Jali Medical

Jali Medical Established in 1991, Jali Medical is a company at the cutting edge of the emerging field of non-invasive brain stimulation.

We are proud to be the US distributor for the best magnetic and electrical nerve stimulation products available.

Wrapping up an inspiring last day Society for Neuroscience ( ) here in San Diego 🧠✨ A heartfelt thank you to: 🔹 Our long...
11/19/2025

Wrapping up an inspiring last day Society for Neuroscience ( ) here in San Diego 🧠✨

A heartfelt thank you to:

🔹 Our long-time client–researchers for your continued trust and collaboration
🔹 Our colleagues and partners who stopped by to reconnect and share ideas
🔹 The many new researchers who presented their posters and took the time to visit us
🔹 Everyone who came by Booth #922 curious to learn more about our neurotechnologies Your questions, feedback, and passion for advancing brain research are exactly what drive us forward.

We’re excited about the new projects, partnerships, and possibilities that will grow out of this week. Until next time, SfN — and to all the brilliant minds we met here, let’s keep the momentum going. 💡🔬

Day 3 at Society for Neuroscience 2025⚡️ Another packed day of conversations, demos, and big ideas around neurotechnolog...
11/18/2025

Day 3 at Society for Neuroscience 2025⚡️

Another packed day of conversations, demos, and big ideas around neurotechnology and neuroscience research.

Thank you to everyone who has stopped by to explore how our tools can support your work. If you’re still making your way through the exhibit hall, swing by Booth 922 — our team (Ali Jalinous, Aaron Dirks, Josh Roper, Sameer Dhamne) is happy to walk you through live device demos and share how it can plug into your current and future studies.

Loving the momentum and inspiration is bringing together!

Day 2 at 🎉 The energy today has been incredible, with so many inspiring conversations around cutting-edge neurotechnol...
11/17/2025

Day 2 at 🎉 The energy today has been incredible, with so many inspiring conversations around cutting-edge neurotechnology and the future of neuroscience research.

If you haven’t stopped by yet, come visit us at Booth #922 — our neuro-specialist and innovator are happy to demonstrate the device, and you can speak with our neurotechnologist (Ali Jalinous, Aaron Dirks, Josh Roper Sameer Dhamne) for deeper insights into the technology.

Excited to keep the momentum going. On to Day 3!

Happy 1st day of Society for Neuroscience 2025! Excited to be here and ready to connect with everyone! Visit us at Booth...
11/17/2025

Happy 1st day of Society for Neuroscience 2025! Excited to be here and ready to connect with everyone! Visit us at Booth #922 to explore the seamless integration of our neurotechnology tools into your research:

- Bittium NeurOne Tesla EEG
- EMCI Galileo Tactile Stimulator
- Jaltron LLC custom coils
- Neursantys EVS Biomarker

Looking forward to showcasing how these tools can elevate your research endeavors!

🚀 Jali Medical at the Society for Neuroscience 2025! 🧠 We’re excited to share that Jali Medical will be exhibiting at th...
11/03/2025

🚀 Jali Medical at the Society for Neuroscience 2025! 🧠 We’re excited to share that Jali Medical will be exhibiting at the Society for Neuroscience ( ) Conference in San Diego, CA, from November 16–19, 2025.

📍 Find us at Booth #922 at the San Diego Convention Center — where our team of neurotech innovators and specialists will be ready to connect and share insights on cutting-edge technologies.

Researchers make some noise with a silent stroke tool Author: Steven Barlow One of the most common strokes is termed “is...
08/21/2025

Researchers make some noise with a silent stroke tool

Author: Steven Barlow

One of the most common strokes is termed “ischemic stroke.” It obstructs blood flow to the brain, depriving it of the oxygen it needs to survive. Ischemic stroke is the leading cause of long-term disability and fifth-leading cause of death in the U.S. “They have this phrase in the stroke literature, ‘time is brain.’

Using brain imaging, Barlow and his colleagues have found that their technology can increase brain blood flow up to 20 percent. In animal studies, it forced the brain to reroute blood supply to affected areas to protect the cells.

To read full article, click: https://jalimedical.com/ -bulletin

At the University of Nebraska–Lincoln, Steven Barlow’s research team is developing solutions for front-line treatment after a stroke. It’s all a question of blood flow.

This innovative device, the Galileo Pneumatic Tactile Stimulator, will be showcased at the Society for Neuroscience 2025 in San Diego, November 16–19. Stop by Jali Medical, Inc. at Booth 922 for live demonstrations and discover how Galileo is helping advance neuroscience research.

Join us at and explore how Galileo can support your work in understanding and treating brain disorders.

