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DUKAS_187059268_FER
dukas 187059268 fer
Ferrari Press Agency
Toilet 1
Ref 17004
18/07/2025
See Ferrari text
Picture MUST credit: TOTO
A new smart toilet has been created to monitor poop to help determine the user’s health.
The new line of toilets by Japanese company TOTO will include a system to monitor fecal matter as it is expelled and record it in a dedicated smartphone app.
It will be fitted to the company’s range of Neorest toilets which already include extras like water sprays to help clean backsides.
The new fecal monitor is installed in the bowl next to the washlet water nozzle and works just like a barcode scanner.
The consistency is then classified into one of seven categories.
These are identified as clumps, lumpy, cracked, normal, semi-solid, muddy, and liquid.
The shade of brown is also measured and given one of three categories.
The data is logged for each toilet visit and can be viewed on a smartphone app, which also offers lifestyle advice on how to have more consistently normal poos.
In recent years, interest in extending healthy life expectancy and preventing lifestyle-related diseases has grown in Japan, and awareness of daily health management has improved.
OPS: One of the two Neorest toilet models fitted with the new fecal scanner.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_187059267_FER
dukas 187059267 fer
Ferrari Press Agency
Toilet 1
Ref 17004
18/07/2025
See Ferrari text
Picture MUST credit: TOTO
A new smart toilet has been created to monitor poop to help determine the user’s health.
The new line of toilets by Japanese company TOTO will include a system to monitor fecal matter as it is expelled and record it in a dedicated smartphone app.
It will be fitted to the company’s range of Neorest toilets which already include extras like water sprays to help clean backsides.
The new fecal monitor is installed in the bowl next to the washlet water nozzle and works just like a barcode scanner.
The consistency is then classified into one of seven categories.
These are identified as clumps, lumpy, cracked, normal, semi-solid, muddy, and liquid.
The shade of brown is also measured and given one of three categories.
The data is logged for each toilet visit and can be viewed on a smartphone app, which also offers lifestyle advice on how to have more consistently normal poos.
In recent years, interest in extending healthy life expectancy and preventing lifestyle-related diseases has grown in Japan, and awareness of daily health management has improved.
OPS: One of the two Neorest toilet models fitted with the new fecal scanner.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_187053406_NUR
IT Specialist At Work
An IT specialist from Russia works on a computer in a rented apartment in Novi Sad, Serbia, on July 17, 2025. (Photo by Maxim Konankov/NurPhoto) -
DUKAS_187053398_NUR
IT Specialist At Work
An IT specialist from Russia works on a computer in a rented apartment in Novi Sad, Serbia, on July 17, 2025. (Photo by Maxim Konankov/NurPhoto) -
DUKAS_187053388_NUR
IT Specialist At Work
An IT specialist from Russia works on a computer in a rented apartment in Novi Sad, Serbia, on July 17, 2025. (Photo by Maxim Konankov/NurPhoto) -
DUKAS_187053381_NUR
IT Specialist At Work
An IT specialist from Russia works on a computer in a rented apartment in Novi Sad, Serbia, on July 17, 2025. (Photo by Maxim Konankov/NurPhoto) -
DUKAS_187053380_NUR
IT Specialist At Work
An IT specialist from Russia works on a laptop in a rented apartment in Novi Sad, Serbia, on July 17, 2025. (Photo by Maxim Konankov/NurPhoto) -
DUKAS_187053372_NUR
IT Specialist At Work
An IT specialist from Russia works on a laptop in a rented apartment in Novi Sad, Serbia, on July 17, 2025. (Photo by Maxim Konankov/NurPhoto) -
DUKAS_187025469_FER
Wearable hydration sensor
Ferrari Press Agency
Dehydration 1
Ref 16998
17/07/2025
See Ferrari text
Picture MUST credit: University of Texas at Austin
A new non-invasive, wearable sensor designed to measure a user's hydration levels continuously, in real time is being developed by researchers.
They say such a device could help a football player stay hydrated on a hot afternoon, keep a firefighter battling a blaze from getting too dried out, or just let an office worker know when it's time to make a trip to fill their water bottle.
Hydration is essential for human health. It plays a critical role in maintaining organ function, regulating body temperature, and supporting vital physiological processes.
It uses a technique that measures how electrical signals pass through the body, to track hydration levels known as bioimpedance,
It uses strategically placed electrodes, the sensor sends a small, safe electrical current through the arm.
