Delsys Trigno™ Wireless EMG System*

Advancing new research possibilities with Trigno™ wearable solutions

The Trigno™ Wireless EMG System* is a high-performing device designed to make EMG signal detection reliable and easy. Each EMG sensor has a built-in triaxial accelerometer, a transmission range of 40m and a rechargeable battery lasting a minimum of 7 hours. The system is capable of streaming data to EMGworks® Acquisition and Analysis software, and of generating 16 EMG and 48 accelerometer analog channels for integration with motion capture and other 3rd party data acquisition systems. Full triggering features further expand the possibility for integration with additional measurement technologies.

This revolutionary hybrid EMG/ Movement sensor with motion artifact suppression (Patent Pending) provides an unprecedented combination of data in a reliable manner. Its design delivers the unchallenged high-quality performance expected from Delsys products. Now you may have freedom of movement and freedom from recording noise sources in one.

Delsys is a world leader in the design, manufacture, and marketing of a broad portfolio of high performance Electromyography instruments, range of physiological and biomechanical sensors used in virtually all types of movement measurement studies in research and education.

Features

  • Patented Parallel-Bar technology guarantees high fidelity signals

  • Multi-function design embeds Triaxial Accelerometry in each sensor

  • 16 EMG channels, 48 accelerometer channels

  • Patent Pending Motion Artifact Suppression

  • Selectable ±1.5g, ±4g, ±6g & ±9g quad range

  • 64 Ch. of Real-time Analog Output for Motion Capture integration

  • Guaranteed performance to 40m

  • 37mm x 26mm x 15mm

  • 8 hours of operation in full transmission mode

  • 2-hour recharge time

  • 16-bit resolution, 2000 Hz sampling rate

  • Compatible with EMGworks® software

  • USB Connection to PC (laptop or desktop)

  • <500us inter-sensor latency

  • Real-time feedback of signal strength & battery status


Documentation

  • Attestation
  • Establishment Registration & Device Listing - Bagnoli EMG System

  • Attestation
  • Establishment Registration & Device Listing - Bagnoli-2 EMG System

  • Attestation
  • Establishment Registration & Device Listing - Bagnoli-4 EMG System

  • Attestation
  • Establishment Registration & Device Listing - Trigno EMG System

References

Ambrus, G.G., Amado, C., Krohn, L. and Kovács, G.. (2019). TMS of the occipital face area modulates cross-domain identity priming. Brain Structure and Function, 224(1), 149--157.
DOI 10.1007/s00429-018-1768-0

Arvanian, Victor L and Petrosyan, Hayk and Zou, Chuancai and Zaidi, Mohammed and Hou, Wei and Tesfa, Asrat and Fahmy, Magda and Kaufman, Mark A and Sisto, Sue Ann and Leone, Cynthia. (2018). Non-invasive spinal electro-magnetic stimulation (SEMS): a tool for evaluation and modulation of lower limb spinal-muscular transmission in healthy adults. bioRxiv, 382341.
DOI 10.1101/382341

Clark, Brian C and Russ, David W and Nakazawa, Masato and France, Christopher R and Walkowski, Stevan and Law, Timothy D and Applegate, Megan and Mahato, Niladri and Lietkam, Samuel and Odenthal, James and others. (2018). A randomized control trial to determine the effectiveness and physiological effects of spinal manipulation and spinal mobilization compared to each other and a sham condition in patients with chronic low back pain: Study protocol for The RELIEF Study. Contemporary clinical trials, 70, 41--52.
DOI 10.1016/j.cct.2018.05.012

Do, Michael and Kirkovski, Melissa and Davies, Charlotte B and Bekkali, Soukayna and Byrne, Linda K and Enticott, Peter G. (2018). Intra-and Inter-Regional Priming of Ipsilateral Human Primary Motor Cortex With Continuous Theta Burst Stimulation Does Not Induce Consistent Neuroplastic Effects. Frontiers in Human Neuroscience, 12.
DOI 10.3389/fnhum.2018.00123

Nandi, T., Lamoth, C. J., van Keeken, H. G., Bakker, L. B., Kok, I., Salem, G. J., ... & Hortobágyi, T. (2018). In Standing, Corticospinal Excitability Is Proportional to COP Velocity Whereas M1 Excitability Is Participant-Specific. Frontiers in human neuroscience, 12.
DOI 10.3389/fnhum.2018.00303

Négyesi, J., Veldman, M.P., Berghuis, K.M., Javet, M., Tihanyi, J. and Hortobágyi, T. (2018). Somatosensory Electrical Stimulation Does Not Augment Motor Skill Acquisition and Intermanual Transfer in Healthy Young Adults—A Pilot Study. Motor control, 22(1), 67--81.
DOI 10.1123/mc.2016-0048

Ruddy, Kathy L and Balsters, Joshua and Mantini, Dante and Liu, Quanying and Kassraian-Fard, Pegah and Enz, Nadja and Mihelj, Ernest and Chander, Bankim Subhash and Soekadar, Surjo R and Wenderoth, Nicole. (2018). A different state of mind: neural activity related to volitionally up-versus downregulating cortical excitability. bioRxiv, 370130.
DOI 10.1101/370130

Ruddy, Kathy L and Woolley, Daniel G and Mantini, Dante and Balsters, JH and Enz, Nadja and Wenderoth, Nicole. (2018). Improving the quality of combined EEG-TMS neural recordings: Introducing the coil spacer. Journal of neuroscience methods, 294, 34--39.
DOI 10.1016/j.jneumeth.2017.11.001

Items marked with* are investigational devices and for research use only. CAUTION - Investigational Device. Limited by Federal (or United States) law to investigational use.