Dietary glycation compounds - implications for human health.

The term "glycation compounds" comprises a wide range of structurally diverse compounds that are formed endogenously and in food via the Maillard reaction, a chemical reaction between reducing sugars and amino acids. Glycation compounds produced endogenously are considered to contribute to a range of diseases. This has led to the hypothesis that glycation compounds present in food may also cause adverse effects and thus pose a nutritional risk to human health. In this work, the Senate Commission on Food Safety (SKLM) of the German Research Foundation (DFG) summarized data on formation, occurrence, exposure and toxicity of glycation compounds (Part A) and systematically assessed potential associations between dietary intake of defined glycation compounds and disease, including allergy, diabetes, cardiovascular and renal disease, gut/gastrotoxicity, brain/cognitive impairment and cancer (Part B). A systematic search in Pubmed (Medline), Scopus and Web of Science using a combination of keywords defining individual glycation compounds and relevant disease patterns linked to the subject area of food, nutrition and diet retrieved 253 original publications relevant to the research question. Of these, only 192 were found to comply with previously defined quality criteria and were thus considered suitable to assess potential health risks of dietary glycation compounds. For each adverse health effect considered in this assessment, however, only limited numbers of human, animal and in vitro studies were identified. While studies in humans were often limited due to small cohort size, short study duration, and confounders, experimental studies in animals that allow for controlled exposure to individual glycation compounds provided some evidence for impaired glucose tolerance, insulin resistance, cardiovascular effects and renal injury in response to oral exposure to dicarbonyl compounds, albeit at dose levels by far exceeding estimated human exposures. The overall database was generally inconsistent or inconclusive. Based on this systematic review, the SKLM concludes that there is at present no convincing evidence for a causal association between dietary intake of glycation compounds and adverse health effects.

