Peripheral Resistance Research Articles

Normothermic Perfusion is Superior to Cold Perfusion in Porcine Ex Situ Lung Perfusion

BackgroundCold ex situ lung perfusion (ESLP) has demonstrated improved preservation in small animal ESLP compared to normothermic ESLP and cold static preservation. We hypothesized that cold negative pressure ventilation (NPV)-ESLP would improve graft function in a porcine transplantation model. MethodsFour perfusate temperatures were examined with 12 hours NPV-ESLP in a large animal transplantation model. Pig lungs were allotted to four groups: (1) Normothermia (38°C, n = 6); (2) profound hypothermia (10°C, n = 6); (3) moderate hypothermia (20°C, n = 3); (4) subnormothermia (32°C, n = 3). A fifth group subnormothermic low-flow (SNLF) perfusion was examined to assess the effect of reduced cardiac output with cold perfusion (32°C, 10% cardiac output, n = 6). ResultsOnly Normothermic and SNLF groups demonstrated acceptable oxygenation after 12 hours NPV-ESLP and were transplanted. All other groups failed prematurely. After 12 hours of ESLP, Normothermic lungs demonstrated significantly greater dynamic compliance compared to SNLF lungs (P = .03). Edema formation post-ESLP was significantly worse in the SNLF group (P = .01). There was no significant difference in pulmonary artery pressures after ESLP (P = .10); however, pulmonary vascular resistance was significantly greater in the SNLF (P = .04). Isolated left lung oxygenation 4-hours post-transplant and left lung edema formation was not significantly different between Normothermic and SNLF post-transplant (P = .09). Proinflammatory cytokines were significantly greater during SNLF-ESLP (tumor necrosis factor alpha, P < .05). ConclusionsProlonged normothermic (38°C) NPV-ESLP is superior to 10, 20, and 32°C perfusion. Normothermic ESLP of porcine lungs results in superior graft function and reduced inflammation versus SNLF-ESLP.

Myo-inositol trispyrophosphate prevents right ventricular failure and improves survival in monocrotaline-induced pulmonary hypertension in the rat.

Pulmonary hypertension (PH) results from pulmonary vasculopathy, initially leading to a compensatory right ventricular (RV) hypertrophy, and eventually to RV failure. Hypoxia can trigger both pulmonary vasculopathy and RV failure. Therefore, we tested if myo-inositol trispyrophosphate (ITPP), which facilitates oxygen dissociation from haemoglobin, can relieve pulmonary vasculopathy and RV hypoxia, and eventually prevent RV failure and mortality in the rat model of monocrotaline-induced PH. Rats were injected with monocrotaline (PH) or saline (control) and received ITPP or placebo for 5 weeks. Serial echocardiograms were obtained to monitor the disease, pressure-volume loops were recorded and evaluated, myocardial pO2 was measured using a fluorescent probe, and histological and molecular analyses were conducted at the conclusion of the experiment. ITPP reduced PH-related mortality. It had no effect on progressive increase in pulmonary vascular resistance, yet significantly relieved intramyocardial RV hypoxia, which was associated with improvement of RV function and reduction of RV wall stress. ITPP also tended to prevent increased hypoxia inducible factor-1α expression in RV cardiac myocytes but did not affect RV capillary density. Our study suggests that strategies aimed at increasing oxygen delivery to hypoxic RV in PH could potentially be used as adjuncts to other therapies that target pulmonary vessels, thus increasing the ability of the RV to withstand increased afterload and reducing mortality. ITPP may be one such potential therapy.

Immature reticulocyte fraction: A novel biomarker of hemodynamic severity in pulmonary arterial hypertension.

