Cardiovascular Disease: An Anatomical and Physiological Study
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This paper discusses the interconnection of body systems in maintaining homeostasis in the case of cardiovascular disease. It covers the role of the cardiovascular, endocrine, and nervous systems in regulating the body. The paper also talks about the negative feedback mechanism and the integration of body systems. Course code and college/university not mentioned.
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HBS109 Case-Based Learning Case Study
(Cardiovascular disease)
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Table of Contents
Introduction.................................................................................................................................................3
Relevant Body Anatomical and Physiological.............................................................................................3
Relevant feedback loops to maintain homeostasis.......................................................................................5
Integration of body systems.........................................................................................................................6
Conclusion...................................................................................................................................................7
References...................................................................................................................................................8
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Introduction.................................................................................................................................................3
Relevant Body Anatomical and Physiological.............................................................................................3
Relevant feedback loops to maintain homeostasis.......................................................................................5
Integration of body systems.........................................................................................................................6
Conclusion...................................................................................................................................................7
References...................................................................................................................................................8
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Introduction
Our body systems work mutually to keep us alive. Each of these particular systems is made up of
organs that possess particular functions. The structure of these particular organs and the cells of
which they are generated make them suitable for functioning. The vital function of our body
systems is to circulate the cells with nutrients and energy, and also extract the waste that is
generated. The primary purpose of the paper is to discuss the case study that is based on
cardiovascular disease. The focus is on how the cardiovascular system and other body systems
regulate our body.
Relevant Body Anatomical and Physiological
Homeostasis plays a vital role in the regular function of the human body. The body systems
involved in maintaining the homeostasis mechanism is the similar consistency of the internal
environmental changes instead of the external environmental changes. The cardiovascular and
the endocrine system helps in keeping the homeostasis.
Cardiovascular systems
Cardiovascular systems continuously supply blood all over the body that transfers nutrients,
cells, carbon dioxide, oxygen and hormones to their proper tissue or organ. The cardiovascular
system is consist of three essential parts: the veins, the arteries, and the heart. Homeostasis is
defined to be the ability of the body to balance and maintain its internal factors, and this is
facilitated by the cardiovascular system (Piepol et al., 2016). The homeostasis mechanism is
supported by the cardiovascular system via supplying the nutrients, oxygen, and blood to the
tissues and organs. The organs of the body depend upon the function of the cardiovascular
system. By regulating the body temperature, the cardiovascular system helps the skin in
maintaining homeostasis. From the case study, it is noticed that Geoffrey is suffering from a
cardiovascular disease that is caused due to atherosclerosis. Atherosclerosis includes a narrowing
of the blood flow and building of the fat. It can be seen that in the case of Geoffrey
atherosclerosis has reduced the flow of blood to an organ that resulted in damage to the organ. It
has happened in a blood vessel that supplies blood to the heart. Thus Geoffrey has suffered from
a heart attack (Sabatine et al., 2017). The physical stress related to hypertension on the arterial
wall leads to acceleration and aggravation of atherosclerosis. Geoffrey must have acknowledged
2 | P a g e
Our body systems work mutually to keep us alive. Each of these particular systems is made up of
organs that possess particular functions. The structure of these particular organs and the cells of
which they are generated make them suitable for functioning. The vital function of our body
systems is to circulate the cells with nutrients and energy, and also extract the waste that is
generated. The primary purpose of the paper is to discuss the case study that is based on
cardiovascular disease. The focus is on how the cardiovascular system and other body systems
regulate our body.
Relevant Body Anatomical and Physiological
Homeostasis plays a vital role in the regular function of the human body. The body systems
involved in maintaining the homeostasis mechanism is the similar consistency of the internal
environmental changes instead of the external environmental changes. The cardiovascular and
the endocrine system helps in keeping the homeostasis.
