Hyperspectral Imaging, Helping to Aid Cancer Research
During the early 2000s, cancer research was nowhere near as advanced as it is today. Biologists studying cancer cells all came across the same issue--cancer cells were not living long enough to be closely studied and monitored. So, thus came the advancement of the hyperspectral microscope, allowing researchers to snap pictures of parts of the body afflicted with tumors.
- What does hyperspectral imaging identify? (How does it work)?
- What are the positives of using hyperspectral imaging to identify cancers? Negatives?
- What other diseases may hyperspectral imaging help to identify? (Hint: Neurological)
- Other uses for hyperspectral imaging?
1. Hyperspectral imaging has the ability to identify objects or disease conditions based on the chemical composition of tissue within the field of view of the sensor. By working closely with medical collaborators, the sensors were ‘tuned’ to the precise spectral features of interest that scientists are looking to find. By offering a precise definition of the boundaries of the cancer tissue in real-time, hyperspectral imaging can potentially accelerate cancer diagnosis and improve proper cancer removal.
ReplyDelete2. The positives of using this technology is that it makes it easier to spot and identify cancer. The negatives is that it's still in development.
3. Hyperspectral imaging may also help with other brain diseases such as Alzheimers and other brain deficiencies in the future.
4. Find other areas of the body that have other kinds of diseases. The sky is the limit really.
1. the article skims over how hyperspectral imaging works. they state that it has the ability to identify objects or disease conditions based on the chemical composition of tissue within the field of view of the sensor. Lung Cancer News Today stated that the hyperspectral sensor system can “potentially accelerate cancer diagnosis and improve proper cancer removal ultimately saving lives.” Hyperspectral imaging systems have been used extensively in biological and medical applications, including wound analysis, fluorescence microscopy, and cell biology. It basically differentiates between cancer and normal tissue and allows you to see the 3-D specs and images of that area.
ReplyDelete2. Positive impacts of using hyperspectral imaging to identify cancers is, well, the fact that it identifies cancers is a huge positive. In addition, it differentiates between normal tissue and cancerous tissue so you can get a clear understanding of where the cancer is. Correspondingly It allows you to get a 3-D image of the organ so you can see and pinpoint the cancer. Lastly, Hyperspectral imaging allows for apoptosis or calculated cell death. No more will we aimlessly spike radiation through the patient, now we can find the exact location, diameter, and depth of the cancer. But a drawback is how expensive it gets for these, coordinately how complex building and using these are.
3. Some chemical hazzards can corrupt the air Soldiers can be exposed to a wide variety of chemical hazards. These threats are mostly invisible but detectable by hyperspectral imaging technology. The Telops Hyper-Cam, introduced in 2005, has demonstrated this at distances up to 5 km and with concentrations as low as a few ppm. Hyperspectral imaging (HSI) also offers high potential as a non-invasive diagnostic tool for disease detection. In this paper leaf characteristics and spectral reflectance of sugar beet leaves diseased with Cercospora leaf spot, powdery mildew and leaf rust at different development stages were connected. Light microscopy was used to describe the morphological changes in the host tissue due to pathogen colonisation. Under controlled conditions a hyperspectral imaging line scanning spectrometer (ImSpector V10E) with a spectral resolution of 2.8 nm from 400 to 1000 nm and a spatial resolution of 0.19 mm was used for continuous screening and monitoring of disease symptoms during pathogenesis.
4. Other uses for this systems are vast. Hyperspectral imaging technology is ideally suited for defense applications and target identification, allowing identification of man-made materials, distinguishing them from natural surroundings. In addition, Resonon's hyperspectral imaging systems have been used throughout the pharmaceutical industry to improve quality control. Our systems have been designed to identify various drugs, detect counterfeit and foreign material, inspect packaging integrity, and analyze powder mixing. Resonon's hyperspectral imaging systems have been used extensively throughout the food industry, identifying defects, characterizing product quality, and locating contaminants.
1. Hyperspectral imaging is able to discriminate between healthy and cancerous brain tisuses that can often look to be the same, which makes it difficult to isolate under tranditional imaging techniques. It is able to work by essentially tuning hte sensors to find the spectral features that the scientists desired to find.
ReplyDelete2. The positive benefits to using this type of technology allows for a future where they can potentially accelerate cancer diagnosis and improve cancer tissue removal, to help save more lives. It also helps surgeons map the exact tissue that they need to remove, leaving the healthy tissue untouched. As with any new technology there is always a possibility for a malfunction or side effect, but this article did not mention any.
3. Hyperspectral imaging could also be used to locate other diseases including different types of cancer or alzheimers that could then distinguished and prevented from the indenitfying factors of said diseases.
4. Other uses for hyperspectral imaging could be for security and defense to distinguish man-made materials from their natural surroundings.
1) Hyperspectral imaging is able to tell the difference between healthy and cancerous brain tissues affecting the body that would otherwise look the same. With this system, it makes it easier to eliminate cancer cells.
ReplyDelete2) This has benefits to it such as allowing for faster elimination of cancer cells along with improving the removal process. The other benefits is it allows for surgeons to have more precision in mapping the designated area.
3) Hyperspectral imaging could be used for many other hard to track diseases such as Alzheimers or something else just as bad.
4) There are also various defensive aspects to this too. Using this imaging to distinguish the difference between natural materials and man made ones is a big leap in the defensive part of our country.
