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1.
Sleep Disturbance Affects Immune Factors in Clinical Liver Cancer Patients.
Wang, Z, Wang, Y, Huang, J, Xu, J, Chen, F, Zhu, Z, Gao, L, Qin, J, Liu, B, Liang, C
Current oncology (Toronto, Ont.). 2022;29(10):7943-7952
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Many studies have shown that sleep disorders promote tumor growth and can impair immunity at the cellular level. There is however a lack of research in patients with liver cancer. The aim of this study was the asses the quality of sleep and the prevalence of disturbed sleep in patients with liver cancer and to explore whether sleep quality influences immune factors. 210 patients with liver cancer were randomly divided into 2 groups: HBV (Hepatitis B virus) cirrhosis and non-HBV cirrhosis. Their sleep quality was evaluated using a questionnaire and then the patients were divided into 2 groups according to these scores. The association between sleep disturbances and immune factors was analysed by logistic regression models. Over half the patient experienced poor sleep quality. Sleep disturbances were higher in patients with liver cancer of non-HBV cirrhosis than with that coming from the HBV virus. A rise in CD3+ T cells and a reduction in NK cells are associated with sleep disturbances in patients with non-HBV cirrhosis liver cancer. Medicines that can promote sleep and therefore improve immune function might be beneficial. Non-pharmacological sleep interventions to improve sleep quality, should be a safer choice where there are complex drug side effects.
Abstract
BACKGROUND Sleep-wake disturbance is prevalent in patients with liver cancer, but there is no direct evidence of its association and related biological mechanisms. Our study was to assess quality of sleep and to describe prevalence of sleep disturbances in patients with different etiologies of liver cancer, especially to explore whether sleep quality influences immune factors. METHODS A total of 210 patients with liver cancer from August 2015 to December 2015 were randomly divided into two groups including HBV cirrhosis and non-HBV cirrhosis. The Pittsburgh Sleep Quality Index (PSQI) was used to evaluate their sleep quality, and then 202 patients enrolled in this study were divided into two groups according to their PSQI scores: PSQI ≤ 5 and PSQI > 5. The association between sleep disturbances and immune factors was analyzed by logistic regression models. RESULTS A total of 56.9% of liver cancer patients experienced poor sleep quality (PSQI > 5). The prevalence of sleep disturbances was significantly higher in patients with liver cancer of non-hepatitis B virus (HBV) cirrhosis than with that evolving from HBV cirrhosis (66.7% vs. 50%, p = 0.018). In non-HBV cirrhosis liver cancer patients, the PSQI > 5 group had a higher percentage of CD3+ T cells (71.06 ± 11.07 vs. 63.96 ± 14.18, p = 0.014) and lower natural killer (NK) cells (14.67 ± 9.65 vs. 20.5 ± 10.77, p = 0.014) compared with patients with PSQI ≤ 5. Logistic regression further confirmed that liver cancer patients without HBV cirrhosis are more prone to experience poor sleep with increased CD3+ T cells (OR = 1.07, 95% CI = 1.01-1.13, p = 0.030) and decreased NK cells (OR = 0.92, 95% CI = 0.85-0.98, p = 0.014). Our results indicate that increased CD3+ T cells and decreased NK cells are both associated with sleep disturbances in patients with liver cancer of non-HBV cirrhosis. CONCLUSIONS Most liver cancer patients suffer from sleep disturbances, especially evolving from non-HBV cirrhosis. A rise in CD3+ T cells and a reduction in NK cells are associated with sleep disturbances in patients with liver cancer of non-HBV cirrhosis.
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COVID-19 infection: the perspectives on immune responses.
Shi, Y, Wang, Y, Shao, C, Huang, J, Gan, J, Huang, X, Bucci, E, Piacentini, M, Ippolito, G, Melino, G
Cell death and differentiation. 2020;27(5):1451-1454
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The SARS-CoV-2 infection triggers an immune response which varies greatly from one person to another. It can be roughly divided into three stages: stage I, an asymptomatic incubation period with or without detectable virus; stage II, non-severe symptomatic period with the presence of virus; stage III, severe respiratory symptomatic stage with high viral load. Currently around 15% of people infected end up in severe stage III. There appears to be a two-phase immune response; an early protective phase and a second inflammation-driven damaging phase. In phase one the adaptive immune system responds to the virus. Being in good general health is important in this phase to limiting the progression of the disease to a more severe stage. In phase two the innate immune system response to tissue damage caused by the virus could lead to widespread inflammation of the lungs and acute respiratory distress syndrome or respiratory failure. Therapeutically this raises the question of whether the immune response should be boosted in phase one and suppressed in phase two. There also appears to be an element of viral relapse in some patients discharged from hospital indicating that a virus-eliminating immune response may be difficult to achieve naturally. These same patients may also not respond to vaccines. Overall, it is still unclear why some people develop severe disease, whilst others do not. Overall immunity alone does not explain the differences in disease presentation.
