Abdullah K.’s Post

✨ My first LinkedIn post ✨ Hey LinkedIn, I’m Kenny, and I’m excited to announce the launch of my new Substack, Wearable Frontiers! A while back, my journey into healthcare started with stem cell research, which sparked my passion for using tech to improve lives. That led me to focus on wearable devices—and eventually to NM Thera. An experience living with hyperhidrosis (sweaty hands) was the turning point. Now, at NM Thera, we’re building SOKY, a wearable designed to change the way people manage their health. On Wearable Frontiers, I’ll be talking about: 🔹 What we’re doing at NM Thera 🔹 The latest in wearable health tech 🔹 Sci-fi-inspired innovations making waves in the industry Let’s connect if you’re into healthcare, tech, or innovation—I’d love to hear your thoughts and share this journey with you! Let me know in the comment section what you'd like me to cover, whether it’s wearable tech inspired by the Gundam series or wild innovations like neuro-prosthetics. This is a space to geek out, so don’t hold back! https://bit.ly/3TCPtMW #WearableTech #HealthcareInnovation #DigitalHealth #Hyperhidrosis #HealthTech #MedicalDevices #Startups #SustainabilityInHealth #SOKY #NMthera

Top 5 reasons why I believe wearable tech transforms the management of epilepsy- ✅ Improved Seizure Monitoring - Wearable sensors accurately detect and track seizures - Provides valuable data to optimise treatment plans ✅ Enhanced Safety and Reduced Risks - Alarms alert caregivers during seizures - Helps prevent injuries and sudden unexpected death ✅ Objective Evaluation of New Therapies - Wearable data provides unbiased seizure metrics - Accelerates development of better epilepsy treatments ✅ Monitoring of Co-Existing Conditions - Tracks health data beyond just seizures - Identifies and manages comorbidities like depression ✅ Improved Patient Engagement - Empowers patients to actively manage their condition - Helps understand seizure patterns and triggers While not perfect, I believe these devices have the potential to change the way we care for individuals living with this challenging condition. Looking forward to how this technology can be integrated into the care of my patients. It's an incredibly promising field, and I am excited to connect with individuals working in this field.

🚀 Excited to share the cutting-edge fusion of Artificial Intelligence and Wearable Technology in Sports Medicine and Recovery! 🏋️♂️ In today's rapidly evolving landscape, AI is revolutionizing how wearables capture and interpret data, ushering in a new era of personalized insights and proactive healthcare for athletes and fitness enthusiasts. Imagine your wearable device not only passively logging your data but actively offering real-time feedback and intelligent guidance. This is the transformative power of AI and wearable tech. Here's how AI can reshape the game in sports medicine and recovery: 1️⃣ **Advanced Data Analysis:** AI goes beyond basic metric monitoring by delving into vast datasets encompassing wearable data, training history, and even genetics. By analyzing this wealth of information, AI can possibly predict injury risks, allowing for proactive interventions. 2️⃣ **Personalized Training Programs:** Armed with insights from AI analysis, personalized training programs tailored to individual needs are crafted. These programs could target weaknesses, mitigate injury risks, and optimize performance, ensuring athletes perform at their peak. 3️⃣ **Optimized Recovery:** Recovery is just as crucial as training, if not more so. AI monitors various factors such as sleep patterns, heart rate variability, activity levels, and markers of muscle fatigue and soreness. By leveraging this data, AI could facilitate tailored recovery plans, aiding athletes in bouncing back faster and stronger. The intersection of AI and wearable technology is reshaping sports medicine and recovery, offering unprecedented levels of precision, personalization, and performance enhancement. Embrace the future of sports technology with AI-powered wearables! #ArtificialIntelligence #WearableTech #SportsMedicine #Recovery #AI #Innovation #FitnessTechnology #PersonalizedHealthcare

In this week’s The Yuan, I share my thoughts on advances in #QSM (Quantified Self Movement) and how newer technologies (like #wearables and #LLMs) can unlock the power held in #biomarkers to help us live healthier for longer. Medicine 3.0 is here! #mitoplus #mito #humanedge #docm #longevity #healthspan #healthcare #everdayhealth

