Diabetic pathophysiology is the study of how the body changes when it is afflicted with diabetes. In other words what biochemical functions are affected, what physiological processes are altered, and what symptoms are exhibited? When scientists and researchers study diabetic pathophysiology, what they're looking for is what has gone wrong with the body's systems. This is of principal significance because researchers can't supply efficient solutions to the question until they know what kinds of damages it has caused.
The pathophysiology that underlies most of the body changes associated with diabetes - such as hypertension, heart disease, hardening of the arteries, and so on - is the body's inability to use and arrange of the excess sugar in the bloodstream. Even though type 2 diabetes can expand to type 1, the pathophysiology of diabetes type one is distinct from that of diabetes type two, hence the distinct methods of treating them.
The pathophysiology of type 2 diabetes is a aggregate of a amount of things. It is the failure of the body's tissues to increase glucose disposal in response to insulin or the failure of insulin to suppress lipolysis in adipose and muscle tissue. It is also the inability of insulin to suppress the hepatic glucose production. It is for this presume that some researchers focus on reducing the hepatic glucose output as their main means of treating diabetes.
Many population with type 2 diabetes originate ketoacidosis which is acidosis or a severe form of ketosis which is believed to be caused by the insulin and blood sugar levels being so out of balance that too much ketone accumulates in the body. In these cases, however, the pathophysiology of the ketoacidosis is not exactly clear although, normally, it seems to involve nausea and/or throwing up. In later stages, especially in the case of type 1 diabetes, the pathophysicolgy can lead to the body breaking down muscle tissue for its energy needs as well as dramatic weight loss.
The amount of deaths associated with ketoacidosis is much higher than is should be (almost in the 5 percent range) in general because of the delay in pathology and treatment. Just one more presume why it's principal that those suffering from diabetes or pre-diabetes monitor their condition diligently. At any rate, more testing needs to be done to decide the exact pathophysiology of ketoacidosis.
Diabetes is also associated with more minor diseases. For example, many men who have diabetes suffer from erectile dysfunction (or Ed). When researchers look at the pathophysiology, it appears that this condition occurs because of the ensue of hyperglycemia or high blood sugar on nerves and nerve endings. Ongoing excesses of high blood sugar affects all peripheral nerves including those such as fingers, toes, and those in the male sex organ.
And, lastly, the pathophysiology of other major diseases are being associated to diabetes. For example, early investigate seems to indicate that there is some link between type 2 diabetes and Alzheimer's disease, a progressive form of presenile dementia which is affecting more population in the population every day. It may finally turn out that the root triggers for many of today's major diseases have a lot in common.
Pre Diabetic Symptoms Men:Diabetic Pathophysiology and connected Diseases
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