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3.
The Sleep-Immune Crosstalk in Health and Disease.
Besedovsky, L, Lange, T, Haack, M
Physiological reviews. 2019;99(3):1325-1380
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The interaction between sleep and immunity is an established phenomena. This thorough review article summarises sleep changes in response to both infectious and non-infectious immune system challenges and describes the role of sleep in supporting the immune system. Details are provided of how sleep affects the innate immune system (first line, rapid defence against infection) as well as the adaptive immune system (second line, delayed defence against infection), using a feedback system which promotes host defence. Sleep is associated with reduced infection risk and can improve infection outcome and vaccination responses. Sleep deprivation is also associated with chronic, low-grade inflammation. Nutrition Practitioners wishing to support immunity can focus on sleep as a simple lifestyle measure to enhance resilience.
Abstract
Sleep and immunity are bidirectionally linked. Immune system activation alters sleep, and sleep in turn affects the innate and adaptive arm of our body's defense system. Stimulation of the immune system by microbial challenges triggers an inflammatory response, which, depending on its magnitude and time course, can induce an increase in sleep duration and intensity, but also a disruption of sleep. Enhancement of sleep during an infection is assumed to feedback to the immune system to promote host defense. Indeed, sleep affects various immune parameters, is associated with a reduced infection risk, and can improve infection outcome and vaccination responses. The induction of a hormonal constellation that supports immune functions is one likely mechanism underlying the immune-supporting effects of sleep. In the absence of an infectious challenge, sleep appears to promote inflammatory homeostasis through effects on several inflammatory mediators, such as cytokines. This notion is supported by findings that prolonged sleep deficiency (e.g., short sleep duration, sleep disturbance) can lead to chronic, systemic low-grade inflammation and is associated with various diseases that have an inflammatory component, like diabetes, atherosclerosis, and neurodegeneration. Here, we review available data on this regulatory sleep-immune crosstalk, point out methodological challenges, and suggest questions open for future research.
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A pilot, open labelled, randomised controlled trial of hypertonic saline nasal irrigation and gargling for the common cold.
Ramalingam, S, Graham, C, Dove, J, Morrice, L, Sheikh, A
Scientific reports. 2019;9(1):1015
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The common cold is a viral upper respiratory tract infection which affects adults and children worldwide, often multiple times a year. A large number of viruses cause these infections, making targeted antiviral treatment impractical. This small, randomised, controlled pilot trial (not blinded) of 68 adults aimed to assess the impact of salt-water nasal washing and throat gargling as many times as required (on average 3 times a day for 5 days) within 48 hours of symptom on-set on study recruitment and retention, as well as acceptability, symptom duration and viral shedding. The researchers found that nasal irrigation and gargling with a saline solution was acceptable to study participants. Illness duration was shortened by 1.9 days in the intervention arm, with significant reductions in the duration of runny nose, blocked nose, sneezing, cough and hoarseness of voice. The average quality of life score was also higher in the intervention arm, although this failed to reach significance. Viral shedding was higher in the intervention arm, with over the counter medication use 36% lower. There was also a lower rate of infection spread within households for the intervention arm. The authors call for a larger, placebo controlled trial to confirm these findings. Nutrition Practitioners supporting immunity in relation to the common cold virus may want to discuss the use of saline nasal irrigation with their clients as a simple measure to reduce symptoms and spread.
Abstract
There are no antivirals to treat viral upper respiratory tract infection (URTI). Since numerous viruses cause URTI, antiviral therapy is impractical. As we have evidence of chloride-ion dependent innate antiviral response in epithelial cells, we conducted a pilot, non-blinded, randomised controlled trial of hypertonic saline nasal irrigation and gargling (HSNIG) vs standard care on healthy adults within 48 hours of URTI onset to assess recruitment (primary outcome). Acceptability, symptom duration and viral shedding were secondary outcomes. Participants maintained a symptom diary until well for two days or a maximum of 14 days and collected 5 sequential mid-turbinate swabs to measure viral shedding. The intervention arm prepared hypertonic saline and performed HSNIG. We recruited 68 participants (2.6 participants/week; November 2014-March 2015). A participant declined after randomisation. Another was on antibiotics and hence removed (Intervention:32, Control:34). Follow up data was available from 61 (Intervention:30, Control:31). 87% found HSNIG acceptable, 93% thought HSNIG made a difference to their symptoms. In the intervention arm, duration of illness was lower by 1.9 days (p = 0.01), over-the-counter medications (OTCM) use by 36% (p = 0.004), transmission within household contacts by 35% (p = 0.006) and viral shedding by ≥0.5 log10/day (p = 0.04). We hence need a larger trial to confirm our findings.