Considering the implication of endogenous glycation compounds in aging and disease, dietary exposure via consumption of an "AGE (advanced glycation end product) rich diet" is increasingly suggested to pose a potential health risk. However, studies attempting to assess an association between dietary glycation compounds and adverse health effects frequently suffer from insufficient chemical analysis of glycation compounds, including inadequate structural characterization and limited quantitative data. The Senate Commission on Food Safety (SKLM) of the German Research Foundation (DFG) previously defined quality criteria for studies designed to assess the effects of dietary glycation compounds on human health. The aim of the present work is to summarize data on formation, occurrence, exposure and toxicity of glycation compounds (Part A) and to systematically evaluate if the currently available scientific database allows for a conclusive assessment of potential health effects of defined glycation compounds (Part B).The term "glycation compounds" comprises a wide range of structurally diverse compounds that derive from the Maillard reaction, a chemical reaction between reducing carbohydrates and amino compounds that occurs during food processing. In the first stage of the Maillard reaction, reducing sugars such as glucose and fructose react for instance with the ε-amino group of lysine, which is most abundant in food ("glycation" of lysine). Subsequently, these primary reaction products undergo Amadori rearrangement to yield products (ARP) such as fructosyllysine (FL) from glucose and also Heyns rearrangement products (HRPs) such as glucosyl- and mannosyllysine from fructose. While ARPs are rapidly formed during food processing, they are not stable and undergo degradation reactions, predominantly to 1,2-dicarbonyl compounds such as glyoxal (GO), methylglyoxal (MGO) and 3-deoxyglucosone (3-DG), which are highly reactive. The last stage of the Maillard reaction is characterized predominantly by the reaction of these dicarbonyl compounds with nucleophilic groups of proteins. The side-chains of lysine and arginine residues as well as the N-termini of proteins are important reaction sites. Carboxyalkylated amino acids such as N-ε-carboxymethyllysine (CML) and N-ε-carboxyethyllysine (CEL) result from reaction of the ε-amino group of lysine with the dicarbonyl compounds GO and MGO. Dicarbonyl compounds with C5 or C6 chains can form cyclic pyrrole derivatives at the ε-amino group of lysine. The most important example for this reaction is pyrraline, which is formed from reaction of 3-DG and lysine. The reaction of dicarbonyl compounds with the guanidino group of arginine mainly leads to hydroimidazolones, of which the MGO-derived hydroimidazolone 1 (MG-H1) is best described in food systems.ARPs are the most abundant glycation products found in food. Up to 55% of the lysine residues in food may be modified to ARPs at the side-chain. Food items particularly rich in ARPs include bread, rusk, biscuits, chocolate, and powdered infant formulas. Exposure estimates range between 0.6­1.6 mg/kg body weight (bw), although exposure may be as high as 14.3 mg/kg bw in individuals consuming foods with extreme ARP concentrations. Foods particularly rich in dicarbonyl compounds include heat-treated or long-term stored items rich in reducing sugars such as jams, alternative sweeteners, soft drinks, honey, candies, cookies, and vinegars, especially balsamico-type vinegars. The main contributors to the daily intake of MGO, GO, and 3-DG are coffee and bread. Dietary exposure to dicarbonyl compounds has been estimated to range between 0.02­0.29 mg/kg bw/d for MGO, 0.04­0.16 mg/kg bw/d for GO, 0.14­2.3 mg/kg bw/d for 3-DG, and 0.08­0.13 mg/kg bw/d for 3-deoxygalactosone (3-DGal). Dietary intake of 5-hydroxymethylfurfural (HMF), which can be formed from 3-DG, is estimated to range between 0.0001­0.9 mg/kg bw/d. Exposure estimates for individual glycated amino acids range from 0.03­0.35 mg/kg bw/d for CML, 0.02­0.04 mg/kg bw/d for CEL and 0.19­0.41 mg/kg bw/d for MG-H1. From a model diet consisting of 1 L milk, 500 g bakery products and 400 mL coffee, an intake of pyrraline corresponding to 0.36 mg/kg bw/d for a 70 kg person was estimated.Quantitative analysis of individual glycation compounds or their metabolites in tissues or body fluids as well as their reaction products with amino acids, proteins or DNA may serve to monitor exposure to glycation compounds. However, since glycation compounds are also formed endogenously, these biomarkers reflect the totality of the exposure, making it inherently difficult to define the body burden due to dietary intake against the background of endogenous formation.Information on the toxicokinetics and toxicity of glycation compounds is scarce and mostly limited to the reactive dicarbonyl compounds GO, MGO, 3-DG, HMF, and individual glycated amino acids such as CML and CEL. Acute toxicity of dicarbonyl compounds is low to moderate. There are some data to suggest that rapid detoxification of dicarbonyls in the gastrointestinal tract and liver may limit their oral bioavailability. Biotransformation of GO and MGO occurs predominantly via the glutathione (GSH)-dependent glyoxalase system, and to a lesser extent via glutathione-independent aldo-keto-reductases, which are also responsible for biotransformation of 3-DG. GO, MGO and 3-DG readily react with DNA bases in vitro, giving rise to DNA adducts. There is clear evidence for genotoxicity of GO, MGO and 3-DG. Repeated dose toxicity studies on GO consistently reported reduced body weight gain concomitant with reduced food and water consumption but did not identify compound related changes in clinical chemistry and hematology or histopathological lesions. There is also no evidence for systemic carcinogenicity of GO and MGO based on the available studies. However, initiation/promotion studies indicate that oral exposure to GO may exhibit genotoxic and tumor promoting activity locally in the gastrointestinal tract. From a 2-year chronic toxicity and carcinogenicity study in rats, a NOAEL for systemic toxicity of GO administered via drinking water of 25 mg/kg bw was reported based on reduced body weight and erosions/ulcer in the glandular stomach. Other non-neoplastic and neoplastic lesions were not observed. Acute toxicity of HMF is also low. From a 90-day repeated dose toxicity study in mice, a NOAEL of 94 mg/kg bw was derived based on cytoplasmic alterations of proximal tubule epithelial cells of the kidney. HMF was mostly negative in in vitro genotoxicity tests, although positive findings for mutagenicity were obtained under conditions that promote formation of the chemically reactive sulfuric acid ester 5-sulfoxymethylfurfural. There is some evidence of carcinogenic activity of HMF in female B6C3F1 mice based on increased incidences of hepatocellular adenoma, but not in male mice and rats of both sexes. Although data on oral bioavailability of glycated amino acids are mostly limited to CML, it appears that glycated amino acids may be absorbed from the gastrointestinal tract after oral exposure to their free and protein bound form. Glycated amino acids that are not absorbed in the intestine may be subject to metabolism by the gut microbiome. Glycated amino acids present in the systemic circulation are rapidly eliminated via the urine. Acute oral toxicity of CML is low. Studies in mice and rats reported changes in clinical chemistry parameters indicative of impaired renal and hepatic function. However, these changes were not dose-related and not supported by histopathological evaluation.Previous risk assessments of individual glycation compounds did not identify a health concern at estimated human exposures (GO, HMF) but also noted the lack of data to draw firm conclusions on health risks associated with exposure to MGO.To identify potential associations between dietary intake of defined glycation compounds and disease a systematic review was carried out according to the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) model, applying the quality criteria previously defined by the SKLM. Using a combination of keywords defining individual glycation compounds and relevant disease patterns linked to the subject area of food, nutrition and diet, a systematic search in Pubmed (Medline), Scopus and Web of Science was performed. Although the present systematic review identified numerous studies that investigated an association between an "AGE-rich diet" and adverse health effects, only a subset of studies was found to comply with the quality criteria defined by the SKLM and was thus considered suitable to assess potential health risks of dietary glycation compounds.For each adverse health effect considered in this assessment, only limited numbers of human studies were identified. Although studies in humans offer the advantage of investigating effects at relevant human exposures, these studies did not provide compelling evidence for adverse effects of dietary glycation compounds. Animal studies identified in this systematic review provide some evidence for induction of impaired glucose tolerance, insulin resistance, cardiovascular effects and renal injury in response to oral exposure to GO and MGO as representatives of dicarbonyl compounds. Only limited evidence points to a link between high intake of glycated amino acids and metabolic disorders. However, these effects were typically reported to occur at dose levels that exceed human dietary exposure, often by several orders of magnitude. Unfortunately, most studies employed only one dose level, precluding characterization of dose-response and derivation of a point of departure for riskassessment. While in vitro studies provide some evidence for a potential mechanistic link between individual glycation compounds and presumed adverse health effects, the clinical and toxicological relevance of the in vitro findings is often limited by the use of high concentrations of glycation compounds that by far exceed human dietary exposure and by insufficient evidence for corresponding adverse effects in vivo. A key question that has not been adequately considered in most studies investigating systemic effects of glycation compounds is the extent of oral bioavailability of dietary glycation compounds, including the form in which MRPs may be taken up (e.g. free vs. peptide bound glycated amino acids). Understanding how much dietary glycation compounds really add to the significant endogenous background is critical to appraise the relevance of dietary MRPs for human health.While it appears mechanistically plausible that glycation of dietary allergens may affect their allergenic potential, the currently available data do not support the hypothesis that dietary glycation compounds may increase the risk for diet-induced allergies. There are no human studies addressing the immunological effects of dietary AGEs. Accordingly, there are no data on whether dietary AGEs promote the development of allergies, nor whether existing allergies are enhanced or attenuated. In numerous in vitro studies, the IgG/E binding ability of antigens and therefore their allergenic potential has been predominantly reported to be reduced by glycation. However, some in vitro studies showed that glycated proteins bind to receptors of immunological cells, and thus may have promoting effects on immune response and inflammation.Although experimental data from animal studies provide some evidence that high doses of individual glycation compounds such as MGO and protein-bound CML may produce certain adverse health effects, including diabetogenic, cardiovascular, metabolic and renal effects, the doses required to achieve these effects by far exceed human dietary exposures. Of note, in the only long-term study identified, a high dose of MGO administered via drinking water to mice for 18 months had no adverse effects on the kidneys, cardiovascular system, or development of diabetes.Experimental data from animal studies provide evidence that high doses of defined glycation compounds such as MGO or protein-bound CML may affect glucose homeostasis. However, the doses required to produce these effects markedly exceed human dietary exposure. Results from human studies are inconclusive: Three short-term intervention studies suggested that diets rich in AGEs may impair glucose homeostasis, whereas one recent intervention study and two observational studies failed to show such an effect.For the cardiovascular system, there is some evidence from in vitro and in vivo studies that high concentrations of MRPs, well above the dietary exposure of humans, may enhance inflammation in the cardiovascular system, induce endothelial damage, increase blood pressure and increase the risk of thrombosis. Only a limited number of human intervention studies investigated potential effects of short-term exposure and longer-term effects of glycation compounds on the cardiovascular system, and yielded inconsistent results. The few observational studies available either found no association between dietary MRP intake and cardiovascular function or even reported beneficial effects. Therefore, currently no definitive conclusion on potential acute and chronic effects of dietary MRPs on inflammation and cardiovascular function can be drawn. However, there is currently also no convincing evidence that potential adverse effects on the cardiovascular system are triggered by dietary MRP intake.Furthermore, human studies did not provide evidence for an adverse effect of dietary MRPs on kidney function. In animal studies with high levels of oral intake, MGO was reported to cause structural and functional effects in the kidney. Several studies show that the concentration of modified proteins and amino acids, such as CML, increases significantly in kidney tissue after oral intake. One study showed a negative effect of a high-temperature-treated diet containing increased CML concentrations on kidney structure integrity and impaired glomerular filtration. The causative relationship of accumulation of dietary MRPs and a functional decline of the kidneys, however, needs further confirmation.With regard to gut health, there is some evidence for alterations in gut microflora composition and the production of individual short-chain fatty acids (SCFAs) upon dietary exposure to glycation compounds. However, this has not been linked to adverse health effects in humans and may rather reflect adaptation of the gut microbiota to changing nutrients. In particular, a human observational study and several animal studies did not find a correlation between the intake of glycation compounds and increased intestinal inflammation. In animal studies, positive effects of glycation compounds on gut tissue damage and dysbiosis during colitis were described.Considering clear evidence for DNA reactivity and genotoxicity of the dicarbonyl compounds GO, MGO and 3-DG, it is plausible to suspect that dicarbonyl compounds may induce mutations and cancer. Although there is some evidence for tumor promoting activity of GO locally in the gastrointestinal tract, the only guideline-compatible chronic rodent bioassays reported erosions and ulcer in the glandular stomach but no treatment-related neoplastic lesions. A recent multinational cohort study with focus on CEL, CML, and MG-H1 found no evidence to support the hypothesis that dietary AGEs are linked to cancer risk.Evidence for an association between human exposure to dietary glycation compounds and detrimental effects on the brain and on cognitive performance is far from being compelling. No human studies fully complying with the defined quality criteria were identified. A few experimental studies reported neuroinflammation and cognitive impairment following dietary MRP exposure, but these can be considered indicative at best and do not support firm conclusions for human health. In addition to utilizing exceedingly high dosages of individual agents like CML, harsh processing conditions causing a multitude of major process-related changes do not allow to convincingly reconcile effects observed with measured/supposed contents of free and protein-bound CML alone.Overall, although dietary glycation compounds have been claimed to contribute to a wide range of adverse health effects, the present critical evaluation of the literature allows the conclusion that the available data are insufficient, inadequate or inconclusive and do not compellingly support the hypothesis of human health risks being related to the presence of glycation compounds in food. The study limitations detailed above, together with the fact that a large number of studies did not comply with the defined quality criteria and therefore had to be excluded highlight the importance of performing adequately designed human or animal studies to inform scientifically reliable health risk assessment.To achieve this, high quality, dependable scientific cooperation within various disciplines is pivotal.

