-fold increase in arrhythmia incidence and this effect was almost completely abolished by BE treatment. In conclusion, dietary supplementation with a BE regulates cardiac autonomic drive and protects the heart from acute cardiac stress.

Published

2020