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DUKAS_184524700_NUR
The Integrated Services Post Of Disability Results Mutual Cooperation In Indonesia
A mother holds her child while queuing for health services at a disability posyandu (Integrated Service Post) in Polehan Village, Malang, East Java, Indonesia, on May 10, 2025. All health services at the Posyandu are free of charge, with a total of 55 patients, including those with various types of disabilities and the elderly. It is held once a month and includes motor therapy, sign language, basic Braille reading and writing, requisite massage, and basic health checks. The mutual cooperation disability posyandu service in Malang City serves as a model in Indonesia. This disability posyandu is the result of collaboration and mutual cooperation from the local government, university, the Lawang Mental Hospital, the inclusion community, and NGO Lingkar Sosial. (Photo by Aman Rochman/NurPhoto) -
DUKAS_184524695_NUR
The Integrated Services Post Of Disability Results Mutual Cooperation In Indonesia
A child looks at a cell phone during a psychotherapy service by a psychiatrist at a disability posyandu (Integrated Service Post) in Polehan Village, Malang, East Java, Indonesia, on May 10, 2025. All health services at the Posyandu are free of charge, with a total of 55 patients, including various types of disabilities and the elderly. It is held once a month and includes motor therapy, sign language, basic Braille reading and writing, requisite massage, and basic health checks. The mutual cooperation disability posyandu service in Malang City serves as a model in Indonesia. This disability posyandu is the result of collaboration and mutual cooperation from the local government, university, the Lawang Mental Hospital, the inclusion community, and NGO Lingkar Sosial. (Photo by Aman Rochman/NurPhoto) -
DUKAS_183058110_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058070_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058064_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058059_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058054_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058049_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058037_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058031_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058025_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058021_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058014_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058010_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058006_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183058002_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183057998_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183057995_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_183057990_NUR
Round Table Discussion Long COVID In Berlin
Federal Minister for Health Karl Lauterbach attends the round table discussion ''Long COVID'' at the Ministry of Health in Berlin, Germany, on March 31, 2025 (Photo by Christian Marquardt/NurPhoto). -
DUKAS_181368814_EYE
Prime Minister Keir Starmer Electives visit
17/02/2025. Bristol, United Kingdom. Prime Minister Keir Starmer meets staff as he visits the North Bristol Community Diagnostics Centre. Picture by Simon Dawson / No 10 Downing Street / 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)
Crown copyright. Licensed under the Open Government Licence -
DUKAS_181368826_EYE
Prime Minister Keir Starmer Electives visit
17/02/2025. Bristol, United Kingdom. Prime Minister Keir Starmer meets staff as he visits the North Bristol Community Diagnostics Centre. Picture by Simon Dawson / No 10 Downing Street / 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)
Crown copyright. Licensed under the Open Government Licence -
DUKAS_181368812_EYE
Prime Minister Keir Starmer Electives visit
17/02/2025. Bristol, United Kingdom. Prime Minister Keir Starmer meets staff as he visits the North Bristol Community Diagnostics Centre. Picture by Simon Dawson / No 10 Downing Street / 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)
Crown copyright. Licensed under the Open Government Licence -
DUKAS_181368821_EYE
Prime Minister Keir Starmer Electives visit
17/02/2025. Bristol, United Kingdom. Prime Minister Keir Starmer meets staff as he visits the North Bristol Community Diagnostics Centre. Picture by Simon Dawson / No 10 Downing Street / 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)
Crown copyright. Licensed under the Open Government Licence -
DUKAS_181368818_EYE
Prime Minister Keir Starmer Electives visit
17/02/2025. Bristol, United Kingdom. Prime Minister Keir Starmer meets staff as he visits the North Bristol Community Diagnostics Centre. Picture by Simon Dawson / No 10 Downing Street / 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)
Crown copyright. Licensed under the Open Government Licence -
DUKAS_181368823_EYE
Prime Minister Keir Starmer Electives visit
17/02/2025. Bristol, United Kingdom. Prime Minister Keir Starmer meets staff as he visits the North Bristol Community Diagnostics Centre. Picture by Simon Dawson / No 10 Downing Street / 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)
Crown copyright. Licensed under the Open Government Licence -
DUKAS_179316971_BES
XoMotion, l'exosquelette pour remettre sur pied les patients atteints de lésions de la moelle épinière
Picture MUST credit: Human in Motion Robotics An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use. The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again. It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over. It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks. The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free, The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres. But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179316970_BES
XoMotion, l'exosquelette pour remettre sur pied les patients atteints de lésions de la moelle épinière
Picture MUST credit: Human in Motion Robotics An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use. The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again. It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over. It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks. The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free, The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres. But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179316969_BES
XoMotion, l'exosquelette pour remettre sur pied les patients atteints de lésions de la moelle épinière
Picture MUST credit: Human in Motion Robotics An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use. The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again. It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over. It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks. The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free, The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres. But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179316968_BES
XoMotion, l'exosquelette pour remettre sur pied les patients atteints de lésions de la moelle épinière
Picture MUST credit: Human in Motion Robotics An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use. The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again. It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over. It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks. The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free, The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres. But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179316967_BES
XoMotion, l'exosquelette pour remettre sur pied les patients atteints de lésions de la moelle épinière
Picture MUST credit: Human in Motion Robotics An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use. The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again. It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over. It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks. The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free, The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres. But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179276150_FER
Exoskeleton to get spinal cord injury patients back on their feet
Ferrari Press Agency
XoMotion 1
Ref 16426
31/12/2024
See Ferrari text
Picture MUST credit: Human in Motion Robotics
An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use.
