Higher Iron Levels Increase Thromboembolism Risk
|
By HospiMedica International staff writers Posted on 31 Jul 2019 |
|
Image: A new study claims iron levels can influence VTE and infection risk (Photo courtesy of 123rf).
A new study reveals that although naturally higher blood serum iron levels reduce atherosclerosis, they also increase the risk of venous thromboembolism (VTE), stroke, and bacterial skin infection.
Researchers at Imperial College London (Imperial; United Kingdom), Bordeaux population health (France), the University of Ioannina (Greece), and other institutions conducted a study to investigate the effect of genetically determined iron status on carotid intima‐media thickness, carotid plaque, and VTE using a genome‐wide Mendelian randomization of relevant data from 48,972 subjects. Two‐sample summary data Mendelian randomization was performed for analysis.
The results revealed that higher genetically determined iron status was associated with increased risk of VTE and a higher risk of bacterial skin infection, with odds ratios per standard deviation (SD) increase in biomarker levels of 1.37 for serum iron, 1.25 for transferrin saturation, 1.92 for ferritin, and 0.76 for serum transferrin (with higher transferrin levels representing lower iron status). In contrast, higher iron status was also associated with lower risk of carotid plaque. The study was published on August 6, 2019, in the Journal of the American Heart Association.
“Iron is a crucial mineral in the body, and is essential for carrying oxygen around the body. However, getting the right amount of iron in the body is a fine balance; too little can lead to anemia, but too much can lead to a range of problems, including liver damage,” said lead author Dipender Gill, MD, PhD, of ICL. “The study only looked at naturally occurring iron levels in the body related to genetic variation between individuals, and did not investigate the effect of taking iron supplements.”
Mendelian randomization examines measured variation in genes of known function to study the causal effect of a modifiable exposure on disease in epidemiological studies of common genetic polymorphisms with well-understood effects on exposure patterns. The genotype must only affect the disease status indirectly via its effect on the exposure of interest. Mendelian randomization was first described as a method for obtaining unbiased estimates of the effects of a putative causal variable, without conducting a traditional randomized trial.
Related Links:
Imperial College London
Bordeaux population health
University of Ioannina
Researchers at Imperial College London (Imperial; United Kingdom), Bordeaux population health (France), the University of Ioannina (Greece), and other institutions conducted a study to investigate the effect of genetically determined iron status on carotid intima‐media thickness, carotid plaque, and VTE using a genome‐wide Mendelian randomization of relevant data from 48,972 subjects. Two‐sample summary data Mendelian randomization was performed for analysis.
The results revealed that higher genetically determined iron status was associated with increased risk of VTE and a higher risk of bacterial skin infection, with odds ratios per standard deviation (SD) increase in biomarker levels of 1.37 for serum iron, 1.25 for transferrin saturation, 1.92 for ferritin, and 0.76 for serum transferrin (with higher transferrin levels representing lower iron status). In contrast, higher iron status was also associated with lower risk of carotid plaque. The study was published on August 6, 2019, in the Journal of the American Heart Association.
“Iron is a crucial mineral in the body, and is essential for carrying oxygen around the body. However, getting the right amount of iron in the body is a fine balance; too little can lead to anemia, but too much can lead to a range of problems, including liver damage,” said lead author Dipender Gill, MD, PhD, of ICL. “The study only looked at naturally occurring iron levels in the body related to genetic variation between individuals, and did not investigate the effect of taking iron supplements.”
Mendelian randomization examines measured variation in genes of known function to study the causal effect of a modifiable exposure on disease in epidemiological studies of common genetic polymorphisms with well-understood effects on exposure patterns. The genotype must only affect the disease status indirectly via its effect on the exposure of interest. Mendelian randomization was first described as a method for obtaining unbiased estimates of the effects of a putative causal variable, without conducting a traditional randomized trial.
