Examen de la prevalencia de depresión en una muestra turca

The aim of this study is to examine the effect size of depression in a Turkish sample with respect to gender and developmental periods. The studies of dissertation and articles completed during the period of 2004-2018 and covering Turkish sample have been examined through the method of Meta Analysis. The studies carried out, with the help of the depression measuring instruments, on a Turkish sample that has not taken any psychiatric diagnosis until that time, have been scanned through, by the use of the data bases such as; Google Academic, EBSCOhost and Web of Science. The criterion based sampling, which is one of the methods of sample selection, has been utilized. In the Meta Analysis; the effect value has been calculated through the use of the Cone Chart and Rank Relevancy Test of Begg and Mazumdar, Forest Chart analysis and Hedges’s g. The random effects model has been utilized in the analysis. The general effect size of the depression with respect to gender has been found to be at low level and on women at relatively higher level. The effect size; for childhood and adolescence periods, which are considered to be the developmental periods, has been found out to be at low level, on young adults and adults at insignificant level, on elders at medium level and on women at relatively higher level. The results have been discussed, within the scope of literature, from the point of view of the effects onwoman depression and elderliness.El objetivo de este estudio es examinar el tamaño del efecto de la depresión en una muestra turca con respecto al género y los períodos de desarrollo. Los estudios de tesis y artículos completados durante el período 2004-2018 y que abarcan muestras turcas han sido examinados a través del método de Meta Análisis. Los estudios realizados, con la ayuda de los instrumentos de medición de la depresión, en una muestra turca que no ha recibido ningún diagnóstico psiquiátrico hasta ese momento, se han escaneado mediante el uso de bases de datos como; Google Academic, EBSCOhost y Web of Science. Se ha utilizado el muestreo basado en criterios, que es uno de los métodos de selección de muestras. En el metaanálisis; el valor del efecto se calculó mediante el uso de la Carta de Cono y la Prueba de Relevancia de Rango de Begg y Mazumdar, el análisis de la Carta Forestal y la g de Coberturas. El modelo de efectos aleatorios se ha utilizado en el análisis. Se ha encontrado que el tamaño del efecto general de la depresión con respecto al género está en un nivel bajo y en las mujeres en un nivel relativamente más alto. El tamaño del efecto; para los períodos de la infancia y la adolescencia, que se consideran períodos de desarrollo, se ha descubierto que es de bajo nivel, en adultos jóvenes y adultos en un nivel insignificante, en ancianos en un nivel medio y en mujeres en un nivel relativamente más alto. Los resultados se han discutido, dentro del alcance de la literatura, desde el punto de vista de los efectos sobre la depresión y la ancianidad de la mujer

Examination of the Depression Prevalence in a Turkish Sample

The aim of this study is to examine the effect size of depression in a Turkish sample with respect to gender and developmental periods. The studies of dissertation and articles completed during the period of 2004-2018 and covering Turkish sample have been examined through the method of Meta Analysis. The studies carried out, with the help of the depression measuring instruments, on a Turkish sample that has not taken any psychiatric diagnosis until that time, have been scanned through, by the use of the data bases such as; Google Academic, EBSCOhost and Web of Science. The criterion based sampling, which is one of the methods of sample selection, has been utilized. In the Meta Analysis; the effect value has been calculated through the use of the Cone Chart and Rank Relevancy Test of Begg and Mazumdar, Forest Chart analysis and Hedges’s g. The random effects model has been utilized in the analysis. The general effect size of the depression with respect to gender has been found to be at low level and on women at relatively higher level. The effect size; for childhood and adolescence periods, which are considered to be the developmental periods, has been found out to be at low level, on young adults and adults at insignificant level, on elders at medium level and on women at relatively higher level. The results have been discussed, within the scope of literature, from the point of view of the effects onwoman depression and elderliness

Differentiated and exponentially growing HL60 cells exhibit different sensitivity to some genotoxic agents in the comet assay

