.svg)
Improving Health Through Neural Insights
GET IN TOUCH
Neurodiagnostic data is complex.
Cartis Neuro makes it simple.
We help clinicians effortlessly make more confident decisions through accessible, straight-forward, real-time neural insights.
Facts
30%
of patients need revision surgeries due to suboptimal electrode placement.
30-40%
of current SCS systems fail.1
50%
of patients experience no pain relief.2
79%
of SCS cases need revision surgeries within the first 12 months.3
$40,000
The estimated cost of revision procedures, requiring additional surgery and time.4
Traditional tools fail to provide precision, leading to wasted time, increased costs, and dissatisfied patients.
The Problem
Visualizing and Mapping SCS Electrodes is a Challenge
Limitation of Imaging
Issue - Fluoroscopy primarily shows bony structures and may not visualize soft tissue where the spinal cord can deviate.
Impact - This limitation makes it difficult to accurately place electrodes for effective pain relief.
Paresthesia Mapping
Issue - Relies on qualitative methods for mapping.
Impact - Patient feedback under sedation can be imprecise and qualitative, affecting electrode accuracy. Requires patient to be awake.
Specialized Clinicians
Issue - The current neurodiagnostic model requires specialized clinicians.
Impact - This model is labor-intensive, costly, inconsistently available, and prone to variability in results due to differences in interpretation.
We can do a better job of delivering SCS Therapy for our patients. That starts with Precision Electrode Placement.
CordMap SCS™ is here to help.
Cordmap SCS™
Making the treatment of chronic pain simpler, more accurate, and more effective.
Closed Loop
CordMap SCS™ is an intelligent closed-loop hardware/software system designed to interface with existing SCS electrodes and patient bio-signals. It autonomously delivers stimulation and acquires mapping data reliably for every case, minimizing the need for clinician involvement.
Functional Visualization™
Through our novel Functional Visualization™ system, CordMap SCS™ transforms biosignals into actionable insights by providing a clear, real-time representation of laterality and myotomal activation, enabling better electrode placement and streamlined clinical decision-making.
Designed for Physicians.
CordMap SCS™ is a physician-driven system featuring easy-to-use hardware, wireless sensors, and an intuitive UI/UX. It provides doctors with quick, reliable data without disrupting clinical workflow or requiring specialized clinical support.
Cordmap SCS™ is a patent pending technology.
Why is this Important?
50%
Reduction in failure rates.5
Increased cost savings.
- Reduced Labor Costs.
- Improved Outcomes.
27%
Reduction in OR room time.6
Quicker Turnover
- Asleep Mapping
- Improved Placement
71%
Improvement in pain coverage.7
Better Programming
- Reduced out-of-pocket cost.
- Reduced Revisions.
The Cartis Neuro™ Platform.
We help clinicians effortlessly make more confident decisions through accessible, straightforward neural insights.
NeuroSync™ is a closed-loop hardware solution combining external sensors with adaptive stimulation for reliable, optimized diagnostic data.
Functional Visualization™ transforms biosignals into actionable insights through intuitive visualization, enabling real-time, streamlined clinical decisions.
Our Team
Our Advisors
Fmr. Assoc. Prof., Harvard
Medical School.
Pres-Elect, ASPN
Affil. Prof., Anesthesiology.
Fmr. Nuvasive, Smith and
Nephew.
Board of Directors, INS
VP-Exec, Officer, ASPN.
What are our Key Opinion Leaders saying?
At Cartis Neuro, we place immense value on collaborations and our trusted advisors. Here’s what some of them have to say about our technology.
The novel Cartis Neuro technology uniquely addresses both the clinical and economic aspects of the spinal electrode placement procedure, benefiting patients, physicians, and hospitals. I am encouraged to see the implementation of this real-time information during surgery. It has the potential to make a significant impact by reducing failed trial implantations, revision surgeries, and overall procedure time while increasing clinical efficacy.
