Patients admitted to the Intensive Care Unit (ICU) after thoracic surgery often experience complications related to immobility, such as muscle weakness, pulmonary issues, and longer recovery times. Early mobilization has been shown to improve outcomes, but its implementation is often limited by patient fragility and staff resources. This study will test the safety and feasibility of using the Atalante X, a self-balancing exoskeleton, in the Thoracic Surgical ICU at Brigham and Women's Hospital. The exoskeleton is designed to support patients in standing and walking, even if they have limited strength or balance, thereby reducing the physical burden on healthcare staff and increasing patient mobility. Eligible participants are adults recovering from thoracic surgery, who are debilitated (Johns Hopkins Highest Level of Mobility scale ≤ 5). Each participant will undergo up to 2-3 exoskeleton sessions per week for a maximum of 2 weeks. Sessions will be personalized, with progressive standing time and walking depending on patient tolerance. The primary goal is to evaluate the safety of exoskeleton use, measured by adverse events such as skin lesions, cardiovascular instability, or accidental device-related issues. The secondary goals are to evaluate: Feasibility (ability to deliver sessions as planned, duration of standing/walking, level of assistance needed), Usability (patient and staff satisfaction, ease of donning/doffing, staff workload), and Preliminary effectiveness (improvement in mobility scores at discharge). Results will provide early insights into whether robotic exoskeletons can be safely integrated into ICU rehabilitation programs after thoracic surgery.
Prolonged bed rest and immobility are common in ICU patients and are strongly associated with poor outcomes, including pulmonary complications, neuromuscular weakness, cognitive impairment, and delayed recovery. Early mobilization after thoracic surgery has been demonstrated to improve respiratory function, reduce complications, and shorten hospital stays. However, significant barriers remain, including patient instability, staffing limitations, and the complexity of mobilizing critically ill patients with multiple devices and lines. The Atalante X exoskeleton (Wandercraft, Paris, France) is a self-balancing robotic device that enables hands-free standing and walking. Using advanced AI-based algorithms, it adjusts to patient needs and provides variable assistance. Previous clinical studies in populations with spinal cord injury and post-stroke hemiplegia have shown the device to be safe and feasible, with improvements in mobility and balance. Atalante X has obtained FDA clearance (product code PHL, Class II, 21 CFR 890.3480). This pilot study, named HEART (Hyper Early Atalante Rehabilitation Therapy), is a prospective, single-arm, unicentric exploratory trial conducted in the Thoracic Surgical ICU at Brigham and Women's Hospital (Boston, MA). Expected impact: This study will provide critical early data on the integration of robotic exoskeletons into ICU rehabilitation. By supporting patient mobilization earlier and more safely, Atalante X has the potential to improve outcomes after thoracic surgery, reduce ICU length of stay, and enhance patient recovery trajectories.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DEVICE_FEASIBILITY
Masking
NONE
Enrollment
5
This intervention consists of early mobilization sessions using the Atalante X, a self-balancing robotic exoskeleton (Wandercraft). Unlike other exoskeletons that require external support or crutches, this device is fully self-stabilizing and allows patients to stand and walk hands-free. It provides both passive and active modes, enabling short steps (EarlyGait) and longer steps (RealGait), with adjustable levels of assistance tailored to each patient's capacity. Sessions are performed 2-3 times per week for up to 2 weeks or until ICU discharge.
Brigham and Women's Hospital
Boston, Massachusetts, United States
RECRUITINGIncidence of device- and procedure-related adverse events during exoskeleton use in ICU patients
Safety will be assessed by the rate and type of device- and procedure-related adverse events during exoskeleton use. This includes skin lesions, catheter dislodgement, hemodynamic instability, falls, or any serious adverse events (SAEs or SADEs). An acceptable rate is defined as \<15% overall and \<15% for skin lesions.
Time frame: Baseline and through study completion, an average of 2 weeks
To evaluate the feasibility of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Compliance Measure Description: Compliance (%) = (number of completed exoskeleton sessions ÷ number of expected sessions) × 100. Expected sessions are fixed at 2 per week during the ICU stay. Sessions beyond 2 per week count as completed sessions but do not increase the expected total. Unit of Measure: percent (%)
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the feasibility of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Session Duration Measure Description: Duration of each exoskeleton session; mean duration per participant across all sessions. Unit of Measure: minutes
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the feasibility of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Total Steps per Session Measure Description: Number of steps completed during each exoskeleton session; mean steps per participant across sessions. Unit of Measure: steps
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the feasibility of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Duration by Walking Mode Measure Description: Time spent in each walking mode during exoskeleton sessions. EarlyGait and RealGait are reported separately; for each mode, the participant's mean duration across sessions is calculated. Unit of Measure: minutes
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the feasibility of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Steps by Walking Mode Measure Description: Number of steps performed in each walking mode during exoskeleton sessions. EarlyGait and RealGait are reported separately; for each mode, the participant's mean steps across sessions is calculated. Unit of Measure: steps
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the feasibility of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Lowest Assistance Level Achieved Measure Description: Lowest exoskeleton assistance (%) at which the participant completed ≥3 consecutive steps across all sessions. Unit of Measure: percent (%)
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the usability of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Donning and Doffing Time Measure Description: Time required to don and to doff the exoskeleton during each session. Donning and doffing are reported separately; for each, the participant's mean time across sessions is calculated. Unit of Measure: minutes
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the usability of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Satisfaction Score (Patient and Operator) Measure Description: Session-by-session satisfaction on a 0-10 numeric rating scale, reported by the patient and by the operator; mean per reporter (patient, operator) across sessions. Unit of Measure: score (0-10)
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the usability of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Operator Workload (NASA-TLX) Measure Description: Overall workload scored with NASA-TLX at the end of the protocol. Unit of Measure: score (0-100)
Time frame: At study completion (average of 2 weeks)
To evaluate the usability of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: System Usability Scale (SUS) Measure Description: Device usability scored with the System Usability Scale at the end of the protocol. Unit of Measure: score (0-100)
Time frame: At study completion (average of 2 weeks)
To evaluate the usability of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Operators per Session (overall and by qualification) Measure Description: Total number of operators involved per session (donning, doffing, and during training). Counts will also be reported by qualification category (PT, RN, physician, technician, other). For each participant, the mean count per session will be calculated overall and per category. Unit of Measure: count and qualification
Time frame: At each training session through study completion (average of 2 weeks)
To evaluate the effectiveness of the self-balanced exoskeleton Atalante X among patients in the intensive care unit (ICU) who have undergone thoracic surgery
Outcome: Functional Mobility (JH-HLM) Measure Description: Johns Hopkins Highest Level of Mobility score (1-8; higher = greater mobility), assessed per JH-HLM protocol. Unit of Measure: score (1-8)
Time frame: Baseline and at study completion (average of 2 weeks)
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