How the electrical current flows through the body depends on the amount of water in the tissues.
Water is a good conductor of electricity, so hydrated tissues allow the current to pass more easily, while dehydrated tissues resist the flow.
Data collected by the sensor is wirelessly transmitted to a smartphone, allowing users to monitor their hydration levels.
US researchers at the University of Texas at Austin conducted several experiments to test the device, including a diuretic-induced dehydration study and a 24-hour free-living trial.
OPS:Sensor lead researcher Professor Nanshu Lu
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_186859286_EYE
French region has banned tap water. Is it a warning for the rest of Europe?
French region has banned tap water. Is it a warning for the rest of Europe?
Forever chemicals have polluted the water supply of 60,000 people, threatening human health, wildlife and the wider ecosystem. But activists say this is just the tip of the Pfas iceberg.
France, Saint Louis, Beat Freiermuth, eco activist and professionell chemist shows the diagram of the water examinations of Hesingue, a village nearby, which is contaminated with PFAS. His house is located either in Hésingue or in Buschwiller.
Stefan Pangritz / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
Stefan Pangritz -
DUKAS_185415485_FER
e-tattoo to monitor brain stress
Ferrari Press Agency
e-tattoo 1
Ref 16862
30/05/2025
See Ferrari text
Picture MUST credit: Huh et al. /University of Texas at Austin
A temporary high tech face tattoo that can track when the brain is working too hard has been developed by scientists.
The technology may help track the mental workload of workers like air traffic controllers and truck drivers, whose lapses in focus can have serious consequences.
The e-tattoo decodes brainwaves to measure mental strain without bulky headgear.
The team behind the device said humans perform best in a cognitive zone when they are neither overwhelmed or bored.
Finding that balance is key to optimal performance.
The e-tattoo does this by analysing electrical activity from the brain known as as EEG as well as eye movement,
Currently EEG measurement is done using caps that are bulky with dangling wires.
Instead the wireless e-tattoo consists of a lightweight battery pack and paper-thin, sticker-like sensors.
The sensors are made into wavy loops and coils, a design that allows them to stretch and conform seamlessly to the skin for comfort and clear signals.
The US researchers from the University of Texas at Austin tested the e-tattoo on six volunteers who completed a memory challenge that increased in difficulty.
Participants' brains slowed as cognitive demand increased, and mental fatigue grew.
OPS:The e-tattoo device
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_185415484_FER
e-tattoo to monitor brain stress
Ferrari Press Agency
e-tattoo 1
Ref 16862
30/05/2025
See Ferrari text
Picture MUST credit: Huh et al. /University of Texas at Austin
A temporary high tech face tattoo that can track when the brain is working too hard has been developed by scientists.
The technology may help track the mental workload of workers like air traffic controllers and truck drivers, whose lapses in focus can have serious consequences.
The e-tattoo decodes brainwaves to measure mental strain without bulky headgear.
The team behind the device said humans perform best in a cognitive zone when they are neither overwhelmed or bored.
Finding that balance is key to optimal performance.
The e-tattoo does this by analysing electrical activity from the brain known as as EEG as well as eye movement,
Currently EEG measurement is done using caps that are bulky with dangling wires.
Instead the wireless e-tattoo consists of a lightweight battery pack and paper-thin, sticker-like sensors.
The sensors are made into wavy loops and coils, a design that allows them to stretch and conform seamlessly to the skin for comfort and clear signals.
The US researchers from the University of Texas at Austin tested the e-tattoo on six volunteers who completed a memory challenge that increased in difficulty.
Participants' brains slowed as cognitive demand increased, and mental fatigue grew.
OPS:The e-tattoo device
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_185415483_FER
e-tattoo to monitor brain stress
Ferrari Press Agency
e-tattoo 1
Ref 16862
30/05/2025
See Ferrari text
Picture MUST credit: Huh et al. /University of Texas at Austin
A temporary high tech face tattoo that can track when the brain is working too hard has been developed by scientists.
The technology may help track the mental workload of workers like air traffic controllers and truck drivers, whose lapses in focus can have serious consequences.
The e-tattoo decodes brainwaves to measure mental strain without bulky headgear.
The team behind the device said humans perform best in a cognitive zone when they are neither overwhelmed or bored.
Finding that balance is key to optimal performance.
The e-tattoo does this by analysing electrical activity from the brain known as as EEG as well as eye movement,
Currently EEG measurement is done using caps that are bulky with dangling wires.
