Niva Bupa HBV4 B Package near me in Greater Noida
Understanding Niva Bupa HBV4 B Package in Greater Noida
What is Niva Bupa HBV4 B Package in Greater Noida?
It is well known that ‘prevention is better than cure’ and this package is designed specifically for that purpose. It includes a unique diagnostic profile of tests for a comprehensive health evaluation at an early age. It screens the most common health conditions.
Note:-
This health checkup package is available only for customers having an active Niva Bupa health insurance policy.
What does Niva Bupa HBV4 B Package measure?
Contains 38 tests
Cholesterol - LDL
The cholesterol LDL test measures the levels of cholesterol LDL in the blood. LDL also known as low-density lipoprotein carries cholesterol in the blood. It consists mainly of cholesterol, similar other substances, and a small amount of protein.
It is very important to monitor and maintain healthy levels of lipids for staying healthy. Intake of foods that are high in saturated fats and trans unsaturated fats can raise the levels of cholesterol in the blood. The extra cholesterol gets deposited in plaques on the walls of blood vessels. This may result in atherosclerosis (hardening of the arteries). It can also increase the risk of various other health problems such as heart disease and stroke.
The cholesterol LDL is known as “bad cholesterol” as it gets deposited in the vessels as plaque, giving rise to cardiovascular diseases. The cholesterol HDL which is the high-density lipoproteins cholesterol is known as “good cholesterol” as its role is to transport cholesterol from the arteries to the liver and thus protects the body against heart diseases.
The cholesterol LDL test helps in determining the risk of heart disease in an individual. It also helps in planning out the treatment considering other known risk factors as well. The treatment can involve changes in lifestyle such as diet and exercise or lipid-lowering medications such as statins.
Know more about Cholesterol - LDL
Glycosylated Hemoglobin
Glycosylated Hemoglobin Test measures the percentage of glycosylated hemoglobin in blood which reflects the average blood glucose over a period of past two to three months (8 - 12 weeks).
Hemoglobin is the protein found in Red Blood Cells and is responsible for transporting oxygen. Of the different types of hemoglobin, Hemoglobin A is predominant. With the elevation of blood sugar levels, some glucose binds spontaneously to Hemoglobin A (this binding is called Glycosylation or Glycation) and remains bound for the complete lifetime of the RBC, which is 120 days normally. Higher the level of glucose in the blood, greater is the amount of it binding to Hemoglobin A. Hemoglobin A1c is the dominant form of Glycated Hemoglobin. As RBCs die and are replaced, Hemoglobin A1c is cleared and slowly replaced with non-glycosylated hemoglobin. Measurement of HbA1c level over a period of time gives an indication of the level of glucose in the blood over the specified period of time. This helps in the diagnosis of Diabetes and is useful for monitoring the effectiveness of measures taken to reduce blood sugar levels.
Know more about Glycosylated Hemoglobin
Complete Blood Count
Blood Stag is composed of blood cells suspended in blood plasma (yellowish-colored liquid). The blood cells include red blood cells (also called RBCs or erythrocytes), white blood cells (also called WBCs or leukocytes), and platelets (also called thrombocytes).
Red blood cells (RBCs) are the most abundant blood cells. RBCs contain hemoglobin which helps in the transportation of oxygen to the tissues. RBC count is the measurement of the number of RBCs in a given volume of blood.
Packed Cell Volume (PCV) or Hematocrit (Hct) is the measurement of the blood volume occupied by RBCs. It is expressed in percentage.
White blood cells (WBCs) are key components of the immune system and thus protect the body from various infections and cancers. Total Leucocyte count (TLC) is the measurement of the total number of leukocytes (WBCs) in a given volume of blood.
There are five types of WBCs:
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Neutrophils
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Basophils
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Eosinophils
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Lymphocytes
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Monocytes
Differential Leucocyte Count (DLC) determines the percentage of different types of WBCs.
Neutrophils, Basophils, and Eosinophils are called Granulocytes because of the presence of granules inside these cells.
Absolute count of different types of WBCs is the measurement of their absolute numbers in the given volume of blood.
Platelet count - Platelets (also called thrombocytes) are disc-shaped cell fragments without a nucleus that help in blood clotting. Platelet count is the measurement of the number of platelets in a given volume of blood.
Mean Platelet Volume (MPV) is a measurement of the average size of platelets.
PDW or platelet distribution width refers to the variation of platelet size distribution
Hemoglobin (Hb) - Hemoglobin (Hb) is a protein found in red blood cells (RBCs) that carries oxygen from the lungs to the body tissues, exchanges the oxygen for carbon dioxide, and then carries the carbon dioxide back to the lungs where it is exchanged for oxygen.