Various erythropoietic abnormalities are highly prevalent among patients with pulmonary arterial hypertension (PAH) and associated with worse disease severity. Given the poorly understood yet important roles of dysregulated erythropoiesis and iron metabolism in PAH, we sought to further characterize the hematologic and iron profiles in PAH and their relationship to PAH severity. We recruited 67 patients with PAH and 13 healthy controls. Hemodynamics attained within 1 year of blood sample collection were available for 36 patients. Multiple hematologic, iron, and inflammatory parameters were evaluated for their association with hemodynamics. The subset with hemodynamic data consisted of 29 females (81%). The most common etiologies were idiopathic PAH (47%) and connective tissue disease-related PAH (33%). 19 (53%) had functional class 3 or 4 symptomatology, and 12 (33%) were on triple pulmonary vasodilator therapy. Immature reticulocyte fraction (IRF) had significant positive correlations with mean pulmonary artery (PA) pressure (mPAP) (0.59, p < 0.001), pulmonary vascular resistance (0.52, p = 0.001), and right atrial pressure (0.46, p = 0.005), and significant negative correlations with cardiac index (-0.43, p = 0.009), PA compliance (PAC) (-0.60, p < 0.001), stroke volume index (SVI) (-0.57, p < 0.001), and mixed venous oxygen saturation (-0.51, p = 0.003). IRF correlated with markers of iron deficiency (ID) and erythropoiesis. On multivariable linear regression, IRF was associated with elevated mPAP and reduced SVI and PAC independent of EPO levels, transferrin saturation, and soluble transferrin receptor levels. We identified IRF as a novel and potent biomarker of PAH hemodynamic severity, possibly related to its associations with erythropoiesis, ID, and tissue hypoxia.

The use of cardiac magnetic resonance imaging for the evaluation of pulmonary hypertension

Purpose Evaluate the utility of cardiac magnetic resonance imaging to estimate the principle hemodynamic parameters that are measured by right heart catheterization in a noninvasive manner i.e. mean pulmonary artery pressure, pulmonary vascular resistance and pulmonary artery wedge pressure through cardiac magnetic resonance based numerical models. Materials and methods 29 pulmonary hypertension patients, fitting the inclusion criteria were randomly selected and included in the study. CMR Imaging and right side heart catheter (RHC) were performed within one month. 3 Cardiac MRI based models in literature that showed high accuracy were tested. Two equations for mPAP calculation; mPAP=-231.423 + 53.8(loge inter-ventricular septal angle)+log10(right ventricular mass divided by left ventricular mass) i.e ventricular mass index X 8.708+area of pulmonary artery in diastole X 0.009 and mPAP = –4.6+(0.32*septal angle)+(ventricular mass index × 16.3). One equation for PAWP; PAWP = left atrial volume index +6.43 × 0.22. Results The Altman and Bland correlation between mPAP invasively measured and CMR-estimated mPAP had good correlation with r= 0.594 and r=0.599 (P&lt;0.001) for CMR based mPAP model 1 and 2, respectively. The calculated mean bias between the RHC-derived and CMR-estimated mPAP was 7.9 (agreement interval -24.8 to 40.6 mm Hg) and mean bias -3 (agreement interval -34.8 to 28.2 mm Hg) for CMR based mPAP model 1 and 2, respectively. There was no correlation between invasively measured and CMR-estimated PAWP with (P =0.092) for CMR based PAWP model. The mean bias between the RHC-derived and CMR-estimated PAWP was 2.4 (agreement interval –13.5 to 18.2 mm Hg). The correlation between invasively calculated and CMR-estimated PVR had good correlation with r=0.703 and r=0.704 (P&lt;0.001) for CMR based PVR model 1 and 2, respectively. The mean bias between the RHC-measured and CMR-estimated mPAP was 0.6 (agreement interval -11.6 to 12.8 mm Hg) and mean bias -1.3 (agreement interval -12.1 to 9.5 mm Hg) for CMR based mPAP model 1 and 2, respectively. Conclusion our results showed good correlations between CMR findings and RHC as regard mPAP and PVR. Thus, estimation of mPAP, PAWP and PVR non-invasively using CMR is feasible but needs further studies to improve accuracy.

Balloon pulmonary angioplasty for chronic thromboembolic pulmonary disease without pulmonary hypertension.

