PEOPLE AND PLACES

PEOPLE AND PLACES

Tuesday, January 13, 2015

Inside the body: images from world of science

 

 

   

Inside the body... and out of this world: From a crying baby and cancer cells to Orion Nebula and chameleon embryo, amazing images from world of science

  • Wonders on show at International Images for Science Exhibition include coffee bean cell walls and mouse foetus
  • The exhibition, by the Royal Photographic Society, is on UK tour before heading to Europe
  • Cutting-edge technology provides amazing views from inside the human body

A mosquito's antenna, a falling sycamore seed - and incredible internal shots of the human body: these images show the wonders of science from around the world and beyond.

 
   

Selected for the Royal Photographic Society’s latest exhibition, they highlight the beauty of scientific research.

Among the pictures on display at the International Images for Science Exhibition 2013 - which showcases the work of 54 scientists - are dividing cancer cells, a bat embryo, gallstones, the cell wall of a coffee bean and, from slightly further afield, the Orion Nebula.

This photo of a crying baby forms part of the International Images for Science Exhibition 2013, organised by the Royal Photographic Society

This photo of a crying baby forms part of the International Images for Science Exhibition 2013, organised by the Royal Photographic Society

Brains, veins and bones as you've never seen them: Scanner reveals gruesome, high-definition images of the human body

  • Next-generation GE scanners are being used by doctors in Florida
  • They hope to make medical scanning cheaper, easier and more accurate
  • Dubbed 'Revolution CT', the scanners beam x-rays through a patient's body from which a computer reconstructs a detailed image, slice by slice
  • Technology can build an image of a complete heart in a single heartbeat

Guts, veins, brains and hearts have been revealed in gruesome detail using next-generation body scanners.

The GE scanners, used by doctors in Florida, are currently involved in their first clinical trial aimed at making the process of medical scanning cheaper and easier.

Dubbed 'Revolution CT', they beam x-rays through a patient's body from which a computer can reconstruct a high-definition image, slice by slice.

Scroll down for video

Shown here is a high-definition image of the skull and the Circle of Willis - a structure which supplies blood to the brain and surrounding area

The Buckinghamshire-based healthcare group claims that the scanner can build an image of a complete heart in just a single heartbeat.

The images and GIFS show the insides of a group of patients at West Kendall Baptist Hospital in south Florida, which is the first ever hospital to use the scanner.

The technique is known as X-ray computer tomography and is often used in hospitals to look for tumours, bone fractures and bleeding.

The GE scanners, used by doctors in Florida, are currently involved in their first clinical trial. Pictured is image of the abdomen and the aorta

A foot reinforced with screws. The images and GIFS show the insides of a group of patients at West Kendall Baptist Hospital in south Florida

The screw here can be clearly seen in a patient's foot.  Dubbed 'Revolution CT', they beam x-rays through a patient's body from which a computer can reconstruct a high-definition image, slice by slice

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The screw here can be clearly seen in a patient's foot.  Dubbed 'Revolution CT', they beam x-rays through a patient's body from which a computer can reconstruct a high-definition image, slice by slice

Pictured are high-definition images of the skull and the Circle of Willis, which supplies blood to the brain

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Pictured are high-definition images of the skull and the Circle of Willis, which supplies blood to the brain

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Pictured are high-definition images of the skull and the Circle of Willis, which supplies blood to the brain

HOW DOES REVOLUTION CT WORK?

The scanners beam x-rays through a patient's body from which a computer can reconstruct a high-definition image, slice by slice.

GE claims that the scanner can build an image of a complete heart in just a single heartbeat.

This is because it uses high-resolution and motion correcting technology similar to the image stabilisation features in personal cameras.

Because it can scan faster, it can scan far more accurately, capturing clear images of moving organs.

While they are safe for patients who have pacemakers or metal inside their body, they require them to stay very still while the imaging is taking place.

But GE's scanners are different.