Cardiovascular effects of long-duration space flight.

Introduction: Early studies exploring the physiological effects of space travel have indicated the body's capacity for reversible adaptation. However, the impact of long-duration spaceflight, exceeding 6 months, presents more intricate challenges. Effects on the Cardiovascular CV System: Extended exposure to microgravity and radiation profoundly affects the CV system. Notable phenomena include fluid shifts toward the head and modified arterial pressure. These changes disrupt blood pressure regulation and elevate cardiac output. Additionally, the loss of venous compression leads to a reduction in central venous pressure. Fluid and Plasma Volume Changes: The displacement of fluid from the vascular system to the interstitium, driven by baroreceptor stimulation, results in a 10%-15% decline in plasma volume. Cardiac Muscle and Hematocrit Variations: Intriguingly, despite potential increases in cardiac workload, cardiac muscle atrophy and perplexing variations in hematocrit levels have been observed. The mechanism underlying atrophy appears to involve a shift in protein synthesis from the endoplasmic reticulum to the mitochondria via mortalin-mediated mechanisms. Arrhythmias and QT Interval Prolongation: Instances of arrhythmias have been recurrently documented, although generally nonlethal, in both Russian and American space missions. Long-duration spaceflight has been associated with the prolongation of the QT interval, particularly in extended missions. Radiation Effects: Exposure of the heart to the proton and heavy ion radiation pervasive in deep space contributes to coronary artery degeneration, augmented aortic stiffness, and carotid intima thickening through collagen-mediated processes. Moreover, it accelerates the onset of atherosclerosis and triggers proinflammatory responses. Reentry and Postflight Challenges: Upon reentry, astronauts frequently experience orthostatic intolerance and altered sympathetic responses, which bear potential hazards in scenarios requiring rapid mobilization or evacuation. Conclusion: Consequently, careful monitoring of these cardiac risks is imperative for forthcoming missions. While early studies illuminate the adaptability of the body to space travel's challenges, the intricacies of long-duration missions and their effects on the CV system necessitate continued investigation and vigilance to ensure astronaut health and mission success.