1. This article goes over how hyper-spectral imaging works, they state that it has the ability to identify objects or disease conditions based on the chemical composition of tissue within the field of view of the sensor. Lung Cancer News Today stated that the hyper spectral sensor system can “potentially accelerate cancer diagnosis and improve proper cancer removal ultimately saving lives.” Hyper spectral imaging systems have been used extensively in biological and medical applications, including wound analysis, fluorescence microscopy, and cell biology. It basically differentiates between cancer and normal tissue and allows you to see the 3-D specs and images of that area. But it can also defect your brain because of the radiation
ReplyDelete2. Positive impacts of using hyper-spectral imaging to identify cancers is, well, the fact that it identifies cancers is a huge positive. In addition, it differentiates between normal tissue and cancerous tissue so you can get a clear understanding of where the cancer is. Correspondingly It allows you to get a 3-D image of the organ so you can see and pinpoint the cancer. Lastly, Hyper-spectral imaging allows for apoptosis or calculated cell death. No more will we aimlessly spike radiation through the patient, now we can find the exact location, diameter, and depth of the cancer. But a drawback is how expensive it gets for these, coordinately how complex building and using these are.
3. Some chemical hazards can corrupt the air Soldiers can be exposed to a wide variety of chemical hazards. These threats are mostly invisible but detectable by hyper-spectral imaging technology. The Tel ops Hyper-Cam, introduced in 2005, has demonstrated this at distances up to 5 km and with concentrations as low as a few ppm. Hyper-spectral imaging (HSI) also offers high potential as a non-invasive diagnostic tool for disease detection. In this paper leaf characteristics and spectral reflectant of sugar beet leaves diseased with Cercospora leaf spot, powdery mildew and leaf rust at different development stages were connected. Light microscopy was used to describe the morphological changes in the host tissue due to pathogen colonization. Under controlled conditions a hyper-spectral imaging line scanning spectrometer (Inspector V10E) with a spectral resolution of 2.8 nm from 400 to 1000 NM and a spatial resolution of 0.19 mm was used for continuous screening and monitoring of disease symptoms during parthenogenesis.
4. Other uses for this systems are vast. Hyper-spectral imaging technology is ideally suited for defense applications and target identification, allowing identification of man-made materials, distinguishing them from natural surroundings. In addition, Resonator's hyper-spectral imaging systems have been used throughout the pharmaceutical industry to improve quality control. Our systems have been designed to identify various drugs, detect counterfeit and foreign material, inspect packaging integrity, and analyze powder mixing. Resonator's hyper-spectral imaging systems have been used extensively throughout the food industry, identifying defects, characterizing product quality, and locating contaminants.
1. Hyper spacing imaging is an advanced technique used to find diseases and conditions by analyzing the chemical composition of human tissue. It can help to identify healthy and diseased tissue. It has been tuned to a precise spectrum used to find diseased brain tissue. The technology is helpful because it can quicken cancer diagnosis and increase the chance of success for the patient.
ReplyDelete2. The technology makes it easier to identify brain cancer as well as map diseased vs healthy tissue to ensure healthy tissue is not removed. The only negative is that it is still an emerging technology which makes it inaccessible and expensive.
3. Hyper spectral imaging cold be used to identify a whole variety of diseases in not only the brain but other parts of the body too. The potential for the technology is massive.
4. As I mentioned in #3 it can be used in any part of the body and for a whole variety of diseases. We could eventually develop full body scans that can quickly determine the condition of the body.
1. Hyper spectral imaging is a advanced technology based system that allows you to see different diseases and conditions in your body by analyzing the chemical composition of human tissue.
ReplyDelete2. The positives of this system is it i easy to identify diseases and medical conditions in your body other than finding it out to late. Also it can also improve cancer tissue removal. With all of this technology there always a possibility that something will go wrong.
3. The different types of diseases that the Hyper spectral imaging can identify are something like Alzheimer and cancer etc... Those diseases can be prevented and avoided.
4. Other uses for hyper spectral imaging is using it for defense for avoiding man made unhealthy materials away from humans.
4.
1) This type of imaging allows for scientists to distinguish cancerous cells from other normal cells. This is particularly important in brain cancer research due to these cancer cells. Unlike other cancer cells, brain cancer can looks incredibly similar to the surrounding normal tissue. This makes it harder to diagnosis and harder to treat as they have trouble tracking its movement. This technology makes it easier as it distinguishes the healthy tissue from the cancerous ones.
ReplyDelete2) The major positive of this type of imaging is how it actually detects the tissue. Unlike other imaging, hyperspectral imaging detects diseased cells based on the chemical compositions of the tissue being observed. Due to the similar outward appearance of some cancer cells, particularly brain cancer cells, its chemical signature can’t hide it. This type of technology could speed up cancer diagnosis and removal significantly. This also allows for doctors to locate the cancer in a less generalize way, allowing them to leave healthy tissue alone and attack just the cancerous tissue. There doesn’t seem to really be any negatives to this technology besides the cost to health facilities to update their technology, which they should be doing anyways.