The Revolution uses high-resolution and motion correcting technology similar to the image stabilisation features in personal cameras.

Because they can scan faster, they can scan far more accurately, capturing clear images of moving organs.

The team at West Kendall Baptist Hospital recently completed the world's first six-month clinical trial of the Revolution CT machine.

Local doctors said they were able to diagnose even the most challenging cardiac patients with erratic or high heartbeats and reduce the radiation dose for paediatric patients.

'According to our physicians, patient feedback about their experience with the Revolution CT has been uniformly positive,' said West Kendall Baptist Hospital CEO Javier Hernández-Lichtl.

'The advanced design definitely makes for a less intimidating, more comfortable patient experience, while yielding amazingly accurate and detailed images.'

GE Revolution CT Scanners redefine what's possible with CT

 

The chest cavity with a side view of the heart. Local doctors said they were able to diagnose even the most challenging cardiac patients with erratic or high heartbeats using the new technique

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The chest cavity with a side view of the heart. Local doctors said they were able to diagnose even the most challenging cardiac patients with erratic or high heartbeats using the new technique

Another view of the Circle of Willis. It is located at the base of the brain and forms a circle of arteries around it

The pelvis and the aorta are seen here in spectacular detail.  Because the technologycan scan faster, it can scan far more accurately, capturing clear images of moving organs.

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The pelvis and the aorta are seen here in spectacular detail.  Because the technologycan scan faster, it can scan far more accurately, capturing clear images of moving organs.

The Buckinghamshire-based healthcare group claims that the scanner can build an image of a complete heart in just a single heartbeat

The rib cage, the heart and the chest cavity.  West Kendall Hospital CEO Javier Hernández-Lichtl said: 'The advanced design definitely makes for a less intimidating, more comfortable patient experience, while yielding amazingly accurate and detailed images'

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The rib cage, the heart and the chest cavity.  West Kendall Hospital CEO Javier Hernández-Lichtl said: 'The advanced design definitely makes for a less intimidating, more comfortable patient experience, while yielding amazingly accurate and detailed images'

The technique is known as X-ray computer tomography and is often used in hospitals to look for tumours, bone fractures and bleeding. Pictured are two different view s of the rib cage

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The technique is known as X-ray computer tomography and is often used in hospitals to look for tumours, bone fractures and bleeding. Pictured are two different view s of the rib cage

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The technique is known as X-ray computer tomography and is often used in hospitals to look for tumours, bone fractures and bleeding. Pictured are two different view s of the rib cage

 

 

Incredible views of the human body are now possible through sophisticated scientific instruments

Incredible views of the human body are now possible through sophisticated scientific instruments such as fibre optics, endoscopes, microscopes, telescopes, stereo microscopes and ophthalmoscopes

The show features works by 54 scientists from around the world

The show features works by 54 scientists from around the world

Here, thermal imaging has been used to dazzling effect

Here, thermal imaging has been used on a subject to dazzling effect

Selected for the Royal Photographic Society's latest exhibition, the images highlight the incredible beauty of scientific research

Selected for the Royal Photographic Society's latest exhibition, the images highlight the incredible beauty of scientific research

Selected for the society's latest exhibition, which is touring the UK and rest of Europe, the images highlight the incredible beauty of scientific research

Photography skills play a crucial role in medicine, forensic science, engineering, archaeology, oceanography, natural history and many more areas.

Dr Michael Pritchard, director general of the Royal Photographic Society, said: 'The society was founded in 1853 to promote the art and science of photography and we’ve been doing just that ever since. ‘We held the first International Images for Science exhibition in 2011 and it went down extremely well.'  The application of photography to science is almost as old as photography itself.