NONO2P, a novel nitric oxide donor, causes vasorelaxation through NO/sGC/PKG pathway, K+ channels opening and SERCA activation.

BACKGROUND & AIMS: The treatment of cardiovascular diseases (CVD) could greatly benefit from using nitric oxide (NO) donors. This study aimed to investigate the mechanisms of action of NONO2P that contribute to the observed responses in the mesenteric artery. The hypothesis was that NONO2P would have similar pharmacological actions to sodium nitroprusside (SNP) and NO. METHODS: Male Wistar rats were euthanized to isolate the superior mesenteric artery for isometric tension recordings. NO levels were measured using the DAF-FM/DA dye, and cyclic guanosine monophosphate (cGMP) levels were determined using a cGMP-ELISA Kit. RESULTS: NONO2P presented a similar maximum efficacy to SNP. The free radical of NO (NO•) scavengers (PTIO; 100 µM and hydroxocobalamin; 30 µM) and nitroxyl anion (NO-) scavenger (L-cysteine; 3 mM) decreased relaxations promoted by NONO2P. The presence of the specific soluble guanylyl cyclase (sGC) inhibitor (ODQ; 10 µM) nearly abolished the vasorelaxation. The cGMP-dependent protein kinase (PKG) inhibition (KT5823; 1 µM) attenuated the NONO2P relaxant effect. The vasorelaxant response was significantly attenuated by blocking inward rectifying K+ channels (Kir), voltage-operated K+ channels (KV), and large conductance Ca2+-activated K+ channels (BKCa). NONO2P-induced relaxation was attenuated by cyclopiazonic acid (10 µM), indicating that sarcoplasmic reticulum Ca2+-ATPase (SERCA) activation is involved in this relaxation. Moreover, NONO2P increased NO levels in endothelial cells and cGMP production. CONCLUSIONS: NONO2P induces vasorelaxation with the same magnitude as SNP, releasing NO• and NO-. Its vasorelaxant effect involves sGC, PKG, K+ channels opening, and SERCA activation, suggesting its potential as a therapeutic option for CVD.

Cardiovascular effects of diluted intracameral combination of 0.02% tropicamide, 0.31% phenylephrine, and 1% lidocaine during phacoemulsification to manage intraoperative miosis.

PURPOSE: Intracameral mydriatic agents (ICMAs) are replacing the conventional method of topical mydriasis for its fast action and no need for repeated instillation before cataract surgery. Its application for the management of intraoperative miosis needs to be studied with different doses of mydriatic agent. The objective of the study is to study cardiovascular effects of diluted intracameral combination of 0.02% tropicamide, 0.31% phenylephrine, and 1% lidocaine during phacoemulsification to manage intraoperative miosis. MATERIALS AND METHODS: The study was conducted at Mojiram Lions Eye Hospital Akbarpur Majra village, Palla Bakhtawarpur Road, Delhi, during the year 2021-2022 after taking approval from the Ethical Committee of the hospital. Patients undergoing cataract surgery who were not dilated adequately during the preoperative period or developed intraoperative miosis were managed by injecting diluted intracameral combination of 0.02% tropicamide, 0.31% phenylephrine, and 1% lidocaine (phenocaine plus). 0.5 ml of phenocaine plus was diluted with 1.5 ml of ringer lactate solution and 0.50 ml of this solution was injected intracameral and its effect on pulse rate, blood pressure (BP), and oxygen saturation were monitored continuously on pulse oximeter. RESULTS: There was no statistically significant effect of diluted ICMA (Phenocaine Plus) on diastolic BP and oxygen saturation. However, systolic BP showed a little change from mean of 133.78 (standard deviation [SD] =16.04) mmHg to 133.92 (SD = 15.33) mmHg which was statistically significant but clinically not significant. Pulse rate increased slightly from mean 76.46 per minutes (SD = 15.14) to 79.40 (SD = 14.95) at 10 s and 76.49 (SD = 15.15) at 60 s. The difference was again statistically significant but clinically insignificant. CONCLUSION: Low concentration of intracameral combination of 0.02% tropicamide, 0.31% phenylephrine, and 1% lidocaine is a very safe and effective method for the management of intraoperative miosis.

Potential perioperative cardiovascular outcomes in cannabis/cannabinoid users. A call for caution.

Background: Cannabis is one of the most widely used psychoactive substances. Its components act through several pathways, producing a myriad of side effects, of which cardiovascular events are the most life-threatening. However, only a limited number of studies address cannabis's perioperative impact on patients during noncardiac surgery. Methods: Studies were identified by searching the PubMed, Medline, EMBASE, and Google Scholar databases using relevant keyword combinations pertinent to the topic. Results: Current evidence shows that cannabis use may cause several cardiovascular events, including abnormalities in cardiac rhythm, myocardial infarction, heart failure, and cerebrovascular events. Additionally, cannabis interacts with anticoagulants and antiplatelet agents, decreasing their efficacy. Finally, the interplay of cannabis with inhalational and intravenous anesthetic agents may lead to adverse perioperative cardiovascular outcomes. Conclusions: The use of cannabis can trigger cardiovascular events that may depend on factors such as the duration of consumption, the route of administration of the drug, and the dose consumed, which places these patients at risk of drug-drug interactions with anesthetic agents. However, large prospective randomized clinical trials are needed to further elucidate gaps in the body of knowledge regarding which patient population has a greater risk of perioperative complications after cannabis consumption.