Albert Pothier
Managing Director, Horizon Biomed
“Real-time neural mapping and closed-loop systems are set to transform the effectiveness of spinal cord stimulation and other neuromodulation therapies. By adapting to the patient’s unique neural responses, these innovations ensure precise targeting and continuous optimization, paving the way for truly personalized pain management solutions.”
Dr. Steven Falowski
Neurosurgeon, Advanced Surgery Center of Lancaster
“Physiologic mapping not only helps reduce revision rates, but it also streamlines the entire procedure—less guesswork, more consistent outcomes.”
Dr.Jeff Arle
MD, PHD NeurosurgeonFmr Assoc. Prof., HarvardMedical School
“One of the challenges...is to ensure we are over the synapses that we wish to be stimulating. Using thistechnology will ensure that we are covering the exact locations we need in a more scientific fashion.”
Dr. Howard Rosner
Neurosurgeon, Advanced Surgery Center of Lancaster
"Spinal Cord Stimulation (SCS) is here to stay because it addresses chronic pain at its source, providingtargeted, long-term relief. We are continuing to collect real-world-data that mirror great RCT results.”
Dr. Krishan Chakravarthy
MD, Pain MedicinePres.-Elect, ASPNAffil. Prof., Anesthesiology, UCSD
What are our Key Opinion Leaders saying?
At Cartis Neuro, we place immense value on collaborations and our trusted advisors. Here’s what some of them have to say about our technology.
The novel Cartis Neuro technology uniquely addresses both the clinical and economic aspects of the spinal electrode placement procedure, benefiting patients, physicians, and hospitals. I am encouraged to see the implementation of this real-time information during surgery. It has the potential to make a significant impact by reducing failed trial implantations, revision surgeries, and overall procedure time while increasing clinical efficacy.
Albert Pothier
Managing Director, Horizon Biomed
“Real-time neural mapping and closed-loop systems are set to transform the effectiveness of spinal cord stimulation and other neuromodulation therapies. By adapting to the patient’s unique neural responses, these innovations ensure precise targeting and continuous optimization, paving the way for truly personalized pain management solutions.”
Dr. Steven Falowski
Neurosurgeon, Advanced Surgery Center of Lancaster
“Physiologic mapping not only helps reduce revision rates, but it also streamlines the entire procedure. It also takes into account the issue of the cord’s natural shifts and rotations. Less guesswork, better pain coverage, more consistent outcomes.”
Dr.Jeff Arle
MD, PHD NeurosurgeonFmr Assoc. Prof., HarvardMedical School
“One of the challenges...is to ensure we are over the synapses that we wish to be stimulating. Using this technology will ensure that we are covering the exact locations we need in a more scientific fashion.”
Dr. Howard Rosner
Prof. Anesthesiology, Fellowship Director, Pain Center, Dir. Chronic Pain Anesthesia
"Spinal Cord Stimulation (SCS) is here to stay because it addresses chronic pain at its source, providingtargeted, long-term relief. We are continuing to collect real-world-data that mirror great RCT results.”
Dr. Krishan Chakravarthy
MD, Pain MedicinePres.-Elect, ASPNAffil. Prof., Anesthesiology, UCSD
Contact us
Interested in Cartis Neuro?
Refrences:
1. Cameron, T. (2004). J Neurosurg Spine, 100(3 Suppl), 254–267; 2. Kumar, K. et al. (2008). Neurosurgery, 63(4), 762–770; 3. Frey, M. E. et al. (2009). Pain Physician, 12(2), 379–397; 4. North, R. B. et al. (2007). Neurosurgery, 61(2), 361–369; 5. Hwang, R. et al. (2019). Intraoperative neuromonitoring in SCS placement; 6. Falowski, S. M. et al. (2019). Neurosurgery, 84(1), 198–205; 7. Collison, C. et al. (2017). Use of IONM in SCS: A prospective study.
.png)