A decrease in blood cells, known as cytopenia, can refer to a reduction in various types of blood cells, including red blood cells (anemia), white blood cells (leukopenia), or platelets (thrombocytopenia). This condition can result from various factors, such as bone marrow disorders, nutritional deficiencies, autoimmune diseases, or the effects of certain medications. The specific symptoms and health implications depend on which type of blood cell is decreased and the severity of the condition. Prompt medical evaluation is essential to determine the underlying cause and appropriate treatment.
In dengue fever, white blood cells can decrease because the virus directly targets and destroys them. Additionally, the viral infection can trigger the immune system to release certain chemicals that can suppress the production of white blood cells. This decrease in white blood cells can make the body more vulnerable to infections.
Blood viscosity will decrease with low hematocrit levels because hematocrit is a measure of the proportion of red blood cells in the blood. With fewer red blood cells, there is less cellular material present, which reduces viscosity.
Leukemia is a type of cancer that results in an overproduction of abnormal white blood cells in the bone marrow. This leads to a decrease in the production of normal blood cells and can cause a lack of healthy white blood cells.
Calcitonin is the hormone released by the extrafollicular cells of the thyroid that causes a decrease in blood calcium levels. It does this by inhibiting the activity of osteoclasts, which are responsible for breaking down bone tissue and releasing calcium into the blood.
Leukemia is an increase in the number of abnormal white blood cells in the bloodstream. These abnormal cells do not function properly and can crowd out normal white blood cells, leading to a weakened immune system.
In dengue fever, white blood cells can decrease because the virus directly targets and destroys them. Additionally, the viral infection can trigger the immune system to release certain chemicals that can suppress the production of white blood cells. This decrease in white blood cells can make the body more vulnerable to infections.
A decrease in red blood cells is called Anaemia. If you are found to have a low red-cell count - you're said to be anaemic.
decrease in oral intake
hypovolemia is the decrease of circulating blood plasma fluid while anemia can range from blood cells abnormalities to the blood cells average volume.
No they decrease.
Blood viscosity will decrease with low hematocrit levels because hematocrit is a measure of the proportion of red blood cells in the blood. With fewer red blood cells, there is less cellular material present, which reduces viscosity.
may cause serious blood problems by reducing the ability of the blood forming organs to produce blood cells. These drugs may decrease the number of white blood cells, red blood cells, or both.
The thyroid gland has certain cells known as parafollicular cells (AKA C cells) that secrete a hormone known as calcitonin that can decrease blood calcium levels.
The tissue impaired in myelosuppression is the bone marrow. Myelosuppression refers to a decrease in the production of blood cells (red blood cells, white blood cells, and platelets) by the bone marrow, leading to decreased levels of these cells in the blood.
Paleness in individuals is often caused by a decrease in blood flow or a low level of red blood cells, which can result from conditions such as anemia, shock, or certain diseases. This lack of blood flow or red blood cells can lead to a decrease in oxygen levels in the body, resulting in a paler complexion.
Leukemia is a type of cancer that results in an overproduction of abnormal white blood cells in the bone marrow. This leads to a decrease in the production of normal blood cells and can cause a lack of healthy white blood cells.
Calcitonin is the hormone released by the extrafollicular cells of the thyroid that causes a decrease in blood calcium levels. It does this by inhibiting the activity of osteoclasts, which are responsible for breaking down bone tissue and releasing calcium into the blood.