the
Umana T1
second generation
is a novel medical telemonitoring system that seamlessly combines the non-invasive, ultra thin hardware together with state of the art software and validated algorithms that accurately guarantee the reading, transmission and analysis of heart activity, together with other vital parameters. These include patient’s diagnostic ECG, Respiratory Rate, Systolic Blood Pressure, Physical Activity, Heart Rate Variability, Arrhythmias and other heart abnormalities. On Monitoring Mode, the Ecosystem optionally generates automated notifications upon detection of irregular patterns.
Monitor Features
Clinical Grade ECG
Heart Rate
Heart Rate Variability
Respiration Rate
Arterial Blood Pressure
Fall Detection
Sp02
Body Temperature
Smarterskin Sensor
Ultra thin, lightweight and comfortable for enhanced patient compliance.
Highly sensitive and durable for greater data quality acquisition. A second skin that enables recording of vital signs, with a selection of 1 channel, 6 derivations and upcoming 12 derivations.
T1 Heart Monitor
“Piccolo”
Transmitter For Collection And Transfer Of Readings
Ultra lightweight (the size of a coin), easy to apply Monitor for enhanced hospital staff and patient compliance. Variable modality applications of use for enhanced efficiency and overall reduced costs: Monitoring Mode, Holter Mode. The second generation of the T1 heart monitor , nick named “Piccolo” for its size , but not for its’ power . The device (with a diameter the size of a 2 euro coin) has an abundance of power, extended battery life and provides the peace of mind that the patients under care can be monitored 24/7 , with clinical grade quality . The device utilizes the best in class technology when it comes to connectivity (Bluetooth BLE , or Cellular Data) , ensuring encryption of data , end to end.
Direct Access
To Medical Data From Every Device
Online access to real-time data analysis tools
Ability to compare current measurements with data history
Serves as an archive for research purposes
Tempo
This product is designed to be a Class 2B modular attachment to the Umana T1 Heart Monitor with the intended use of reading oxygen saturation (SpO2) levels in the blood by means of a pulse oximeter as well as temperature by means of a clinical grade temperature sensor. It is a non-invasive device and is a more portable, discreet and inexpensive solution to the SpO2 and temperature measurement modules in hospital bedside equipment currently on the market making it more attractive to customers both in and outside the hospital environment. When attached to the Umana T1 Heart Monitor the result is a device which can measure both ECG, SpO2 and temperature readings simultaneously and is to be to first of its kind to be worn semi-permanently on the user.
Relevant Publications
Our nanomaterial sensor technology.
Peer-reviewed scientific papers about
Monitoring Mode
Designed to provide flexibility, convenience and enhanced efficiency, the innovative T1 Heart Monitor sets the stage for today’s monitoring demands. The Monitoring Mode allows for real-time continuous monitoring of ECG signals and other parameters, including Heart Rate Variability, Long-term Heart Rate, Respiratory Rate and Blood Pressure. Integrated Pattern Recognition Algorithms and Artificial Intelligence allow for precise arrhythmia detection, including Atrial Fibrillation. The on-board accelerometer generates Physical Activity Index Data to detect possible falls with the possibility to send predefined notifications.
Utilizing the online capabilities of an appropriately setup dashboard , medical professionals can monitor the patient in real time and take the appropriate actions when needed . The monitoring mode is the core modality for any telemedicine based solution that has the patient’s continuous monitoring at its heart.
Holter Mode
Designed to provide reliable 24 hours of ECG recordings keeping in mind the patient’s quality of life. The lack of bulky leads allows for full patient compliance. Commonly used web enabled devices provide for quick connectivity between SmarterSkin™ Sensor and T1 Heart Monitor through the proprietary T1 App. The saved data is then managed via the appropriate online dashboard, and can easily be downloaded and viewed in the Biosignals Studio for analysis and report generation. Longer Holter periods are enabled through the swapping of T1 Heart Monitors upon battery depletion.
Biosignals Studio
Certified Clinical Grade Diagnostic Software:
- Proprietary file format
- Automatic integration with the Umana T1 Online Dashboard
- Automatic derivation of vital signs
- Automatic abnormality detection
- Report generation
Suggested Abnormally Detection:
- Atrial Fibrillation
- Premature Atrial Contraction (PAC)
- Minimum/Maximum Heart Rate
- Ventricular Arrhythmias, including Ectopy
- Pauses
List of Detected Abnormalities:
- Atrial Fibrillation
- PAC (Premature Atrial Contraction)
- Minimum/Maximum heart rates
- Pauses (for example, asystole, long/short pause)
- Ventricular ectopy (unifocal or multifocal), PVCs, couplets, triplets, bigeminy/trigeminy and R-on-T
- Ventricular dysrhythmia
Relevant Publications
Ultraconformable Temporary Tattoo Electrodes for Electrophyslology. L.M. Ferrari, S. Sudha, S. Tarantino, R. Esposti, F. Bolzoni, P. Cavallari, C. Cipriani, V. Mattoli, F. Greco; Advanced Science, Volume5, Issue3, March 2018.
Conformable Electronics: Tattoo Conductive Polymer Nanosheets for Skin-Contact Applications. A. Zucca, C. Cipriani, S. Sydha, S. Tarantino, D. Ricci, V. Mattoli, F.Grecp; Advanced Healthcare Materials, Issue 7 2015.
Free-Standing PEDOT: PSS/PLA Bilayer Nansheets with Ink-Jet Patterned Microelectrodes: Towards the Development of Ultra-Thin, Conformable, Floating Vircuit and Smart Biointerfaces. A. Zucca, F.Greco, B.Mazzolai and V. Mattoli; Materials Research Society MRS Online Proceedings Library (OPL), Volume 1530 (Symposium XX – Materials and Concept for Biomedical Sensing) 2013.
Patterned Free-Standing Conductive Nanofilms for Ultraconformable Circuits and Smart Interfaces. F. Greco, A.Zucca, S. Taccola, B. Mazzolai and V. Mattoli; ACS Appl. Mater. Interfaces, 2013, 5(19), pp 9461-9469
Ultra-thin conductive free-standing PEDOT/PSS nanofilms.
F. Greco, A. Zucca, S. Taccola, A. Menciassi, T. Fujie, H. Haniuda, S. Takeoka, P. Dario and V. Mattoli; Soft atter, Issue 22, 2011.