Cardiovascular systems
Cardiovascular systems continuously supply blood all over the body that transfers nutrients,
cells, carbon dioxide, oxygen and hormones to their proper tissue or organ. The cardiovascular
system is consist of three essential parts: the veins, the arteries, and the heart. Homeostasis is
defined to be the ability of the body to balance and maintain its internal factors, and this is
facilitated by the cardiovascular system (Piepol et al., 2016). The homeostasis mechanism is
supported by the cardiovascular system via supplying the nutrients, oxygen, and blood to the
tissues and organs. The organs of the body depend upon the function of the cardiovascular
system. By regulating the body temperature, the cardiovascular system helps the skin in
maintaining homeostasis. From the case study, it is noticed that Geoffrey is suffering from a
cardiovascular disease that is caused due to atherosclerosis. Atherosclerosis includes a narrowing
of the blood flow and building of the fat. It can be seen that in the case of Geoffrey
atherosclerosis has reduced the flow of blood to an organ that resulted in damage to the organ. It
has happened in a blood vessel that supplies blood to the heart. Thus Geoffrey has suffered from
a heart attack (Sabatine et al., 2017). The physical stress related to hypertension on the arterial
wall leads to acceleration and aggravation of atherosclerosis. Geoffrey must have acknowledged
2 | P a g e
high blood pressure that caused a heart attack or stroke. This is because the muscles of the heart
do not get sufficient blood. It is noticed that Geoffrey is suffering from chest pain and shortness
of breath which is due to cardiovascular disease. Geoffrey is also suffering from shortness of
breath which due to cardiovascular disease as the plaque buildup stiffens and thickens of the
artery wall which could stop the flow of blood through the arteries to the tissues and organs. It
can be seen that the cardiovascular disease act as an effector where the effectors are the sweat
glands and the blood vessels (Tobaldini et al., 2017).
Endocrine system
The endocrine system in the body is mainly a system of glands that secrete and produce
hormones. The body organs are affected by the endocrine system. Hormones are entirely
responsible for various factors like the development of other organs and the regulation of the
temperature of the moods to metabolism. To maintain the homeostasis the hormones are needed
to be regulated, or else the levels would too low or too high (Ettehad et al., 2016). The endocrine
system comprises the ductless glands which secrete the hormones inside the blood vessel. Such
hormones, in turn, function the feedback loops that maintain the body in equilibrium and keeps
the body healthy. Thus, the endocrine system is put into the physiological methods which handle
the functions of the body. Hormonal balances and checks in the endocrine system govern the
ability of the body in maintaining stable internal situations. The blood glucose level in the body
comes under the control of homeostasis, various hormones in the body together work to maintain
the glucose level in a tight range (Kuryszko et al., 2016). If this system breaks the glucose in the
blood may increase and can lead to diabetes. It can be seen from the case study of Geoffrey that
as he is overweight which has resulted in him to suffer from a heart attack as well as diabetes.
This is due to high level of blood pressure and cholesterol in the body. It can be seen that the
endocrine system acts as a control center which supplies information to the brain and regulates
the body temperature.
Nervous system
The nervous system is the primary system to control the homeostasis; it facilitates regulation,
response and monitoring of all the body systems (Ludwig et al., 2017). The autonomic nervous
systems consist of the parasympathetic and sympathetic both comprise of a homeostatic
mechanism of the body. While maintaining the homeostasis, the nervous system responds and
3 | P a g e
do not get sufficient blood. It is noticed that Geoffrey is suffering from chest pain and shortness
of breath which is due to cardiovascular disease. Geoffrey is also suffering from shortness of
breath which due to cardiovascular disease as the plaque buildup stiffens and thickens of the
artery wall which could stop the flow of blood through the arteries to the tissues and organs. It
can be seen that the cardiovascular disease act as an effector where the effectors are the sweat
glands and the blood vessels (Tobaldini et al., 2017).
Endocrine system
The endocrine system in the body is mainly a system of glands that secrete and produce
hormones. The body organs are affected by the endocrine system. Hormones are entirely
responsible for various factors like the development of other organs and the regulation of the
temperature of the moods to metabolism. To maintain the homeostasis the hormones are needed
to be regulated, or else the levels would too low or too high (Ettehad et al., 2016). The endocrine
system comprises the ductless glands which secrete the hormones inside the blood vessel. Such
hormones, in turn, function the feedback loops that maintain the body in equilibrium and keeps
the body healthy. Thus, the endocrine system is put into the physiological methods which handle
the functions of the body. Hormonal balances and checks in the endocrine system govern the
ability of the body in maintaining stable internal situations. The blood glucose level in the body
comes under the control of homeostasis, various hormones in the body together work to maintain
the glucose level in a tight range (Kuryszko et al., 2016). If this system breaks the glucose in the
blood may increase and can lead to diabetes. It can be seen from the case study of Geoffrey that
as he is overweight which has resulted in him to suffer from a heart attack as well as diabetes.