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The effect of different sources of fish and camelina sativa oil on immune cell and adipose tissue mRNA expression in subjects with abnormal fasting glucose metabolism: a randomized controlled trial.
de Mello, VD, Dahlman, I, Lankinen, M, Kurl, S, Pitkänen, L, Laaksonen, DE, Schwab, US, Erkkilä, AT
Nutrition & diabetes. 2019;9(1):1
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Dietary fish oils, particularly omega-3 fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) found in oily fish, nuts and seeds have long been researched and purported to have both anti-inflammatory and glucose-stabilising effects when consumed orally and it is widely believed that in reducing low-grade inflammation and stabilising blood glucose levels, the risk of suffering from type 2 diabetes, heart disease or a stroke is reduced. Lean fish on the other hand has been far less researched with regards to its protective effects. This study was a randomised controlled study designed to assess and compare the protective effects of fish oils and Camelina Sativa oil (CSO - a seed oil containing alpha-linolenic acid) on inflammatory-related genes in subjects with suggestive pre-diabetes. Subjects were allocated to a randomised group and instructed to consume a given amount of either fatty fish, lean fish, camelina oil, or no fish/oil (control group). The study was carried out on 72 participants over a 12-week period. Although no significant change could be seen on inflammatory gene expression for the group consuming fatty fish, there was a modest decrease in inflammatory gene markers in the group consuming lean fish and a significant decrease in the group consuming CSO. Implications from this study suggest that CSO exerts its protective effect by reducing inflammation, therefore possibly decreasing the risk of strokes and cardiovascular episodes. The authors suggest that consuming a variety of fish, especially lean fish 4 times/ week could also play a protective role in cardiovascular health and type 2 diabetes.
Abstract
BACKGROUND/OBJECTIVES Molecular mechanisms linking fish and vegetable oil intakes to their healthy metabolic effects may involve attenuation of inflammation. Our primary aim was to examine in a randomized controlled setting whether diets enriched in fatty fish (FF), lean fish (LF) or ALA-rich camelina sativa oil (CSO) differ in their effects on the mRNA expression response of selected inflammation-related genes in peripheral blood mononuclear cells (PBMCs) and subcutaneous adipose tissue (SAT) in subjects with impaired fasting glucose. SUBJECTS/METHODS Samples from 72 participants randomized to one of the following 12-week intervention groups, FF (n = 19), LF (n = 19), CSO (n = 17) or a control group (n = 17), were available for the PBMC study. For SAT, 39 samples (n = 8, n = 10, n = 9, n = 12, respectively) were available. The mRNA expression was measured at baseline and 12 weeks by TaqMan® Low Density Array. RESULTS In PBMCs, LF decreased ICAM1 mRNA expression (P < 0.05), which was different (P = 0.06, Bonferroni correction) from the observed increase in the FF group (P < 0.05). Also, compared to the control group, LF decreased ICAM1 mRNA expression (P < 0.05). Moreover, the change in ICAM1 mRNA expression correlated positively with the intake of FF (P < 0.05) and negatively with the intake of LF (P < 0.05), independently of study group. A diet enriched in CSO, a rich source of alpha-linolenic acid (ALA), decreased PBMC IFNG mRNA expression (P < 0.01). The intake of CSO in the CSO group, but not the increase in plasma ALA proportions, correlated inversely with the IFNG mRNA expression in PBMCs (P = 0.08). In SAT, when compared with the control group, the effect of FF on decreasing IL1RN mRNA expression was significant (P < 0.03). CONCLUSION We propose that CSO intake may partly exert its benefits through immuno-inflammatory molecular regulation in PBMCs, while modulation of ICAM1 expression, an endothelial/vascular-related gene, may be more dependent on the type of fish consumed.
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Anxiety, Depression, and the Microbiome: A Role for Gut Peptides.
Lach, G, Schellekens, H, Dinan, TG, Cryan, JF
Neurotherapeutics : the journal of the American Society for Experimental NeuroTherapeutics. 2018;15(1):36-59
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Hormones released in the gut can have an impact in the brain through a bidirectional relationship, known as the gut-brain axis. The release of these hormones may be controlled by the gut microbiota, however exact mechanisms are not fully understood. Most hormones originating in the gut may have a role in obesity development, which is often associated with psychiatric disorders. Understanding the relationship between gut microbiota and depression through gut derived signalling molecules may be of benefit and was the focus of this review. Diversity and stability of the gut microbiota is important for health, which is disrupted during depression and anxiety. The gut microbiota serves to produce brain, hormone and immune signals that can travel to the brain, and can be affected by poor gut health. For those with depression, side effects of anti-depressants can be a disruption of the gut microbiota, however how this impacts symptoms is not fully understood. It was concluded that although there is strong research on the gut microbiota and depression it is still in its infancy. The role of gut microbiota on signalling with the brain and the rest of the body seems to be important for depression and anxiety. This study could be used by healthcare professionals to understand how the gut microbiota can play a role in depression.