Related Links:
Imperial College London
Bordeaux population health
University of Ioannina
Gold Member
SARS‑CoV‑2/Flu A/Flu B/RSV Sample-To-Answer Test
SARS‑CoV‑2/Flu A/Flu B/RSV Cartridge (CE-IVD)
Gold Member
STI Test
Vivalytic Sexually Transmitted Infection (STI) Array
New
Auditory Evoked Potential Device
Bio-logic NavPRO ONE
New
Patient Monitor
Vista 300
Latest Critical Care News
- Novel Cannula Delivery System Enables Targeted Delivery of Imaging Agents and Drugs
- Ingestible Smart Capsule for Chemical Sensing in the Gut Moves Closer to Market
- Novel Intrabronchial Method Delivers Cell Therapies in Critically Ill Patients on External Lung Support
- Generative AI Technology Detects Heart Disease Earlier Than Conventional Methods
- Wearable Technology Predicts Cardiovascular Risk by Continuously Monitoring Heart Rate Recovery
- Wearable Health Monitoring Device Measures Gases Emitted from and Absorbed by Skin
- Groundbreaking Technology Rapidly Detects Airborne Influenza Viruses
- Handheld Device Could Transform Heart Disease Screening
- Flexible Semi-Autonomous Robot Could Deliver Medicine Inside Body
- Neurorestorative Treatment Strategies Hold Promise for Most Severe Forms of Epilepsy
- Gene Discovery Could Help Grow New Heart Arteries
- Study Discovers Invisible Transmission of Common Hospital-Associated Infection
- Non-Invasive Neuro-Ophthalmology Techniques Could Detect Brain Tumors Earlier
- Mass Manufactured Nanoparticles to Deliver Cancer Drugs Directly to Tumors
- World’s Smallest Pacemaker Fits Inside Syringe Tip
- AI-Powered, Internet-Connected Medical Devices to Revolutionize Healthcare, Finds Study
Channels
Surgical Techniques
view channel
Pioneering Sutureless Coronary Bypass Technology to Eliminate Open-Chest Procedures
In patients with coronary artery disease, certain blood vessels may be narrowed or blocked, requiring a stent or a bypass (also known as diversion) to restore blood flow to the heart. Bypass surgeries... Read more
Intravascular Imaging for Guiding Stent Implantation Ensures Safer Stenting Procedures
Patients diagnosed with coronary artery disease, which is caused by plaque accumulation within the arteries leading to chest pain, shortness of breath, and potential heart attacks, frequently undergo percutaneous... Read more
World's First AI Surgical Guidance Platform Allows Surgeons to Measure Success in Real-Time
Surgeons have always faced challenges in measuring their progress toward surgical goals during procedures. Traditionally, obtaining measurements required stepping out of the sterile environment to perform... Read more
Patient Care
view channel
Portable Biosensor Platform to Reduce Hospital-Acquired Infections
Approximately 4 million patients in the European Union acquire healthcare-associated infections (HAIs) or nosocomial infections each year, with around 37,000 deaths directly resulting from these infections,... Read more
First-Of-Its-Kind Portable Germicidal Light Technology Disinfects High-Touch Clinical Surfaces in Seconds
Reducing healthcare-acquired infections (HAIs) remains a pressing issue within global healthcare systems. In the United States alone, 1.7 million patients contract HAIs annually, leading to approximately... Read more
Surgical Capacity Optimization Solution Helps Hospitals Boost OR Utilization
An innovative solution has the capability to transform surgical capacity utilization by targeting the root cause of surgical block time inefficiencies. Fujitsu Limited’s (Tokyo, Japan) Surgical Capacity... Read more
Game-Changing Innovation in Surgical Instrument Sterilization Significantly Improves OR Throughput
A groundbreaking innovation enables hospitals to significantly improve instrument processing time and throughput in operating rooms (ORs) and sterile processing departments. Turbett Surgical, Inc.... Read moreHealth IT
view channel
Printable Molecule-Selective Nanoparticles Enable Mass Production of Wearable Biosensors
The future of medicine is likely to focus on the personalization of healthcare—understanding exactly what an individual requires and delivering the appropriate combination of nutrients, metabolites, and... Read more
Smartwatches Could Detect Congestive Heart Failure
Diagnosing congestive heart failure (CHF) typically requires expensive and time-consuming imaging techniques like echocardiography, also known as cardiac ultrasound. Previously, detecting CHF by analyzing... Read more
Business
view channel
Expanded Collaboration to Transform OR Technology Through AI and Automation
The expansion of an existing collaboration between three leading companies aims to develop artificial intelligence (AI)-driven solutions for smart operating rooms with sophisticated monitoring and automation.... Read more
