Noninvasive assessment of the common carotid artery hemodynamics with increasing exercise work rate using wave intensity analysis

Noninvasively determined local wave speed (c) and wave intensity (WI) parameters provide insights into arterial stiffness and cardiac-vascular interactions in response to physiological perturbations. However, the effects of incremental exercise and subsequent recovery on c and WI have not been fully established. We examined the changes in c and WI parameters in the common carotid artery (CCA) during exercise and recovery in eight young, healthy male athletes. Ultrasound measurements of CCA diameter and blood flow velocity were acquired at rest, during five stages of incremental exercise (up to 70% maximum work rate), and throughout 1 h of recovery, and noninvasive WI analysis [diameter-velocity (DU) approach] was performed. During exercise, c increased (+136%), showing increased stiffness with work rate. All peak and area of forward compression, backward compression, and forward expansion waves increased during exercise (+452%, +700%, and +900%, respectively). However, WI reflection indexes and CCA resistance did not significantly change from rest to exercise. Furthermore, wave speed and the magnitude of all waves returned to baseline within 5 min of recovery, suggesting that the effects of exercise in the investigated parameters of young, healthy individuals were transient. In conclusion, incremental exercise was associated with an increase in local CCA stiffness and increases in all wave parameters, indicative of enhanced ventricular contractility and improved late-systolic blood flow deceleration.

NEW & NOTEWORTHY We examined hemodynamics of the common carotid artery using noninvasive application of wave intensity analysis during exercise and recovery. The hemodynamic adjustments to exercise were associated with increases in local common carotid artery stiffness and all waves’ parameters, with the latter indicating enhanced ventricular contractility and improved late systolic blood flow deceleration.

Improvement in endothelial dysfunction in patients with systemic lupus erythematosus with N-acetylcysteine and atorvastatin

Objective:

To study the effects of N-acetylcysteine (NAC) and atorvastatin on endothelial dysfunction in patients with systemic lupus erythematosus (SLE).

Materials and Methods:

Thirty-two SLE patients and age, sex-matched 10 healthy control subjects were studied. The patients were between 17 and 65 years of age and positive for diagnostic tests, such as antinuclear antibodies (ANA). Photoplethysmogram (PPG) detects the changes in the amount of light absorbed by hemoglobin, which reflects changes in the blood volume. Pulse wave analysis was performed at rest, 30 s, 90 s after shear stress, and 10 min after 300 μm of salbutamol inhalation.

Results:

Stiffness index (SI) of patients before the treatment was 8.46±2.78 cm/s and of controls was 6.07±1.4 cm/s (P = 0.002) and that of reflection index (RI) was 73±13 for patients and 65±7 for controls (P = 0.001). The percentage change in RI after salbutamol inhalation for controls and patients were -16±6 and -7±4 (P = 0.001), respectively, indicating the presence of endothelial dysfunction. The percentage decrease in RI after salbutamol inhalation was from -2.36±0.76 to ?7.92±1.46 in patients treated with N-acetylcysteine (NAC, P = 0.007). The percentage decrease in RI after salbutamol inhalation was from ?6.36΁1.21 to -9.92±1.21 in patients treated with atorvastatin (P = 0.05). This indicated the improvement in endothelial function. There was decrease in C-reactive protein (CRP) from 1.03±0.72 mg/dL to 0.52±0.22 mg/dL and that of malondialdehyde (MDA) from 11.20±4.07 nmol/mL to 8.81±2.79 nmol/mL with N-acetylcysteine treatment (P < 0.05). The CRP was decreased from 1.11±0.92 mg/dL to 0.440.16 mg/dL (P = 0.05) and that of MDA was decreased from 9.37±3.29 nmol/mL to 8.51±3.27 nmol/mL after treatment with atorvastatin. It showed improvement in oxidative stress with these treatments.