Balloon pulmonary angioplasty (BPA) is beneficial for patients with chronic thromboembolic pulmonary disease (CTEPD) with pulmonary hypertension (PH). However, the clinical benefit of BPA for the patients with CTEPD without PH remains unknown. In this study, we aimed to evaluate the efficacy, safety, and long-term outcomes of BPA in patients with CTEPD without PH. We retrospectively analyzed the data from 84 CTEPD patients with mean pulmonary artery pressure (mPAP) < 25 mmHg and 39 CTEPD patients with mPAP ≤ 20 mmHg (without PH). Among the 39 patients with CTEPD without PH, 14 underwent BPA (BPA-treated group), and the remaining 25 received no treatment (untreated group). In the patients with CTEPD without PH, BPA led to improvements in symptoms, pulmonary vascular resistance (3.6 ± 1.6 to 2.6 ± 1.1 Wood units, p < 0.001), peak oxygen consumption (16.1 ± 4.0 to 18.8 ± 4.3 mL/kg/min, p = 0.033), minute ventilation versus carbon dioxide production slope (41.4 ± 12.2 to 35.1 ± 6.7, p = 0.026), and mPAP/cardiac output slope (7.0 ± 2.6 to 4.4 ± 2.0 mmHg/L/min, p = 0.004) and facilitated the discontinuation of home oxygenation therapy, with no serious complications. Kaplan-Meier analysis showed no significant difference in all-cause mortality between the untreated and BPA-treated groups. BPA may be a safe treatment option for the patients with CTEPD without PH that can alleviate symptoms, improve exercise capacity, and facilitate weaning from home oxygen therapy. Further prospective randomized trials are needed to confirm these findings.

Peripartal cardiomyopathy: literature review and clinical case description

The cardiovascular system during pregnancy undergoes a number of compensatory and adaptive changes, such as an increase in heart rate, cardiac output and total peripheral resistance, which causes an increase in the load on the myocardium. Peripartum cardiomyopathy is a serious polyetiological complication of pregnancy and the postpartum period, as well as an important cause of disability and mortality for both mother and fetus. The non-specificity of complaints and the paucity of clinical symptoms in the early stages of the disease lead to delayed diagnosis and significantly increase the frequency of unfavorable outcomes. In the article we present our own clinical observation of the acute development of severe peripartum cardiomyopathy in a multipregnant woman at 36 weeks of gestation, complicated by cardiogenic shock and antenatal fetal death.

Effects of nitric oxide inhalation on pulmonary arterial impedance: differences between normal and pulmonary hypertension male rats.

Nitric oxide (NO) inhalation improves pulmonary hemodynamics in participants with pulmonary arterial hypertension (PAH). Although it can reduce pulmonary vascular resistance (PVR) in PAH, its impact on the dynamic mechanics of pulmonary arteries and its potential difference between control and participants with PAH remain unclear. PA impedance provides a comprehensive description of PA mechanics. With an arterial model, PA impedance can be parameterized into peripheral pulmonary resistance (Rp), arterial compliance (Cp), characteristic impedance of the proximal arteries (Zc), and transmission time from the main PA to the reflection site. This study investigated the effects of inhaled NO on PA impedance and its associated parameters in control and monocrotaline-induced pulmonary arterial hypertension (MCT-PAH) male rats (6/group). Measurements were obtained at baseline and during NO inhalation at 40 and 80 ppm. In both groups, NO inhalation decreased PVR and increased the left atrial pressure. Notably, its impact on PA impedance was frequency dependent, as revealed by reduced PA impedance modulus in the low-frequency range below 10 Hz, with little effect on the high-frequency range. Furthermore, NO inhalation attenuated Rp, increased Cp, and prolonged transmission time without affecting Zc. It reduced Rp more pronouncedly in MCT-PAH rats, whereas it increased Cp and delayed transmission time more effectively in control rats. In conclusion, the therapeutic effects of inhaled NO on PA impedance were frequency dependent and may differ between the control and MCT-PAH groups, suggesting that the effect on the mechanics differs depending on the pathological state.NEW & NOTEWORTHY Nitric oxide inhalation decreased pulmonary arterial impedance in the low-frequency range (<10 Hz) with little impact on the high-frequency range. It reduced peripheral pulmonary resistance more pronouncedly in pulmonary hypertension rats, whereas it increased arterial compliance and transmission time in control rats. Its effect on the mechanics of the pulmonary arteries may differ depending on the pathological status.

The Impact of Highly Selective Thoracic Sympathectomy on the Progression of Monocrotaline-induced Pulmonary Arterial Hypertension in Rats.

