Correlation between degree of autonomic nervous system impairment and quality of life indices in older adults / Correlação entre grau de comprometimento do sistema nervoso autônomo e índices de qualidade de vida em idosos

INTRODUCTION: The increase in the world's elderly population in recent decades calls for research on quality of life during the aging process. Heart rate variability (HRV) evaluates the modulation of the autonomic nervous system (ANS) and indicates the heart's ability to respond to multiple physiological and environmental stimuli, as well as to disease. OBJECTIVE: To investigate the perceived quality of life of older people and its association with HRV. METHOD: Twenty-nine subjects (69 ± 7.76 years) were selected at a preventive medicine center and completed a questionnaire (World Health Organization quality of life assessment ­ old module: WHOQOL-OLD). The HRV data were collected for 20 minutes in the supine position using a Polar RS800CX frequency meter. RESULTS: Using the median value as a cut-off point, the sample was divided into two groups: WHOQOL-OLD ≥ 92 (n = 15: better quality of life) and WHOQOL-OLD ≤ 91 (n = 13; lower quality of life). For the HRV timedomain variables RMSSD and pNN50, there were higher values in the WHOQOL-OLD ≥ 92 group (p = 0.0413 and p = 0.0222, respectively). For the frequency-domain variables, low-frequency (LF), high-frequency (HF) and Total Power, there were also higher values in the WHOQOL-OLD group ≥ 92 (p = 0.0195, p = 0.0170 and p = 0.0287, respectively). The non-linear variable SD1 was significantly higher in the WHOQOL-OLD ≥ 92 group (p = 0.0413), while DET% was significantly higher in the WHOQOLOLD ≤ 91 group (p = 0.0253). CONCLUSIONS: Better quality of life in older adults is associated with normal ANS function,represented by higher values found through three HRV analysis methods. This indicates the importance of a healthy lifestyle for healthy aging, which includes improvement in autonomic function and, consequently, quality of life.

INTRODUÇÃO: O aumento do tamanho da população idosa mundial nas últimas décadas tem demandado investigações sobre a qualidade de vida durante o processo de envelhecimento. A Variabilidade da Frequência Cardíaca (HRV) avalia a modulação do Sistema Nervoso Autônomo (SNA) e indica a capacidade do coração em responder a múltiplos estímulos fisiológicos e ambientais, bem como em doenças. OBJETIVOS: Investigar a percepção da qualidade de vida de idosos e sua associação com a VFC. MÉTODOS: Vinte e nove indivíduos (69 ± 7,76 anos) foram selecionados em um Centro de Medicina Preventiva, e preencheram um questionário (World Health Organization quality of life assessment ­ old module: WHOQOL-OLD). Os dados da VFC foram coletados durante 20 minutos, com indivíduos em posição supina, com uso do frequencímetro Polar RS800CX. RESULTADOS: Utilizando o valor de mediana como ponto de corte, a amostra foi dividida em dois grupos: WHOQOL-OLD ≥ 92 (N = 15: idosos com melhor qualidade de vida) e WHOQOL-OLD ≤ 91 (N = 13: idosos com menor qualidade de vida). Considerando a VFC, no domínio do tempo, as variáveis RMSSD e pNN50 apresentaram maiores valores no grupo WHOQOL-OLD ≥ 92 (p = 0,0413 e p = 0,0222, respectivamente). No domínio da frequência, as variáveis LF, HF e Total Power apresentaram maiores valores no grupo WHOQOL-OLD ≥ 92 (p = 0,0195, p = 0,0170 e p = 0,0287, respectivamente). No domínio não linear da VFC, a variável SD1 foi significativamente maior em WHOQOL-OLD ≥ 92 (p = 0,0413), enquanto o DET% apresentou-se significativamente maior em WHOQOL-OLD ≤ 91 (p = 0,0253). CONCLUSÕES: Melhor qualidade de vida está associada ao bom funcionamento do SNA, representado pela maiores valores nos três domínios da VFC em idosos, enfatizando a importância de estilo de vida saudável no envelhecimento saudável, com melhora da função autonômica e, consequentemente, da qualidade de vida.