Instead the wireless e-tattoo consists of a lightweight battery pack and paper-thin, sticker-like sensors.
The sensors are made into wavy loops and coils, a design that allows them to stretch and conform seamlessly to the skin for comfort and clear signals.
The US researchers from the University of Texas at Austin tested the e-tattoo on six volunteers who completed a memory challenge that increased in difficulty.
Participants' brains slowed as cognitive demand increased, and mental fatigue grew.
OPS:The e-tattoo device
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_185415482_FER
e-tattoo to monitor brain stress
Ferrari Press Agency
e-tattoo 1
Ref 16862
30/05/2025
See Ferrari text
Picture MUST credit: Huh et al. /University of Texas at Austin
A temporary high tech face tattoo that can track when the brain is working too hard has been developed by scientists.
The technology may help track the mental workload of workers like air traffic controllers and truck drivers, whose lapses in focus can have serious consequences.
The e-tattoo decodes brainwaves to measure mental strain without bulky headgear.
The team behind the device said humans perform best in a cognitive zone when they are neither overwhelmed or bored.
Finding that balance is key to optimal performance.
The e-tattoo does this by analysing electrical activity from the brain known as as EEG as well as eye movement,
Currently EEG measurement is done using caps that are bulky with dangling wires.
Instead the wireless e-tattoo consists of a lightweight battery pack and paper-thin, sticker-like sensors.
The sensors are made into wavy loops and coils, a design that allows them to stretch and conform seamlessly to the skin for comfort and clear signals.
The US researchers from the University of Texas at Austin tested the e-tattoo on six volunteers who completed a memory challenge that increased in difficulty.
Participants' brains slowed as cognitive demand increased, and mental fatigue grew.
OPS:The e-tattoo device
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408810_FER
Device gauges health by sensing gases coming from, going into skin
Ferrari Press Agency
Skin 1
Ref 16722
10/04/2025
See Ferrari text
Picture MUST credit: John A. Rogers / Northwestern University
The world’s first wearable device for measuring skin health including monitoring wounds, has been developed by researchers.
It analyses gases emitted and absorbed by the body’s largest organ.
The compact device is said to be able to also detect infections, track hydration levels, quantifying exposure to harmful environmental chemicals and more.
The new technology comprises a collection of sensors that precisely measure changes in temperature, water vapour, carbon dioxide and volatile organic compounds , which each give valuable insight into various skin conditions and overall health.
These gases flow into a small chamber within the device that hovers above the skin without actually touching it.
This no-contact design is particularly useful for gathering information about fragile skin without disturbing delicate tissues.
It could be especially useful in dealing with diabetic patients according to the team from the USA’s Northwestern University in Illinois.
OPS: The The internal sensor of the new skin health monitoring device.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408809_FER
Device gauges health by sensing gases coming from, going into skin
Ferrari Press Agency
Skin 1
Ref 16722
10/04/2025
See Ferrari text
Picture MUST credit: John A. Rogers / Northwestern University
The world’s first wearable device for measuring skin health including monitoring wounds, has been developed by researchers.
It analyses gases emitted and absorbed by the body’s largest organ.
The compact device is said to be able to also detect infections, track hydration levels, quantifying exposure to harmful environmental chemicals and more.
The new technology comprises a collection of sensors that precisely measure changes in temperature, water vapour, carbon dioxide and volatile organic compounds , which each give valuable insight into various skin conditions and overall health.
These gases flow into a small chamber within the device that hovers above the skin without actually touching it.
This no-contact design is particularly useful for gathering information about fragile skin without disturbing delicate tissues.
It could be especially useful in dealing with diabetic patients according to the team from the USA’s Northwestern University in Illinois.
OPS: The internal sensor of the new skin. health monitoring device.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408808_FER
Device gauges health by sensing gases coming from, going into skin
Ferrari Press Agency
Skin 1
Ref 16722
10/04/2025
See Ferrari text
Picture MUST credit: John A. Rogers / Northwestern University
The world’s first wearable device for measuring skin health including monitoring wounds, has been developed by researchers.
It analyses gases emitted and absorbed by the body’s largest organ.
The compact device is said to be able to also detect infections, track hydration levels, quantifying exposure to harmful environmental chemicals and more.
The new technology comprises a collection of sensors that precisely measure changes in temperature, water vapour, carbon dioxide and volatile organic compounds , which each give valuable insight into various skin conditions and overall health.