Pulmonary arterial hypertension (PAH) is characterized by persistently elevated pulmonary artery pressure and vascular resistance. Sympathetic overactivity in hypertension participates in pulmonary vascular remodeling and heart failure. The present study aims to explore the efficacy of highly selective thoracic sympathectomy (HSTS) on lowering pulmonary artery pressure, reversing pulmonary vascular remodeling, and improving right ventricular function in rats. A total of 24 Sprague-Dawley rats were randomly assigned into the control group (n = 8) and experimental group (n = 16). Rats in the control group were intraperitoneally injected with 0.9% normal saline, and those in the experimental group were similarly administered with received monocrotaline (MCT) injections at 60 mg/kg. Two weeks later, rats in the experimental group were further subdivided randomly into the MCT-HSTS group (n = 8) and MCT-sham group (n = 8), and they were surgically treated with HSTS and sham operation, respectively. Two weeks later, significantly lowered mean pulmonary artery pressure (mPAP), pulmonary artery systolic pressure (sPAP), and the ratio of sPAP to femoral artery systolic pressure (sFAP) were detected in the MCT-HSTS group than those of the MCT-sham group. In addition, rats in the MCT-HSTS group presented a significantly lower ratio of vascular wall area to the total vascular area (WT%), right ventricular hypertrophy index, and degrees of right ventricular fibrosis and lung fibrosis in comparison to those of the MCT-sham group. HSTS significantly downregulated protein levels of inflammasomes in pulmonary artery smooth muscle cells (PASMCs). Collectively, HSTS effectively reduces pulmonary artery pressure, pulmonary arteriolar media hypertrophy, and right ventricular hypertrophy in MCT-induced PAH rats. It also exerts an anti-inflammatory effect on PASMCs in PAH rats by suppressing inflammasomes and the subsequent release of inflammatory cytokines.

Modified Ultrafiltration Technique in Valvular Heart Surgery: A Case Series

Abstract Application of cardiopulmonary bypass (CPB) in cardiac surgery may cause systemic inflammatory reactions, possibly causing clinical sequelae and multiple organ failures such as systolic or diastolic dysfunction, regional or global left ventricle or right ventricle low contractility, and the function of vascular tone. The use of drugs (i.e., corticosteroids) and the ultrafiltration method during the CPB application has been known to prevent or minimize the complication of CPB in cardiac surgery. One of the non-pharmacological approaches to minimize those inflammatory responses is the modified ultrafiltration (MUF) technique. Theoretically, this is due to ultrafiltration which may reduce the interstitial fluid and inflammatory mediator. MUF can be used to counteract inflammatory responses in pediatric cardiac surgery. This ultrafiltration method became a recommended procedure in minimally invasive surgery and conventional open-heart surgery. However, studies about effectiveness in adults are limited. In this case series, the MUF technique was used in three patients who underwent valvular heart surgery with a CPB machine. Following the application of the CPB, the MUF technique is performed for 10 min at a speed of no more than 10% full flow. Hemodynamic measurements and interleukin-6 (IL-6) levels were taken during surgery and 24 h post-CPB. At 24 h post-CPB, the vasoactive inotropic score and duration of mechanical support use were less than 20 and 18–24 h, respectively, and the IL-6 level ranged from 7.22 to 14.22 pg/mL. The cardiac index increased, ranging from 2.43 to 3.47 L/min/m2, and pulmonary vascular resistance decreased, ranging from 78 to 146 dyne s/cm5.

Characteristics and risk profiles of patients with pulmonary arterial or chronic thromboembolic pulmonary hypertension living permanently at >2500 m of high altitude in Ecuador.