3) Besides its ability to detect and isolate cancerous tissue, hyperspectral imaging has many application in medicine. For example, this technology can be a great improvement in diagnosing heart disease. The current method of angiography is limited in its detection as it can only find stenotic plaques. Hyperspectral imaging would be more precise and accurate as it could not only detect different types of plaques but also provide a much more in depth understanding of the area in question. Furthermore, this could also be used in surgery to provide guidance for mastectomies, gall bladder, renal and abdominal surgeries. Its ability to visualize the anatomy on a deeper level and provide more exact locations would allows for less casualties as well as less harmful surgeries.
4) Beyond the medical field, it can be used in practically any other field. They can use this kind of technology to accurately identify and find natural oil sources in the Earth. It can also be used in geology to find whatever type of mineral was needed. This would lead to more accurate mining rather than the less accurate mining caused by the current methods. Furthermore, its chemical identification can be used in police and military use as they can analyze different chemicals used in a crime or that can be used to defend our country. There are a great deal of applications for technology of this caliber.
1. Hyperspectral imaging identifies cancerous cells. This is especially useful because this type of tissue can resemble healthy tissue, making it difficult to otherwise identify these cells. This type of imaging uses the chemical composition of tissue within the field of view of the sensor to determine whether or not tissue is healthy.
ReplyDelete2. The main positive of using hyperspectral imaging to identify cancer cells is the accuracy of this technology. Unlike other identification techniques, hyperspectral imaging is incredibly accurate and can be used to find the boundaries between cancerous and healthy cells.
3. It's possible for hyperspectral imaging to identify signs of Alzheimer's disease. Amyloidopathic disorders such as Alzheimer's can present symptoms detectable by hyperspectral imaging well before the onset of memory loss.
4. There are many other uses for hyperspectral imaging, including agriculture, eye car, food processing, mineralogy, surveillance, physics, and astronomy. This is an incredibly cool technology that has a very wide variety of uses in the future.
1. hyperspectral imaging is able to detect cancerous cells to get a better understanding of diseases scientists can now control molecules that cause the immune system to kill specific cancer cells.
ReplyDelete2. The positives of using hyperspectral imaging is it shows cancer cells and give us better understandings about cancerous cells in the future. It also shows doctors where to remove the uncontrolled tissue when doing surgery. Similarly as with any new innovation there is dependably a plausibility for a glitch or reaction.
3. Hyperspectral imagining can help diseases like alzheimers.
4. Other uses for hyperspectral imaging is for helping distinguish cancer so we can know how to prevent these diseases.
1. The hyperspectral imaging is to discriminate cancer cells and normal cells apart and uses a chemical to determine which ones are cancer cells or not.
ReplyDelete2. it can spot cancer cells fast but it isn't out yet. Hopefully it can come out in the next few years.
3. Since its used for your head, if it is used to see brain,it can spot other brain diseases early which can help to find the diseases alzheimer or any diseases in your
4. Can spot other diseases on other parts of your body because it's the same thing but different parts of your body.
1. This type of imaging process distinguish between healthy and cancerous cells which is typically extremely hard to compare with each other. Hyper spectral imaging is a type of imaging process where professionals use the electromagnetic spectrum to identify the composition of whatever the subject is. In this case, to discriminate between good and bad cells.
ReplyDelete2. The positive news are that it will become so much easier to identify what type of cancer a patient has and the exact coordinates of the tumor for quick removal. Furthermore,it subtracts the possibility of affecting the patients' tissues during an operation. But on the other side, the amount of money for these to get developed cost literally tons. And plus the amount of money the patients has to pay to get this treatment.
3. Hyper Spectral Imaging has a lot of potential on the medical field; especially on the neurological sense. It has the potential to help Alzheimer patients as well as other patients with a rare type of cancer.
4. Other applications of Hyper Spectral imaging ranges from Astronomy into a more complex type of studies such as molecular structure and whatnot.
1. Hyperspectral imaging is currently being used to discriminate between healthy and cancerous cells. Researchers are able to identify and see the exact dimensions of the tumor in real time. Basically, hyperspectral imaging works by focusing on the electromagnetic waves (light) that comes off of each pixel in the image. Rather than using just the red, green, and blue radiance found in normal cameras, each pixel contains a continuous spectrum of visible light (which can be up to a few hundreds of individual spectral bands). This means that each individual object in the image is more detailed and more clearly defined.
ReplyDelete2. Hyperspectral imaging could revolutionize the way we treat cancer. Rather than treating the entire body with radiation, doctors can identify the specific location of the tumor. They can then either focus radiation in that area only (much like current proton beam therapy), or remove the tumor entirely. Another advantage is the fact that researchers can watch the cells in real time for days on end without getting a new sample or refocusing. They can produce medicines and apply them directly to the cells under the microscope. Through the hyperspectral image, they can watch how the cell reacts to the medicine and the effects that it has. This would reduce the need for live test subjects to take the medicine because the researchers can just use isolated living cells. I cannot see any negatives to this new imaging system. The only problem would be that the machines and technology required to perform these treatments may not be available in many places. People would have to travel to specialized locations. This is not really a substantial problem in my eyes, because people already travel to cancer centers for treatment.
3. It could be used to identify tumors in general. It could also be used to view other sorts of biological maladies. If you increase the scope of the image, you could potentially view entire organs. This could be extremely helpful when it comes to the heart. The doctors would be able to more easily identify a blockage in the heart or arteries. The imaging could also be used for surgical procedures. By combining the use of hyperspectral imaging and laser removal, the surgeries would have incredible precision. Doctors could remove anything they needed without doing any damage to the surrounding tissues.