Boosting working memory in the elderly: driving prefrontal theta–gamma coupling via repeated neuromodulation Authors: Lu...
07/31/2025

Boosting working memory in the elderly: driving prefrontal theta–gamma coupling via repeated neuromodulation

Authors: Lukas Diedrich, Hannah I Kolhoff, Clara Bergmann, Mathias Bähr, Andrea Antal

DOI: https://doi.org/10.1007/s11357-024-01272-3

Our study provides evidence for targeted improvement of WM in older adults via repeated non-invasive neuromodulation using tACS. Specifically, driving prefrontal theta–gamma coupling in a treatment-like 16-day interventional series leads to enhanced sensitivity associated with a modulation of response bias. Additionally, we have shown that repeated stimulations increase the impact of intervention. Conversely, a marginal decelerating effect was noted in relation to the process of reducing RT through training.

Click here to read full article: https://jalimedical.com/ -bulletin

Synchronizing the transcranial magnetic pulse with electroencephalographic recordings effectively reduces inter-trial va...
07/18/2025

Synchronizing the transcranial magnetic pulse with electroencephalographic recordings effectively reduces inter-trial variability of the pulse artefact

Authors: Mitsuaki Takemi, Hartwig Roman Siebner

DOI: https://doi.org/10.1371/journal.pone.0185154

Synchronizing TMS and data acquisition markedly reduced trial-to-trial variability of the pulse artefact in recordings from the phantom or from the scalp. Reduced trial-to-trial variability was also observed at high sampling frequencies. The use of a soft sheet reduced the variability in recordings on the head phantom, but not in human participants. Effective reduction of the trial-to-trial variability renders it possible to create an artefact template for off-line filtering. Template-based subtraction of the artefact from the EEG signals is a prerequisite to effectively recover the immediate physiological response in the stimulated cortex and inter-connected areas.

To read full article, click: https://jalimedical.com/ -bulletin

Open-source toolbox for EEG-based Stimulation Monitoring (EStiMo) of brain states during TMS burst deliveryAuthors: Armi...
07/03/2025

Open-source toolbox for EEG-based Stimulation Monitoring (EStiMo) of brain states during TMS burst delivery

Authors: Armita Faghani Jadidi, Adam Ryszczuk, Domenico Voso, Angela Mastropasqua, Leo Tomasevic, Hartwig Roman Siebner

DOI: https://doi.org/10.1016/j.brs.2024.12.001

Real-time EEG monitoring is needed during testing of novel rTMS protocols with new burst patterns or accelerated schedules involving multiple sessions per day, offering online visualization of EEG metrics that could signal immediate effect and also potential induced abnormalities.

To read full article, click: https://jalimedical.com/ -bulletin

Brain encoding of saltatory velocity through a pulsed pneumotactile array in the lower face Authors: Rebecca Custead, Hy...
06/26/2025

Brain encoding of saltatory velocity through a pulsed pneumotactile array in the lower face

Authors: Rebecca Custead, Hyuntaek Oh, Yingying Wang, Steven Barlow

Processing dynamic tactile inputs is a primary function of the somatosensory system. Spatial velocity encoding mechanisms by the nervous system are important for skilled movement production and may play a role in recovery of sensorimotor function following neurological insult. Little is known about tactile velocity encoding in mechanosensory trigeminal networks required for speech, suck, mastication, and facial gesture.

Click here to read full article: https://jalimedical.com/ -bulletin

A set of electroencephalographic (EEG) data recorded during amplitude-modulated transcranial alternating current stimula...
06/12/2025

A set of electroencephalographic (EEG) data recorded during amplitude-modulated transcranial alternating current stimulation (AM-tACS) targeting 10-Hz steady-state visually evoked potentials (SSVEP)

Authors: David Haslacher, Khaled Nasr, Stephen E. Robinson, Christoph Braun,
Surjo R. Soekadar

DOI: https://doi.org/10.1016/j.dib.2021.107011

Transcranial alternating current stimulation (tACS) can affect perception, learning and cognition, but the underlying mechanisms are not well understood. A promising strategy to elucidate these mechanisms aims at applying tACS while electric or magnetic brain oscillations targeted by stimulation are recorded.

To read full article, click: https://jalimedical.com/ -bulletin

🔬🧠 Big shoutout to the NonInvasive Brain Stimulation Clinical Workshop at Beth Israel Deaconess Medical Center (BIDMC) i...
06/02/2025

🔬🧠 Big shoutout to the NonInvasive Brain Stimulation Clinical Workshop at Beth Israel Deaconess Medical Center (BIDMC) in Boston’s Berenson-Allen Center for NIBS! The Brain Ultimate TMS Therapy System is currently on display and generating excitement among clinicians and researchers. Cutting-edge technology, expert-led training, and hands-on learning driving the future of neuroscience!

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111 Speen Street , 200 WorkBar, Suite 213
Framingham, MA
01710

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+17813760008

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