The aim of this study was to investigate the effect of the cell differentiation status on the sensitivity to genotoxic insults. For this, we utilized the comet assay to test the DNA damage after treatment with 5 different substances with different mechanism of action in human promyelocytic HL60 cells with or without cell differentiation. A 4-hour MMS treatment induced a significant and concentration-dependent increase in DNA damage for both differentiated and undifferentiated cells, but the difference in sensitivity was only significant at the highest concentration. A 4-hour doxorubicin treatment did not induce DNA damage in differentiated HL60 cells, while it did in undifferentiated cells with its highest tested concentration. A one-hour etoposide treatment caused significant increase in DNA damage concentration dependently in both cell variants. This DNA damage was significantly higher in undifferentiated HL60 cells with several tested concentrations of etoposide. The treatment with the oxidizing substances hydrogen peroxide and potassium bromate yielded significant DNA damage induction in both undifferentiated and differentiated cells with no difference according to the differentiation status. Doxorubicin and etoposide are known to inhibit topoisomerase II. The activity of this enzyme has been shown to be higher in undifferentiated actively proliferating cells than in differentiated cells. This may be of relevance when exposures to topoisomerase-inhibiting compounds or the genotoxicity of compounds with unknown mechanism of action are assessed in routine testing

A novel molecular imprinted QCM sensor based on MoS(2)NPs-MWCNT nanocomposite for zearalenone determination

Zearalenone (ZEN) is a mycotoxin that has a carcinogenic effect and is often found at a high rate in frequently consumed foods. In this study, a characteristic molecular imprinted quartz crystal microbalance (QCM) sensor based on molybdenum disulfide nanoparticle (MoS(2)NPs)-multiwalled carbon nanotube (MWCNT) nanocomposite (MoS(2)NPs-MWCNTs) is presented for selective determination of ZEA in rice samples. Firstly, molybdenum disulfide nanoparticle (MoS2NP)-multiwalled carbon nanotube nanocomposites were characterized by using microscopic, spectroscopic, and electrochemical techniques. Then, ZEA-imprinted QCM chip was prepared in the presence of methacryloylamidoglutamicacid (MAGA) as monomer, N,N'-azobisisobutyronitrile (AIBN) as initiator, and ZEA as target molecule by using UV polymerization. The sensor revealed a linearity toward ZEA in the range 1.0-10.0 ng L-1 with a detection limit (LOD) of 0.30 ng L-1. The high repeatability, reusability, selectivity, and stability of the developed sensor enable reliable ZEA detection in rice samples

Sensitive sandwich-type electrochemical SARS-CoV-2 nucleocapsid protein immunosensor

A sensitive and fast sandwich-type electrochemical SARS-CoV-2 (COVID-19) nucleocapsid protein immunosensor was prepared based on bismuth tungstate/bismuth sulfide composite (Bi2WO6/Bi2S3) as electrode platform and graphitic carbon nitride sheet decorated with gold nanoparticles (Au NPs) and tungsten trioxide sphere composite (g-C3N(4)/Au/WO3) as signal amplification. The electrostatic interactions between capture antibody and Bi2WO6/Bi2S3 led to immobilization of the capture nucleocapsid antibody. The detection antibody was then conjugated to g-C3N(4)/Au/WO3 via the affinity of amino-gold. After physicochemically characterization via transmission electron microscopy (TEM), scanning electron microscopy (SEM), x-ray diffraction (XRD), and x-ray photoelectron spectroscopy (XPS), cyclic voltammetry (CV), differential pulse voltammetry (DPV), and electrochemical impedance spectroscopy (EIS) analysis were implemented to evaluate the electrochemical performance of the prepared immunosensor. The detection of SARS-CoV-2 nucleocapsid protein (SARS-CoV-2 NP) in a small saliva sample (100.0 mu L) took just 30 min and yielded a detection limit (LOD) of 3.00 fg m(-1), making it an effective tool for point-of-care COVID-19 testing

Bisphenol a imprinted electrochemical sensor based on graphene quantum dots with boron functionalized g-c3n4 in food samples

A molecular imprinted electrochemical sensor based on boron-functionalized graphitic carbon nitride (B-g-C3N4) and graphene quantum dots (GQDs) was presented for selective determination of bisphenol A (BPA). In particular, by combining the selectivity and high stability properties, which are the most important advantages of molecular imprinted polymers, and the highly sensitive properties of GQDs/B-g-C3N4 nanocomposite, a highly selective and sensitive analytical method was developed for BPA analysis. Firstly, GQDs/B-g-C3N4 nanocomposite was characterized by using microscopic, spectroscopic, and electrochemical techniques. This novel molecular imprinted electrochemical sensor for BPA detection demonstrated a linearity of 1.0 x 10(-11)-1.0 x 10(-9) M and a low detection limit (LOD, 3.0 x 10(-12) M). BPA-imprinted polymer on GQDs/B-g-C3N4 nanocomposite also showed good stability, repeatability and selectivity in food samples