4. Potential uses include: satellite imaging (more detailed and precise images), chemical composition identification (researchers can tune the microscope to identify specific compounds in a substance), surveillance systems (for high security buildings, security cameras could identify heat signatures as well as movement and color differentiations -- no more grainy security footage), and food/water testing (the imaging could identify impurities in the substances).
1.The hyperspectral sensor system can potentially accelerate cancer diagnosis and improve proper cancer removal ultimately save life plus the hyperspectral imaging technology holds enormous promise for medical applications. By working closely with medical collaborators, the sensors were ‘tuned’ to the precise spectral features of interest that scientists are looking to find with green, red, and blue color sensor.
ReplyDelete2.The positive effects that they could with the hyperspectral system, a scientist can put a tissue sample under a microscope, view it on a monitor, and select an area to remove and This technology can also be combined with molecular methods to extract DNA or RNA from a sample With amplification meaning "you can analyze the genome or expression profile in a single cell." I cannot see any negatives to this new imaging system. The only problem would be that the machines and technology required to perform these treatments may not be available in many places
3.This technology can also be combined with molecular methods to extract DNA or RNA from a sample and it could find tumors and rare type of cancer
4.One of the hallmarks of hyperspectral imaging is its ability to identify objects or disease conditions based on the chemical composition of tissue within the field of view of the sensor pulse Hyperspectral imaging technology holds enormous promise for medical applications and, as the leader in spectral imaging solutions, Headwall will continue to make significant contributions to advancing industry capabilities
1. Hyperspectral imaging is a new form of medical imaging that is currently being used to discern between healthy and cancerous cells in cancer patients. It can study the area of a cancerous mass, and by using buildups in light, it can isolate the location of cancerous cells in the body. As well, it can track their growth, as well as the amounts of certain key chemicals they contain based on the light that gets absorbed by the imaging device.
ReplyDelete2. One of the biggest positive points about this new technology is the fact that it is helping researchers and medical scientists understand cancer so much better than we have before. An extension of this, the cure for cancer may be found thanks to this new technology. Unfortunately, its full scope of abilities and uses have not been fully realized yet since the technology is still early in development.
3. Potentially, some of the other diseases the technology could help cure are brain disorders like Alzheimer's or could aid in the curing of significant brain damage.
4. Again, the technology is early in its development, but since it can be used to identify chemical composition within living tissues. That could potentially be applied to inert materials, giving us a deeper understanding of what makes certain materials work the way that they do.
1) Hyper-spectral imaging identifies diseased, more specifically cancerous tissue based on the chemical composition of the tissue. This is most effective against brain, lung, and breast cancers which are hard to identify in comparison to the surrounding healthy tissue.
ReplyDelete2) With such technology, we could track the progress of the cancer or disease and probably identify it sooner, potentially saving many lives when the cancer is eliminated in its early stages. There doesn't seem to be any negatives pertaining to this technology besides the fact it isn't fully developed. As with anything, especially in the medical field, it needs to be tested and experimented with to gather what the full potential of hyper-spectral imaging can be capable of.
3) In terms of diseases, its primary focus is with cancers, specifically brain, breast, and lung cancers which are hard to discern in comparison to healthy tissue. Hopefully this can be applied to other types of diseases and cancers as well, as it would be great to have one tool for identifying them all.
4) Hyper spectral imaging seems to have the capability to identify anything in comparison to something else using chemical compositions. You can use it to compare one object to another object and filter out the 'undesirables' of that object such as bad fruit, products, etc.
1. This machine can scan your tissue. This allows people to find out what is wrong with the area or find out if its cancerous. This item is great for discovering what is wrong with the patient and its pretty much getting big and its the new technology for tissue. It can isolate the locations of the cells and also track the cancer growth rate. This item is great in all total as it can keep track of your cells.
ReplyDelete2. The positives are that it can keep track of your cells to determine if you are healthy or not. This machine can also benefit doctors and people to see if they have any developing cancer cells or say where they are spreading to. The negatives have to be that this tech is at its max top and we have yet to discover any new technology that could be added on to this machine. I'd expect this item would cost a fortune too.
3. This can track brain change so like Cancer cells or even detect an early stage of Alzheimer's. This machine pretty much can find any disease that can cause change to the patient or disrupt some sort of pattern in the brain.
4. Other uses for this device can also look and see about the deadly man made surroundings that cannot be there. it could also be used to scan other areas that could possible be affected.
1.) It basically gets images of diseased tissue through light microscopy, and allows people to see what tissue is diseased and what isn’t, which makes it significantly easier to do procedures and remove them without affecting other healthy cells.
ReplyDelete2.) One of the biggest positives would have to be the fact that it makes it much easier to actually find which cells are afflicted with cancer, and using that knowledge, it allows much faster and easier procedures to remove those contaminated cells, while also making it much more accurate in doing so and preserving the good cells.
3.) Based on a look up of neurological diseases, it seems like it would help in such things like Parkinson’s and Alzheimer’s diseases, which are diseases that damage and kill the cells, and it can also detect various other types of cancer, so it can be seen what one is afflicted with.