Mean Corpuscular Volume (MCV) is the average volume of a red blood cell.
Mean Corpuscular Hemoglobin (MCH) is the average amount of hemoglobin in the average red blood cell.
Mean Corpuscular Hemoglobin Concentration (MCHC) is the average concentration of hemoglobin in a given volume of red cells.
Red Cell Distribution Width Coefficient of variation (RDW CV)is a measurement of the variability of the red blood distribution curve and their mean size.
Know more about Complete Blood Count
PDW
RDW CV
Absolute Lymphocyte Countx
Absolute Neutrophil Count
It gives us a measure of one of the components of the white blood cells , called Neutrophils. While all white blood cells help your body fight infections, neutrophils are important for fighting against bacterial infection.
Differential leucocyte Count
- Differential Neutrophil Count
- Differential Lymphocyte Count
- Differential Monocyte Count
- Differential Eosinophil Count
- Differential Basophil Count
Blood is made up of different types of cells which are suspended in a fluid called plasma. These include erythrocytes or red blood cells, leukocytes or white blood cells, and platelets. Blood cells are produced by the hematopoietic cells in bone marrow and are then released into circulation. RBCs carry oxygen to the tissues, platelets help in blood clotting at a site of injury, and leukocytes form an integral part of the immune system of the body.
WBCs are of five types, each having a different function and present in different numbers:
1. Neutrophils: Under normal conditions, the number of neutrophils present is higher than any other type of WBCs.. They provide protection against pathogens, mostly bacteria and sometimes fungi. Neutrophils engulf the pathogens completely and digest them (the process is called phagocytosis). They are usually associated with acute or short-term infections.
2. Eosinophils: Eosinophils are WBCs that are primarily responsible to fight parasitic infections. They are also involved in allergic reactions and regulation of the extent of immune response.
3. Basophils: Basophils are WBCs which are present in the lowest numbers in circulation. They are considered to play an important role in allergic response.
[Neutrophils, eosinophils, and basophils are together classified as granulocytes. Granulocytes are the WBCs which contain granules present in their cytoplasm. These granules secrete chemicals during immune response.]
4. Monocytes: Monocytes are WBCs which are also involved in protection against infectious pathogens by phagocytosis like neutrophils. However, monocytes are more commonly associated with chronic or long-term infections.
5. Lymphocytes: These are specialized WBCs which are responsible for recognizing and neutralizing foreign (non-self) cells and cancer cells in the body. Lymphocytes are of three types, all of which are differentiated from a common type of lymphocyte progenitor cell:
· T cells or T lymphocytes are produced in the bone marrow and mature in the thymus gland. They are responsible for differentiating between self and non-self cells of the body. T cells are also responsible for the initiation and extent of immune response, and targeted destruction of cancer cells and virus.
· B cells or B lymphocytes are control acquired immunity by producing antibodies against antigens found on foreign cells and pathogens like bacteria and viruses.
· Natural killer cells or NK cells destroy all foreign cells tagged by antibodies, cancer cells and virus-infected cells by phagocytosis.
Depending on various factors like age, gender, health condition, environmental factors, etc., varying amounts of different types of WBCs circulate in the blood. The bone marrow increases production of WBCs in response to an infection or inflammation anywhere in the body, which are then called to the site by a series of chemical signals, where they work to treat the condition. Depending on the condition, the count of one or more types of WBCs remains high in the blood. Once the condition subsides, WBC production by the bone marrow decreases and their count in circulation falls back to normal levels. Elevated amount of one or more types of leukocytes for a long time may be an indication of a chronic condition that is not resolving naturally and might need urgent attention.
Apart from an infection or inflammation, WBC count in blood can also be affected by other conditions like disorders of the immune system, autoimmune conditions, cancer, etc. One or more types of WBC count may be higher or lower than normal in these cases.
Differential Leukocyte Count Test serves as an indication of a condition affecting the body. Further tests are performed to confirm a particular condition and direct treatment.
This further contains
Red Blood Cell Count
Hemoglobin
The hemoglobin test measures the amount of hemoglobin in the blood.
Hemoglobin (Hb) is a protein found in red blood cells (RBCs) that carries oxygen from the lungs to the body tissues, and to exchange the oxygen for carbon dioxide. Hemoglobin then carries the carbon dioxide back to the lungs and where it is exchanged for oxygen. Iron is an essential part of hemoglobin. Most blood cells, including red blood cells, are produced regularly in your bone marrow (present within the cavities of many of large bones). To produce hemoglobin and red blood cells, your body needs iron, vitamin B12, folate and other nutrients from the foods you eat.