These gases flow into a small chamber within the device that hovers above the skin without actually touching it.
This no-contact design is particularly useful for gathering information about fragile skin without disturbing delicate tissues.
It could be especially useful in dealing with diabetic patients according to the team from the USA’s Northwestern University in Illinois.
OPS: The new skin. health monitoring device.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408807_FER
Device gauges health by sensing gases coming from, going into skin
Ferrari Press Agency
Skin 1
Ref 16722
10/04/2025
See Ferrari text
Picture MUST credit: John A. Rogers / Northwestern University
The world’s first wearable device for measuring skin health including monitoring wounds, has been developed by researchers.
It analyses gases emitted and absorbed by the body’s largest organ.
The compact device is said to be able to also detect infections, track hydration levels, quantifying exposure to harmful environmental chemicals and more.
The new technology comprises a collection of sensors that precisely measure changes in temperature, water vapour, carbon dioxide and volatile organic compounds , which each give valuable insight into various skin conditions and overall health.
These gases flow into a small chamber within the device that hovers above the skin without actually touching it.
This no-contact design is particularly useful for gathering information about fragile skin without disturbing delicate tissues.
It could be especially useful in dealing with diabetic patients according to the team from the USA’s Northwestern University in Illinois.
OPS: The new skin. health monitoring device.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408806_FER
Device gauges health by sensing gases coming from, going into skin
Ferrari Press Agency
Skin 1
Ref 16722
10/04/2025
See Ferrari text
Picture MUST credit: John A. Rogers / Northwestern University
The world’s first wearable device for measuring skin health including monitoring wounds, has been developed by researchers.
It analyses gases emitted and absorbed by the body’s largest organ.
The compact device is said to be able to also detect infections, track hydration levels, quantifying exposure to harmful environmental chemicals and more.
The new technology comprises a collection of sensors that precisely measure changes in temperature, water vapour, carbon dioxide and volatile organic compounds , which each give valuable insight into various skin conditions and overall health.
These gases flow into a small chamber within the device that hovers above the skin without actually touching it.
This no-contact design is particularly useful for gathering information about fragile skin without disturbing delicate tissues.
It could be especially useful in dealing with diabetic patients according to the team from the USA’s Northwestern University in Illinois.
OPS: The new skin. health monitoring device.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_178139289_BES
Des toilettes équipés d'une IA qui analyse les urines et previent d'éventuels problèmes de santé
Picture MUST credit: Shanmu A new health tracker sticks to the inside of a toilet bowl to monitor urine. The Shanmu S1 scans for health markers after someone has used the toilet. This palm-sized device uses AI to analyse just one millionth of a litre, a measurement known as a single microlitre . It then sends the information to a companion app that displays a rundown of ten critical health indicators. The process takes about ten minutes according to the maker, Chinese company Shanmu , a Shenzhen-based medical tech company. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_178139284_BES
Des toilettes équipés d'une IA qui analyse les urines et previent d'éventuels problèmes de santé
Picture MUST credit: Shanmu A new health tracker sticks to the inside of a toilet bowl to monitor urine. The Shanmu S1 scans for health markers after someone has used the toilet. This palm-sized device uses AI to analyse just one millionth of a litre, a measurement known as a single microlitre . It then sends the information to a companion app that displays a rundown of ten critical health indicators. The process takes about ten minutes according to the maker, Chinese company Shanmu , a Shenzhen-based medical tech company. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_178139282_BES
Des toilettes équipés d'une IA qui analyse les urines et previent d'éventuels problèmes de santé
Picture MUST credit: Shanmu A new health tracker sticks to the inside of a toilet bowl to monitor urine. The Shanmu S1 scans for health markers after someone has used the toilet. This palm-sized device uses AI to analyse just one millionth of a litre, a measurement known as a single microlitre . It then sends the information to a companion app that displays a rundown of ten critical health indicators. The process takes about ten minutes according to the maker, Chinese company Shanmu , a Shenzhen-based medical tech company. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_178139280_BES