Small pouches, but high nicotine doses-nicotine delivery and acute effects after use of tobacco-free nicotine pouches.

Tobacco-free nicotine pouches are new nicotine products for oral consumption. They can contain very high nicotine amounts that have not been addressed with clinical studies yet. Thus, nicotine delivery, effects on craving, and side effects were assessed using pouches with up to 30 mg nicotine. In this single-center, five-arm, crossover study, 15 regular cigarette smokers consumed tobacco-free nicotine pouches from different brands with 6, 20, and 30 mg for 20 min. Comparators were nicotine-free pouches and tobacco cigarettes. At baseline and predefined time points over a study period of 240 min, plasma nicotine concentrations, effects on cigarette craving, and side effects were assessed. Cardiovascular parameters including arterial stiffness were measured using a MobilOGraph. Consumption of 30 mg nicotine pouches has led to a higher nicotine uptake compared with the cigarette (Cmax: 29.4 vs 15.2 ng/mL; AUC: 45.7 vs 22.1 ng/mL × h). Nicotine uptake in the acute phase was rapid during use of the 30 mg pouch and cigarette. Extraction rate of nicotine differed between pouches. Use of all products has reduced acute cigarette craving, even the nicotine-free pouch. During consumption of the cigarette and the pouches with 20 and 30 mg, heart rate increased about 27, 12, and 25 bpm, respectively. Parameters for arterial stiffness were elevated and all pouches have induced mouth irritations. The pouches with 30 mg nicotine had overall the strongest side effects and may induce addiction. As craving was also reduced by products with less nicotine, it is questionable whether such high nicotine contents should be allowed on the market. A limit of nicotine content is warranted. The nicotine release rate varies across products and needs to be known to estimate the nicotine delivery.

Cardiovascular benefits of resistance exercise: It's time to prescribe.

Despite the well-known health benefits of regular physical activity, sedentary behavior and physical inactivity remain a real global pandemic. Exercise is associated with increased life expectancy, improved quality of life and prevention of multiple diseases. Although less implemented in practice compared to aerobic exercise, recent evidence shows that resistance exercise (RE) is also responsible for various benefits, including improvements in body composition, control of several cardiovascular (CV) risk factors, and reduction of CV outcomes. RE increases strength and muscle mass, is effective in controlling type 2 diabetes, and improves the management of obesity, lipids, and blood pressure profiles. In this setting, clinical guidelines recommend the inclusion of RE for primary and secondary CV risk prevention, particularly in combination with aerobic exercise, in which the benefits are most pronounced. Prescription of RE should follow a methodology that includes key variables such as frequency, intensity, type, time, and progression. Despite challenges, professionals in the CV field should be familiar with RE prescription in order to maximize its referral in clinical practice. This review aims to analyze the CV effects of RE and current recommendations regarding the prescription of this type of exercise.

Cardiovascular Effects of Stimulators of Soluble Guanylate Cyclase Administration: A Meta-analysis of Randomized Controlled Trials.

PURPOSE OF REVIEW: Heart failure (HF) is one of the main causes of cardiovascular mortality in the western world. Despite great advances in treatment, recurrence and mortality rates remain high. Soluble guanylate cyclase is an enzyme which, by producing cGMP, is responsible for the effects of vasodilation, reduction of cardiac pre- and after-load and, therefore, the improvement of myocardial performance. Thus, a new therapeutic strategy is represented by the stimulators of soluble guanylate cyclase (sGCs). The aim of this meta-analysis was to analyze the effects deriving from the administration of sGCs, in subjects affected by HF. A systematic literature search of Medline, SCOPUS, and Google Scholar was conducted up to December 2022 to identify RCTs assessing the cardiovascular effects, as NT-pro-BNP values and ejection fraction (EF), and all-cause mortality, of the sGCs. Quantitative data synthesis was performed using a random-effects model, with weighted mean difference (WMD) and 95% confidence interval (CI) as summary statistics. RECENT FINDINGS: The results obtained documented a statistically significant improvement in NT-proBNP values (SMD: - 0.258; 95% CI: - 0.398, - 0.118; p < 0.001) and EF (WMD: 0.948; 95% CI: 0.485, 1.411; p < 0.001) in subjects treated with sGCs; however, no significant change was found in the all-cause mortality rate (RR 0.96; 95% CI 0.868 to 1.072; I2, p = 0). The sGCs represent a valid therapeutic option in subjects suffering from HF, leading to an improvement in cardiac performance.

Physiological Changes in Pregnant Women Due to Hormonal Changes.

Pregnancy affects many organ systems and causes significant physiological changes that are mainly caused by changes in hormone levels. This review explores the complex interactions between pregnancy-related hormonal changes and renal function, providing insights into the practical applications of these relationships. Extensive literature searches were conducted, combining data from several sources to produce thorough knowledge. Essential discoveries include changes in renal hemodynamics, calcium/phosphorus level variations, thyroid gland hypertrophy, changed function, and cardiovascular adaptations. The review also addresses how sex hormones affect immunological responses, emphasizing their importance for conditions like multiple sclerosis. Additionally impacted is the gastrointestinal tract, which results in symptoms like nausea and heartburn. Comprehending these physiological changes is essential for proficient therapeutic handling, guaranteeing the best possible health for both the mother and the fetus. The study emphasizes the importance of specialized medical treatment during pregnancy and calls for more investigation to clarify the intricacies of these physiological changes.

A retrospective, observational, single-centre, cohort database analysis of the haemodynamic effects of low-dose spinal anaesthesia for hip fracture surgery.