This is due to high level of blood pressure and cholesterol in the body. It can be seen that the
endocrine system acts as a control center which supplies information to the brain and regulates
the body temperature.
Nervous system
The nervous system is the primary system to control the homeostasis; it facilitates regulation,
response and monitoring of all the body systems (Ludwig et al., 2017). The autonomic nervous
systems consist of the parasympathetic and sympathetic both comprise of a homeostatic
mechanism of the body. While maintaining the homeostasis, the nervous system responds and
3 | P a g e
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detects the body's external and internal environments via sending the quick electrical impulse to
the brain via nerves (Brisken, and Ataca, 2015). Nerves transfer the impulses between the body
and the central nervous system. The nervous system acts as an effector in maintaining the
homeostasis. From the case study it can be seen that the nervous system plays a vital role as it
functions all the system of the body, and as Geoffrey is suffering from cardiovascular disease
and diabetes, therefore it will be controlled by the nervous system.
Relevant feedback loops to maintain homeostasis
Negative feedback mechanism
Flowchart: Negative Feedback Mechanism
(Source: Occc.edu. 2018)
All mechanism of homeostatic control refers to the mechanism of the negative feedback loop.
Such mechanisms change the variable back to its ideal value. To maintain the homeostasis of the
body negative feedback loops is determined. The sensors will notice the high body temperature-
the significant nerve cells about the brain and the skin and maintains a regulatory temperature
control center in the brain. The control center will supply the information and activate the
effectors like the sweat glands which opposes the stimulus by lowering the body temperature
(Moroishi et al., 2015). The best example of the mechanism of the negative feedback is the home
4 | P a g e
Sensor
Integrated Center
Effector
Factor
the brain via nerves (Brisken, and Ataca, 2015). Nerves transfer the impulses between the body
and the central nervous system. The nervous system acts as an effector in maintaining the
homeostasis. From the case study it can be seen that the nervous system plays a vital role as it
functions all the system of the body, and as Geoffrey is suffering from cardiovascular disease
and diabetes, therefore it will be controlled by the nervous system.
Relevant feedback loops to maintain homeostasis
Negative feedback mechanism
Flowchart: Negative Feedback Mechanism
(Source: Occc.edu. 2018)
All mechanism of homeostatic control refers to the mechanism of the negative feedback loop.
Such mechanisms change the variable back to its ideal value. To maintain the homeostasis of the
body negative feedback loops is determined. The sensors will notice the high body temperature-
the significant nerve cells about the brain and the skin and maintains a regulatory temperature
control center in the brain. The control center will supply the information and activate the
effectors like the sweat glands which opposes the stimulus by lowering the body temperature
(Moroishi et al., 2015). The best example of the mechanism of the negative feedback is the home
4 | P a g e
Sensor
Integrated Center
Effector
Factor
thermostat. The thermostat consists of a control center and receptor, If the thermostat is set to 70
degrees Fahrenheit, the heat that is the effector is switched on the temperature decreases below
70 degrees Fahrenheit. The heater effectively shuts off after the heater heats the house to
maintain the ideal temperature. Another example of the negative feedback mechanism is the case
study of Geoffrey which indicates control of the sugar level in the blood. From the case study, it
can be seen that when the sugar level rises in the blood, the body receptors feel a sense of change
in the body as acknowledged by Geoffrey. Whereas, the control center that is the endocrine
system secretes the insulin effectively into the blood that results in decreasing the sugar level in
the blood. Such type of change has been noticed by Geoffrey as the sugar level in the blood has
reached the homeostasis. Therefore, the pancreas has stopped supplying the insulin (Rahman et
al., 2017). The regulation of the body temperature also includes the negative feedback
mechanism; it tells that whether the temperature is raised or lowered. Geoffrey acknowledged a
fall in the body temperature that could be because of high blood pressure or occurrence of the
cardiovascular disease due to atherosclerosis. As Geoffrey and his wife both are working
professionals, hence it becomes difficult for them to maintain a proper diet, even they do not get
adequate time to do exercise. Geoffrey also deals with various issues related to the office which
leads to hypertension that causes high blood pressure. As Geoffrey is suffering from obesity thus,
it resulted in diabetes; it is observed that the diabetes is due to the broken feedback mechanism
that includes hormone insulin. Hence, it made critical for Geoffrey to bring the high level of
blood sugar down to a normal level. Therefore, it has been noticed that insulin lowers the level of
glucose in the blood in Geoffrey’s body system (Slominski et al., 2018).