Des toilettes équipés d'une IA qui analyse les urines et previent d'éventuels problèmes de santé
Picture MUST credit: Shanmu A new health tracker sticks to the inside of a toilet bowl to monitor urine. The Shanmu S1 scans for health markers after someone has used the toilet. This palm-sized device uses AI to analyse just one millionth of a litre, a measurement known as a single microlitre . It then sends the information to a companion app that displays a rundown of ten critical health indicators. The process takes about ten minutes according to the maker, Chinese company Shanmu , a Shenzhen-based medical tech company. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_177803852_LAP
Udienza Regeni , proiezione del video dei due testimoni palestinesi
Udienza Regeni , proiezione del video di Al Jazeera contenente l’intervista a due palestinesi detenuti nel complesso dove si sono tenute le torture e gli interrogatori a Giulio Regeni — Roma , Italia - Martedì 19 Novembre 2024 - Cronaca - (foto di Cecilia Fabiano/LaPresse)
Regeni Trial , projection of the Al Jazeera video containing the interview with two Palestinians detained in the complex where Giulio Regeni was tortured and interrogated by an Egyptian police force — Rome , Italy - Tuesday November 19 , 2024 - News - (photo by Cecilia Fabiano/LaPresse)
LaPresse -
DUKAS_177803851_LAP
Udienza Regeni , proiezione del video dei due testimoni palestinesi
Udienza Regeni , proiezione del video di Al Jazeera contenente l’intervista a due palestinesi detenuti nel complesso dove si sono tenute le torture e gli interrogatori a Giulio Regeni — Roma , Italia - Martedì 19 Novembre 2024 - Cronaca - (foto di Cecilia Fabiano/LaPresse)
Regeni Trial , projection of the Al Jazeera video containing the interview with two Palestinians detained in the complex where Giulio Regeni was tortured and interrogated by an Egyptian police force — Rome , Italy - Tuesday November 19 , 2024 - News - (photo by Cecilia Fabiano/LaPresse)
LaPresse -
DUKAS_177803848_LAP
Udienza Regeni , proiezione del video dei due testimoni palestinesi
Udienza Regeni , proiezione del video di Al Jazeera contenente l’intervista a due palestinesi detenuti nel complesso dove si sono tenute le torture e gli interrogatori a Giulio Regeni — Roma , Italia - Martedì 19 Novembre 2024 - Cronaca - (foto di Cecilia Fabiano/LaPresse)
Regeni Trial , projection of the Al Jazeera video containing the interview with two Palestinians detained in the complex where Giulio Regeni was tortured and interrogated by an Egyptian police force — Rome , Italy - Tuesday November 19 , 2024 - News - (photo by Cecilia Fabiano/LaPresse)
LaPresse -
DUKAS_176020661_LAP
Elly Schlein ospite a Sky TG24 Live In
La segretaria del Partito Democratico Elly Schlein durante l’intervista a Sky TG24 Live In, Roma, Martedì, 8 Ottobre 2024 (Foto Roberto Monaldo / LaPresse)
Democratic Party secretary Elly Schlein during the interview on Sky TG24 Live In, Rome, Tuesday, October 8, 2024 (Photo by Roberto Monaldo / LaPresse)
LaPresse -
DUKAS_176103371_EYE
AI glasses to anticipating falls: firms vie to win £1m for dementia technology. Nicola Davis tests out Longitude Prize Projects
Nicola Davis tests out Longitude Prize on Dementia innovations. 3 October 2024Longitude prize will give one of five finalists money towards creating an innovation for independent living.
Five projects reached the finals of the longitude prize on dementia - a £1m award for technology designed to help people with such conditions live independently.
Nicola Davis tests out Longitude Prize on Dementia innovations. 3 October 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_169828832_EYE
'We can't tackle drink-spiking alone': Met teams up with London venues amid increasing reports
Police are working with nightclubs to combat the drink-spiking crime, raise awareness among clubbers and improve victim support.
The bank of video screens looks like something straight out of a spy movie. Inside a secure room, dozens of images show footage of staircases, doors, the bar, booths and the dancefloor. This is Tiger Tiger London, a popular nightclub in the capitalÕs West End, and the CCTV operators are scanning for suspicious behaviour.
Tiger Tiger
L to R Christian and Simon Monitor
in Surveillance Room in Haymarket, London, UK.
11/05/24
Sonja Horsman / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
Sonja Horsman -
DUKAS_169828831_EYE
'We can't tackle drink-spiking alone': Met teams up with London venues amid increasing reports
Police are working with nightclubs to combat the drink-spiking crime, raise awareness among clubbers and improve victim support.
The bank of video screens looks like something straight out of a spy movie. Inside a secure room, dozens of images show footage of staircases, doors, the bar, booths and the dancefloor. This is Tiger Tiger London, a popular nightclub in the capital’s West End, and the CCTV operators are scanning for suspicious behaviour.