Over 80 Mio people worldwide live >2500 m, including at least as many patients with pulmonary vascular disease (PVD), defined as pulmonary arterial or chronic thromboembolic pulmonary hypertension (PAH/CTEPH), as elsewhere (estimated 0.1‰). Whether PVD patients living at high altitude have altered disease characteristics due to hypobaric hypoxia is unknown. In a cross-sectional study conducted at the Hospital Carlos Andrade Marin in Quito, Ecuador, located at 2840 m, we included 36 outpatients with PAH or CTEPH visiting the clinic from January 2022 to July 2023. We collected data on diagnostic right heart catheterization, treatment, and risk factors, including NYHA functional class (FC), 6-min walk distance (6MWD), and NT-brain natriuretic peptide (BNP) at baseline and at last follow-up. Thirty-six PVD patients (83% women, 32 PAH, 4 CTEPH, mean ± SD age 44 ± 13 years, living altitude 2831 ± 58 m) were included and had the following baseline values: PaO2 8.2 ± 1.6 kPa, PaCO2 3.9 ± 0.5 kPa, SaO2 91 ± 3%, mean pulmonary artery pressure 53 ± 16 mmHg, pulmonary vascular resistance 16 ± 4 WU, 50% FC II, 50% FC III, 6MWD 472 ± 118 m, BNP 490 ± 823 ng/L. Patients were treated for 1628 ± 1186 days with sildenafil (100%), bosentan (33%), calcium channel blockers (33%), diuretics (69%), and oxygen (nocturnal 53%, daytime 11%). Values at last visit were: FC (II 75%, III 25%), 6MWD of 496 ± 108 m, BNP of 576 ± 5774 ng/L. Compared to European PVD registries, ambulatory PVD patients living >2500 m revealed similar blood gases and relatively low and stable risk factor profiles despite severe hemodynamic compromise, suggesting that favorable outcomes are achievable for altitude residents with PVD. Future studies should focus on long-term outcomes in PVD patients dwelling >2500 m.

Pulmonary Hypertension: Exercise Intolerance and the Benefits of Respiratory Muscle and Exercise Training

Pulmonary hypertension is characterized by significant remodeling of the pulmonary vasculature, leading to raised pulmonary vascular resistance. Despite advances in medical therapy, decreased exercise tolerance remains a predominant symptom experienced by patients. Reduced exercise capacity has been shown to have implications on quality of life and prognosis. There is growing acknowledgment that the etiology of exercise tolerance is multifactorial with cardiac, respiratory, and skeletal muscle contributors. There has been a shift in management approach with exercise training now included as a Class 1 recommendation indication in recent guidelines. In this review, we summarize the literature on the pathophysiology of exercise intolerance in pulmonary hypertension and then describe the literature assessing the safety and efficacy of inspiratory muscle and exercise training in patients with pulmonary arterial hypertension or chronic thromboembolic pulmonary hypertension.

Impact of Matrix Gel Variations on Primary Culture of Microvascular Endothelial Cell Function.

The endothelium regulates crucial aspects of vascular function, including hemostasis, vasomotor tone, proliferation, immune cell adhesion, and microvascular permeability. Endothelial cells (ECs), especially in arterioles, are pivotal for flow distribution and peripheral resistance regulation. Investigating vascular endothelium physiology, particularly in microvascular ECs, demands precise isolation and culturing techniques. Freshly isolated ECs are vital for examining protein expression, ion channel behavior, and calcium dynamics. Establishing primary endothelial cell cultures is crucial for unraveling vascular functions and understanding intact microvessel endothelium roles. Despite the significance, detailed protocols and comparisons with intact vessels are scarce in microvascular research. We developed a reproducible method to isolate microvascular ECs, assessing substrate influence by cultivating cells on fibronectin and gelatin matrix gels. This comparative approach enhances our understanding of microvascular endothelial cell biology. Microvascular mesenteric ECs expressed key markers (VE-cadherin and eNOS) in both matrix gels, confirming cell culture purity. Under uncoated conditions, ECs were undetected, whereas proteins linked to smooth muscle cells and fibroblasts were evident. Examining endothelial cell (EC) physiological dynamics on distinct matrix substrates revealed comparable cell length, shape, and Ca2+ elevations in both male and female ECs on gelatin and fibronectin matrix gels. Gelatin-cultured ECs exhibited analogous membrane potential responses to acetylcholine (ACh) or adenosine triphosphate (ATP), contrasting with their fibronectin-cultured counterparts. In the absence of stimulation, fibronectin-cultured ECs displayed a more depolarized resting membrane potential than gelatin-cultured ECs. Gelatin-cultured ECs demonstrated electrical behaviors akin to intact endothelium from mouse mesenteric arteries, thus advancing our understanding of endothelial cell behavior within diverse microenvironments.