Oxidative stress and DNA damage in peripheral blood mononuclear cells from normal, obese, prediabetic and diabetic persons exposed to adrenaline in vitro

Diabetes represents one of the major health concerns, especially In developed countries. Some hormones such as the stress hormone adrenaline can induce reactive oxygen species (ROS) and may worsen the diabetes. Therefore, the main aim of the investigation was to find out whether peripheral blood mononuclear cells (PBMCs) from normal persons have less DNA damage induced by adrenaline (0.1, 1 and 10 mu M) in comparison to PBMCs from obese, prediabetic and diabetic patients. Also, the biochemical parameters of oxidative stress (TBARS, catalase) and lactate dehydrogenase were monitored. It was observed that higher concentrations of adrenaline (1 and 10 mu M) induced DNA damage in the obese, prediabetic and diabetic groups. In healthy individuals only the highest concentration of adrenaline caused significant Increase in the DNA damage. In summary, total comet score (TCS) comparison has shown significant differences between groups, and DNA damaging effects of adrenaline were most evident in diabetic patients. The results of the biochemical analysis also demonstrate that adrenaline exerts most obvious effects in diabetic individuals which is manifested as significant change of parameters of oxidative stress. In summary, the obtained results demonstrated that diabetics are more sensitive to genotoxic effects of adrenaline and this effect probably resulted from decreased antioxidative defence mechanisms in various stages of progression through diabetes. Therefore, these results could contribute to a better understanding of a role of endocrine factors to damage of cellular biomolecules which could be useful in finding novel therapeutic approaches and lifestyle changes with an aim to lower the possibility of diabetes complications

DNA damage in obesity: Initiator, promoter and predictor of cancer

Epidemiological evidence linking obesity with increased risk of cancer is steadily growing, although the causative aspects underpinning this association are only partially understood. Obesity leads to a physiological imbalance in the regulation of adipose tissue and its normal functioning, resulting in hyperglycaemia, dyslipidaemia and inflammation. These states promote the generation of oxidative stress, which is exacerbated in obesity by a decline in anti-oxidant defence systems. Oxidative stress can have a marked impact on DNA, producing mutagenic lesions that could prove carcinogenic. Here we review the current evidence for genomic instability, sustained DNA damage and accelerated genome ageing in obesity. We explore the notion of genotoxicity, ensuing from systemic oxidative stress, as a key oncogenic factor in obesity. Finally, we advocate for early, pre-malignant assessment of genome integrity and stability to inform surveillance strategies and interventions