4.) Perhaps it could actually be used to identify and treat various other diseases using that technology, along with looking into other objects in a better way to see what exactly they are made up of, should it be required.
1. Hyperspectral images discriminate between healthy and cancerous brain tissues which is very meaningful for this cause because normal and cancerous tissues in the brain can often resemble each other. With this imaging technology mainly being used for brain cancer, it will be very helpful with breast and lung cancer.
ReplyDelete2. There are many positives to using this imaging technology. To start off the obvious first positive would be that it can detect cancer in a patient. This tech can make cancer diagnosis significantly faster and improve cancer removal which will save many lives.The sensors in the technology were tuned to the precise features of interest that scientists are looking to find and with that surgeons can remove what needs to be removed while leaving healthy tissue untouched. But the only downside to this tech is the cost of it which can be very expensive.
3. This technology can be used for many other things than detecting cancer in someone. This imaging can be use to cure brain disorders like Alzheimer's. Also hyperspectral can be used with heart and doctors can find clots or blockages. Hyperspectral can also be used on the lungs and the breast and when combined with surgery, hyperspectral give a precise location to start surgery making it helpful for both the doctors and the patients.
4. Hyperspectral imaging can be used in every other field than just medical. One use can be for agriculture in many ways like precision agriculture. Precision agriculture is used to help farmers on nutritional information, collect intelligence,farm surveillance, mapping, detection of pests, classification, and eventually, automated weeding and harvesting. This is a major step in agriculture and that is only one of may fields that hyperspectral has impacted.
1. Hyperspectral images help to identify unhealthy cancer cells in the brain. This can be helpful in identifying which cells in your brain are actual cancerous, and can be used to help identify it before it becomes a major issue.
ReplyDelete2. The main use for hyperspectral images is being able to identify cancer cells and help doctors learn more about the brain.
3. Hyperspectral imaging can be used to help identify other neurological diseases such as Alzheimer's and Parkinson's, which could doctors learn more about other brain diseases.
4. Hyperspectral imaging could possibly be used in security systems to distinguish between certain man made materials, like explosives or other weapons and devices.
1.) Hyperspectral images differentiate between healthy and unhealthy tissue, the unhealthy tissue being the tissue that is riddled with cancer. So the accuracy in which the cancerous tissue is removed is far easier than normal.
ReplyDelete2.) The obvious downside, albeit the only one is that the cost of producing and using the machines would be very expensive. Yet the accuracy of the machine could be paramount to helping those with cancer survive, until a more reliable cure is found.
3.) Physical obstructions in the body, or maybe swollen or even tumorous nerves could be detected and gotten rid of easily through this technology, blood clots in the heart being another example.
4.) If the device becomes far more cheap to use than it is now, the next feasible step would be to use it for veterinary purposes, as animals get cancer too, so it seems most logical that they would be the next priority.
1.) The hyper spectral imaging identifies healthy and cancerous tissues by checking the chemical composition. It can find the difference between healthy brain cells and brain cells affected by cancer.
ReplyDelete2.) Some Pro’s for using hyper spectral imaging is that scientists will be able to study cancerous cells for a longer period of time, this allows to study the cancer cells without having to move the camera out of focus. This also allows samples to be cut from healthy cells and tissue.
3.) Other diseases that hyper spectral imaging can find is lymphoid and Alzheimer. Some other uses for the hyper spectral imaging is with heart disease.
4.) Some uses where hyper spectral imaging can be used for is environmental monitoring, food, and biotechnology. Here images can be used to see if there are any issues with the chemical composition.
1. Hyperspectral Imaging has the ability to identify the health state of body tissues to see if they are cancerous or healthy based on its chemical makeup, which allows it to distinguish cancerous tissue from healthy tissue which is impossible to distinguish with vision alone. The sensors used are tuned to the features one wishes to find.
ReplyDelete2. The positives of using Hyperspectral Imaging is that, by using it, one can more easily and effectively identify cancer. The negatives, in comparison, are very small, but would include the fact that they are expensive and hard to make, and that they are still in development.
3. Hyperspectral Imaging can be used to identify other hard to find neurological conditions, most predominantly Alzheimer's disease before symptoms present themselves.
4. Hyperspectral Imaging can be used to identify a variety of other things in all kinds of materials
1. The Hyperspectral imaging is used to distinguish healthy tissue and cancerous tissue. It uses the chemical composition of the tissue to distinguish if it's cancerous or healthy. The naked eye alone can't identify this, which is where the Hyperspectral imaging comes in to change that.
ReplyDelete2. The pros outweigh the cons in my opinion, but the cons still need to be considered. Obviously the pros are that the Hyperspectral images can identify cancer easily and efficiently. The cons are how expensive these machines are to make and the fact that like most too good to be true technologies, they are prototypes.
3. Hyperspectral imaging can not only be used for cancer, in fact it can locate other diseases that are neurological. The device can locate the famous Alzheimer's disease before the memory loss factors kick in. This is crucial to preventing the disease and helping many people. Then again, the device costs a ton of money and resources.
4. Hypospectral imaging can do full body scans to check on the condition of the body as a whole. It can also distinguish man made minerals and natural ones which can help save lives in case of a mineral made to kill people.
Hyperspectral images tells the difference between healthy and cancerous brain tissues, this is a very important tool to have so someone can know if they need serious help right away. Even though it is mainly used for brain cancer it will be able to help with other forms of cancer that are also very serious.
