The Relationship Between Playing Video Games And The Possibility Of Getting Cardiovascular Diseases, A Survey | Just For Fun

Abstract

This study examines the possible relationship between playing video games and the possibility of getting cardiovascular diseases. The main goal of this research is to show that playing video games can cause serious health problems. The study uses a survey method to gather data from 225 respondents. The data was analysed using statistical methods and it was found that there is a strong relationship between playing video games and the possibility of getting cardiovascular diseases. The study also found that males are more likely to get cardiovascular diseases than females. The results also showed that the more time a person plays video games the more likely they are to get cardiovascular diseases. The results also showed that there is a relationship between the age of a person and the possibility of getting cardiovascular diseases.

1 Introduction

In the modern world people are spending more and more time playing video games. This has caused many researchers to ask themselves what the effect of playing video games is on a person’s health. This research examines the possible relationship between playing video games and the possibility of getting cardiovascular diseases. The main goal of this research is to show that playing video games can cause serious health problems. The study uses a survey method to gather data from 225 respondents. The data was analysed using statistical methods and it was found that there is a strong relationship between playing video games and the possibility of getting cardiovascular diseases. The study also found that males are more likely to get cardiovascular diseases than females. The results also showed that the more time a person plays video games the more likely they are to get cardiovascular diseases. The results also showed that there is a relationship between the age of a person and the possibility of getting cardiovascular diseases.

The paper is organised as follows: section 2 presents the background to the research. Section 3 discusses the related work in this area. Section 4 presents the methodology used to carry out the research. Section 5 presents the results and analysis of the data collected. Section 6 presents the discussion of the results. Section 7 presents the conclusion and future work.

2 Background

Cardiovascular diseases are the number one cause of death globally. In 2012, cardiovascular diseases accounted for 17.5 million deaths, which is 31% of all deaths worldwide. It is predicted that by 2030, 23.3 million people will die from cardiovascular diseases, mainly from heart attacks and strokes (Cardiovascular diseases (cvds).” World Health Organisation et al.).

Cardiovascular diseases are diseases that affect the heart and blood vessels. Cardiovascular diseases include coronary heart disease, cerebrovascular disease, rheumatic heart disease, heart failure, congenital heart disease, deep vein thrombosis and pulmonary embolism. Coronary heart disease is a disease that affects the heart and blood vessels (Heart and cardiovascular diseases.” World Health Organisation et al.). Coronary heart disease is the leading cause of death in most developed countries. Coronary heart disease includes the following diseases: stable angina, unstable angina, myocardial infarction and sudden cardiac death (Davies, 1970).

The American Heart Association has identified several risk factors for cardiovascular diseases. These risk factors include high blood pressure, smoking, diabetes, high blood cholesterol, obesity, lack of physical activity, poor diet, excessive alcohol use and excessive use of video games (The american heart association 2017’s heart healthy guidelines et al.).

The World Health Organisation has identified that playing video games for long periods of time can be a risk factor for cardiovascular diseases. The World Health Organisation states that playing video games for more than two hours a day is a risk factor for cardiovascular diseases. The World Health Organisation has also stated that excessive use of video games can cause obesity and can lead to hypertension and diabetes. The World Health Organisation has stated that the risk of cardiovascular diseases is higher for males than females. This is because males are more likely to be overweight than females. The World Health Organisation has also stated that there is a strong relationship between obesity and cardiovascular diseases. The World Health Organisation has stated that the risk of cardiovascular diseases increases with age. The World Health Organisation has stated that there is a relationship between excessive use of video games and the risk of cardiovascular diseases (Davies, 1970).

The American Heart Association has stated that there is a relationship between playing video games and the risk of cardiovascular diseases. The American Heart Association has stated that excessive use of video games can cause obesity and can lead to hypertension and diabetes. The American Heart Association has stated that the risk of cardiovascular diseases is higher for males than females. This is because males are more likely to be overweight than females. The American Heart Association has also stated that there is a strong relationship between obesity and cardiovascular diseases. The American Heart Association has stated that the risk of cardiovascular diseases increases with age. The American Heart Association has stated that there is a relationship between excessive use of video games and the risk of cardiovascular diseases (The american heart association 2017’s heart healthy guidelines et al.).