Oxidativer Status und Genom-Schäden in einem Adipositas-Modell

Several cohort studies showed that obesity increases the risk of chronic disease such as T2DM, hypertension and non-alcoholic fatty liver disease and various types of cancer. Different factors were described that might be involving in these diseases in obesity. Some of these suggested factors were chronic infection, elevated free fatty acids, increased ROS formation, mitochondrial dysfunction and raised NAPDH oxidase activity. Obesity is a multifactorial disease and it is very hard to distinguish between all of these factors. In this study, we wanted to focus on the association between obesity, oxidative stress and genomic damage in kidney, liver and colon, which are the most relevant organs for cancer risk according to the cohort studies. Our findings indicated elevated oxidative stress in kidney, liver and colon together with elevated lipid, RNA and DNA oxidation in the whole body. Additionally, we were able to show increased DNA damage in kidney, liver and colon. Since obesity has become an epidemic all over the world, possible therapeutic applications such as life style changes (diet and sport), pharmacological supplements and various type of surgeries are increasing. As a second question, we focused on the effect of weight loss, which is supplied either by Roux-en-Y gastric bypass surgery or by caloric restriction designed in a way to provide the same extent of weight loss, on oxidative stress and genomic damage. Our results indicated that weight loss either by gastric bypass surgery or by caloric restriction led to reduced oxidative stress and genomic damage in kidney, liver and colon. We could not find any difference between the weight loss methods, except the DNA oxidation and repair marker urinary 8-oxodG, which was still elevated after RYGB, but not after caloric restriction. It is known that hyperinsulinemia and in the long term T2DM are among the biggest concerns in obese individuals. Since we know the mutagenic potential of elevated insulin levels from previous data in our working group, the correlation between the highly mutagenic DNA DBSs marker, γ-H2AX and the plasma insulin level was tested and the findings indicated a positive correlation. In order to demonstrate the association between insulin-related oxidative stress and genomic damage, we used in vitro and in vivo models with Pten deficiency. In this part of study, the work was focused on liver. Pten is a known negative regulator of the PI3K/Akt pathway, which is responsible for the elevated NADPH oxidase activity and mitochondrial dysfunction through elevated insulin levels. Pten inhibition or deficiency were used to sensitize the system to insulin. Non-transformed immortalized human hepatocytes were used to show the mutagenic potential of elevated insulin and these in vitro data revealed once more the link between insulin signaling, elevated oxidative stress and genomic damage. Since the metabolic function of the liver is not only due to the extent of the hepatic insulin response but is also affected by systemic interactions, a whole-body Pten haplodeficient mouse model with an additional Pten+/-/Akt2-/- group was utilized for in vivo investigation of insulin-mediated toxicity. Our findings in this model suggested that Pten deficiency alone can cause an increase in oxidative stress. HFD alone was sufficient to increase the expression of HO-1 and genomic damage significantly. Moreover, the combination (whole-body Pten haplodeficient mice fed with HFD) showed significantly elevated oxidative stress and genomic damage in mouse liver. However, Akt2 knockout could only reduce the oxidative stress and DNA damage in high fat diet fed mice significantly. All these findings demonstrated that obesity can induce oxidative stress and genomic damage. Elevated insulin levels are associated with obesity-mediated oxidative stress and genomic damage. However, the underlying mechanisms are surely multifaceted and complicated. For example, Pten as oncogene might also induce other mechanisms besides the elevation of the PI3K/Akt pathway activity. In conclusion, it is clear that oxidative stress and DNA damage are linked to obesity and that weight loss can reduce these two factors. Since DNA-damage is associated with an elevated cancer risk, it might be logical to use an antioxidant therapy in obese individuals to reduce the side effects and oxidative stress dependent mutagenicity and cancer risk in these individuals. However, much more research will be needed to support this idea experimentally.Mehrere Kohorten-studien zeigten, dass Adipositas das Risiko chronischer Erkrankungen wie Diabetes Mellitus Typ 2 (T2DM), Bluthochdruck, nicht-alkoholische Fettleber sowie das Risiko für unterschiedliche Krebsarten erhöht. Verschiedene Faktoren, die in Zusammenhang mit den Erkrankungen stehen, die Adipositas verursachen wurden bereits beschrieben. Einige dieser