MRI scans are strong diagnostics with high-definition images of what lies inside a body. Strong magnetic fields require precaution, as brought out by an instance where a young woman suffered very serious injuries due to an oversight in a metallic core within a silicone sex toy that she happened to have before the MRI scan. This makes a stark reminder about the potentially deadly consequences of missing metal objects when such procedures are being performed. In April 2023, a 23-year-old woman went into an MRI with a silicone plug containing a metal core that was not known.

She thought that the item is made entirely out of silicone according to the advertising. However, the strong magnetic field of the MRI machine interacted with the hidden metal, dragging the object through her body and causing excruciating pain. According to reports from the U.S. Food and Drug Administration (FDA), the scene was harrowing, with the woman screaming in agony and requiring immediate hospitalization. Despite pre-scan screenings, which are routine prior to a scan, the patient did not inform the facility that the object existed because he presumed it was purely non-metallic. This caused serious injuries that led to the patient's law suit against the manufacturer for deceitful misrepresentations of material content.

MRI machines employ magnets between 0.5 to 3 Tesla (T). This is thousands of times stronger than the Earth's magnetic field. The tremendous force causes ferromagnetic materials, like iron and nickel, to be magnetized quickly and become strongly attracted toward the magnet. Objects as small as hairpins or paper clips will accelerate at 40 miles per hour inside the magnetic field.

The force can lead to catastrophic injuries in items lodged within the body, such as metallic implants or foreign objects. Metallic cores within devices, like pacemakers or intrauterine devices, must be disclosed to radiologists to prevent such complications.

How Metal Objects Interact with MRI Fields?

On these claims, Dr. Adam Taylor, a specialist in human anatomy, weighed his words in a international health website and added that the distance away and mass of this object would increase its velocity towards that of sound, "The acceleration would be phenomenal, but with a metallic core, it can't go anywhere near supersonic speeds. As for the size, the magnetic acceleration to the internal soft tissues would ensure that there could be severe intracranial trauma."

The injuries inflicted in this case likely involved damage to major blood vessels, nerves, or organs, highlighting the devastating impact of even minor oversight during an MRI scan.

This is not an isolated case. There are documented cases of metallic objects causing serious damage during MRI scans with a 65-year-old man with schizophrenia swallowed metal objects, including sockets and a hinge pin. The powerful magnetic field during an MRI scan caused the objects to rupture his stomach, resulting in serious injuries.

A toddler who ingested 11 small magnets perforated his bowel while undergoing a scan, making his case unique. In another deadly but extremely rare incident, there have been people who hide a firearm on themselves during MRI procedures. Magnetic attraction can trigger a discharge in a weapon and has led to some fatal injuries.

These cases emphasize the very strong need for adequate screening and patient education prior to an MRI.

Preventing MRI-Related Incidents

Medical professionals have been trained to avoid risks. This is by properly screening a patient for metallic objects. In general, most pre-scan protocols include:

• Patients are interrogated about implants, recent surgery or exposures at work related to metals.
• Radiologists sometimes use handheld metal detectors to search for hidden items.
• People who work with metal, like welders or machinists, will need additional testing to detect microscopic metal fragments within soft tissues or eyes.

The case emphasizes the importance of product labeling by manufacturers, especially those products that are likely to unintentionally cause harm to health. The patient's assumption that her device was 100% silicone points to a larger problem in consumer markets with misinformation.

It also reminds the patients to report any possible dangers to the medical professionals, no matter how the objects look non-metallic. In sensitive cases, patients can request private discussions with healthcare providers to ensure safety without discomfort.

In the end, it is a joint effort from manufacturers, healthcare professionals, and patients that can prevent such tragedies. Manufacturers must ensure truthful marketing, while healthcare providers should educate patients about the dangers of metal objects in MRI settings. For patients, understanding the risks and actively participating in pre-scan disclosures can be lifesaving.

This young woman's experience is a sobering example of the unforeseen dangers posed by MRI machines when precautions are overlooked. It serves as a wake-up call to address gaps in patient awareness, medical protocols, and product transparency. By learning from this incident, the medical community and the public can work together to ensure MRI scans remain a safe and effective diagnostic tool.

In a remarkable emergency response, Dubai paramedics revived a man who collapsed from a heart attack, earning widespread praise on social media.

The man reportedly collapsed suddenly and showed no signs of consciousness or a pulse. People at the scene immediately alerted emergency services, who responded within minutes. The team began cardiopulmonary resuscitation (CPR) using an advanced CPR machine.