Background: Careful administration of either spinal (intrathecal) or general anaesthesia probably has a greater impact on outcomes after hip fracture surgery than which method is used per se. Intraoperative hypotension is associated with poorer outcomes, but appears less prevalent using lower doses of spinal anaesthesia. Methods: In this observational single-centre study, intraoperative noninvasive blood pressure data were analysed from 280 patients undergoing unilateral hip fracture surgery after the administration of hyperbaric spinal bupivacaine 0.5%, 1.3 ml (0.65 mg). Results: Mean cohort mean arterial pressure (MAP) remained within 10% of baseline (spinal injection) MAP for 97/98 (99.0%) subsequent aggregated 1-min recording intervals. The prevalences of lowest MAP <70 mm Hg and <55 mm Hg were significantly lower than historical equivalents (Anaesthesia Sprint Audit of Practice 1 and 2) (52.9% and 10.4% vs 71.9% and 23.8%, respectively, both <0.0001). The proportions of 10 551 MAP readings <70 mm Hg and <55 mm Hg were 6.7% and 0.4%, respectively. Forty-five (16.1%) patients had relatively persistent hypotension (MAP ≤70 mm Hg for five or more intraoperative readings), and were statistically more likely to be frail (Nottingham Hip Fracture Score ≥7/10, 37.8% vs 19.6%, P=0.0109) and be taking alpha-/beta-blockers (44.4% vs 24.3%, P=0.0099) than the remaining 'normotensive' cohort. Surgical anaesthesia remained effective for up to 190 min, with only one patient requiring supplemental local anaesthesia during skin closure. Conclusions: Low doses of hyperbaric spinal 0.5% bupivacaine (1.3 ml, 6.5 mg) are associated with minimal reductions in blood pressure during surgery and provide adequate duration of surgical anaesthesia. Randomised comparisons of lower vs higher/standard doses of spinal anaesthesia are now required to confirm outcome benefits in this vulnerable patient group. Clinical trial registration: NCT05799300.

The Effects of Methylphenidate on Ventricular Repolarization Parameters in Children with Attention-Deficit Hyperactivity Disorder.

Background: Long-acting methylphenidate (MPH), a psychostimulant agent, is widely used in the treatment of attention-deficit hyperactivity disorder (ADHD). Methylphenidate might cause an increment in the risk of lethal arrhythmias by deteriorating ventricular repolarization. QT intervals, the corrected QT (QTc), QT dispersion, T-peak to T-end (TpTe), and the TpTe/QTc ratio are the most utilized indicators of ventricular repolarization in electrocardiogram (ECG). The present study was conducted to examine the effects of long-term MPH use on the ECG in pediatric patients. Methods: A total of 52 children with ADHD and 51 age- and gender-matched controls were enrolled in the study. The children had been using MPH regularly for at least 6 months. Comparisons were made regarding ECG parameters, including the mean intervals of QT, QTc, QTc dispersion interval duration, TpTe intervals, TpTe/QT, and TpTe/QTc ratio. Results: The median duration of treatment with MPH was 30 months (minimum-maximum: 6-120), and the median MPH dose was 30 mg/day (minimum-maximum: 18-54). The main findings showed significantly prolonged P-wave dispersion, TpTe interval, TpTe dispersion, and TpTe/QT and TpTe/QTc ratios in the ADHD group compared to the healthy controls (P < .001). These parameters were not associated with MPH dose or treatment duration. Additionally, nearly half of the patients had QTc values of 460 ms or higher, but there were no significant differences in treatment duration and dose compared to the remaining group (P = .792 and P = .126). Conclusion: Methylphenidate may have proarrhythmogenic effects in children with ADHD, which may not be adversely affected by long-term use and treatment dose. Considering the extensive use of MPH, cardiac monitoring of these children is important.

The Acute Effects of the Use of Salbutamol and Ipratropium on the Heart Rates of Patients With Obstructive Airway Disease.

Background The cornerstone of pharmaceutical therapy for obstructive airway illnesses involves inhalation of bronchodilators, such as ipratropium bromide (IP) and salbutamol (SB). The heart rate regulation may be changed by ß-2 agonists and anticholinergic medications. Investigating the impact of inhaled SB and IP on the heart rate was the goal of this study. Methods A total of 304 patients were enrolled in this investigation. Baseline demographic characteristics, medical history, and adverse events were documented. Their heart rates were monitored before and after bronchodilator administration. SB and IP were selected based on historical usage. Blood pressure readings were also taken before and after each session. Results There was a significant increase in heart rates after SB from a mean of 106.69 to 117.20. Similarly, the heart rate of the patients in the IP group increased to a mean of 106.95 from 93.44, with a statistically significant p-value. Moreover, tremors were the most common adverse effect, accounting for 85.3% of the patients in the IP group and 75% in the SB group. In contrast, palpitation was more common in the SB group 25% vs. 14.7% with a significant p-value. Conclusion Frequently administered dosages of SB and IP caused a considerable increase in heart rates, as well as tremors and palpitation.

Syncope and Cannabis: hypervagotonia from chronic abuse? A case report and literature review.