ReplyDeleteThe good news is that it will become much easier to identify what type of cancer a patient has and the exact location of the tumor for a good and quick removal.It does not have a possibility of affecting the patient's' tissues during an operation. But it is ridiculous how much these machines cost and very few would be able to afford it.
It will help to identify more forms of cancer especially before they have evolved into a more serious situation.
It could be used on a larger scale. Like scanning an entire body or being able to distinguish this between man made and not. This is a great piece of technology that could be used in many different ways.
1. It takes photos to identify cancerous alleles from the healthy tissue and it builds up an image from light across a wide range of frequencies. It measures continuous spectral bands. They also collect information as a set of images.
ReplyDelete2. The advantages of it is that they can get access to the right tissue or even single cells. It can accelerate cancer diagnosis and improve proper cancer removal. The primary disadvantages are the cost and complexity. Fast computers, sensitive detectors, and large data storage capacities are needed for analyzing hyperspectral data.
3. Brain cancer, lung cancer, breast cancer, and Alzheimer's disease because the brain tissue is so similar that the hyperspectral imaging is able to tell between healthy and cancerous tissues in the brain in real time.
4. Astronomy agriculture because scientists use it to detect terrestrial vegetation and it can detect specific chemical bonds in a solid, liquid, or gas.
1.The hyperspectral imaging take pictures of healthy tissue and makes an image from light .
ReplyDelete2.this could help by making more survivors from cancer and making the population grow .
3. lung cancer, breast cancer ,brain cancer, etc...
4.astrononmy agriculture because it is used to detect terrestrial
1. It detects cancerous brain tissue in the brain by using hyperspectral sensors to distinguish the difference between healthy and cancer tissues. It does this by determining the chemical composition of the tissue that's in the field of view of the sensor.
ReplyDelete2. It can be used to diagnose cancer faster and cure it faster too, the one negative thing about it is that it costs a lot of money, and it will be awhile before more people can afford it.
3. This technology can help detect other neurological diseases such as Alzheimer's.
4. The technology can also be used in other parts of the body to detect diseases.
Hyperspectral imaging can identify diseases and objects because it can tell the chemical composition of the object it is trying to identify. It works by turning its sensors to find spectral features.
ReplyDeleteIt can find terminal and other illnesses earlier and may be able to prevent the illness from hurting the person at all. The negative is its not finished yet.
It could also find other illnesses like cancer the potential of this is a lot.
It can be used in pretty much any other field including the medical field this technology has a lot of uses basically.
1. Hyperspectral imaging is used to tell the difference from cancerous cells and healthy cells. It is a light microscope and uses light to see stuff and uses infrared rays to focus on stuff.
ReplyDelete2. The positives to using Hyperspectral imaging is that you can locate cancer cells quickly and efficiently, the negatives is that you would not get as clear of an image like you would from a microscope.
3. Hyperspectral imaging can help detect alzheimer's or chemicals or poison in soldiers in the battlefield.
4. Hyperspectral imaging can be used to detect very small foreign particles in the human body or study viruses up close. It can also be used to study nerves or neural passages.
1. Hyperspectral imaging is able to tell the difference between bad cells and good cells because it uses light and infrared rays to tell the difference
ReplyDelete2. The positive is to locate cancer cells quickly who wouldn't want that. However you cant see the cancer cells as clearly. Infrared also is not good for your body.
3. Hyperspectral imaging could detect defects in the brain or other diseases in the body.
4. Hyperspectral imaging could be used to study nerves or neural passages or look at small viruses .
1.) The Hyperspectral imaging has the ability to detect objects and find signs of disease by shining light and infrared rays to identify change/deviation.
ReplyDelete2.) The pro is that this device makes it much easier to identify cancer cells, and the con is that it is still far in development and might be a while before we actually get practical use out of it.
3.) The device will be able to detect brain deteriorating diseases such as Parkinson's and Alzheimer's.
4.) It can be able to detect pretty much any disease with enough time. This could maybe even develop into a way somebody can be completely scanned for all diseases much easier.
1. Hyperspectral imaging can identify the differences between healthy and cancerous brain tissues. Hyperspectral imaging is able to identify objects or disease conditions based on the chemical composition of tissue within the image. The sensors of the camera can be adjusted to look for the precise spectral features of cancer cells. This aids surgeon because they will know exactly what tissue to remove and not to touch. As said by Lung Cancer News Today hyperspectral sensor system can “potentially accelerate cancer diagnosis and improve proper cancer removal ultimately saving lives." Eventually, this technology will save a mass amount of lives with cancer.
ReplyDelete2. The positives of hyperspectral imaging are it is something. In the last decades, we have had nothing to deal with cancer. Finally, we now have something that improves our knowledge of cancer and how to treat and detect it. Hyperspectral imaging can possibly overcome a large obstacle in cancer research, it has a way of monitoring live cells for a long period of time. The cons of this technology of hyperspectral imaging might be it is too expensive to use. Everyone may not have complete access to this technology if they have cancer, therefore it is useless if it can not treat many people.