A video now going viral on social media shows paramedics arriving within minutes and performing CPR using the LUCAS 3 automatic chest compression device. The machine, which delivers high-quality chest compressions more consistently than manual CPR, helped circulate blood to vital organs and revived the man within minutes.

“Dubai’s emergency response looks like the future: a man collapses from a heart attack, paramedics arrive within minutes, strap on the LUCAS 3 automatic CPR device, and revive him right there,” a social media user wrote.

“If there were a machine like this, it would be a huge help because people wouldn’t have to perform CPR for a long time,” another user added.

How The LUCAS 3 Device Saves Lives

The LUCAS 3 chest compression system is a mechanical CPR device originally developed by Swedish startup Jolife AB in collaboration with Norwegian inventor Willy Vistung and cardiologist Stig Steen. The device and company were later acquired by medical technology company Stryker in 2016.

The device is designed to deliver continuous, high-quality chest compressions while reducing physical strain on caregivers.

According to the company, studies have shown that the LUCAS device can improve blood flow to the brain and achieve higher EtCO2 values compared to manual chest compressions. With more than 50,000 devices in use worldwide, including within the Dubai Corporation for Ambulance Services, a patient is reportedly treated using the device approximately every minute, it added.

What Is CPR? How To Give CPR?

CPR, or Cardiopulmonary Resuscitation, is an emergency life-saving technique used when a person stops breathing or their heart stops beating. Quick action is critical, as CPR can double or even triple a person’s chances of survival.

Steps to keep in Mind While Giving CPR

Step 1: Check The Surroundings

Ensure the area is safe by checking for dangers such as traffic, fire, or falling objects.

Step 2: Position The Person

Lay the person on their back on a firm surface and open the airway by tilting the head back slightly. Check the mouth for any visible obstruction and remove it carefully if possible.

Step 3: Check Breathing

Listen for breathing sounds for no more than 10 seconds. If the person is not breathing normally, begin CPR immediately.

Step 4: Chest Compressions

Place the heel of one hand at the center of the chest, slightly below the nipple line. Place your other hand on top and interlock your fingers. Keep your elbows straight and push hard and fast — about 2 inches deep — at a rate of 100 to 120 compressions per minute. Allow the chest to rise fully between compressions.

Step 5: Rescue Breaths

After 30 compressions, tilt the person’s head back, lift the chin, pinch the nose shut, and seal your mouth over theirs. Give two rescue breaths, each lasting about one second, while watching for chest rise. If the chest does not rise, reposition the head and try again.

Step 6: Repeat The Cycle

Continue alternating 30 chest compressions with 2 rescue breaths until the person starts breathing or emergency medical professionals arrive.

Key Considerations For CPR

• CPR should be used in emergencies such as cardiac arrest, drowning, choking, or severe trauma.

• Always confirm that the person is unresponsive and not breathing normally before starting CPR.

• CPR is intended for emergency situations. If a healthcare professional is nearby, seek their assistance immediately.

Excessive screen time use is harming sleep, mental health, learning, and development of children, according to a new advisory by the US surgeon general’s office, which urged parents to limit children’s screen time.

Even as President Donald Trump's nominee for surgeon general awaits confirmation, the "Harms of Screen Use" bulletin warns that children and teens are spending more time on their digital devices than on sleep or school, the USA Today reported.

It noted that excessive screen use is linked to heavy or compulsive screen use

• anxiety,
• depression,
• poor academic performance,
• behavioral problems
• developmental delays.

Health and Human Services Secretary Robert F. Kennedy Jr. said evidence of risks to children’s physical and mental health is “mounting,” even though screens can also provide some benefits.

The advisory promotes the slogan “Live real life,” encouraging children and families to replace excessive screen use with in-person activities and healthier routines.

Alongside the report, the officials also released a toolkit recommending steps for parents, schools, healthcare providers, and policymakers to help reduce screen dependence and encourage safer technology habits among young people.

The advisory also links excessive and "compulsive" screen use to

• poor sleep and school performance,
• mental health issues like anxiety and depression,
• behavioral and social issues, substance abuse, and developmental disruptions.

The report aligns with recent studies, which show how too much screen time affects developing minds.

Recent findings from the All India Institute of Medical Sciences, Delhi, suggest that early digital exposure to children before the age of one increases the baby's risk of autism.

The findings led by the Department of Pediatric Neurology showed that infants exposed to high levels of digital media at around one year of age are significantly more likely to display autistic signs by the time they reach age three.

India has also issued pediatric and education guidelines advising parents to limit screen exposure for young children, though there is no nationwide ban. States like Karnataka and Andhra Pradesh have also taken up action against social media use and screen time.