Conclusion:

The presence of arterial stiffness indicated endothelial dysfunction. There was reduction in RI and SI with treatment of N-acetylcysteine and atorvastatin suggesting improvement in endothelial dysfunction. There was decrease in CRP (a marker of inflammation) and MDA after treatment with N-acetylcysteine suggesting improvement in endothelial dysfunction. There was reduction in CRP after treatment with atorvastatin, suggesting improvement in endothelial function. Improvement in endothelial dysfunction is associated with decreased incidence of cardiovascular and cerebrovascular accidents.

Arterial Stiffness Parameters Correlate with Estimated Cardiovascular Risk in Humans: A Clinical Study

Arterial stiffness is said to be a novel predictor of cardiovascular events. This study investigated the correlation between arterial stiffness parameters and the estimated cardiovascular disease risk (RISK) in a Polish cohort of patients divided by age, sex, and body-mass index (BMI). The cross-sectional study enrolled 295 patients who met the inclusion criteria. Subjects were divided into three age groups, four weight groups, and by gender. The stiffness of the vessels was assessed by the measurement of the stiffness index (SI) and reflection index (RI). An individual 10-year RISK was calculated for each patient using the Heart Risk Calculator algorithm by the American Heart Association. A correlation between the SI and estimated RISK was observed (rS 0.42, p < 0.05). The strongest relationship was presented for women, the age group 40-54, and individuals with normal weight. The correlation between RI and calculated RISK was observed (rS 0.19, p < 0.05), the highest correlation was noticed for people aged 40-54 and obese. In conclusion, both SI and RI are correlated with estimated cardiovascular risk, however SI seems to be more useful than RI to predict the individual risk of future cardiovascular events. Both of these can be measured using non-invasive techniques, which demonstrates their potential utility in clinical practice.

Non-invasive assessment of ventriculo-arterial coupling using aortic wave intensity analysis combining central blood pressure and phase-contrast cardiovascular magnetic resonance

BACKGROUND

Wave intensity analysis (WIA) in the aorta offers important clinical and mechanistic insight into ventriculo-arterial coupling, but is difficult to measure non-invasively. We performed WIA by combining standard cardiovascular magnetic resonance (CMR) flow-velocity and non-invasive central blood pressure (cBP) waveforms.

METHODS AND RESULTS

Two hundred and six healthy volunteers (age range 21-73 years, 47% male) underwent sequential phase contrast CMR (Siemens Aera 1.5 T, 1.97 × 1.77 mm2, 9.2 ms temporal resolution) and supra-systolic oscillometric cBP measurement (200 Hz). Velocity (U) and central pressure (P) waveforms were aligned using the waveform foot, and local wave speed was calculated both from the PU-loop (c) and the sum of squares method (cSS). These were compared with CMR transit time derived aortic arch pulse wave velocity (PWVtt). Associations were examined using multivariable regression. The peak intensity of the initial compression wave, backward compression wave, and forward decompression wave were 69.5 ± 28, -6.6 ± 4.2, and 6.2 ± 2.5 × 104 W/m2/cycle2, respectively; reflection index was 0.10 ± 0.06. PWVtt correlated with c or cSS (r = 0.60 and 0.68, respectively, P < 0.01 for both). Increasing age decade and female sex were independently associated with decreased forward compression wave (-8.6 and -20.7 W/m2/cycle2, respectively, P < 0.01) and greater wave reflection index (0.02 and 0.03, respectively, P < 0.001).

CONCLUSION

This novel non-invasive technique permits straightforward measurement of wave intensity at scale. Local wave speed showed good agreement with PWVtt, and correlation was stronger using the cSS than the PU-loop. Ageing and female sex were associated with poorer ventriculo-arterial coupling in healthy individuals.