This alien-looking configuration is actually dividing cancer cells (by Volker Brinkmann)

This alien-looking configuration is actually dividing cancer cells (by Volker Brinkmann)

This remarkable image shows the interior cell walls of a coffee bean

This remarkable image shows the interior cell walls of a coffee bean

A close-up of gallstones, caused when cholesterol level in our bile is too high, and excess cholesterol is turned into stones

A close-up of gallstones, caused when cholesterol level in our bile is too high, and excess cholesterol is turned into stones

The Dusty Spectacle of Orion, 2013, by Robert Hurt, Caltech, US. The nebula is pictured in infra-red and colour-coded according to wavelength

The Dusty Spectacle of Orion, 2013, by Robert Hurt, Caltech, US. The nebula is pictured in infra-red and colour-coded according to wavelength. The data was captured by the Nasa Widefield Infrared Survey Explorer spacecraft

Beauveria bassiana, 2012, by Nicole Ottawa, Reitlingen, Germany. This, believe it or not, is the base of a mosquito's antenna

Beauveria bassiana, 2012, by Nicole Ottawa, Reitlingen, Germany. This, believe it or not, is the base of a mosquito's antenna. The image is from a scanning electron micrograph, and has been digitally coloured

The skeleton of a chameleon embryo, by Dorit Hockman

The skeleton of a chameleon embryo, by Dorit Hockman

As early as 1872, Eadweard Muybridge, a British-born photographer, used photography to study and analyse motion in horses.

Since then, by using invisible radiation, new techniques and methods of photography have arisen.

This has happened, for example, through sophisticated scientific instruments such as fibre optics, endoscopes, microscopes, telescopes, stereo microscopes and ophthalmoscopes.

‘Gone are the days when we were restricted to 1000 ISO emulsion sensitivity,’ said Dr Afzal Ansary, exhibition co-ordinator.

Among the startling images on show is this mouse foetus

Among the startling images on show is this mouse foetus

Extreme close-up view of the head of a Yellow Paper Wasp

Extreme close-up view of the head of a Yellow Paper wasp by Daniel Kariko. Many species build their nests on human habitation, while not normally aggressive paper wasps will defend their nests vigorously. This image is part of a series investigating our often-overlooked housemates

Triple exposure image showing a seed falling from a Sycamore tree

Triple exposure image showing a seed falling from a Sycamore tree by Adrian Davies, Surrey. This image was created in three exposures; the first with flash to show the leaves and seeds, the next a half-second exposure showing the spiralling fall and the last a flash exposure to freeze the seed at the bottom of its descent

‘Today, DSLR cameras with full frame sensors have the ability to process images that reduce noise in low light conditions.

'We have CCD sensors, sensitive to much higher ISO sensitivities which can yield usable images.

‘We used to say that, “if you can see it, it can be photographed” and now we say, “even if you cannot see it, we most likely can photograph it”.’

The International Images for Science exhibition is currently on a tour of the UK before heading to Europe.

Gentoo and Chinstrap penguins on an ice floe near Danko Island

Gentoo and Chinstrap penguins on an ice floe near Danko Island in the Antarctic by David Doubilet. The photographer observed them pushing each other off the floe and swimming in the water as if playing a game of tag

Weevil

Weevil found on front porch doormat by Daniel Kariko. There are over 40,000 species of true weevils in the family Circulionidae, beetle-like creatures typified by a long snout and clubbed antennae

collision of two water droplets

Fishbone pattern

The left image shows the collision of two water droplets beneath a bursting soap bubble by Greg Parker, Hampshire. The image was captured using a Canon 5D Mark II SLR camera and a xenon flash unit with an exposure time of 9 microseconds. The right image unique fishbone pattern is created by two colliding steams of liquids by Ted Kinsman.  The pattern is currently the focus of scientists studying the strange world of fluid dynamics

Coloured scanning electron micrograph of a Leafcutter Ant holding a gear from a micromechanical device by Manfred P Kage. The gear is about 0.1mm wide

Coloured scanning electron micrograph of a Leafcutter Ant holding a gear from a micromechanical device by Manfred P Kage. The gear is about 0.1mm wide

