A blood test is a laboratory analysis performed on a blood sample that is usually extracted from a vein in the arm using a hypodermic needle, or via fingerprick. Multiple tests for specific blood components, such as a glucose test or a cholesterol test, are often grouped together into one test panel called a blood panel or blood work. Blood tests are often used in health care to determine physiological and biochemical states, such as disease, mineral content, pharmaceutical drug effectiveness, and organ function. Typical clinical blood panels include a basic metabolic panel or a complete blood count. Blood tests are also used in drug tests to detect drug abuse.
A venipuncture is useful as it is a minimally invasive way to obtain cells and extracellular fluid (plasma) from the body for analysis. Blood flows throughout the body, acting as a medium that provides oxygen and nutrients to tissues and carries waste products back to the excretory systems for disposal. Consequently, the state of the bloodstream affects or is affected by, many medical conditions. For these reasons, blood tests are the most commonly performed medical tests.
In dwelling arterial, central venous and peripheral venous lines can also be used to draw blood.
Phlebotomists, laboratory practitioners and nurses are those in charge of extracting blood from a patient. However, in special circumstances, and emergency situations, paramedics and physicians extract the blood. Also, respiratory therapists are trained to extract arterial blood to examine arterial blood gases.
A basic metabolic panel measures sodium, potassium, chloride, bicarbonate, blood urea nitrogen (BUN), magnesium, creatinine, glucose, and sometimes calcium. Tests that focus on cholesterol levels can determine LDL and HDL cholesterol levels, as well as triglyceride levels.
For the majority of tests, blood is usually obtained from the patient's vein. Other specialized tests, such as the arterial blood gas test, require blood extracted from an artery. Blood gas analysis of arterial blood is primarily used to monitor carbon dioxide and oxygen levels related to pulmonary function, but is also used to measure blood pH and bicarbonate levels for certain metabolic conditions.
Blood tests results should always be interpreted using the ranges provided by the laboratory that performed the test. Example ranges are shown below.
|Urea||2.5||6.4||mmol/L||Blood urea nitrogen|
|Creatinine - male||62||115||?mol/L|
|Creatinine - female||53||97||?mol/L|
|Creatinine - male||0.7||1.3||mg/dL|
|Creatinine - female||0.6||1.2||mg/dL|
|Glucose (fasting)||3.9||5.8||mmol/L||See also glycated hemoglobin|
Upon completion of a blood test analysis, patients may receive a report with blood test abbreviations. Examples of common blood test abbreviations are shown below.
|HDL||High Density Lipoprotein||Level of "good cholesterol" in the blood (ratio of HDL:LDL is usually more significant than actual values)|
|LDL||Low Density Lipoprotein||Level of "bad cholesterol" in the blood (ratio of HDL:LDL is usually more significant than actual values)|
|PV||Plasma Viscosity||Plasma Viscometry (PV) is the measurement of the viscosity of blood plasma. The end result is a number given in milliPascal seconds (m.Pas.s) - known as the PV, or plasma viscosity.|
|CRP||C-Reactive Protein||Level of inflammation with the body. If the immune system is fighting an infection or illness, CRP will be higher.|
|Complete Blood Count
(UK: Full Blood Count)
|Analysis of 15 different blood test readings to provide information about overall health.|
|TSH||Thyroid-stimulating hormone||Thyroid regulates the function of metabolism. Low levels can lead to weight loss, while high levels lead to weight gain.|
|PTH||Parathyroid hormone||Regulates serum calcium|
|ESR||Erythrocyte Sedimentation Rate||Indicates the time it takes for red blood cells to move down a tube. This shows signs of inflammation within a body.|
|INR||International Normalized Ratio||This is a blood clotting test.|
|LFT||Liver Function Test||This test reveals the levels of waste products, enzymes and proteins that are processed by the liver.|
|U+E||Urea and Electrolytes||This test is performed to measure the function of kidney.|
|CMP||Comprehensive Metabolic Panel||This analysis provides an overall picture of the metabolism and chemical balance of the body.|
|WBC||White Blood Cell Count||The level of white blood cells.|
|RBC||Red Blood Cell Count||The level of red blood cells.|
|HBC||Hemoglobin||Level of hemoglobin molecules.|
|HCT||Hematocrit||Similar to RBC but in percentage.|
|PLT||Platelets||Platelets levels in the blood.|
In 2008, scientists announced that the more cost effective saliva testing could eventually replace some blood tests, as saliva contains 20% of the proteins found in blood. Saliva testing may not be appropriate or available for all markers. For example, lipid levels can't be measured with saliva testing.
In February 2011, Canadian researchers at the University of Calgary's Schulich School of Engineering announced a microchip for blood tests. Dubbed a microemulsion, a droplet of blood captured inside a layer of another substance. It can control the exact size and spacing of the droplets. The new test could improve the efficiency, accuracy, and speed of laboratory tests while also doing it cheaply. The microchip costs $25, whereas the robotic dispensers currently in use cost around $10,000.
In March 2011, a team of researchers from UC Berkeley, DCU and University of Valparaíso have developed lab-on-a-chip that can diagnose diseases within 10 minutes without the use of external tubing and extra components. It is called Self-powered Integrated Microfluidic Blood Analysis System (SIMBAS). It uses tiny trenches to separate blood cells from plasma (99 percent of blood cells were captured during experiments). Researchers used plastic components, to reduce manufacturing costs.