Countries banning screen time

While countries are not fully “banning” screen time, several of them have introduced restrictions, guidelines, or proposed laws aimed at reducing children’s screen time, especially around smartphones and social media in schools.

• France banned smartphones in primary and middle schools in 2018 and has tested stricter “digital pause” policies for students under 15.
• China has some of the world’s toughest rules, including limits on video game play for minors, restrictions on nighttime gaming, and proposed limits on smartphone use for children.
• South Korea introduced laws targeting gaming addiction among minors, including past shutdown rules that blocked late-night gaming for children.
• Netherlands and Finland have encouraged schools to restrict phones in classrooms to improve concentration and learning.
• Australia has debated stronger social media age restrictions, and several states have tightened school phone bans.
• United Kingdom schools widely enforce smartphone bans, while lawmakers continue discussing stricter online safety rules for children.
• Sweden has pushed for reduced screen exposure in early childhood education, emphasizing printed books and traditional learning methods.

India has successfully linked the health records of more than 100 crore people with Ayushman Bharat Health Accounts (ABHA) under the Ayushman Bharat Digital Mission (ABDM), the Ministry of Health and Family Welfare said today.

Implemented by the National Health Authority, the milestone marks a major step towards building an integrated, citizen-centric, and interoperable digital healthcare ecosystem in the country.

“The linking of over 100 crore health records with ABHA is an important milestone in the journey of Ayushman Bharat Digital Mission. ABHA-linked health records empower citizens with secure and consent-based access to their health information and support continuity of care across the healthcare ecosystem,” said Dr. Sunil Kumar Barnwal, CEO, NHA.

The Growing Adoption Of ABDM

According to the Ministry, more than 450 public and private health technology solutions have integrated with the ABDM ecosystem, enabling digitisation and seamless exchange of health records across healthcare facilities.

The ministry said ABDM doubled the number of linked health records from 50 crore in February 2025 to over 100 crore in just 15 months.

Nearly 10 crore health records are now being linked every two to three months. From fewer than 1,000 linked records during its initial phase to over 100 crore today, ABDM has evolved into one of the world’s largest digital health ecosystems.

Uttar Pradesh emerged as the leading contributor with over 15.03 crore ABHA-linked health records, followed by Andhra Pradesh with over 11.95 crore linked records.

Bihar, Rajasthan, and Gujarat also recorded major progress by linking over 7.37 crore, 6.32 crore, and 4.77 crore health records, respectively.

Also read: Preeclampsia Is Preventable & Treatable. Yet It’s India’s 3rd Leading Cause Of Maternal Deaths, Says AIIMS doctor

Programs Contributing To The Milestone

Among the major government programs and digital platforms contributing to the milestone are:

• Non-Communicable Disease Program
• CoWIN
• Pradhan Mantri Jan Arogya Yojana
• Uttar Pradesh government’s eKavach platform
• Andhra Pradesh health programs
• Reproductive and Child Health (RCH) program
• eHospital by National Informatics Centre
• eSushrut by Centre for Development of Advanced Computing
• Gujarat government’s TeCHO platform
• Rajasthan government’s iHMS platform

Private health technology partners and ABDM-enabled digital solutions have also contributed significantly towards the creation and linkage of ABHA-linked health records.

What Is ABHA?

ABHA is a unique digital health identity that allows citizens to securely link and access their health records across hospitals, clinics, laboratories, and healthcare providers.

Through ABDM’s consent-based health information exchange mechanism, citizens can digitally share their medical records with registered healthcare providers while maintaining the privacy and security of personal health information.

“ABDM is designed to place citizens at the center of the digital health ecosystem. With consent-based sharing of health records, individuals can access their medical information whenever required and share relevant records with healthcare providers digitally. This will help make healthcare delivery more accessible, efficient, and patient-centric,” Barnwal said.

Key Digital Building Blocks Of ABDM

The Ayushman Bharat Digital Mission is creating the digital public infrastructure required for an interoperable healthcare ecosystem through key digital building blocks such as:

• Ayushman Bharat Health Account (ABHA)
• Healthcare Professionals Registry (HPR)
• Health Facility Registry (HFR)
• Health Information Exchange and Consent Manager (HIE-CM)
• Unified Health Interface (UHI)
• National Health Claims Exchange (NHCX)

With over 100 crore health records now linked with ABHA, ABDM has marked another milestone towards creating longitudinal digital health records for citizens and enabling a more connected, paperless, efficient, and patient-centric healthcare ecosystem in the country.