möglichen Faktoren sind chronische Infektionen, gesteigerte freie Fettsäuren, sowie reaktive Sauerstoffradikale, mitochondriale Dysfunktion und erhöhte Aktivität von NADPH-Oxidase. Adipositas ist eine multifaktorielle Erkrankung und unter von diesen Faktoren schwierig zu trennen. In dieser Studie wurde der Schwerpunkt auf den Zusammenhang von Adipositas, oxidativem Stress und Genomschäden in der Niere, Leber und dem Darm gelegt. Diese Organe sind gemäß der Kohortenstudien die anfälligsten hinsichtlich des Krebsrisikos. Unsere Befunde zeigten einen erhöhten oxidativen Stress in Niere, Leber und Darm, zusammen mit gesteigerter systemischer RNA-, DNA- und Fettoxidation, detektierbar anhand von Urinmarkern. Zusätzlich konnte eine Zunahme von DNA-Schäden in Niere, Leber und Darm aufgezeigt werden. Da Adipositas weltweit eine Epidemie geworden ist, nehmen mögliche therapeutische Anwendungen sowie eine Änderung des Lebensstils (Diät und Sport), pharmazeutische Ergänzungsmittel und verschiedene Arten von chirurgischen Behandlungen zu. Hier wurde der Fokus auf die Wirkung des Gewichtsverlustes, der durch Roux-en-Y Magen-Bypass-Chirurgie oder durch Kalorienreduzierung mit der Vorgabe eines gleichen Ausmaßes an Gewichtsverlust vorgegeben war, auf die Intensität des oxidativen Stress und des Genomschadens gerichtet. Unsere Befunde zeigten, dass der Gewichtsverlust sowohl durch Magen-Bypass-Chirurgie als auch durch Kalorienreduzierung zu einem reduzierten oxidativem Stress und Genomschaden in der Niere, der Leber und im Darm führten. Es konnte kein Unterschied zwischen den Methoden zur Reduzierung des Gewichtes gefunden werden, außer bei der DNA-Oxidation und dem Reparaturmarker 8-oxodG im Urin, der nach der RYGB immer noch erhöht war, aber nicht nach der Kalorienreduzierung. Es ist bekannt, dass Hyperinsulinämie bzw. Diabetes Mellitus Typ 2 eines der häufigsten Probleme bei übergewichtigen Patienten ist. Da wir das mutagene Potenzial von erhöhten Insulinspiegeln aus vorherigen Daten unserer Arbeitsgruppe kannten, wurde der Zusammenhang zwischen dem hoch mutagenen DNA-DSBs-Marker γ-H2AX und dem Plasma-Insulinspiegel analysiert. Die Befunde wiesen eine positive Korrelation auf. Um die Beziehung zwischen Insulin-verursachtem oxidativem Stress und Genomschaden aufzuzeigen, wurden in-vitro und in-vivo-Modelle mit Pten-Mangel benutzt. In diesem Teil der Studie wurde das Augenmerk auf die Leber gelegt. Das Protein Pten ist als negativer Regulator des PI3K/Akt Signalwegs bekannt, der unter anderem für die erhöhte Aktivität von NADPH Oxidase und mitochondrielle Dysfunktion durch erhöhten Insulinspiegel verantwortlich ist. Pten-Hemmung oder Pten-Mangel wurde genutzt, um unsere Versuchsmodelle für Insulin zu sensibilisieren. Nicht transformierbare immortalisierte menschliche Hepatozyten wurden verwendet, um das mutagene Potenzial von erhöhtem Insulin zu untersuchen, und die damit erzielten in -vitro-Daten wiesen wiederum auf die Beziehung zwischen Insulin-Signalwegen, oxidativem Stress und Genomschaden hin. Da die metabolische Funktion der Leber nicht nur dem Ausmaß der hepatischen Insulin-Reaktion geschuldet ist, sondern auch von systemischen Interaktionen beeinflusst wird, wurde ein Mausmodell für eine in-vivo-Untersuchung eingesetzt, das neben einem haploiden Pten-Mangel (Pten+/-) in einer Tiergruppe mit einer zusätzlichen Akt2-/- Defizienz (Pten+/-/Akt2-/-). Defizienz ausgestattet war. Unsere Befunde in diesem Modell zeigten, der Pten-Mangel alleine bereits erhöhten oxidativen-Stress verursachen kann. HFD war ebenfalls alleine bereits ausreichend, um die Expression von HO-1 und Genomschäden signifikant zu steigern. Darüber hinaus zeigte die Kombination (Pten-Mangel gefüttert mit HFD) eine signifikante Erhöhung des oxidativen Stresses und der Genomschäden in der Mäuseleber. Allerdings konnte das Fehlen von Akt2 den oxidativen Stress und Genomschaden nur in den mit HFD gefütterte Tieren signifikant verringern. Alle diese Befunde wiesen darauf hin, dass Adipositas oxidativen Stress und Genomschaden hervorrufen kann. Erhöhte Insulinspiegel sind mit Insulin-verursachtem oxidativem Stress und Genomschaden assoziiert. Allerdings sind die zugrunde liegenden Mechanismen sicherlich vielfältig und kompliziert. Zum Beispiel könnte Pten als Onkogen auch andere Mechanismen außer dem Anstieg der Aktivität des PI3K/Akt-Signalwegs- herbeiführen. Zusammenfassend ist es klar, dass oxidativer Stress und DNA-Schäden mit Adipositas zusammenhängen, und dass Gewichtsreduzierung diese zwei Faktoren verringern kann. Da DNA-Schäden mit erhöhtem Krebsrisiko assoziiert sind, könnte es folglich eine logische Konsequenz sein, Antioxidantien therapeutisch bei adipösen Patienten anzuwenden, um die Nebenwirkungen und die auf oxidativem Stress beruhende Mutagenität und das Krebsrisiko dieser Patienten zu verringern. Allerdings wird weitere intensive Forschung nötig sein, um dies mit experimentellen Daten zu untermauern.