BACKGROUND: Cannabis is the most consumed drug worldwide and number of users is increasing, particularly among youth. Moreover, cannabis potential therapeutic properties have renewed interest to make it available as a treatment for a variety of conditions. Albeit rarely, cannabis consumption has been associated with cardiovascular diseases such as arrhythmias, myocardial infarction (MI) and potentially sudden death. CASE PRESENTATION: A 24-year-old woman presented to the emergency department sent by her cardiologist because of a recent finding of a 16 seconds asystole on the implantable loop recorder (ILR) she implanted 7 months before for recurrent syncopes. She declared that she is a heavy cannabis user (at least 5 cannabis-cigarette per day, not mixed up with tobacco, for no less than 12 years) and all syncopes occurred shortly after cannabis consumption. After a collective discussion with the heart team, syncope unit, electrophysiologists and toxicologist, we decided to implant a dual chamber pacemaker with a rate response algorithm due to the high risk of trauma of the syncopal episodes. 24 months follow-up period was uneventful. CONCLUSIONS: Cannabis cardiovascular effects are not well known and, although rare, among these we find ischemic episodes, tachyarrhythmias, symptomatic sinus bradycardia, sinus arrest, ventricular asystole and possibly death. Because of cannabis growing consumption both for medical and recreational purpose, cardiovascular diseases associated with cannabis use may become more and more frequent. In the light of the poor literature, we believe that cannabis may produce opposite adverse effects depending on the duration of the habit. Acute administration increases sympathetic tone and reduces parasympathetic tone; conversely, with chronic intake an opposite effect is observed: repetitive dosing decreases sympathetic activity and increases parasympathetic activity. Clinicians should be aware of the increased risk of cardiovascular complications associated with cannabis use and should investigate its consumption especially in young patients presenting with cardiac dysrhythmias.

Δ9-Tetrahydrocannabinol Effects on Respiration and Heart Rate Across Route of Administration in Female and Male Mice.

The physiological impact of cannabinoid receptor agonists is of great public health interest due to their increased use in recreational and therapeutic contexts. However, the body of literature on cannabinoid receptor agonists includes multiple confounding variables that complicate comparisons across studies, including route of administration, timeline across which phenotypes are observed, agonist dose, and sex of the study cohort. In this study, we characterized the impact of sex and route of administration on Δ9-tetrahydrocannabinol (THC)-induced changes in cardiopulmonary phenotypes in mice. Using noninvasive plethysmography and telemetry, we monitored heart rate and respiration in the same cohort of animals across aerosol, oral gavage, subcutaneous, and intraperitoneal administrations of THC (0-30 mg/kg THC for oral gavage, subcutaneous, and intraperitoneal, and 0-300 mg/ml THC for aerosol). All routes of THC administration altered respiratory minute volume and heart rate, with the direction of effects typically being consistent across dependent measures. THC primarily decreased respiration and heart rate, but females given oral gavage THC showed increased heart rate. Intraperitoneal and subcutaneous THC produced the longest-lasting effects, including THC-induced alterations in physiological parameters for up to 10 h, whereas effects of aerosolized THC were short lived. The fastest onset of effects of THC occurred for aerosolized and intraperitoneal THC. Altogether, the work herein establishes the impact of dosing route on THC-induced heart rate and respiratory alteration in male and female mice. This study highlights important differences in the timeline of cardiopulmonary response to THC following the most common preclinical routes of administration.

Gentamicin in Neonates with Hemodynamically Significant Patent Ductus Arteriosus.

Background: Gentamicin has been shown to cause vasodilation in preclinical studies. Hemodynamically significant patent ductus arteriosus (hsPDA) is a commonly observed congenital heart disorder in preterm neonates. Concomitant gentamicin theoretically shall delay the closure/result in nonclosure of ductus arteriosus (DA). Similarly, hsPDA can alter the pharmacokinetics of gentamicin and so trough gentamicin concentrations. We carried out the present study to evaluate the association between gentamicin use and closure of hsPDA (treated with acetaminophen) as well as the effect of hsPDA on trough concentrations. Methods: This study was a prospective, observational study that included 60 neonates diagnosed with hsPDA by echocardiography and 102 neonates without hsPDA. Demographic details, size of DA as per echocardiography at the end of treatment with acetaminophen, gentamicin-dosing regimen, and trough concentrations were collected. Standard definitions were adhered in classifying the gestational age, birth weights, and size of DA. The numerical values are reported in median (range). Results: Neonates with hsPDA had significantly lower daily doses of gentamicin [4.5 (2.5-10), 7 (3.2-13) mg; P < 0.001] but longer duration of therapy [8 (3-14), 5 (3-7) days; P < 0.001] than those without hsPDA in very preterm neonates. No significant differences were observed in the trough concentrations of gentamicin between the groups. No association was observed between gentamicin use and closure of DA. However, those with successful closure of DA received gentamicin for a longer duration [6 (3-10), 4 (3-14) days; P < 0.05] that was independent of acetaminophen duration and had received higher cumulative doses of gentamicin. Conclusion: In conclusion, we observed a significantly longer duration of gentamicin therapy in neonates with hsPDA compared to those without hsPDA. No significant differences were observed in the rates of closure of DA with concomitant gentamicin administration and gentamicin trough concentrations.

Prediction of adverse cardiac outcomes in high-risk Mexican patients with chest pain in the emergency department / Desenlaces adversos cardiovasculares en pacientes mexicanos de alto riesgo con dolor torácico en el servicio de urgencias

Abstract Objective: The aim of the study was to compare the discriminative power and accuracy for prediction of MACE of five commonly used scoring tools in Mexican patients with chest pain who present to the ED. Methods: A single-center, prospective, observational, and comparative study of patients admitted to the ED with chest pain as the chief complaint. Five chest pain scoring systems were calculated. The primary endpoint was the composite of cardiovascular death, myocardial infarction, coronary intervention, coronary artery bypass grafting, or readmission for cardiovascular causes within 30 days. Results: A total of 168 patients were studied. The score which provided the highest area under the curve of 0.76 (95% CI: 0.70-0.85) was history, ECG, age, risk factors, and troponin (HEART) score. In addition, the integrated discrimination index for the HEART score was 6% higher when compared to the other four scores. Conclusions: The HEART score provided the best classification tool for identifying those patients at highest risk for MACE, either alone or by adding their results to other classification scores, even in a comorbid population.

