The oldest monitor in the world is in a museum in Melbourne, Australia.
The BBC is reporting that the Monitor is a Chinese device that measures blood flow, oxygen levels and the oxygen in your blood.
The monitor measures the oxygen levels in your bloodstream and uses a technology called ultrasound to measure the pressure.
It measures oxygen levels via a special sensor and has been in use since about the 1920s.
The Monitor is one of only two devices in the history of the world to measure oxygen levels using ultrasound.
In the US, the American Heart Association uses a device called a oxygen monitor to measure how much oxygen is present in the blood and how quickly it is converted into oxygen.
The American Heart Foundation has more than 70 monitors in the US.
The Monitor is the world’s first monitor that measures oxygen level in the human blood and is one in a series of sensors that have been in the works for about 50 years.
They have been a major innovation in the monitoring of cardiovascular health.
The British Royal Society of Medicine has been testing and developing devices for more than 30 years.
The US National Institutes of Health has been experimenting with sensors for more years.
At first, it was thought that there was no need to make the monitors smaller because of the huge amount of data it could gather.
But after several years of testing, researchers at the University of Southern California decided to make them smaller to try and make them more effective at measuring oxygen levels.
They were able to do that by increasing the resolution of the monitors.
When you think about the Monitor, you have to think about it as a little bit of a pocket watch, but in reality it is the largest, most powerful piece of portable monitoring equipment on the planet.
Its name comes from the fact that it measures the amount of oxygen in the body.
The monitors are made from a silicon wafer and are about the size of a credit card.
When the sensors are set up, they vibrate a few times, creating a signal that gives the signal to a microphone on the side of the device.
The microphone picks up the sound of the vibrations and a signal is sent to the computer, which measures the level of oxygen within the body and compares that with a database of data about the oxygen supply in the bloodstream.
If oxygen levels are low, the Monitor then turns off and stops monitoring the oxygen level.
The signal is then sent back to the sensor and it measures it again.
The result is a picture of the oxygen content in the system.
In order to measure blood flow in a person, the monitors also measure how quickly the blood vessels can expand and contract.
This is measured by measuring the pressure in the capillaries of the blood vessel that is supplying oxygen.
This pressure is measured with an electrocardiogram (ECG).
If the monitor is set to record the blood flow rate, the monitor will record a reading on a special tape.
When a person is being tested, the tape is then put back into the monitor and the blood pressure recorded again.
If there is a problem, the blood pressures can be adjusted manually, or by using the blood test kits.
It was developed in the 1950s by a group of scientists in Shanghai, China.
The original Monitor was the first medical device that used ultrasound to monitor blood flow.
It was developed by the University for the Treatment of Hemophilia (UTH), a medical institute in Shanghai.
It is also the only medical device with a single pulse sensor, a technology that is still in use in the UK.
Scientists were so fascinated by the Monitor that they went back to their labs to make more.
They put the sensors in the lungs of a pig, which were then turned into a pig model.
This made it possible to measure pressure in each of the pig’s organs.
A blood test was then made for each organ to give a measurement of blood flow and oxygen level within each organ.
When oxygen levels were high, the pigs were being monitored.
What’s fascinating about the monitors is that they work for the first time in humans, so they can give a detailed picture of how oxygen levels change with age.
The measurements can be taken by an individual who has had heart attacks, strokes or cancer.
The researchers have also developed the device to measure other things like heart rate, blood pressure and body temperature.
Dr Matthew Pritchard, a consultant cardiologist at St George’s, University of London, says the Monitor has an amazing range of uses in the field of medical research.
‘The Monitor can be used as a very sensitive device that can detect changes in blood flow when there are changes in oxygen levels,’ he said.
Another interesting application is the Monitor can measure oxygen in different parts of the body, including the lungs.
The heart monitor monitors the oxygen and glucose levels in the tissues that make up the heart and the monitor can then determine whether there are any problems with the blood supply to the heart.