Integration of body systems
Our body systems are connected to each other to function the body organs properly. The
endocrine and the cardiovascular systems are related to each other as the endocrine gland affects
the blood sugar levels, heart rate, and blood pressure. Glucagon and insulin both the hormones
are secreted through pancreas, which decreases and increases the glucose level in the blood
(Eltschinger, and Loewith, 2016). This, in turn, helps to function the level of energy during and
after rest, eating and exercise. The cardiovascular systems react to various signals of the
endocrine system; also there are strong connections between the mechanism of the endocrine and
various other signals that puts an impact on the functioning of the cardiovascular system. The
cardiovascular system supplies nutrients and oxygen to the body organs also it removes the waste
5 | P a g e
degrees Fahrenheit, the heat that is the effector is switched on the temperature decreases below
70 degrees Fahrenheit. The heater effectively shuts off after the heater heats the house to
maintain the ideal temperature. Another example of the negative feedback mechanism is the case
study of Geoffrey which indicates control of the sugar level in the blood. From the case study, it
can be seen that when the sugar level rises in the blood, the body receptors feel a sense of change
in the body as acknowledged by Geoffrey. Whereas, the control center that is the endocrine
system secretes the insulin effectively into the blood that results in decreasing the sugar level in
the blood. Such type of change has been noticed by Geoffrey as the sugar level in the blood has
reached the homeostasis. Therefore, the pancreas has stopped supplying the insulin (Rahman et
al., 2017). The regulation of the body temperature also includes the negative feedback
mechanism; it tells that whether the temperature is raised or lowered. Geoffrey acknowledged a
fall in the body temperature that could be because of high blood pressure or occurrence of the
cardiovascular disease due to atherosclerosis. As Geoffrey and his wife both are working
professionals, hence it becomes difficult for them to maintain a proper diet, even they do not get
adequate time to do exercise. Geoffrey also deals with various issues related to the office which
leads to hypertension that causes high blood pressure. As Geoffrey is suffering from obesity thus,
it resulted in diabetes; it is observed that the diabetes is due to the broken feedback mechanism
that includes hormone insulin. Hence, it made critical for Geoffrey to bring the high level of
blood sugar down to a normal level. Therefore, it has been noticed that insulin lowers the level of
glucose in the blood in Geoffrey’s body system (Slominski et al., 2018).
Integration of body systems
Our body systems are connected to each other to function the body organs properly. The
endocrine and the cardiovascular systems are related to each other as the endocrine gland affects
the blood sugar levels, heart rate, and blood pressure. Glucagon and insulin both the hormones
are secreted through pancreas, which decreases and increases the glucose level in the blood
(Eltschinger, and Loewith, 2016). This, in turn, helps to function the level of energy during and
after rest, eating and exercise. The cardiovascular systems react to various signals of the
endocrine system; also there are strong connections between the mechanism of the endocrine and
various other signals that puts an impact on the functioning of the cardiovascular system. The
cardiovascular system supplies nutrients and oxygen to the body organs also it removes the waste
5 | P a g e
from the endocrine system. While the hormones of the endocrine system affect the blood
pressure. The factors that lead to diabetes must be targeted to protect the risk of cardiovascular
disease that is affecting the patients (Mika et al., 2015). Although the hormones of the endocrine
system supply freely in the cardiovascular system, apart from the receptors which are targeted,
the entire systems of the body remain unaffected. The endocrine system if formed by the ten
types of glands in which the hormones are secreted in the cardiovascular system. The types of
glands are hypothalamus, thyroid gland, thymus, testes, pituitary gland, pineal gland, ovaries,
pancreas, parathyroid gland and adrenal glands (Chen et al., 2015).
