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Career Opportunities
Join our team and collaborate with industry leaders to gain insights, experience and add value.
About Feature1 -
Who we are
Our expert team knows how to anticipate, collaborate, and innovate.
About feature2 Get in Touch
Blackwater Business Park, Mallusk Way Newtownabbey, BT36 4AA
02896 005063 (UK)
01 531 4337 (ROI)
Mon-Fri, 9am until 5pmservice@norsomedical.co.uk
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service@norsomedical.ie
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Gaumard HAL® S5301
Interdisciplinary and Immersive
HAL S5301 is the all-new flagship of the HAL brand, trusted by simulation programs worldwide for its innovation, ease of use, and reliability. The S5301 sets the standard for the future of patient simulation, building upon the design philosophy established with the original HAL launched nearly two decades ago. Join us as we chart HAL’s course into the future.
General
Height 5’ 9” / 175 cm1
Wireless and tetherless2,3
Microsoft Surface Pro preloaded with UNI® 3
Unified Simulator Control Software
HAL S5301 Simulation Learning
Experiences™ scenario package
Bluetooth, Gaumard RF, and wired connectivity4
Compatible with Gaumard Ultrasound™
Compatible with Care in Motion™
Available in light, medium, or dark
skin tone at no extra charge5Neurological
Active eye movement and object tracking
Wireless streaming voice⁶
Active neck movement and mouth movement
Active facial expressions; left facial droop, right
facial droop, pained, quizzical, scared, smiling
Active emotional states: normal, worried, anxious
Right arm motor reflex: shake hand, squeeze
hand, raise arm, withdrawal response, and
abnormal posturing (decorticate/ decerebrate)
Stroke clinical presentations: facial droop,
weakness in the right arm, abnormal
posturing, and pain response
Pressure sensitive sites: bilateral supraorbital notch,
trapezius pinch (left shoulder), sternal rub, and
right middle finger nailbed
Train-of-Four monitoring using real devices
Partial tonic-clonic and non-tonic-clonic seizures
Sweating (diaphoresis) and tearsAirway
Airway management: ETT, SGA, OPA, NPA⁷
Tongue edema, laryngospasms,
and pharyngeal swelling
Tracheotomy, cricothyrotomy,
and retrograde intubationBreathing
Spontaneous breathing
Four anterior and posterior lung auscultation
fields; new lung sound library
Supports standard mechanical ventilators,
modes of ventilation, weaning/liberation
protocols; no calibration, proprietary adapters,
or external converter adjuncts required
Variable lung unit compliance, variable,
bilateral and unilateral bronchi resistance,
Inspiratory effort and rate, respiratory
drive, real CO2 exhalation, Auto-PEEP
Left hemo/pneumothorax
Needle thoracentesis
Presents capnography waveforms on real
devices, including “shark fin” waveformCardiac
Aortic, pulmonic, tricuspid, and mitral
auscultation fields and new heart sound library
Monitor vitals with real devices: 4-lead
ECG, 12-lead ECG, pulse oximeter,
NIBP/IBP monitor, capnograph
ECG-derived respiratory monitoring
UNI® 3D Myocardial Infarction Model
UNI® 12-lead ECG waveform designer
Defibrillation and pacing with live energy
Anterior/lateral and anterior/posterior
defibrillator pad placement
Real-time CPR quality feedback
Bilateral palpable pulses: carotid, brachial,
radial, femoral, popliteal, pedal
Circumoral skin coloration
Bilateral IV access sites
Radial arterial access site supports catheterization,
flashback, sampling, and IBP monitoring
Antecubital vein blood draw site on left arm
Automatic virtual drug recognition at lower left arm
Fingerstick glucose testing on the left index finger
Tibia and humeral intraosseous access and infusion
Capillary refill time testing at right middle fingerGenitourinary
Male urinary catheterization with fluid return
Computer-controlled urinary output rate
and urine and/or blood mixture
Internal, auto-refilling 0.7-liter urine reservoirGastrointestinal
Four bowel auscultation fields and
new bowel sound library
Gastric distentionTrauma
Internal, auto-refilling 1.2-liter blood reservoir
Abdominal bleeding wound responds
to pressure and packing
Optional trauma arm and trauma leg
accessories feature bleeding wound and
tourniquet placement detection
Introducing a new level of fidelity in neurological emergency simulation.