Tiger Tiger
L to R Christian and Simon Monitor
in Surveillance Room in Haymarket, London, UK.
11/05/24
Sonja Horsman / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
Sonja Horsman -
DUKAS_166985528_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
3d printed appendixes seen at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985517_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Daniel Leff. Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985527_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985524_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985525_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
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DUKAS_166985518_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
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DUKAS_166985529_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985495_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985523_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985530_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985515_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985522_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985526_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985513_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Magy Gobl, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985516_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
Dr Mary Goble, a first year specialising in surgery attempts a simulated appendectomy at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_166985514_EYE
Researchers study brain activity of surgeons for signs of cognitive overload
Team at Imperial College London say techniques could be used to flag warning signs during surgery.
It is a high-stakes scenario for any surgeon: a 65-year-old male patient with a high BMI and a heart condition is undergoing emergency surgery for a perforated appendix.
This kind of drama routinely plays out in operating theatres, but in this case trainee surgeon Mary Goble is being put through her paces by a team of researchers at Imperial College London who are studying what goes on inside the brains of surgeons as they perform life-or-death procedures.
Goble looks cool and collected as she laparoscopically excises the silicon appendix, while fending off a barrage of distractions. But her brain activity, monitored through a cap covered in optical probes, may tell a different story.
3d printed appendixes seen at the Surgical Innovation Centre at St Mary's hospital in Paddington, west London, UK.
28 February 2024.
Alicia Canter / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
AECANTER@GMAIL.COM -
DUKAS_124315262_EYE
CCTV motorist trap in a London suburb.
A motorist is caught on CCTV in a Low Traffic Neighbourhood in Streatham entering a short link road from a roundabout to another route without realising it is "No Entry" to motor vehicles. The scheme is controversial as there are no clear road surface markings to inform car drivers not to enter thus suggesting a CCTV motorist trap in order to make revenue for Lambeth council and TFL. Much of London's roads have become cluttered with multiple signage confusing the motorist.
Creating LTNs does mean that some people, including some who do not benefit from quieter streets, may have a longer journey when travelling out of the area. In general, streets will be blocked off in such a way that they will be forced to access the outside world via one main road. And therein lies the problem and an opportunity for a council to exploit motorists not familiar with the local area.
Credit: eyevine
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(FOTO: DUKAS/EYEVINE)
GC / eyevine -
DUK10141140_006
NEWS - London: Neue "Amazon Fresh" Filiale im Wembley Park eröffnet
Mandatory Credit: Photo by Stephen Chung/LNP/Shutterstock (11802399a)
A customer with his shopping outside the new 2,500 sq ft Amazon Fresh store in Wembley Park, west London on its opening day. It is the second "just walk out" grocery store in the UK after the opening of the Wembley branch. As a "contactless" shop, it is available to anyone signed up to Amazon and with the app on their smartphone. In-store cameras and artificial intelligence monitor customers picking up items who simply walk out and billing takes place later automatically.
New Amazon Fresh store at Wembley Park, LONDON, UK - 16 Mar 2021
(c) Dukas -
DUK10141140_001
NEWS - London: Neue "Amazon Fresh" Filiale im Wembley Park eröffnet
Mandatory Credit: Photo by Stephen Chung/LNP/Shutterstock (11802399b)
Outside the new 2,500 sq ft Amazon Fresh store in Wembley Park, west London on its opening day. It is the second "just walk out" grocery store in the UK after the opening of the Wembley branch. As a "contactless" shop, it is available to anyone signed up to Amazon and with the app on their smartphone. In-store cameras and artificial intelligence monitor customers picking up items who simply walk out and billing takes place later automatically.
New Amazon Fresh store at Wembley Park, LONDON, UK - 16 Mar 2021
(c) Dukas -
DUK10138633_001
NEWS - Huawei-Finanzchefin Meng Wanzhou mit Fussfessel auf dem Weg zum Gericht in Vancouver
Mandatory Credit: Photo by Canadian Press/Shutterstock (11298985e)
Huawei chief financial officer Meng Wanzhou walks to her car with a monitor bracelet on her ankle while making her way to BC Supreme Court in Vancouver, B.C., Monday, Dec. 7, 2020.
Cda China Meng, Vancouver, Canada - 07 Dec 2020
(c) Dukas -