A single bout of exercise with a flexible pole induces significant cardiac autonomic responses in healthy men

OBJECTIVES: Flexible poles can provide rapid eccentric and concentric muscle contractions. Muscle vibration is associated with a "tonic vibration reflex” that is stimulated by a sequence of rapid muscle stretching, activation of the muscle spindles and stimulation of a response that is similar to the myotatic reflex. Literature studies analyzing the acute cardiovascular responses to different exercises performed with this instrument are lacking. We investigated the acute effects of exercise with flexible poles on the heart period in healthy men. METHOD: The study was performed on ten young adult males between 18 and 25 years old. We evaluated the heart rate variability in the time and frequency domains. The subjects remained at rest for 10 min. After the rest period, the volunteers performed the exercises with the flexible poles. Immediately after the exercise protocol, the volunteers remained seated at rest for 30 min and their heart rate variability was analyzed. RESULTS: The pNN50 was reduced at 5-10 and 15-20 min after exercise compared to 25-30 min after exercise (p = 0.0019), the SDNN was increased at 25-30 min after exercise compared to at rest and 0-10 min after exercise (p = 0.0073) and the RMSSD was increased at 25-30 min after exercise compared to 5-15 min after exercise (p = 0.0043). The LF in absolute units was increased at 25-30 min after exercise compared to 5-20 min after exercise (p = 0.0184). CONCLUSION: A single bout of exercise with a flexible pole reduced the heart rate variability and parasympathetic recovery was observed approximately 30 min after exercise. .

Revisitando a fisiologia do sistema nervoso simpático: o que há de novo? / Facing sympathetic nervous system physiology: what's new?

o sistema nervoso autônomo (SNA), descrito no inicio do século passado, é definido como sendo o sistema de neurônios motores que inervam as glândulas e a musculatura lisa e cardíaca, sendo fundamental para a manutenção do equilibrio organismo, definindo esta situação com o termo "homeostasia", Atualmente, entretanto, reconhece-se que este sistema também apresenta neurônios sensoriais (neurônios aferentes), que transmitem as informações recebidas de receptores sensoriais autonômicos, principalmente viscerais, para o sistema nervoso central. O termo autônomo, hoje consagrado, vem da ideia de que este sistema atuava somente de forma autônoma; no entanto, hoje se admite que a atividade deste sistema é gerada, ou pelo menos supervisionada, pelo sistema nervoso central. A ativação e a desativação tônicas e reflexas de seus dois componentes, simpático e do parassimpático, determinam em condições fisiológicas ajustes do débito cardíaco e da resistência vascular periférica, contribuindo para a estabilização e manutenção da pressão arterial sistêmica durante diferentes situações fisiológicas, ampliando a capacidade de adaptação e sobrevivência do organismo. Neste contexto, o termo disautonomia se refere àquelas condições em que a função autonômica se modificou de maneira a contribuir negativamente para a saúde. Estas mudanças têm sido quantificadas e têm permitido estimar a contribuição da hiperatividade simpática na instalação e na manutenção da doença cardiovascular. Neste artigo, são revisados aspectos anatômicos e funcionais do sistema nervoso simpático e parassimpático, destacando os principais métodos de avaliação do SNA, bem como o papel da hiperatividade simpática como mecanismo desencadeador e de agravamento de disfunções cardiovasculares.

The autonomic nervous system (ANS) described at the beginning of the last century is defined as the system of motor neurons that innervate glands as well as smooth and cardiac musc/es essential for maintaining the body's balance, defining this situation with the term "homeostasis". Current1y, however it is recognized that this system also provides sensory neurons (afferent neurons) that transmit information received from sensory autonomic receptors mainly visceral to the central nervous system. The use of the term autonomic comes from the idea that this system acts only in autonomic way; however, nowadays it is accepted that the activity of this system is generated or at least supervised by the central nervous system. The tonic and reflex acti vation and deacti vation of both of its components, the sympathetic and the parasympathetic system, can determine adjustments in cardiac output and peripheral vascular resistance contributing to the stabilization and maintenance of systemic blood pressure during different physiological situations, expanding the capacity of adaptation and survival of the organismo ln this context, the terrn dysautonomia refers to those conditions in which autonomic function was changed in a way that negatively contribute to health. These changes have been quantified and have alJowed to estimate the contribution of sympathetic hyperactivity in the installation and maintenance of cardiovascular disease. In this manuscript anatomical and functional, sympathetic and parasympathetic nervous system aspects are reviewed, highJighting key evaluation methods of ANS and the role of sympathetic overacti vity as a trigger and as a worsening mechanism that can contribute to cardiovascular dysfunctions.

Variabilidade da freqüência cardíaca em cães anestesiados com infusão contínua de propofol e sufentanil / Heart rate variability in dogs anesthetized with propofol and sufentanil

Foram avaliados os efeitos do propofol associado ao sufentanil sobre o balanço das atividades simpática e parassimpática do coração, investigando-se um possível efeito dose dependente do opióide. Analisou-se a variabilidade da freqüência cardíaca (VFC) de 12 cães adultos pré-medicados com maleato de acepromazina e anestesiados com propofol e três doses diferentes de sufentanil, que variou de 0,025 a 0,1µg/kg/min. Registrou-se o eletrocardiograma 15 minutos após a medicação pré-anestésica e 15, 30, 60, 90 e 120 minutos após a indução anestésica. A VFC foi calculada no domínio da freqüência, mediante análise de 10 intervalos RR consecutivos. Houve redução acentuada da freqüência cardíaca, mas a VFC permaneceu relativamente inalterada.

