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Characteristics of Cardio-respiratory system
The lungs can carry out the procedure of gas exchange because:
- They have millions of air bags which forms an expanded surface area for hasty diffusion to take place of oxygen and carbon dioxide.
- Alveoli has cells that are one cell thick meaning less journey for diffusion.
- Strong blood delivering aspect that why is why every alveolus is near a capillary. Capillary cells are very thin as well, gases can travel hastily from the alveoli to the blood and the other way around.
- The journey of blood within the capillaries indicates a vertical concentration gradient is followed, this makes sure diffusion of gases is taking place hastily.
Diffusion of oxygen
The air within the alveolus is full of oxygen. Blood travelling from the body within capillaries lack in oxygen. Oxygen diffuses along the concentration gradient from the alveolus to the capillary where it mixes with haemoglobin in the red blood cells and is delivered within the body.
Diffusion 0f carbon dioxide
Carbon dioxide from cellular respiration within the body is delivered in the blood to the lungs. Blood that is being going into alveolus has increased amount of carbon dioxide and the air within the alveolus lacks in carbon dioxide. Carbon dioxide follows the concentration gradient into the alveolus, where it is given off to the outer surrounding.
The ongoing thrusting of blood through the capillary and ventilation of the lungs considers vertical concentration gradient is flowed, which when linked with quicker diffusion road, that hasty beat of diffusion is continuous.
Chemoreceptors
When exercising, carbon dioxide quantity within the blood goes up because of higher levels respiration happening within the body cells. Carbon dioxide within the blood gives rise to carbonic acid, this causes a drop in blood pH levels.
When the pH of the blood drops, chemoreceptors within the carotid artery and aorta are aroused and delivers signals to the ventilation system. The ventilation centre reacts with signals to the outer intercostal muscles and the diaphragm to rise breathing rate. This is the role of sympathetic nervous system.
Flow of the blood
The cardiovascular system includes a muscular thrust, the heart, that thrusts blood within a system containing blood vessels. Blood is thrusted into arteries which breaks into tiny vessels known as arterioles. Arterioles divide even more into tissues known as capillaries, where variation of substances within tissues and blood occurs. From capillaries blood is delivered into huge vessels which are venules, link to create veins, huge vessels that delivers the blood back to the heart.
Assessing the nervous management of the cardiovascular and respiratory systems in maintaining a constant body environment
Throughout the whole report I have been explaining how the nervous system is involved in the function of cardiorespiratory system in detail. Now I will briefly include how they work together and some other aspects. The cardiovascular system fulfils the necessity of the body by sending oxygen, hormones and nutrients and white blood cells everywhere in the body by pumping blood, also gets ride of unwanted materials. The body parts linked with it are heart and blood vessels. Contact with the nervous system, this is how the nervous system also control the cardiovascular system: endothelial cells manage the blood – brain fence. Baroreceptors deliver data to the brain regarding blood pressure. Cerebrospinal liquid goes into the venous blood supply. The brain deal with the heart rate and blood pressure. Our circulatory system provides oxygen, water, and nutrients to cell all over the body. The job of the respiratory system is to deliver oxygen to the blood and eject carbon dioxide, the body parts linked with this task are lungs, larynx, pharynx, trachea, and bronchi. The way nervous system also controls this activity is by making the brain keep track of the respiratory volume and blood gas levels. The brain adjusts the respiratory rate. The nervous system takes control of the cardiorespiratory system with electrical signals, as if any system in your body is not responding smoothly, other systems will have an impact due to this.
Factors that might cause variations within the cardiovascular and respiratory system are blood oxygen levels if it is less than required or if blood carbon dioxide level escalated, drop in blood pH quantity, rise in blood pH, variations within blood pressure either escalated or dropped impact on action potentials due to variation in blood pressure. How these factors can be managed by baroreceptors and chemoreceptors, I have talked about above in the report in detail. The changes within respiratory system can be figured out by chemoreceptors which focuses on pH levels in the blood, delivers material to the respiratory centres of the brain so they can manage the ventilation rate to create a difference in acidity by raising or lowering the ejection of carbon dioxide as it is associated with risen amount of hydrogen ions available in blood. With the information I provided under baroreceptors and chemoreceptors, I also included how the detection and the combination of nervous pathways worked together to bring back the normal way of functioning.
Now, I will look at how two neurological disorder interferes with the normal working cardiovascular and respiratory systems as this is another factor that causes variations within these two systems. I have included the two diseases above that I chose: Parkinson’s disease and multiple sclerosis.
Within the nervous system, the area of the brain called substantia nigra is affected.
