You should not feeling well. You've had a headache all week, feel dizzy and have thrown up the previous few meals.
You meet along with your GP to get some answers and sit as they put a light-weight in your eyes, order blood tests and request some medical imaging.
What your GP did will depend on the sunshine. These are only among the optical technologies which have greatly influenced the best way we diagnose disease.
1. Test on the spot
Point-of-care diagnostics allow doctors to check patients on the spot and get answers in minutes as an alternative of sending samples to a lab for evaluation.
The “flashlight” your GP uses to look inside your eye (called a ophthalmoscope) is an ideal example. This allows doctors to detect abnormal blood flow in the attention, damage to the cornea (the clearest layer of the attention) or a swollen optic disc (a round section in the back of the attention where nerve connections to the brain begin). allows Swollen discs are an indication of elevated pressure inside your head (or within the worst case, a brain tumor) that will occur. Causes your headache.
The invention of Lasers and LEDs has enabled many other small technologies to be delivered on the bedside or clinic slightly than within the lab.
A well-liked example is pulse oximetry, where a clip attached to your finger indicates how well your blood is oxygenated. It does this through. Measurement Different responses of oxygenated and deoxygenated blood to different colours of sunshine.
Pulse oximetry is utilized in hospitals (and sometimes at home) to watch your respiratory and heart health. In hospitals, it's also a helpful tool for detection Heart failure in children.
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2. Looking at molecules
Now, back to that blood test. Analyzing a small amount of your blood can diagnose many alternative diseases.
A machine called an automatic “full blood count analyzer” tests in your general health markers. The machine directs focused beams of sunshine through blood samples held in small glass tubes. It counts the variety of blood cells, determines their specific type, and reports the extent of hemoglobin (the protein in red blood cells that carries oxygen throughout your body). In minutes, this machine can provide a Snapshot of your overall health.
For more specific disease markers, blood serum is separated from heavy cells by spinning in a rotating device called a centrifuge. The serum is then exposed to special chemical stains and enzyme assays that change color depending on whether specific molecules, which could also be indicative of a disease, are present.
These color changes can't be seen with the naked eye. However, a beam of sunshine from a tool called a Spectrometer It can detect trace amounts of those substances within the blood and determine whether biomarkers for diseases are present, and at what levels.
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3. Medical imaging
Let's revisit the medical images your GP ordered. Developments in fibre-optic technology, best known for replacing high-speed digital communications (resembling the NBN), allow light to go through the body. The result? High-resolution optical imaging.
A standard example is a Endoscopewhere fibers with a small camera on the top are inserted into natural body openings (resembling your mouth or anus) to look at your intestines or respiratory tract.
Surgeons can insert the identical technology through small cuts to view the inside the body on a video screen. Laparoscopic surgery To diagnose and treat disease (also called hole surgery).
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What concerning the future?
Advances in nanotechnology and a greater understanding of the interaction of sunshine with our tissues are resulting in latest light-based devices to assist in disease diagnosis. These include:
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Nanomaterials (a really small-scale material, several thousand times smaller than the width of a human hair). These are getting used in next-generation sensors and latest diagnostic tests.
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Wearable optical biosensors The size of your nails may be added to accessories resembling watches, contact lenses or finger wraps. These devices allow non-invasive measurement of sweat, tears and saliva in real time
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AI tools to research how blood serum scatters infrared light. This has allowed researchers to create a Comprehensive database of scattered patterns for detection No cancer
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One type is named non-invasive imaging. Optical coherence tomography For more detailed imaging of the attention, heart and skin
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To provide a miniature microscope within the body on fiber optic technology The tip of the needle.
So the subsequent time you're on the GP and so they run (or order) some tests, chances are high a minimum of considered one of those tests will depend on light to assist diagnose a disease.