Resumen Objetivo: Comparar el poder discriminativo y precisión diagnóstica de Eventos Cardiovasculares Mayores (ECVM) de cinco escalas de clasificación de dolor torácico de uso común en pacientes mexicanos con dolor torácico que acuden al servicio de urgencias. Métodos: Estudio prospectivo, observacional y comparativo que incluyó a pacientes ingresados en urgencias que presentaban dolor torácico como síntoma cardinal. Se calcularon cinco escalas de puntuación de dolor torácico. El desenlance principal fue el compuesto de muerte cardiovascular, infarto de miocardio, intervención coronaria, injerto de derivación de arteria coronaria o reingreso por causas cardiovasculares dentro de los 30 días. Resultados: Se estudió un total de 168 pacientes. La escala de puntuación que proporcionó el área bajo la curva más alta de 0.76 (IC de 95%: 0.70-0.85) fue la escala de historia clínica, ECG, edad, factores de riesgo y troponina (HEART, por sus siglas en inglés). Además, el indice de discriminación efectiva para la puntuación HEART fue un 6% más alto en comparación con las otras cuatro escalas de puntuación. Conclusiones: La escala de HEART proporcionó la mejor herramienta de clasificación para idenfiticar a los pacientes con mayor riesgo de ECVM, ya sea solo a agregando sus resultados a otros puntajes de clasificación, incluso en una población comórbida.

Cardiovascular effects of oxytocin and carbetocin at cesarean section. A prospective double-blind randomized study using noninvasive pulse wave analysis.

BACKGROUND: Oxytocin is routinely administered after delivery for prophylaxis and treatment of postpartum hemorrhage, but it is associated with considerable cardiovascular side-effects. Carbetocin, a synthetic oxytocin analogue, has a myometrial contraction effect of 60 min when given IV, compared with 16 min for oxytocin. OBJECTIVE: To investigate whether there are differences in cardiovascular effects between oxytocin and carbetocin up to 1 h after treatment. METHODS: Sixty-one healthy pregnant women undergoing elective cesarean section in spinal anesthesia were randomized to receive an IV bolus of either five units (8.3 µg) of oxytocin or 100 µg of carbetocin after delivery of the baby. Heart rate (HR), mean arterial blood pressure, ECG ST index, oxygen saturation (SaO2), and photoplethysmographic digital pulse wave analysis variables were recorded before and at 1, 5, 20, and 60 min after drug administration. Vasopressor use, uterine tonus, total bleeding, and need for additional uterotonics were also assessed. Repeated measurement ANOVA was used for statistical analyses. RESULTS: The drugs had equal vasodilatory and hypotensive effects. Oxytocin, but not carbetocin, caused a decrease in HR at 1 min and a sustained decrease in cardiac left ventricular ejection time. Aggregate vasopressor use was higher in the carbetocin group. Neither drug caused any change in ST index, SaO2, or subjective cardiac symptoms. Uterine tonus, need for additional uterotonics, or total bleeding did not differ significantly between the groups. CONCLUSION: Single doses of oxytocin and carbetocin had similar dilatory effects on vascular tonus, where the difference in aggregate vasopressor use can be attributed to a more persistent hypotensive effect of carbetocin. A transient negative chronotropic and sustained negative inotropic effect occurred after oxytocin. Neither drug showed any alarmingly adverse effects. Differences in drug effects may be attributed to differences in oxytocin and vasopressin receptor signaling pathways.

Sodium-Glucose Cotransporter 2 (SGLT2) Inhibitors: Harms or Unexpected Benefits?

There is a need for innovative pharmaceutical intervention in light of the increasing prevalence of metabolic disease and cardiovascular disease. The kidneys' sodium-glucose cotransporter 2 inhibitors (SGLT2) receptors are targeted to reduce glucose reabsorption by SGLT2. Patients with type 2 diabetes mellitus (T2DM) benefit the most from reduced blood glucose levels, although this is just one of the numerous physiological consequences. To establish existing understanding and possible advantages and risks for SGLT2 inhibitors in clinical practice, this article will explore the influence of SGLT2 inhibitors on six major organ systems. In addition, this literature review will discuss the benefits and potential drawbacks of SGLT2 inhibitors on various organ systems and their potential application in therapeutic settings.

Unlocking the Full Potential of SGLT2 Inhibitors: Expanding Applications beyond Glycemic Control.

The number of diabetic patients has risen dramatically in recent decades, owing mostly to the rising incidence of type 2 diabetes mellitus (T2DM). Several oral antidiabetic medications are used for the treatment of T2DM including, α-glucosidases inhibitors, biguanides, sulfonylureas, meglitinides, GLP-1 receptor agonists, PPAR-γ agonists, DDP4 inhibitors, and SGLT2 inhibitors. In this review we focus on the possible effects of SGLT2 inhibitors on different body systems. Beyond the diabetic state, SGLT2 inhibitors have revealed a demonstrable ability to ameliorate cardiac remodeling, enhance myocardial function, and lower heart failure mortality. Additionally, SGLT2 inhibitors can modify adipocytes and their production of cytokines, such as adipokines and adiponectin, which enhances insulin sensitivity and delays diabetes onset. On the other hand, SGLT2 inhibitors have been linked to decreased total hip bone mineral deposition and increased hip bone resorption in T2DM patients. More data are needed to evaluate the role of SGLT2 inhibitors on cancer. Finally, the effects of SGLT2 inhibitors on neuroprotection appear to be both direct and indirect, according to scientific investigations utilizing various experimental models. SGLT2 inhibitors improve vascular tone, elasticity, and contractility by reducing oxidative stress, inflammation, insulin signaling pathways, and endothelial cell proliferation. They also improve brain function, synaptic plasticity, acetylcholinesterase activity, and reduce amyloid plaque formation, as well as regulation of the mTOR pathway in the brain, which reduces brain damage and cognitive decline.