Is Heart Rate a Confounding Factor for Photoplethysmography Markers? A Systematic Review

Finger photoplethysmography (PPG) waveform is blood volume change of finger microcirculation that reflects vascular function. Reflection index (RI), stiffness index (SI) and second derivative of photoplethysmogram (SDPPG) are derived from PPG waveforms proposed as cardiovascular disease (CVD) markers. Heart rate (HR) is a known factor that affects vascular function. Individual resting HR variation may affect RI, SI and SDPPG. This review aims to identify studies about the relationship between HR with RI, SI and SDPPG among humans. A literature search was conducted in Medline via the Ebscohost and Scopus databases to find relevant articles published within 11 years. The main inclusion criteria were articles in the English language that discuss the relationship between HR with RI, SI and SDPPG using PPG among humans. The search found 1960 relevant articles but only six articles that met the inclusion criteria. SI and RI showed an association with HR. SDPPG (SDPPG-b/SDPPG-a ratio, SDPPG-d/SDPPG-a ratio, aging index (AGI) and revised aging index (RAGI)) also had an association with HR. Only RI had a considerable association with HR, the association between SI and HR was non-considerable and the association between HR and SDPPG was inconclusive. Further interventional studies should be conducted to investigate this issue, as a variation in resting HR may challenge the validity of PPG-based CVD markers.

Quantification of vascular function changes under different emotion states: A pilot study

Recent studies have indicated that physiological parameters change with different emotion states. This study aimed to quantify the changes of vascular function at different emotion and sub-emotion states. Twenty young subjects were studied with their finger photoplethysmographic (PPG) pulses recorded at three distinct emotion states: natural (1 minute), happiness and sadness (10 minutes for each). Within the period of happiness and sadness emotion states, two sub-emotion states (calmness and outburst) were identified with the synchronously recorded videos. Reflection index (RI) and stiffness index (SI), two widely used indices of vascular function, were derived from the PPG pulses to quantify their differences between three emotion states, as well as between two sub-emotion states. The results showed that, when compared with the natural emotion, RI and SI decreased in both happiness and sadness emotions. The decreases in RI were significant for both happiness and sadness emotions (both P< 0.01), but the decreases in SI was only significant for sadness emotion (P< 0.01). Moreover, for comparing happiness and sadness emotions, there was significant difference in RI (P< 0.01), but not in SI (P= 0.9). In addition, significant larger RI values were observed with the outburst sub-emotion in comparison with the calmness one for both happiness and sadness emotions (both P< 0.01) whereas significant larger SI values were observed with the outburst sub-emotion only in sadness emotion (P< 0.05). Moreover, gender factor hardly influence the RI and SI results for all three emotion measurements. This pilot study confirmed that vascular function changes with diffenrt emotion states could be quantified by the simple PPG measurement.

[Identification of susceptibility to acute mountain sickness by detecting vascular tone using a photoplethysmographic sensor]

OBJECTIVE

Vascular tone had shown the potential susceptibility to acute mountain sickness (AMS), however the detailed tendency has not been studied.

METHODS

Vascular tone, SpO₂ and Rate pressure product (RPP) were studied in seventeen healthy subjects before and after rapid ascent from sea level to 3658 m. Human acute mountain sickness was evaluated by the Lake Louise Score (LLS).

RESULTS

Nine of the seventeen participants were diagnosed with AMS. On initial exposure, there was a significant decrease in vascular tone between subjects with and without AMS. Significance was also found in the decrease of SpO₂ before and after rapid ascent but the differences between subjects with and without AMS did not reach significance during the initial phase.

CONCLUSIONS

s:Vascular tone on initial exposure in response to rapid ascent is a possible sign of susceptibility to AMS. Conclusion: measurement of vascular tone using a wearable sensor throughout the acute phase response will provide numerical values of pathophysiology throughout the development of AMS.

[Markers of cardiovascular system damage as additional criteria for the diagnosis of sarcopenia.]

Sarcopenia is a pathological condition characterized by muscle failure associated with age, in which muscle mass and strength decrease and, as a result, functional status and quality of life decrease. The article discusses and presents the stiffness of the arterial wall and the vascular wall reflection index as markers of damage to the cardiovascular system in elderly and senile women with arterial hypertension; the influence of markers of damage to the cardiovascular system in the development of sarcopenia is considered; an algorithm for the diagnosis of sarcopenia for clinical practice is presented.