The receptors of the organ cells quickly identify and grabs the hormones that are created to
function their systems, avoiding all the others. Some hormones that are not linked to the
receptors are stored in the blood vessels. It is estimated that the endocrine system produces more
than 50 multiple hormones. Diseases of the endocrine system that consist of hormone hypo
function and hyper function have different impacts on the cardiovascular system (Kotas, and
Medzhitov, 2015). Functioning of the normal endocrine system is necessary for the functioning
of the cardiovascular health. The number of cardiovascular changes can be seen if the
functioning of the endocrine is not done properly. If the normal endocrine system is restored,
then it leads to an adverse change in the cardiovascular system (Forsyth, 2017). Therefore, from
the case study of Geoffrey, it is observed that the change in the body system is due to the
interconnection of the cardiovascular system with the endocrine system. Geoffrey is suffering
from heart disease as well as diabetes which occurred due to high blood pressure and obesity.
This shows the integration of both the system to maintain homeostasis. It can be seen that the
nervous system functions rapidly as compared to the cardiovascular and endocrine system.
Therefore, the cardiovascular system is connected with the endocrine and the nervous system.
Conclusion
The above paper discusses the case study that is based on cardiovascular disease. Different body
systems work together to function the organs of the body to maintain the body temperature. It is
observed that as the blood pressure increases it results in the heart attack or stroke, also the
patient feels chest pain and shortness of breath. This factor occurs due to cardiovascular disease
that is caused by atherosclerosis because of which the patient feels chest pain and hypertension.
Thus, the effect of atherosclerosis in the cardiovascular system is discussed which results in
6 | P a g e
pressure. The factors that lead to diabetes must be targeted to protect the risk of cardiovascular
disease that is affecting the patients (Mika et al., 2015). Although the hormones of the endocrine
system supply freely in the cardiovascular system, apart from the receptors which are targeted,
the entire systems of the body remain unaffected. The endocrine system if formed by the ten
types of glands in which the hormones are secreted in the cardiovascular system. The types of
glands are hypothalamus, thyroid gland, thymus, testes, pituitary gland, pineal gland, ovaries,
pancreas, parathyroid gland and adrenal glands (Chen et al., 2015).
The receptors of the organ cells quickly identify and grabs the hormones that are created to
function their systems, avoiding all the others. Some hormones that are not linked to the
receptors are stored in the blood vessels. It is estimated that the endocrine system produces more
than 50 multiple hormones. Diseases of the endocrine system that consist of hormone hypo
function and hyper function have different impacts on the cardiovascular system (Kotas, and
Medzhitov, 2015). Functioning of the normal endocrine system is necessary for the functioning
of the cardiovascular health. The number of cardiovascular changes can be seen if the
functioning of the endocrine is not done properly. If the normal endocrine system is restored,
then it leads to an adverse change in the cardiovascular system (Forsyth, 2017). Therefore, from
the case study of Geoffrey, it is observed that the change in the body system is due to the
interconnection of the cardiovascular system with the endocrine system. Geoffrey is suffering
from heart disease as well as diabetes which occurred due to high blood pressure and obesity.
This shows the integration of both the system to maintain homeostasis. It can be seen that the
nervous system functions rapidly as compared to the cardiovascular and endocrine system.
Therefore, the cardiovascular system is connected with the endocrine and the nervous system.
Conclusion
The above paper discusses the case study that is based on cardiovascular disease. Different body
systems work together to function the organs of the body to maintain the body temperature. It is
observed that as the blood pressure increases it results in the heart attack or stroke, also the
patient feels chest pain and shortness of breath. This factor occurs due to cardiovascular disease
that is caused by atherosclerosis because of which the patient feels chest pain and hypertension.