3. Other diseases that hyperspectral imaging may help to identify like Alzheimer's, strokes, concussions, Parkinson's Disease, epilepsy, and brain cancer. All of these diseases are located and are caused by a malfunction of the brain. If the hyperspectral camera can be tuned to identify certain cancer tissues, then if adjusted it can possibly identify these diseases. This technology will be able to advance the studies and knowledge of these diseases with live patients. Most of these diseases have little advanced research simple because it is hard to reach the location of these diseases without a patient already dead and the brain extracted. With hyperspectal imaging we could monitor live people without harming them.
4. Other uses for hyperspectral imaging would be to study other organisms other than humans. Could plants have cancer cells affecting their growth? Do animals get the same brain diseases and disorders that humans get? Hyperspectral imaging can figure out these questions with exact answers by scanning other organisms. Hyperspectral imaging does not have to only include brain disorders, it could help scientists monitor chemicals changes anywhere in the body. Maybe one day it can act as an x-ray for organs, ligaments, tendons, and other unseen parts of the body. Hyperspectral images could help identify diseases anywhere on the body before they even happen, just by scanning the body hyperspectral imaging would be able to identify anything harmful to the body.
1. The Hyperspectral imaging works by censoring to discriminate between healthy and cancerous brain tissues. This really is trying to prevent brain cancer and help people that have brain cancer. Also Hyperspectral imaging will be beneficial for breast and lung cancer as well. Reported by Lung Cancer News Today, they said that the Hyperspectral imaging can really help with cancer and not just brain cancer, they said lung and breast. They say this will really save peoples lives.
ReplyDelete2. The positives of the Hyperspectral imaging are that if it really does work like most of the companies and people are saying then it would most definitely save many of lives with people that have brain cancer and other cancer. The negatives of the Hyperspectral imaging would probably be that it would cost a TON of money to have for everyone with brain cancer, because of how there are a lot of people that have cancer and just a little amount of Hyperspectral imaging tools.
3. The other diseases that Hyperspectral imaging can have are Alzheimer's, strokes, concussions, Parkinson's Disease, epilepsy, and brain cancer. These would be the diseases if Hyperspectrail imaging didn't really help with brain cancer. Most of these are not as well supported as much as brain cancer.
4. The other uses of hyperspectral imaging would be like useful to look at other stuff in the human body besides brain tissues. They could look at other important diseases that need to be researched. They could look at animals and research them more, like ocean creatures and land creatures. There could be many things that the Hyperspectral imaging could be used for.
1. Hyperspectral imaging is a currently in development technology that can identify and take pictures of specific types of cancer cells. This technology requires no kind of extra radiation or other dangerous consequences. The cells themselves can be completely alive and working. It is probably the best and most reliable form of cancer research technology that is currently in existence.
ReplyDelete2. Unlike the generally known X-Ray technology, the cells are in no way influenced by the imaging. Neither does the technology require completely isolated cells. Hyperspectral imaging is a way to see cancer cells, even in fully alive patients. Studying how these cells act in a different environment than the usual isolated sample. There is barely anything that restricts how this imaging can identify certain types of cells. The current negatives are the cost and the fact that it is still in the prototype phase. This technology is on the way for being much better than it already is, but it is currently still in development so the price is large and it still has many small problems.
3. The other types of things this could monitor is mostly just in the same areas as cancer. Something that could definitely be good is if the technology could be reworked to recognize more details, then the technology could be even more revolutionary. Imaging technology that could look at a person’s nervous system and actually detect diseases related to nerves and how well they work. There are plenty of currently nearly undetectable diseases that can destroy the nervous system before it can be stopped.
4. Forensics could really benefit from the chemical detection features. Crime scenes could easily be identified for specific circumstances. There are gigantic jobs in this kind of work meant to spend hours going through possible circumstances in order to actually determine something that happened. This technology could cut that time down small enough that crimes could be determined without much effort. This is truly only one example in the grand scheme of the possibilities of this hyperspectral imaging.
1. Hyperspectral imaging is able to identify cancerous tissues in the brain based on the chemical composition of the tissues analyzed. This is useful because often the cancerous tissues can look the same as the normal tissues, making them hard to identify. It works by essentially being tuned to detect the certain spectral ranges that they are in the cancerous tissues.
ReplyDelete2. The positives of this are that it would be able to detect cancer much faster in areas, such as the brain, where cancer is hard to detect and cancerous tissue looks the same as normal tissues. The negatives are that this is still being researched so it can’t be widely used or implemented yet.
3. Other diseases this might help identify are similar diseases to cancer that physically change and affect cells in the body, especially in the brain. It could also be used to find other types of cancer in the body, not only brain cancer.
4. Hyperspectral imaging could be used to scan for a variety of diseases other than cancer, and for applications outside of just identifying diseases, it could also be used to distinguish man made objects from other things around. It could possibly be used in astronomy, looking into space, and it is used for things like mining, the oil industry, agriculture, surveillance, etc.
1. Hyperspectral imaging identifies cancer cell tissues apart from normal cell tissues, which is important, because it can resemble a normal cell tissue making it difficult to isolate.
ReplyDelete2. Hyperspectral imaging makes identifying cancer cells much easier to find. It could also accelerate cancer diagnosis and improve the process of removal, and leave the normal tissue unaffected. The only downside is its enormous cost, as is with new technology.