I have talked about above how Parkinson’s disease occurs and the symptoms of it. Now I will talk about how Parkinson’s disease has an impact on the autonomic nervous system, it has two parts sympathetic and parasympathetic pathways. When encountered by Parkinson’s disease the ANS does not perform smoothly, this is known as autonomic dysfunction. You can be the victim of this dysfunction due to unavailability of dopamine delivering cells and the availability of Lewy bodies in the brain. As ANS handles the heart rate, breathing, body temperature, digestion, PD affects these activities of the ANS. The way Parkinson’s disease affects the nervous system is by causing a shortage of nerve cells in an aspect of the brain known as substantia nigra, it sends signals, due to this disorder the signal step becomes slow so the nervous system is not being able to function smoothly which involves the ANS. Due to this disorder the neurotransmitter dopamine is in shortage it manages the movement of the body. The effect of PD on cardiovascular system: Lewy body pathology and neurodegeneration involved in brain and ANS can have very soon impact on the cardiovascular system. The most usual issue seen is neurogenic orthostatic hypotension or fall in blood pressure when standing up. The way PD causes disruption to the respiratory system is: limiting variations inferior to chest wall firmness and less space in lung volume, unusual ventilatory management as the signals are not being able to reach the systems on time, it is affecting everything. The brain is not being able to keep up with the respiratory volume and blood gas quantity. Baroreceptors are unable to deliver data to the brain about blood pressure. These are how the nervous, respiratory and cardiovascular systems are affected by PD overall, it disrupts the normal activities going on and the signals involved.
The 2nd disorder that I chose is multiple sclerosis that affects the nervous, cardiovascular, and respiratory system. I have talked about above in my report how this disease takes place and the symptoms associated with it. Now I will focus on how the central nervous system/ANS if affected by this order as well as cardiorespiratory system. So, firstly the ANS has an impact because this disorder causes disruption to the nervous system, the supportive layer on myelin in the control nervous system is ruined, which causes numbness on the limbs, pain or uncomfortable sensations on various aspects of the body. The ANS is affected because it is unable to deliver signals that will go by the neurons, it makes the impulse take longer to move or get misplaced, due to mistaking the myelin in this condition it affects the ANS. The way MS can disrupt cardiovascular system by causing unusuality in blood pressure replies, heart rate heart rhythm, left ventricular systolic activity. From a published journal it is proved that women who are the victim of MS can be the victim of heart attack, stroke and heart stopping to work, they have a greater risk from these. There is a disruption with the baroreceptors as they are unable to contact the brain about data linked to blood pressure due to slow response which will affect the health overall. The brain will not be able to handle the blood pressure. Respiratory system is also affected by MS you will not feel power within your muscles and durability. This can be seen in arms or legs but also it can impact the ventilatory muscles of the chest and abdomen that support breathing. The signals are not there for the brain to handle respiratory volume and blood gas quantity, also handle respiratory rate.
The diagram attached displays the blood vessels and the route of blood traveling around the cardiovascular system:
- The layout and role of blood vessels
A shut circulation – Blood vessels from a shut system that starts and completes with the heart. Every time the blood is covered by arteries, arterioles, capillaries, venules, or veins which are of different sizes.
Arteries move blood away from the heart and separates to create tiny arteries and arterioles. Arteries again split to create capillaries which makes ways of tiny blood vessels within the tissues. Capillaries link to create venules, which link to give veins. Veins deliver blood to the heart again.
- The layout of the heart
The heart is created of cardiac muscle. The cells within the muscle fibres of cardiac muscle are interlinked, which gives the flexibility to signals to go here and there hastily between muscle cells.
Heart muscle is myogenic, so it can contract and rest when needed without any damage on its own agreement.
Each side of the heart is covered two slots: upper chamber and the lower chamber. These are split by a valve, which keeps track the blood is traveling in one way within the heart.
References:
- courses.lumenlearning.com. (n.d.). Respiration Control | Boundless Anatomy and Physiology. [online] Available at: https://courses.lumenlearning.com/boundless-ap/chapter/respiration-control/#:~:text=The%20respiratory%20centers%20contain%20chemoreceptors.
- APDA. (2018). Cardiovascular Effects of Parkinson’s | APDA. [online] Available at: https://www.apdaparkinson.org/article/heart-and-parkinsons/.
- Autonomic dysfunction in Parkinson’s disease: Implications for pathophysiology, diagnosis, and treatment. (2020). Neurobiology of Disease, [online] 134, p.104700. Available at: https://www.sciencedirect.com/science/article/pii/S0969996119303754.
- Torsney, K. and Forsyth, D. (2017). Respiratory dysfunction in Parkinson’s disease. Journal of the Royal College of Physicians of Edinburgh, [online] 47(1), pp.35–39. Available at: https://www.rcpe.ac.uk/sites/default/files/jrcpe_47_1_forsyth.pdf.
- nhs.uk. (2017). Parkinson’s disease. [online] Available at: https://www.nhs.uk/conditions/parkinsons-disease/#:~:text=Parkinson%27s%20disease%20is%20caused%20by [Accessed 2 Nov. 2020].
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