Riociguat as bridging therapy to pulmonary endarterectomy in patients with chronic thromboembolic pulmonary hypertension: a retrospective cohort study.

In operable chronic thromboembolic pulmonary hypertension (CTEPH) patients, the utilization of bridging therapy with targeted medications prior to pulmonary endarterectomy (PEA) remains a topic of controversy, despite being common in cases of severe hemodynamic impairment. This study aims to assess the impact of riociguat as a bridging therapy on postoperative hemodynamics and outcomes. We conducted a retrospective study involving patients undergoing PEA from December 2016 to November 2023. Patients were categorized into two groups based on the use of riociguat before PEA. Pulmonary vascular resistance (PVR) following riociguat administration was assessed pre-PEA. Postoperative outcomes, including mortality, complications, and hemodynamics, were compared, employing propensity score matching analysis. Among the patients, 41.8% (n=56) received riociguat as bridging therapy. In patients with PVR ≥800 dynes·sec·cm-5, riociguat resulted in a reduction in PVR {1,207 [974-1,698] vs. 1,125 [928-1,486] dynes·sec·cm-5, P<0.01}, while no significant difference was observed in patients with PVR <800 dynes·sec·cm-5 {641 [474-740] vs. 600 [480-768] dynes·sec·cm-5, P=0.46}. After propensity score matching, each group included 26 patients. The overall perioperative mortality rate was 2.6%. Postoperative PVR {326 [254-398] vs. 361 [290-445] dynes·sec·cm-5, P=0.35} was similar in the riociguat group compared to the control group. The incidence of residual pulmonary hypertension (PH) and other postoperative outcomes were also comparable. The use of riociguat as bridging therapy demonstrated hemodynamic improvement before PEA in patients with high preoperative PVR. However, no additional benefits in postoperative mortality or hemodynamics were observed.

Antioxidant therapy for hypertension; a mini-review on the recent findings

Oxidative stress is a key mechanism underlying hypertension. Therefore, antioxidant therapy is an attractive concept for hypertension. Antioxidant therapy has been shown to have a significant impact on blood pressure reduction in various studies. The duration of treatment before observing results can vary depending on the specific antioxidant used, the dosage, and the individual’s health status. Antioxidant therapy by reducing oxidative stress and improving endothelial function reduces the high blood pressure. Antioxidants may achieve their antihypertensive effects by reducing the formation of advanced glycation end products and aldehydes that impair vascular function and improving insulin resistance and endothelial function and also by normalizing calcium channels and peripheral vascular resistance.

Elevated neutrophil-to-lymphocyte ratio combined with decreased lymphocyte-to-monocyte ratio is associated with increased peripheral airway resistance in patients with hepatic steatosis.

Although the link between hepatic steatosis and lung function has been confirmed, the focus has largely been on central airways. The association between hepatic steatosis and increased peripheral airway resistance has not yet been explored. Hepatic steatosis and increased peripheral resistance are connected with immunity dysregulation. High neutrophil-to-lymphocyte ratio (NLR) and low lymphocyte-to-monocyte ratio (LMR) have been recognized as indicators of immunity dysregulation. In this study, the association between hepatic steatosis and increased peripheral airway resistance was evaluated, and the effect of immunity dysregulation (high NLR/low LMR) on the increased peripheral airway resistance among patients with hepatic steatosis was explored. In this retrospective study, chest or abdomen CT scans and spirometry/impulse oscillometry (IOS) from 2018 to 2019 were used to identify hepatic steatosis and increased central/peripheral airway resistance in patients. Among 1391 enrolled patients, 169 (12.1%) had hepatic steatosis. After 1:1 age and abnormal ALT matching was conducted, clinical data were compared between patients with and without hepatic steatosis. A higher proportion of patients with hepatic steatosis had increased peripheral airway resistance than those without hepatic steatosis (52.7% vs 40.2%, P = .025). Old age, high body mass index, history of diabetes, and high NLR/low LMR were significantly correlated with increased peripheral airway resistance. The presence of hepatic steatosis is associated with increased peripheral airway. High NLR/low LMR is an independent associated factor of increased peripheral airway resistance in patients with hepatic steatosis. It is advisable for patients with hepatic steatosis to regularly monitor their complete blood count/differential count and undergo pulmonary function tests including IOS.