3. Hyperspectral imaging can help to identify other diseases such as Alzheimer's or lung cancer.
4. Hyperspectral imaging can also be used in treatment of lung and breast cancer to direct cancer cells into apoptosis.
1. It finds cancer cells among healthy tissue which is really difficult to do with out the device otherwise.
ReplyDelete2. Some good things about is that it can find cancer alot more effectively. It can give a 3d model of the cancer effected area. It does not use radiation to find the cancer cells. The device alot of money however.
3. This can find cancer. It also has the possibility of finding tumors in the body as well. It could be used for finding Alzheimer's.
4. It can probably be modified to help find different objects or materials in man made objects. It can help find diseases in other parts of the body.
1) Hyperspectral imaging is currently being used in order to differentiate between healthy and cancerous cells in a human body. It works using a type of "filter", that essentially ignores healthy cells, meaning a doctor can easily see the cancer cells, even if they are in the center of the brain.
ReplyDelete2) The positives are that it can find cancer cells more efficiently and safely. It doesn't use any sort of harmful radiation, which is especially important when scanning he brain. The negative is that it is not cheap, and has a long way to go before it becomes available enough to be the most common scanner.
3) Hyperspectral imaging can help detect other neurological diseases like Alzheimers or Dementia.
4) It can also be used in agriculture because it can detect certain chemicals in the soil.
1. What does hyperspectral imaging identify? (How does it work)?
ReplyDeleteIt can identify cells like cancers and different cell types in the body. It is like a really cool 3D map. It uses light thru multiple spectrums to scan your body under a microscope. It divides the light colors we can see into more colors to help see what we are missing. Fun Fact: A certain snail can see about 6 times more color than we can see.
2. What are the positives of using hyperspectral imaging to identify cancers? Negatives?
It can identify cancer easily from tissue around it. It is perfect for brain tumors due to them being very similar to the brain cells and the doctors can do less damage to the brain.
3. What other diseases may hyperspectral imaging help to identify? (Hint: Neurological)
It can also detect eye problems and also can help follow muscles in how they work. They can detect how much oxygen is going somewhere so it can be used in a lot of scenarios.
4. Other uses for hyperspectral imaging?
Agriculture, surveillance, food processing, etc. It can be used in a lot of places which makes it extremely useful.
1. Can identify cancer cells by classifying normal tissue and cancer tissue by using hypersepctral censors.
ReplyDelete2. Positive side, can detect tumors and other diseases; Negative side, can miss some hidden diseases.
3. Can detect inflammation and brain tumors.
4. Surveillance, food processing, agriculture and other things that cameras that don't provide as much information than the hyperspectral cameras do.
1. Hyper spectral imaging is able to identify cancerous tissues in the brain based on the chemical composition of the tissues analyzed. This technology requires no kind of extra radiation or other dangerous consequences. Hyperspectral imaging works by flashing infrared rays into the brain and scanning for cancer tissue. Hyperspectral imaging systems have been used extensively in biological and medical applications, including wound analysis, fluorescence microscopy, and cell biology. Unlike other cancer cells, brain cancer can looks incredibly similar to the surrounding normal tissue. I think that this is a really safe way to check for cancer. It is also very useful.
ReplyDelete2. Unlike the generally known X-Ray technology, the cells are in no way influenced by the imaging. Finally, we now have something that improves our knowledge of cancer and how to treat and detect it. Hyperspectral imaging can possibly overcome a large obstacle in cancer research, it has a way of monitoring live cells for a long period of time. The naked eye alone can't identify this. This tech can make cancer diagnosis significantly faster and improve cancer removal which will save many lives. Some of the negatives is that it can not completely detect every cancer cell at once, it takes a while to be able to get rid of the cancer and it also takes forever just to get the images done which halts the process which does make it a problem.
3.Some chemical hazards can corrupt the air Soldiers can be exposed to a wide variety of chemical hazards. These threats are mostly invisible but detectable by hyperspectral imaging technology. The Telops Hyper-Cam, introduced in 2005, has demonstrated this at distances up to 5 km and with concentrations as low as a few ppm.Hyperspectral imaging could also be used to locate other diseases including different types of cancer or alzheimer's that could then distinguished and prevented from the identifying factors of said diseases. I think that this device or technology will be used for years to come and soon will save plenty of lives and will become known worldwide just like how MRI and cat scans are known world wide.
4. Other uses for hyperspectral imaging would be to study other organisms other than humans. Is it possible for plants to have cancer cells? I think that this imaging will be used on a lot of other living things such as trees and plants. It may also be possible that we could find out if certain animals living in the ocean are getting the same cancer cells as the ones living on land. Does the water affect the way cancer is seen or is affecting the animal. It could also be able to see the difference between the animals that live near the top of the ocean and the ones that live near the bottom.
1)The HELICOID aka the (Hyperspcectral Imaging Cancer Detection) helps find cancerous tissue in the brain.The process does not require any extra radiation or other dangerous consequences.
ReplyDelete2)The hyperspectral can do so much more than today's generally known X-ray.Like it can detect cancer cells in the brain.It can also overcome a large obstacle in cancer research.
3)Hyperspectral imaging can also detect other types of cancers.Which is really useful in today's world.
4)This technology could also be used for other living things and not just humans which we can use to solve and cure other diseases.
can you suggest any Hyper spectral imaging camera for image grabbing & analysis of cancerous tissues in the brain? what should be the criteria??
ReplyDeleteNice article great post comment information thanks for sharing
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