- HAL introduces the latest innovations in robotics to simulate lifelike symptoms of a neurological emergency and enables team-based training through patient assessment and treatment without interruption. New features like facial droop and arm motor control reproduce the progression of a stroke, helping teams train in time-dependent clinical skills and teamwork.
1. Verbal and Non-verbal Communication HAL S5301 combines streaming audio, facial expressions, and realistic movement to make interacting with providers more natural, helping them to develop an understanding of non-verbal communication cues.
2. Active motor function Right arm motor reflex: shake hand, squeeze hand, raise arm, withdrawal response, and abnormal posturing. Head and eyes turn toward the provider speaking.
3. Abnormal eye movements Consensual and nonconsensual pupillary response to light stimuli. Abnormal eye movements include strabismus, ptosis, and more.
4. Dynamic facial expressions Lifelike facial droop and smiling, pained, quizzical, and scared facial expressions. Dynamic emotional states automatically express non-verbal cues including worry, anxiety, and lethargy.
5. Lifelike sensory response Active pain response to pressure-sensitive sites: bilateral supraorbital notch, trapezius pinch (left shoulder), sternal rub, and right middle finger nailbed.
- Hospital trauma team training made immersive
With new ultra-high fidelity anatomy and physiology, HAL supports advanced trauma care algorithms and essential surgical interventions using real tools and clinical techniques. Skin, bony landmarks, and internal tissue provide realistic tactile feedback to maximize the development of transferable skills. Internal sensors provide real-time feedback on provider interventions while automatically recording event data for debriefing
1. Chest tube thoracostomy Realistic left hemo/pneumothorax site supports palpation, incision, chest . tube insertion, tube placement detection, bleeding, and suture.
2. Surgical airway management Anatomically accurate oral cavity and airway. Perform tracheotomy, cricothyrotomy, and retrograde intubation.
3. Abdominal bleeding wound Penetrating abdominal wound responds to pressure and packing. Features internal, auto-refilling blood reservoir with 1.2-liter capacity.
4. Intraosseous access Supports tibia and humeral intraosseous access and continuous infusion.
5. Real-time CPR performance feedback Real-time quality feedback and reporting: Time to CPR, compression depth/rate, compression interruptions, ventilation rate, excessive ventilation, smart CPR coach.
Trauma arm and leg Optional trauma arm and trauma leg accessories feature bleeding wound and tourniquet placement detection.
- True-to-life imaging with Gaumard Ultrasound™
- Facilitate ultrasound training through full-scale immersive emergency and trauma scenarios. Gaumard Ultrasound simulates the function and feel of a real portable ultrasound machine. Transducer range-of motion is natural. Imaging is dynamic and lifelike, allowing students and professionals to refine imaging skills in team-based simulation. The new HAL Emergency POCUS/eFAST module offers you a library of emergency ultrasound case imaging covering a wide variety of trauma presentations.
- The new gold standard in critical care in-situ simulation training
HAL S5301 revolutionizes critical care simulation training through powerful physiologic features and software. HAL helps participants improve skills and confidence by enabling learning experiences in real environments and using actual patient monitoring devices and mechanical ventilators.
- Next-generation lung physiology and mechanical ventilator support
HAL S5301 features our latest advanced dynamic lung system design, capable of responding to mechanical ventilation with greater physiological accuracy. HAL interfaces with real mechanical ventilators like a real patient and supports standard ventilator modes, including AC, CMV, SIMV, and PSV, as well as PEEP and weaning strategies. The patented internal lung design means no manual calibration, proprietary adapters, or expensive and stationary external converters.
1. Real patient monitoring
Monitor vitals using real equipment: RR, 12-lead ECG,
IBP, BP, SpO2, TOF, and EtCO2
2. High-quality auscultation
New, high-quality library of lung, heart, and bowel sounds.
Anatomically accurate auscultation fields.
3. Intra-arterial blood pressure monitoring
Radial arterial access site permits catheterization, flashback, sampling,
and IBP monitoring; interfaces with real adjuncts, sensors, and devices.
4. Intravenous access
Features bilateral IV access sites, an antecubital vein blood draw
site, and automatic virtual drug recognition on the lower left arm.
5. Blood glucose testing
Perform finger-stick glucose testing on the left index finger.
6. Train-of-Four monitoring
- Contact us for more information