Part 4 | AI in Healthcare: The Future in Pieces | AI in Mental Health: Transforming Early Detection with Wearable Devices One of the most exciting areas where AI is intersecting with healthcare is in the development of AI-powered wearable devices for mental health care, enabling early detection and intervention. Take the Feel Monitor, for example—an AI-integrated device that uses advanced sensors to continuously track emotional and mental health metrics like mood and stress levels at real time. This collected data enables detection and personalized interventions exactly when patients need them the most. It is a game-changer in making mental health support proactive rather than reactive. [1] Studies from Mount Sinai also show how data from wearable devices like the Apple Watch can train machine learning models to assess psychological resilience—paving the way for broader, more accessible mental health solutions. [2] By collaborating with tech innovators, the pharmaceutical industry can leverage these advancements to enhance patient outcomes and drive personalized mental health care at scale. #AIinPharma | #MentalHealthAI | #WearableTech | #DigitalHealth | #HealthTech

A powerful dive into the Future of AI x Diabetes Prediction with Dr. Ahmed Abdelhadi Metwally—Google Senior Research Scientist and Stanford Diabetes Postdoctoral Scholar. Highly recommend for healthcare professionals and trainees passionate about AI, Omics Data, Metabolic Health, Wearable Tech, and Predictive Analytics!

“Revolutionizing Recovery: How AI and Wearable Tech Are Transforming Physiotherapy” The physiotherapy field is entering a new era, powered by AI and wearable technology. These advancements enable real-time tracking, personalized rehabilitation plans, and precise feedback to ensure patients perform their exercises effectively. For example, AI-driven apps now provide instant insights into posture and movement, while wearable sensors monitor progress and improve patient engagement. These tools are already reducing recovery times and helping people take charge of their health. As these technologies become more accessible, the potential to transform patient care is limitless. What role do you think AI and tech will play in shaping the future of physiotherapy? Let’s connect and discuss! #Physiotherapy #AI #WearableTech #HealthcareInnovation #Rehabilitation

Our new study is now available as a pre-print! https://lnkd.in/e5YYx49A Have you ever wondered how accurate the heart rate wearables (e.g., smartwatches) that we use are? Researchers today often employ them in several areas to measure heart rate (HR) and heart rate variability (HRV). But how accurate are they? Well, not very, if you aim for HRV, especially when there's movement involved. They might be good enough for HR, though. Does it matter if it's a cheap unit bought from Amazon or a high-end, research-grade device? At least our results show that just being marketed as a research device does not guarantee you signal quality; there must be external independent validation on it.

The promise and potential of wearables: What should we expect of the insights they offer? Specifically, I am thinking of people who are sometimes also patients. Wearable data can offer helpful insights to healthcare professionals to guide or support decision making and assessment. This is good. And, there are risks and biases in models that are built from data collected from subsets of populations. How should we account for this in using and interpreting wearable data? Review from a (noted) sociology perspective: https://lnkd.in/gPqAzXpx Review from a philosophy/ethics perspective: Howard (2021): https://lnkd.in/gBjJdkEy #Implementationscience #PatientEducation #CPD

The rise of health apps, always-on sensors, and wearable devices has led to an explosion of health data. According to Deloitte research, about 60% of households now own a wearable device, with 87% of users tracking health metrics like heart rate, workout duration, and sleep quality. 📊 Combining this data with AI and other emerging technologies empowers consumers to make complex health decisions and enables physicians to improve patient services and care outcomes. The role of the physician is evolving beyond the traditional office, promising innovation and enhanced care. 🚀 AI tools are already reducing administrative burdens, allowing physicians to spend more time with patients, enhancing the quality of care, and fostering stronger patient-physician relationships. Additionally, AI-driven clinical decision-making can lead to earlier, more accurate diagnoses and personalized treatment plans. 🤖💡 However, challenges remain. Ensuring the accuracy of AI-generated content and managing the influx of data from wearables are critical. Physicians must be trained in AI tools to effectively leverage these technologies and continue providing high-quality care. Embracing AI in healthcare offers a transformative opportunity, but it requires both patients and physicians to adapt to new ways of making health decisions in an AI-empowered world. 🌍❤️ #HealthcareInnovation #AI #WearableTech #DeloitteInsights #FutureOfHealthcare