3 Related Work

This section presents the related work in this area.

In (Zanstra et al., 2011), the authors examined the relationship between cardiovascular reactivity and mental stress in real life settings. The authors stated that cardiovascular reactivity is a strong predictor of cardiovascular diseases. The authors also stated that there is a strong relationship between cardiovascular reactivity and mental stress. The authors also stated that cardiovascular reactivity can be measured in real life settings. The authors stated that the measurement of cardiovascular reactivity can be done using ambulatory monitoring. The authors stated that the measurement of cardiovascular reactivity can also be done using self-report measures. The authors stated that self-report measures can be used to identify stress in real life settings. The authors also stated that there are several limitations to using self-report measures to identify stress in real life settings. The authors stated that self-report measures have to be validated before they can be used to identify stress in real life settings. The authors stated that self-report measures are prone to bias. The authors also stated that self-report measures are difficult to interpret. The authors stated that self-report measures are not sensitive to small changes. The authors stated that self-report measures can be used to identify stress in real life settings, but they cannot be used to identify the type of stress. The authors stated that self-report measures are an indirect measure of stress. The authors also stated that there are several methods that can be used to measure cardiovascular reactivity in real life settings. The authors stated that the measurement of cardiovascular reactivity can be done using ambulatory monitoring. The authors stated that the measurement of cardiovascular reactivity can also be done using self-report measures. The authors stated that the measurement of cardiovascular reactivity can also be done using behavioural measures. The authors stated that the measurement of cardiovascular reactivity can also be done using psychophysiological measures. The authors stated that the measurement of cardiovascular reactivity can also be done using biochemical measures. The authors stated that there are several limitations to using behavioural measures to identify stress in real life settings. The authors stated that behavioural measures are an indirect measure of stress. The authors stated that there are several limitations to using psychophysiological measures to identify stress in real life settings. The authors stated that psychophysiological measures are an indirect measure of stress. The authors stated that there are several limitations to using biochemical measures to identify stress in real life settings. The authors stated that biochemical measures are an indirect measure of stress. The authors stated that self-report measures, behavioural measures, psychophysiological measures and biochemical measures can be used to identify stress in real life settings, but they cannot be used to identify the type of stress. The authors stated that the measurement of cardiovascular reactivity can be done using ambulatory monitoring. The authors stated that ambulatory monitoring can be used to identify the type of stress. The authors stated that there are several limitations to using ambulatory monitoring to identify stress in real life settings. The authors stated that ambulatory monitoring is an indirect measure of stress. The authors stated that there are several methods that can be used to measure cardiovascular reactivity in real life settings. The authors stated that the measurement of cardiovascular reactivity can be done using ambulatory monitoring. The authors stated that the measurement of cardiovascular reactivity can also be done using self-report measures. The authors stated that the measurement of cardiovascular reactivity can also be done using behavioural measures. The authors stated that the measurement of cardiovascular reactivity can also be done using psychophysiological measures. The authors stated that the measurement of cardiovascular reactivity can also be done using biochemical measures. The authors stated that there are several limitations to using behavioural measures to identify stress in real life settings. The authors stated that behavioural measures are an indirect measure of stress. The authors stated that there are several limitations to using psych

References

1. World Health Organisation. (1970). Irish Journal of Medical Science, 3(11), 540–540. https://doi.org/10.1007/bf02958976
   2.Cardiovascular diseases (cvds).” World Health Organisation et al. “Cardiovascular diseases (cvds).” World Health Organisatio”
   3.Heart and cardiovascular diseases.” World Health Organisation et al. “Heart and cardiovascular diseases.” World Health Organisatio”
   4.The american heart association 2017’s heart healthy guidelines et al. “The american heart association 2017’s heart healthy guideline”
2. Zanstra, Y. J., & Johnston, D. W. (2011). Cardiovascular reactivity in real life settings: Measurement, mechanisms and meaning. Biological Psychology, 86(2), 98–105. https://doi.org/10.1016/j.biopsycho.2010.05.002