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NeuroGut-Clinical on its way

We've designed two versions of the NeuroGut Tracker: NeuroGut-Clinical and NeuroGut-Daily While both ensures high wearability and lightness, NueroGut-Clinical maximizes accuracy, while NeuroGut-Daily maximizes portability. STAY TUNED!!!!

When the Gut and Brain Both Need Help—but the Clinic Is Far Away Imagine an 82-year-old farmer in a rural county who has Alzheimer’s and chronic constipation, wakes up some days with reflux, and occasionally chokes on food. None of those issues on their own sound dramatic. But together they can mean ER trips for GI bleeding, aspiration pneumonia, or dehydration—while a specialist who understands both gut and brain is more than an hour’s drive away. That’s the lived reality be

When people talk about “neurotechnology,” they usually picture gleaming MRI scanners, EEG caps, neuromodulation devices, or AI tools reading brain scans in big-city hospitals. But for many rural communities, the real story is less about hardware and more about policy: who gets paid, who is allowed to practice, what infrastructure gets funded, and who sits at the procurement table. Those rules can quietly decide whether neurotechnology ever makes it to a village clinic or a cr

We have been developing a deep-learning-based self-adaptable model for processing patients/subjects' data, and we'll be testing it on our new project: a gut-brain computer interface (GBCI) A gut–brain computer interface (GBCI) is a system that senses, interprets, and sometimes responds to physiological signals traveling along the gut–brain axis, turning them into digital data that can be analyzed or used to guide interventions. In practice, a GBCI might combine sensors that r

Difficulty Conventional 1.5–3 T MRI assumes: Stable grid power (tens of kW) A shielded room and heavy infrastructure Cryogens and specialized service engineers Highly trained technologists and radiologists on site In many rural settings you instead have: Unreliable power, sometimes only generators or solar Limited space (small clinics, mobile vans, or health posts) Very few specialists and long referral times Patients who may travel hours–days for imaging Low-field (<1 T) and

Unfortunately, we are pausing our BrainHero Toss project due to problems with the data model. We will restart when possible.

Over the past week, we collected data from 30 subjects from Beijing to train our attention state estimation model & conduct trial runs. The model has been validated to have high performance and accuracy.

We are reaching our first milestone!!

The setting: a three-tier system with a hollow base India’s public health system is designed as a three-tier pyramid in rural areas: Sub-centres (SCs)  – the most peripheral contact point, staffed mainly by ANMs and multipurpose workers. Primary Health Centres (PHCs)  – first level with a doctor, serving as referral units for several sub-centres. Community Health Centres (CHCs)  – 30-bed facilities meant to provide basic specialist care and serve as referral centres for PHCs

When companies talk about “personalized” health tech and neurotechnology, they usually mean  more data , not  more kinds of brains . Most systems are still designed around an imagined neurotypical user: someone who can tolerate constant notifications, parse dense interfaces, sit still for long periods, and communicate in conventional ways. For many neurodivergent people—autistic folks, people with ADHD, learning disabilities, intellectual disabilities, and others—that picture

Why brain tech rarely reaches the villages that may need it most...

Today is our official starting point of designing neurotechnology. We will be starting with a brain-computer interface for the neurodivergent population, mainly ADHD.

Welcome to Synaptinet!