Structural And Functional State Of Various Zones Of Skin Microcirculation In Men With Isolated Diastolic Hypertension

The objective of our study was to assess the structural and functional characteristics of various skin microcirculation zones in men with newly diagnosed isolated diastolic hypertension (IDH). Material and Methods — Our study sample included 275 men (aged 30 to 60 years) subjected to the comprehensive medical examination, which included blood tests, videocapillaroscopy (VCS) on the left ring finger, laser Doppler flowmetry (LDF) in the skin of the middle finger tip and forearm at rest, functional tests and photoplethysmography (PPG) on the left forefinger, determination of flow-mediated vasodilation of the brachial artery, echocardiography, ultrasound imaging of extracranial and femoral arteries, and also 24-hour ambulatory blood pressure monitoring (ABPM). According to the ABPM data, an isolated increase in diastolic blood pressure (BP) was noted in 83 subjects who formed the IDH group. The control group (CG) consisted of 90 men with normal BP. Results — VCS and LDF revealed no significant differences between the groups at the scale of capillaries and precapillary arterioles. According to PPG, IDH subjects had significantly higher values of reflection index vs. the CG (35.6% vs. 30.4%, p=0.0013) and lower values of ejection duration (310.5 ms and 319.5 ms, p=0.0159), respectively. Conclusion — The greatest contribution to peripheral vascular resistance in men with IDH most likely comes from large muscle arterioles, in which neurogenic regulation of vascular tone prevails.

Sex-dependent susceptibility to brain metabolic dysfunction and memory impairment in response to pre and postnatal high-fat diet

The developing brain is sensitive to the impacts of early-life nutritional intake. This study investigates whether maternal high fat diet (HFD) causes glucose metabolism impairment, neuroinflammation, and memory impairment in immature and adult offspring, and whether it may be affected by postweaning diets in a sex-dependent manner in adult offspring. After weaning, female rats were fed HFD (55.9% fat) or normal chow diet (NCD; 10% fat) for 8 weeks before mating, during pregnancy, and lactation. On postnatal day 21 (PND21), the male and female offspring of both groups were split into two new groups, and NCD or HFD feeding was maintained until PND180. On PND21 and PND180, brain glucose metabolism, inflammation, and Alzheimer's pathology-related markers were by qPCR. In adult offspring, peripheral insulin resistance parameters, spatial memory performance, and brain glucose metabolism (18F-FDG-PET scan and protein levels of IDE and GLUT3) were assessed. Histological analysis was also performed on PND21 and adult offspring. On PND21, we found that maternal HFD affected transcript levels of glucose metabolism markers in both sexes. In adult offspring, more profoundly in males, postweaning HFD in combination with maternal HFD induced peripheral and brain metabolic disturbances, impaired memory performance and elevated inflammation, dementia risk markers, and neuronal loss. Our results suggest that maternal HFD affects brain glucose metabolism in the early ages of both sexes. Postweaning HFD sex-dependently causes brain metabolic dysfunction and memory impairment in later-life offspring; effects that can be worsened in combination with maternal HFD.

The Role of Piromelatine on Peripheral and Hippocampal Insulin Resistance in Rat Offspring Exposed to Chronic Maternal Stress.

Prenatal stress (PNS), which alters the hypothalamic-pituitary-adrenal axis function in the offspring, predisposes to insulin resistance (IR) in later life and is associated with numerous disorders, including cognitive and memory impairments. At present, our main goal is to assess the effects of chronic piromelatine (Pir) administration, a melatonin analogue, on PNS-provoked IR in the periphery and the hippocampus in male and female offspring. Pregnant Sprague-Dawley rats were exposed to chronic stress (one short-term stressor on a daily basis and one long-term stressor on a nightly basis) from the first gestation week until birth. Vehicle or Pir 20 mg/kg were administered intraperitoneally for 21 days. Plasma glucose, serum insulin levels, and the homeostasis model assessment of insulin resistance (HOMA-IR) were determined as markers of peripheral IR. For the hippocampal IR assessment, insulin receptors (IRs) and glucose transporter 4 (GLUT4) were examined. Prenatally stressed offspring of both sexes indicated enhanced plasma glucose and serum insulin concentrations, increased HOMA-IR, and decreased hippocampal GLUT4 only in male rats. The PNS-induced changes were corrected by chronic treatment with Pir. The present results suggest that the melatoninergic compound Pir exerts beneficial effects on altered glucose/insulin homeostasis in PNS-exposed offspring.