Abstract
The complex bidirectional communication between the gut and the brain is finely orchestrated by different systems, including the endocrine, immune, autonomic, and enteric nervous systems. Moreover, increasing evidence supports the role of the microbiome and microbiota-derived molecules in regulating such interactions; however, the mechanisms underpinning such effects are only beginning to be resolved. Microbiota-gut peptide interactions are poised to be of great significance in the regulation of gut-brain signaling. Given the emerging role of the gut-brain axis in a variety of brain disorders, such as anxiety and depression, it is important to understand the contribution of bidirectional interactions between peptide hormones released from the gut and intestinal bacteria in the context of this axis. Indeed, the gastrointestinal tract is the largest endocrine organ in mammals, secreting dozens of different signaling molecules, including peptides. Gut peptides in the systemic circulation can bind cognate receptors on immune cells and vagus nerve terminals thereby enabling indirect gut-brain communication. Gut peptide concentrations are not only modulated by enteric microbiota signals, but also vary according to the composition of the intestinal microbiota. In this review, we will discuss the gut microbiota as a regulator of anxiety and depression, and explore the role of gut-derived peptides as signaling molecules in microbiome-gut-brain communication. Here, we summarize the potential interactions of the microbiota with gut hormones and endocrine peptides, including neuropeptide Y, peptide YY, pancreatic polypeptide, cholecystokinin, glucagon-like peptide, corticotropin-releasing factor, oxytocin, and ghrelin in microbiome-to-brain signaling. Together, gut peptides are important regulators of microbiota-gut-brain signaling in health and stress-related psychiatric illnesses.
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Elderberry Supplementation Reduces Cold Duration and Symptoms in Air-Travellers: A Randomized, Double-Blind Placebo-Controlled Clinical Trial.
Tiralongo, E, Wee, SS, Lea, RA
Nutrients. 2016;8(4):182
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Long-haul air travel increases the occurrence of respiratory illnesses such as the common cold. Elderberries have anti-bacterial and anti-viral properties and previous studies have shown that an elderberry extract can reduce the duration and severity of cold and flu symptoms. This randomised controlled trial aimed to identify whether capsules containing a standardised elderberry extract are effective in preventing respiratory symptoms in travellers on long-haul flights. 325 healthy adults volunteered for the study. Participants were split into two groups: one group was given capsules each containing 300mg of Elderberry extract, and the other group was given placebo capsules. For both groups, participants were given 2 capsules a day for 10 days leading up to travelling, and 3 capsules a day during travel and for four to five days after reaching their destination. Participants completed health surveys 10 days and two days before travelling, and then again five days after. They also kept a daily diary of cold symptoms. Participants in both the placebo and elderberry group tended to experience an increase in respiratory symptoms after travelling. The elderberry group experienced less colds than the placebo group, although the difference was not statistically significant. Elderberry supplementation did however result in a reduction in symptoms, and shortened the cold duration by approximately two days compared to the placebo. The authors recommend that more clinical research with high quality elderberry preparations is carried out to better understand the health benefits of this traditional medicine.
Abstract
Intercontinental air travel can be stressful, especially for respiratory health. Elderberries have been used traditionally, and in some observational and clinical studies, as supportive agents against the common cold and influenza. This randomized, double-blind placebo-controlled clinical trial of 312 economy class passengers travelling from Australia to an overseas destination aimed to investigate if a standardised membrane filtered elderberry (Sambucus nigra L.) extract has beneficial effects on physical, especially respiratory, and mental health. Cold episodes, cold duration and symptoms were noted in a daily diary and assessed using the Jackson score. Participants also completed three surveys containing questions regarding upper respiratory symptoms (WURSS-21) and quality of life (SF-12) at baseline, just before travel and at 4-days after travel. Most cold episodes occurred in the placebo group (17 vs. 12), however the difference was not significant (p = 0.4). Placebo group participants had a significantly longer duration of cold episode days (117 vs. 57, p = 0.02) and the average symptom score over these days was also significantly higher (583 vs. 247, p = 0.05). These data suggest a significant reduction of cold duration and severity in air travelers. More research is warranted to confirm this effect and to evaluate elderberry's physical and mental health benefits.