The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again.
It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over.
It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks.
The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free,
The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres.
But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community.
OPS: The XoMotion. It is described by the debelopers as the " world's most advanced exoskeleton. "
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179276146_FER
Exoskeleton to get spinal cord injury patients back on their feet
Ferrari Press Agency
XoMotion 1
Ref 16426
31/12/2024
See Ferrari text
Picture MUST credit: Human in Motion Robotics
An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use.
The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again.
It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over.
It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks.
The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free,
The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres.
But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community.
OPS: The XoMotion. It is described by the debelopers as the " world's most advanced exoskeleton. "
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179276145_FER
Exoskeleton to get spinal cord injury patients back on their feet
Ferrari Press Agency
XoMotion 1
Ref 16426
31/12/2024
See Ferrari text
Picture MUST credit: Human in Motion Robotics
An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use.
The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again.
It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over.
It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks.
The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free,
The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres.
But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community.
OPS: The XoMotion. It is described by the debelopers as the " world's most advanced exoskeleton. "
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179276144_FER
Exoskeleton to get spinal cord injury patients back on their feet
Ferrari Press Agency
XoMotion 1
Ref 16426
31/12/2024
See Ferrari text
Picture MUST credit: Human in Motion Robotics
An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use.
The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again.
It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over.
It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks.
The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free,
The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres.
But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community.
OPS: The XoMotion. It is described by the debelopers as the " world's most advanced exoskeleton. "
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179276143_FER
Exoskeleton to get spinal cord injury patients back on their feet
Ferrari Press Agency
XoMotion 1
Ref 16426
31/12/2024
See Ferrari text
Picture MUST credit: Human in Motion Robotics
An exoskeleton designed to help spinal cord injury patients get back on their feet has been cleared for use.
The device, called the XoMotion, is also aimed at assisting people disabled by a stroke or other neurological conditions to learn how to stand up and walk again.
It has a full range of motion to walk, climb stairs, sidestep and crouch, all while maintaining stability without tipping over.
It is said to be the first device of its kind to mimic the physiological motion of the legs and lower body giving a user the ability to perform complex mobility tasks.
The XoMotion is equipped with advanced sensor systems and multi-modal controllers for patients to quickly learn to operate it hands free,
The Canada-based company behind it, Human in Motion Robotics, envisions it being used initially by rehabilitation centres.
But it says it will ultimately be available for daily, personal use, for individuals to give them mobility at home and in the community.
OPS: The XoMotion. It is described by the debelopers as the " world's most advanced exoskeleton. "
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_175446978_EYE
'This was a peaceful town. Everything has changed': the Israelis under Hezbollah fire.
As Israel pounds targets in Lebanon, the border town of Kiryat Bialik is in the frontline of rocket attacks coming the other way.
Joseph, 77, with a bandage over his eye from which he lost his sight, on his bed at the Rambam Hospital in Haifa where he was transported after being injured by the rocket attack in Kiriat Byliak on Sunday, On Sunday was oredered by the Health Ministry to relocate hundreds of patients from wards to a two-level underground parking facility, amidst the escalating conflict with Hezbollah.
Alessio Mamo / 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)
Alessio Mamo -
DUKAS_175446976_EYE
'This was a peaceful town. Everything has changed': the Israelis under Hezbollah fire.
As Israel pounds targets in Lebanon, the border town of Kiryat Bialik is in the frontline of rocket attacks coming the other way.
Rambam Hospital in Haifa, which on Sunday was ordered by the Health Ministry to relocate hundreds of patients from wards to a two-level underground parking facility, amidst the escalating conflict with Hezbollah.
Alessio Mamo / 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)
Alessio Mamo -
DUKAS_167077937_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: One of the shapeshift stickers being placed during laparoscopic surgery
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167077933_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: One of the shapeshift stickers being placed during laparoscopic surgery
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167077932_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: The shapeshift stickers. Three different sizes have been created
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167077931_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: One of the shapeshift stickers being placed during laparoscopic surgery
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167077930_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: The shapeshift stickers alongside a US quarter for size comparison
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167077927_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: One of the shapeshift stickers at the end of a finger
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_167077926_FER
Sticker warns of post surgical problems in patients
Ferrari Press Agency
Stickers 1
Ref 15652
08/03/2024
See Ferrari text
Pictures must credit: Northwestern University
A sticker that warns of post surgical problems in patients has been developed by scientists.
It enables medics to monitor the health of patients' organs and deep tissues with a simple ultrasound device.
When attached to an organ, the soft, tiny sticker changes in shape in response to the body's changing acidic levels known as pH.
This change can serve as an early warning sign for post-surgery complications such as anastomotic leaks.
Clinicians then can view these shape changes in real time through ultrasound imaging.
Currently, no existing methods can reliably and non-invasively detect anastomotic leaks—a life-threatening condition that occurs when gastrointestinal fluids escape the digestive system.
The non-invasive sticker can enable earlier interventions than previously possible.
When the patient has fully recovered, the biocompatible sticker simply dissolves away.
It was developed in the USA by researchers led by Northwestern University just outside Chicago and Washington University School of Medicine in St. Louis.
OPS: One of the shapeshift stickers at the end of a syringe needle
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304953_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:Once hooked up to a computer, the aidlets the patient control it using just their thoughts, such as typing out messages using the keyboard.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304952_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The Stentrode mesh is fed into the brain via a tube inserted into a blood vessel. Within two days it will be covered in cell growth
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304951_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The Stentrode mesh which is inserted into the brain via blood vessels
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304947_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304945_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304943_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