Thus, the effect of atherosclerosis in the cardiovascular system is discussed which results in
6 | P a g e
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hypertension and risk of heart attack. Due to lack of diet, consumption of fast food and not doing
the exercises on a regular basis could damage the body systems. It is also observed from the case
study that the person suffers from the high level of sugar in the blood which could result in
diabetes. It is mentioned that diabetes occurs due to obesity or an increase of sugar level in the
blood. The role of the endocrine gland in maintaining the glucose level is the primary objective
of the paper. Therefore, it is recommended that a person should maintain its blood pressure and
sugar level in the blood to stay fit.
7 | P a g e
the exercises on a regular basis could damage the body systems. It is also observed from the case
study that the person suffers from the high level of sugar in the blood which could result in
diabetes. It is mentioned that diabetes occurs due to obesity or an increase of sugar level in the
blood. The role of the endocrine gland in maintaining the glucose level is the primary objective
of the paper. Therefore, it is recommended that a person should maintain its blood pressure and
sugar level in the blood to stay fit.
7 | P a g e
References
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of the mouse mammary gland. Wiley Interdisciplinary Reviews: Developmental Biology, 4(3),
pp.181-195.
Chen, P., Chakraborty, S., Mukhopadhyay, S., Lee, E., Paoliello, M.M., Bowman, A.B. and
Aschner, M., 2015. Manganese homeostasis in the nervous system. Journal of
neurochemistry, 134(4), pp.601-610.
Dampney, R.A., 2016. Central neural control of the cardiovascular system: current
perspectives. Advances in physiology education, 40(3), pp.283-296.
Eltschinger, S. and Loewith, R., 2016. TOR complexes and the maintenance of cellular
homeostasis. Trends in cell biology, 26(2), pp.148-159.
Ettehad, D., Emdin, C.A., Kiran, A., Anderson, S.G., Callender, T., Emberson, J., Chalmers, J.,
Rodgers, A. and Rahimi, K., 2016. Blood pressure lowering for prevention of cardiovascular
disease and death: a systematic review and meta-analysis. The Lancet, 387(10022), pp.957-967.
Forsyth, R.P., 2017. Mechanisms of the cardiovascular responses to environmental stressors.
In Cardiovascular psychophysiology (pp. 5-32). Routledge.
Kotas, M.E. and Medzhitov, R., 2015. Homeostasis, inflammation, and disease
susceptibility. Cell, 160(5), pp.816-827.
Kuryszko, J., Sławuta, P. and Sapikowski, G., 2016. Secretory function of adipose tissue. Polish
journal of veterinary sciences, 19(2), pp.441-446.
Ludwig, K., Ross, E., Langhals, N., Weber, D., Luis Lujan, J. and Georgakopoulos, D., 2017.
The autonomic nervous system. In NEUROPROSTHETICS: Theory and practice (pp. 12-39).
Mika, D., Richter, W. and Conti, M., 2015. A CaMKII/PDE4D negative feedback regulates
cAMP signaling. Proceedings of the National Academy of Sciences, 112(7), pp.2023-2028.
Moroishi, T., Park, H.W., Qin, B., Chen, Q., Meng, Z., Plouffe, S.W., Taniguchi, K., Yu, F.X.,
Karin, M., Pan, D. and Guan, K.L., 2015. A YAP/TAZ-induced feedback mechanism regulates
Hippo pathway homeostasis. Genes & development, 29(12), pp.1271-1284.
8 | P a g e
Brisken, C. and Ataca, D., 2015. Endocrine hormones and local signals during the development
of the mouse mammary gland. Wiley Interdisciplinary Reviews: Developmental Biology, 4(3),
pp.181-195.
Chen, P., Chakraborty, S., Mukhopadhyay, S., Lee, E., Paoliello, M.M., Bowman, A.B. and
Aschner, M., 2015. Manganese homeostasis in the nervous system. Journal of
neurochemistry, 134(4), pp.601-610.
Dampney, R.A., 2016. Central neural control of the cardiovascular system: current
perspectives. Advances in physiology education, 40(3), pp.283-296.