Human Cortical Neurons

Human cortical neurons with interconnecting dendrites, 4,200X by David Scharf. Cortical Neurons make up the brain's cortex which in part makes up the cerebral cortex, responsible for memory, attention, perceptual awareness, thought, language, and consciousness

3D reconstruction of a glass model of a jellyfish

3D reconstruction of a glass model of a jellyfish, imaged using X-rays in a micro-CT scanner by Dan Sykes, Natural History Museum. The artificial colours used here are based on the density of the glass. This incredible model was sculpted in glass in the mid-19th Century by Leopold and Rudolf Blaschka. The techniques used by this father and son team are not fully understood, it is hoped that this study will help reveal some of their secrets

A porcelain crab

A porcelain crab feeding inside the safety of its host Pocillopora coral branches by Louise Murray from London. It is lit by the bright green fluorescence of the coral. These are normally very shy creatures and are difficult to photograph

Light micrograph of a mouse embryo

Light micrograph of a mouse embryo, approximately 10.5 days post-fertilisation by Jim Swoger. The specimen was stained with a fluorescent marker that highlights the presence of precursor cells to nerve tissue then chemically treated to make it optically transparent

Our hidden world: Photographs reveal the bizarre beauty of objects - such as knives and cigarette butts - when put under a microscope

  • The images were taken as part of a competition by Oregan-based imaging company, FEI, and National Geographic
  • They include a cigarette filter, a mosquito, a close up of a curry plant and an immune cell in the human body
  • Winners will be shown in National Geographic’s ‘Mysteries of the Unseen World’ film which debuts November 8 2013

You tap your cigarette, rearrange the flowers and head to the kitchen to make dinner. These everyday actions, using ordinary objects, are so common in our lives that our brains skim over the smallest details. But what if you held a microscope up to the unseen world? What kind of perspective would we get on common objects around us?

Cigarette filter

FEI's instrument owners were invited to submit their best images for inclusion in National Geographic promotional materials for its giant screen film 'Invisible Worlds'. This view of a cigarette filter, revealing cellulose acetate fibers, was the May winner in the 'Around the House' category

That's exactly what an annual image contest organised by FEI, an Oregon-based imaging company, alongside National Geographic, aims to find out.

These images, taken as part of a competition to capture the unseen world, aim to shift our perspective of common objects by placing them under a new light.

FEI’s instrument owners were invited to submit their best images for inclusion in National Geographic promotional materials for its giant screen film ‘Invisible Worlds’.

Marcos Rosado was awarded first place for this image of an Acacia Dealbata flower

Marcos Rosado was awarded first place for this image of an Acacia Dealbata flower. Mr Rosado said he picked the bloom from a tree in his parents' garden

The mouth parts of the aquatic third-stage larva of an Asian tiger mosquito are seen at 800 x magnification

The mouth parts of the aquatic third-stage larva of an Asian tiger mosquito are seen at 800 x magnification. The mosquito can carry dengue and chikungunya viruses, both of which cause high fevers. The infections usually occur in tropical regions of Africa, Asia and South America. The image was taken by Riccardo Antonelli

Barcelona-based Marcos Rosado, an electron microscopy specialist, was awarded first place in the 2013 FEI Image Contest for his entry ‘Acacia Dealbata Flower’.

‘I was in the garden of my parents' house admiring the Acacia Dealbata,’ recalled Mr Rosado.

‘I noticed a little ball hanging from a branch of the tree which was going to be a flower in a few days.

‘It seemed to have some beautiful yellow spots into it, so I decided to take it and have a look at it in the microscope.

‘What I discovered is that it, as I supposed, was an Acacia Dealbata flower about to open. It was really beautiful.’