The effects of propofol and sufentanil on cardiac sympathetic and parasympathetic balance were studied, in order to evaluate if sufentanil plays a role in this balance. The heart rate variability of 12 adult dogs was assessed, after premedication with acepromazine and anesthetized with propofol and three different doses of sufentanil, ranging from 0.025 to 0.1µg/kg/min. Electrocardiograms were recorded 15 minutes after premedication and 15, 30, 60, 90, and 120 minutes after anesthetic induction. Heart rate variability was calculated in frequency domain through the analysis of 10 consecutive RR intervals. Results showed an absence of important changes in heart rate variability, although a significant decrease in heart rate was observed.

Comparison between pre-prandial and post-prandial heart rate variability (HRV).

After food ingestion, peptides are released in GIT, which cause local vasodilatation. Therefore, after meals, redistribution of blood occurs because of shifting of large amounts of blood into GIT. In normal individuals, this is well compensated and does not lead to post-prandial hypotension. The mechanism of post-prandial hypotension is well known. We hypothesized that there may be a decrease in parasympathetic activity (tone) after meals to compensate for the change in blood distribution. We carried out the study to find out the changes in the autonomic tone before and after meals (lunch) in normal individuals, using Heart Rate Variability (HRV). From the series of RR intervals marked, the time domain and frequency domain measures of HRV were obtained using Nevrokard software (version 6.4). Continuous ECG was recorded in 15 healthy adult subjects (mean age 29.06 +/- 6.2; 13 males and 2 females). The ECG was recorded in pre-prandial and post-prandial state for a period of five minutes each as follows: (1) just before the subjects had lunch, (2) 15 minutes after lunch, (3) 1 hour after lunch, and (4) 2 hours after lunch. Time domain and frequency domain measures of HRV were compared between pre-prandial state and rest of post-prandial states. The autonomic tone parameters did not show a significant change between the pre-prandial state and the immediate post-prandial state. [Range, i.e., the difference between the maximum and minimum RR intervals (406 +/- 161.14 vs. 416.66 +/- 125), standard-deviation of normal to normal RR interval (56.33 +/- 22.72 vs. 67.63 +/- 26.50), RMSSD (55.02 +/- 35.85 vs. 63.87 +/- 32.60), NN50 (42.13 +/- 29.43 vs. 51.86 +/- 29.83), PNN50 (12.67 +/- 10.29 vs. 15.27 +/- 9.71), HF (49.53 +/- 15.10 vs. 47.07 +/- 16.88), LF (41.41 +/- 13.18 vs. 46.49 +/- 15.99), LF/HF (0.98 +/- 0.53 vs. 1.26 +/- 0.90), total power (148.27 +/- 37.78 vs. 137.61 +/- 37.10)]. No significant change was seen in the above parameters between the pre-prandial state and the later phases of post-prandial state. Since there is no significant decrease in the time domain measures and the HF value between the pre-prandial and the post-prandial states, we conclude that the parasympathetic tone is not altered. The parameters denoting sympathetic tone, ie, LF and LF/HF, also do not show a significant change. This indicates that the cardiovascular autonomic tone is not affected by ingestion of meals in normal individuals. Thus we refute our hypothesis. In conclusion, the HRV parameters do not alter significantly after meals in normal individuals.

Brainstem origin of duodenal vagal preganglionic parasympathetic neurons. A WGA-HRP study in the ferret (Mustela Putorius Furo), a human model

The projections of vagal brainstem neurons to the duodenal segment of the gastrointestinal tract were studied in the ferret using the WGA-HRP neurohistochemical technique. Fourteen adult ferrets with weights ranging from 800 gm to 1500 gm were used for the study. The muscular wall of the duodenum of six ferrets was injected with 0.1 ml of 5 WGA-HRP in 0.5 M sodium chloride. The eight remaining ferrets were used as controls. Two of these had injections of 0.1 ml normal saline into the muscular wall of the duodenum. The second set of two ferrets was injected with 0.1 ml of 5 WGA-HRP in buffer after bilateral truncal vagotomy. The third set of two ferrets received intraperitoneal injection of 0.1 ml of 5 WGA-HRP while, in the last set, the tracer was injected into the hepatic portal vein. Following the injections, the ferrets were allowed to survive for 48-72 hours after which each ferret was perfused transcardially first with normal saline followed by a fixative containing 1 paraformaldehyde and 1.25 glutaraldehyde in 0.1 M phosphate buffer, pH 7.4 at room temperature and finally with 10 buffered sucrose at 4 degrees C. Transverse serial frozen sections of the brainstem were then taken and processed for WGA-HRP neurohistochemistry and were analyzed under light and dark-field illuminations. The analyses of the sections taken from the six ferrets injected with WGA-HRP revealed neurons labelled with the tracer in the dorsal motor nucleus of the vagus nerve (DMNV). Sections taken from the control ferrets did not reveal any WGA-HRP labelled neurons in the brainstem