A decrease in hemoglobin concentration in blood results in anemia. Anemia is a blood disorder characterized by a decrease in the total amount of red blood cells (RBCs) or hemoglobin in the blood or a lowered ability of the blood to carry oxygen to body organs and tissues. Anemia is the most common blood disorder, affecting about a third of the global population and can cause symptoms like tiredness (fatigue), weakness, shortness of breath etc.
The hemoglobin test is usually performed as a part of complete blood count (CBC) test.
Platelet Count
The platelets will adhere to the injury site
The platelets will accumulate at the injury site
The platelets will release chemical compounds which stimulate gathering of other platelets
The platelet count measures the number of platelets present in the blood. Platelets are also known as thrombocytes which are tiny fragments of cells. These are formed from large cells which are found in the bone marrow known as megakaryocytes. After the platelets are formed, they are released into the blood circulation.
Whenever there is an injury to a tissue or blood vessel, bleeding starts. At this point, platelets help in stopping the bleeding in three ways:
With these steps, a loose platelet connection forms at the site of injury. This process is known as primary hemostasis. The activated platelets start to support the coagulation cascade which involves a series of steps that includes the sequential activation of clotting factors. This process is known as secondary hemostasis which results in the formation of fibrin strands that knit through the loose platelet connection to form a fibrin net. After that, the connection is compressed to form a stable clot so that it remains in place until the injury heals. Once the injury is healed, other factors come into play and break it down so that it gets removed.
In case the platelets are not sufficient in number or are not functioning properly, a stable clot might not form. These unstable clots can result in an increased risk of excessive bleeding.
Total Leucocyte Count
Blood is made up of different types of cells suspended in a fluid called plasma. These include erythrocytes or red blood cells, leukocytes or white blood cells, and platelets. Blood cells are produced by the hematopoietic cells in bone marrow and are then released into circulation. RBCs carry oxygen to the tissues, platelets help in blood clotting at a site of injury, and leukocytes form a part of the immune system of the body. WBCs are of five primary types: neutrophils, basophils, eosinophils, monocytes, and lymphocytes. Lymphocytes are further of three types: B-Lymphocytes, T-Lymphocytes, and natural killer (NK) cells. Neutrophils, basophils, eosinophils are collectively called granulocytes since they contain granules in cytoplasm.
Depending on various factors like age, gender, health condition, environmental factors, etc., varying amounts of different types of WBCs circulate in the blood. The bone marrow increases the production of WBCs in response to an infection or inflammation anywhere in the body. These WBCs are called to the site by a series of chemical signals, where they work to treat the condition. During this time, the total leukocyte count remains high in blood. Once the infection or inflammation subsides, WBC production by bone marrow decreases and WBC count in circulation falls back to normal levels. A continuously elevated WBC count may thus be an indication of a chronic condition that is not resolving naturally and might need urgent attention.
Apart from an infection or inflammation, WBC count in blood can also be affected by other conditions like disorders of the immune system, autoimmune conditions, cancer, etc. WBC count may be higher or lower than normal in these cases.
WBC count test serves as an indication of a condition affecting the body. Further tests are performed to confirm a particular condition and direct treatment.
Absolute Basophil Count
Absolute Monocyte Count
Absolute Eosinophil Count
The absolute eosinophil count measures the number of eosinophils present in the blood. Eosinophils, a type of white blood cells, helps in fighting the disease. These come into action for are said to be linked with certain infections and allergic diseases. The eosinophils are produced and mature in the bone marrow. They usually take about 8 days to mature and then are moved to blood vessels.
The eosinophils have varied functions which include the physiological role in organ formation such as the development of post-gestational mammary gland. Other functions include its movement to the areas of inflammation, trapping substances, killing cells, bactericidal and anti-parasitic activity. It also helps the treatment of immediate allergic reactions and modulation of inflammatory responses.
Hematocrit
Human blood is made up of erythrocytes or red blood cells, leukocytes or white blood cells, and platelets suspended in a fluid called plasma. Each of the component of blood performs a specific function. The packed cell volume or hematocrit is a ratio of the volume occupied by the RBCs to the total volume occupied by all the blood components or whole blood.
The RBCs transport inhaled oxygen from the lungs to all the cells of the body, and also a small amount of carbon dioxide from the cells to the lungs to be exhaled. The majority of carbon dioxide is transported in solution in plasma as bicarbonate ions. They contain a protein called hemoglobin which binds to oxygen for transport.