This image of dendritic cells stimulated with silicon microparticles was the July winner in 'The Human Body' category

Categories for this year's image contest were designed to be more consumer friendly and included 'The Natural World', 'The Human Body', and 'Around the House'. This image of dendritic cells (immune cells) stimulated with silicon microparticles was the July winner in 'The Human Body' category

Helichrysum iltalicum is also known as the curry plant, because of the strong smell of its leaves

This extreme close-up image of a Helichrysum italicum flower with pollen grains was the June winner in the 'Natural World' category. Helichrysum iltalicum is also known as the curry plant, because of the strong smell of its leaves and grows on dry, rocky or sandy ground around the Mediterranean

This photo of bacterial nanocables that were found in Denmark's Aarhus Bay was the July winner in the 'Natural World' category

This photo of bacterial nanocables that were found in Denmark's Aarhus Bay was the July winner in the 'Natural World' category. Bacterial nano cables are electrically conductive systems produced by a number of bacteria

Categories for this year's image contest were designed to be more consumer friendly and included 'The Natural World', 'The Human Body', and 'Around the House'.

Highlights include an image by Riccardo Antonelli of the mouth parts of the aquatic third-stage larva of an Asian tiger mosquito are seen at 800 x magnification.

The mosquito can carry dengue and chikungunya viruses, both of which cause high fevers. The infections usually occur in tropical regions of Africa, Asia and South America.

Another image shows, which shows extreme close-up image of a Helichrysum italicum flower with pollen grains, was the June winner in the 'Natural World' category.

Helichrysum iltalicum is also known as the curry plant, because of the strong smell of its leaves and grows on dry, rocky or sandy ground around the Mediterranean

A view of a cigarette filter, revealing cellulose acetate fibers, is shown as the May winner in the 'Around the House' category.

Green-tinted false arms, also known as pseudopods, are shown from a human fibroblast cell over silica microparticles in this photo, selected as the June winner in the 'Around the House' category

Green-tinted false arms, also known as pseudopods, are shown from a human fibroblast cell over silica microparticles in this photo. A pseudopod is a temporary projection seen in some cells, including amoebas and white blood cells. Its function is to help the cell move

This photo reveals the fracture surface of a snap-off blade after breaking off one of the segments

This photo reveals the fracture surface of a snap-off blade after breaking off one of the segments

This photo shows silicon nanowires that were grown on copper foil with gold on top, through a process known as chemical vapor deposition. These nanowires will be used to manufacture anodes for lithium-ion batteries

This photo shows silicon nanowires that were grown on copper foil with gold on top, through a process known as chemical vapor deposition. These nanowires will be used to manufacture anodes for lithium-ion batteries

One entry imaged incredibly detailed green-tinted false arms, also known as pseudopods, shown from a human fibroblast cell over silica microparticles.

A pseudopod is a temporary projection seen in some cells, including amoebas and white blood cells. Its function is to help the cell move.

Cyril Geudj meanwhile used an FEI Strata scanning transmission electron microscope to create an incredible image simply titled 'The Web'.

This image is an extremely high magnification image of a grid he uses to grow samples for observation.

Winners of FEI’s ‘Explore the Unseen’ image contest in partnership with National Geographic’s ‘Mysteries of the Unseen World,’ debuts November 8 2013.

This photo of Torilis arvensis, more commonly known as spreading hedge parsley, was the July winner in the 'Other Relevant Science' category

This photo of Torilis arvensis, more commonly known as spreading hedge parsley, was the July winner in the 'Other Relevant Science' category

Created by Cyril Geudj using an FEI Strata scanning transmission electron microscope, and simply titled 'The Web', is an extremely high magnification image of a grid he uses to grow samples for observation

Created by Cyril Geudj using an FEI Strata scanning transmission electron microscope, and simply titled 'The Web', an extremely high magnification image of a grid he uses to grow samples for observation

A microscopic image of a head lice gripping onto two human hairs. It was the May winner in 'The Human Body' category

A microscopic image of a head lice gripping onto two human hairs. This image was the May winner in 'The Human Body' category

 

 

 

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