Eltschinger, S. and Loewith, R., 2016. TOR complexes and the maintenance of cellular
homeostasis. Trends in cell biology, 26(2), pp.148-159.
Ettehad, D., Emdin, C.A., Kiran, A., Anderson, S.G., Callender, T., Emberson, J., Chalmers, J.,
Rodgers, A. and Rahimi, K., 2016. Blood pressure lowering for prevention of cardiovascular
disease and death: a systematic review and meta-analysis. The Lancet, 387(10022), pp.957-967.
Forsyth, R.P., 2017. Mechanisms of the cardiovascular responses to environmental stressors.
In Cardiovascular psychophysiology (pp. 5-32). Routledge.
Kotas, M.E. and Medzhitov, R., 2015. Homeostasis, inflammation, and disease
susceptibility. Cell, 160(5), pp.816-827.
Kuryszko, J., Sławuta, P. and Sapikowski, G., 2016. Secretory function of adipose tissue. Polish
journal of veterinary sciences, 19(2), pp.441-446.
Ludwig, K., Ross, E., Langhals, N., Weber, D., Luis Lujan, J. and Georgakopoulos, D., 2017.
The autonomic nervous system. In NEUROPROSTHETICS: Theory and practice (pp. 12-39).
Mika, D., Richter, W. and Conti, M., 2015. A CaMKII/PDE4D negative feedback regulates
cAMP signaling. Proceedings of the National Academy of Sciences, 112(7), pp.2023-2028.
Moroishi, T., Park, H.W., Qin, B., Chen, Q., Meng, Z., Plouffe, S.W., Taniguchi, K., Yu, F.X.,
Karin, M., Pan, D. and Guan, K.L., 2015. A YAP/TAZ-induced feedback mechanism regulates
Hippo pathway homeostasis. Genes & development, 29(12), pp.1271-1284.
8 | P a g e
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cardiovascular disease prevention in clinical practice: The Sixth Joint Task Force of the
European Society of Cardiology and Other Societies on Cardiovascular Disease Prevention in
Clinical Practice (constituted by representatives of 10 societies and by invited experts)
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Rahman, M.M., Franch-Marro, X., Maestro, J.L., Martin, D. and Casali, A., 2017. Local Juvenile
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reports, 7(1), p.11677.
Sabatine, M.S., Giugliano, R.P., Keech, A.C., Honarpour, N., Wiviott, S.D., Murphy, S.A.,
Kuder, J.F., Wang, H., Liu, T., Wasserman, S.M. and Sever, P.S., 2017. Evolocumab and clinical
outcomes in patients with cardiovascular disease. New England Journal of Medicine, 376(18),
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Tobaldini, E., Costantino, G., Solbiati, M., Cogliati, C., Kara, T., Nobili, L. and Montano, N.,
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http://www.occc.edu/biologylabs/Documents/Homeostasis/Feedback_Loop.htm [Accessed 12
Sep. 2018].
Piepoli, M.F., Hoes, A.W., Agewall, S., Albus, C., Brotons, C., Catapano, A.L., Cooney, M.T.,
Corra, U., Cosyns, B., Deaton, C. and Graham, I., 2016. 2016 European Guidelines on
cardiovascular disease prevention in clinical practice: The Sixth Joint Task Force of the
European Society of Cardiology and Other Societies on Cardiovascular Disease Prevention in
Clinical Practice (constituted by representatives of 10 societies and by invited experts)
Developed with the special contribution of the European Association for Cardiovascular
Prevention & Rehabilitation (EACPR). European heart journal, 37(29), pp.2315-2381.
Rahman, M.M., Franch-Marro, X., Maestro, J.L., Martin, D. and Casali, A., 2017. Local Juvenile
Hormone activity regulates gut homeostasis and tumor growth in adult Drosophila. Scientific
reports, 7(1), p.11677.
Sabatine, M.S., Giugliano, R.P., Keech, A.C., Honarpour, N., Wiviott, S.D., Murphy, S.A.,
Kuder, J.F., Wang, H., Liu, T., Wasserman, S.M. and Sever, P.S., 2017. Evolocumab and clinical
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