The Effect of Positive End-Expiratory Pressure on Pulmonary Vascular Resistance Depends on Lung Recruitability in Patients with Acute Respiratory Distress Syndrome.

Rationale: A U-shaped relationship should exist between lung volume and pulmonary vascular resistance (PVR), with minimal PVR at FRC. Thus, positive end-expiratory pressure (PEEP) in patients with acute respiratory distress syndrome (ARDS) should increase PVR if it induces significant lung distension compared with recruitment. However, this has never been proved in patients. Objectives: To study the effects of PEEP on PVR according to lung recruitability, evaluated by the recruitment-to-inflation (R/I) ratio. Methods: In patients with ARDS, we measured hemodynamic (pulmonary artery catheter), echocardiographic, and ventilatory variables (including esophageal pressure) at both low PEEP and higher PEEP by 10 cm H2O. Preload responsiveness was assessed by the passive leg-raising test at high PEEP. Measurements and Main Results: We enrolled 23 patients, including 10 low recruiters (R/I <0.5) and 13 high recruiters (R/I ⩾0.5). Raising PEEP from 4 (2-5) to 14 (12-15) cm H2O increased PVR in low recruiters (from 160 [120-297] to 243 [166-380] dyn·s/cm5; P < 0.01), whereas PVR was unchanged in high recruiters (from 224 [185-289] to 235 [168-300] dyn·s/cm5; P = 0.55). Right-to-left ventricular end-diastolic area ratio simultaneously increased in low recruiters (from 0.54 [0.50-0.59] to 0.64 [0.56-0.70]; P < 0.01) while remaining stable in high recruiters (from 0.70 [0.65-0.79] to 0.68 [0.58-0.80]; P = 0.48). Raising PEEP decreased cardiac index only in preload responsive patients. Conclusions: PEEP increases PVR only when it induces significant lung distension compared with recruitment according to the R/I ratio. Tailoring PEEP on this recruitability index should mitigate its hemodynamic effects.

Relationship between changes in the electrical axis of the heart during inspiration and the structural and functional state of the heart according to echocardiography in patients with precapillary pulmonary hypertension

Introduction. A deep breath causes a whole range of physiological effects that are reflected in the electrocardiogram. The purpose of the study is to assess the position of the electrical axis of the heart during deep inspiration compared to quiet breathing in patients with precapillary pulmonary hypertension and compare these data with echocardiographic characteristics of the structural and functional state of the heart. Materials and methods. The study included 40 patients with idiopathic pulmonary hypertension and 40 patients with chronic thromboembolic pulmonary hypertension. Echocardiography assessed the size of the heart chambers, systolic and diastolic function of the right and left ventricles, pulmonary artery pressure, pulmonary vascular resistance and indicators of cardiovascular coupling. Results. The values of the electrical axis of the heart during free breathing were 106° [84°; 123°], on inspiration – 89° [87°; 120°] (p = 0.68). In 50 (62.5 %) patients, during a deep inspiration, the electrical axis of the heart shifted to the left from the original one, and in 30 (37.5 %) patients – to the right. In patients with a displacement of the electrical axis of the heart to the left from the original, compared with the others, the end-diastolic size of the left ventricle, end-diastolic and end-systolic volumes of the left ventricle, stroke volume, cardiac output were statistically significantly lower, and the eccentricity index, pulmonary vascular resistance and effective aortic stiffness – significantly larger. Conclusion. In patients with precapillary pulmonary hypertension, two variants of changes of the heart electrical axis during deep inspiration were identified: a shift to the right from the original and to the left from the original. Patients with a displacement of the electrical axis to the left from the original were characterized by a significantly greater increase in pulmonary vascular resistance, a decrease in left ventricular volumes, stroke volume and cardiac output.