RBCs are produced in the erythropoietic cells of the bone marrow in response to the hormone Erythropoietin secreted by the kidneys when oxygen saturation of blood is detected to be low (hypoxia). The average lifespan of RBCs in circulation is 120 days. Hence, the bone marrows continuously produce RBCs to maintain a steady concentration in blood. The Packed Cell Volume Test depends on the count as well as the average size of the RBCs (Mean Corpuscular Volume or MCV). Higher than normal amount of RBCs produced by the bone marrow can cause the hematocrit to increase, leading to increased blood density and slow blood flow. Lower than normal hematocrit can be caused by low production of RBCs, reduced lifespan of RBC in circulation, or excessive bleeding, leading to reduced amount of oxygen reaching the cells.
Mean Corpuscular Volume
Mean Corpuscular Hemoglobin
Mean Corpuscular Hemoglobin Concentration
Mean Platelet Volume
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Creatinine
Creatinine is a waste product which is produced by the muscles due to the breakdown of a compound called Creatine. During the cycle of energy production which is required to contract muscles, creatine is produced. Kidneys remove creatinine from the body by filtering it from the blood and then releasing it into the urine. This test measures the amount of creatinine in the blood.
The body produces creatine and creatinine at a relatively same rate. Since kidneys filter most of the creatinine from the blood and release it into the urine, the blood levels can be used as an indicator to know how well the kidneys are functioning. The amount of creatinine produced depends upon the size of the person as well as their muscle mass. That is why levels of creatinine are higher in men as compared to women and children.
Know more about Creatinine
Cholesterol - Total
Cholesterol is essential for life, as it is required by the body to work properly. It plays a role in the formation of cell membranes in all organs and tissues in the body. It is associated with the formation of hormones which are important for development, growth, and reproduction. It forms bile acids, which help to absorb nutrients from food.
In the blood, a small amount of cholesterol circulates in the form of lipoproteins which contains protein, cholesterol, triglyceride, and phospholipid molecules. These are classified according to their density into HDL (high-density lipoproteins), LDL (low-density lipoproteins), and VLDL (very low-density lipoproteins). HDL cholesterol is also known as good cholesterol, as it carries excess cholesterol away for disposal while LDL cholesterol is also known as bad cholesterol, as it deposits cholesterol in tissues and organs.
It is important to maintain and monitor the levels of cholesterol for a healthy lifestyle. The source of cholesterol is diet as well. If a person is taking too much of cholesterol-rich foods, it can cause a rise in levels of cholesterol in the blood. The amount of cholesterol which is not required by the body starts to deposit in the form of plaques on the walls of blood vessels. These plaques can narrow or block the blood vessels opening which can lead to the hardening of arteries known as atherosclerosis. Also, with an increase in cholesterol levels, there is an increased risk of various conditions such as heart disease and stroke.
Know more about Cholesterol - Total
Urine Routine & Microscopy
Urine Routine and Microscopy test involve the three-part evaluation of the urine sample.
1. Gross Examination - It involves the visual examination of the urine sample for color and appearance.
2. Chemical Examination - It is done by urine dip-stick method which involves the use of reagent test strips. These test strips are dipped into the urine sample and the colors that develop are matched with the control for analysis. It is done to examine the urine sample for glucose, protein, pH, specific gravity, blood, nitrites, ketones, leukocyte esterase, bilirubin, and urobilinogen.
3. Microscopic Examination - It involves the examination of the urine sample under the microscope for casts, crystals, cells, bacteria, and yeast.
Know more about Urine Routine & Microscopy
Glucose - Fasting Urine
The Glucose - fasting urine test measures the levels of glucose in urine during the period of fasting. The most common cause of high levels of glucose in the urine is diabetes. In diabetes, the way the body processes the glucose gets affected. The insulin hormone is responsible for controlling the metabolism of glucose in the blood. In diabetic patients, the body is either not able to make enough insulin or the body is not able to utilize the insulin produced. Due to this, the glucose starts to build up in the blood and the kidneys are not able to control it to release it into the urine.
The presence of glucose in the urine is termed as glycosuria or glucosuria. This could be due to side effects caused by certain medicines or problems in the kidney, such as renal glycosuria.
Urobilinogen
Ketone
Nitrite
Colour
Appearance
Specific Gravity
Epithelial Cell
Casts
Crystals
Protein Urine
The Protein, Urine measures the excessive protein excreted in the urine. The urine protein tests measure the protein which is released into the urine. Normally, the urine protein elimination is less than 150 mg/day and less than 30 mg of albumin/day. Temporarily raised levels may be seen in conditions such as stress, infections, pregnancy, cold exposure, diet, or heavy exercise.
The appearance of persistent protein discharge in the urine suggests possible kidney damage or the requirement of additional tests to know the cause.
In a normal functioning kidney, the filtered proteins are retained or reabsorbed and sent back to the blood. Whereas, if any damage is caused to the kidneys then it may affect their functioning which may cause detectable amounts of protein extracted into the urine.
Ph for Urine
Other tests