Heart rate variability under resting conditions in postmenopausal and young women

The aim of the present study was to compare the modulation of heart rate in a group of postmenopausal women to that of a group of young women under resting conditions on the basis of R-R interval variability. Ten healthy postmenopausal women (mean Ý SD, 58.3 Ý 6.8 years) and 10 healthy young women (mean Ý SD, 21.6 Ý 0.82 years) were submitted to a control resting electrocardiogram (ECG) in the supine and sitting positions over a period of 6 min. The ECG was obtained from a one-channel heart monitor at the CM5 lead and processed and stored using an analog to digital converter connected to a microcomputer. R-R intervals were calculated on a beat-to-beat basis from the ECG recording in real time using a signal-processing software. Heart rate variability (HRV) was expressed as standard deviation (RMSM) and mean square root (RMSSD). In the supine position, the postmenopausal group showed significantly lower (P<0.05) median values of RMSM (34.9) and RMSSD (22.32) than the young group (RMSM: 62.11 and RMSSD: 49.1). The same occurred in the sitting position (RMSM: 33.0 and RMSSD: 18.9 compared to RMSM: 57.6 and RMSSD: 42.8 for the young group). These results indicate a decrease in parasympathetic modulation in postmenopausal women compared to young women which was possibly due both to the influence of age and hormonal factors. Thus, time domain HRV proved to be a noninvasive and sensitive method for the identification of changes in autonomic modulation of the sinus node in postmenopausal women

Effect of graded head-up tilt on parasympathetic reactivity.

Thirteen healthy subjects were tested for parasympathetic reactivity during head-up tilt and reversal of the tilt. Head-up tilt (70 degrees) resulted in significant increase in baseline heart rate and diastolic blood pressure. Head-up tilt also led to increased parasympathetic reactivity as measured by Valsalva manoeuvre and hand grip test. Heart rate response to deep breathing test did not change. The reversal of the tilt led to returning of heart responses to original values. Responses indicate towards enhanced parasympathetic reactivity during head-up tilt position.

Peripheral neuroendocrinology of the cervical autonomic nervous system

1. The sympathetic superior cervical ganglia (SCG) provide innervation to the pineal gland and median eminence through the internal carotid nerve and to the thyroid and parathyroid glands through the external carotid nerve. 2. Postsynaptic activation in median eminence nerve endings shortly after superior cervical ganglionectomy (SCGx) was accompanied by a depression of LH and FSH release and by a 3-5 day delay in rat estrous cyclicity. A decrease in TSH and GH release and an increase in ACTH and prolactin release were also found. These effects were accompanied by a) an increase in medial basal hypothalamic (MBH) LHRH, TRH and GHRH, b) a decrease in MBH somatostatin, AVP and CRH, and c) a normal adenohypophyseal response to hypophysiotropic hormones. Neurohypophyseal AVP release decreased during degeneration of sympathetic nerve terminals in the neurohypophyseal lobe after SCGx. The effects were generally mediated by alpha 1-adrenoceptors and were pineal gland. 3. In thyroid and parathyroid tissue the following events were observed during the wallerian degeneration phase after SCGx: a) alpha 1-adrenoceptor inhibition of thyroxine (T4) release, b) alpha 1-adrenoceptor inhibition, together with beta-adrenoceptor stimulation, of calcitonin release, and c) alpha 1-adrenoceptor inhibition of parathyroid hormone release. Thyroid sympathetic nerves also modulate slow phenomena such as compensatory thyroid growth after partial thyroidectomy. 4. In rats subjected to cholinergic decentralization of the thyroid gland, a decrease of plasma T4 and an increase of plasma TSH, as well as an impaired goitrogenic and thyroid compensatory response were detectable. The calcitonin and PTH response to changes in calcium levels increased after regional parasympathetic denervation. 5. The results indicate that cervical autonomic nerves constitute a parallel pathway through which the brain communicates with the endocrine system