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Clinical Trial Details — Status: Terminated

Administrative data

NCT number NCT05238753
Other study ID # STIMIT-II
Secondary ID
Status Terminated
Phase N/A
First received
Last updated
Start date January 21, 2022
Est. completion date May 15, 2022

Study information

Verified date September 2022
Source Charite University, Berlin, Germany
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Ventilator-induced diaphragmatic dysfunction is a common issue in critically ill patients. Muscle stimulation has shown to have beneficial effects in muscle groups on the extremities. A non-invasive way to stimulate the diaphragm would be the electromagnetic stimulation but it is currently unclear if that is feasible. In this proof-of-concept trial the primary aim is to show that it is possible to induce a diaphragmatic contraction in critically ill ICU patients via an external electromagnetic stimulation of the phrenic nerve, leading to an inspiration (i) with a sufficient tidal volume (3-6 ml/kg ideal body weight) and (ii) with verifiable muscular diaphragmatic contraction through ultrasound imaging.


Description:

During the time of first spontaneous breathing trial 60% of mechanically ventilated patients present with diaphragmatic weakness or also know as ventilator-induced diaphragmatic dysfunction (VIDD). The damage to the diaphragm in terms of muscle atrophy has been shown as early as 12 hours after initiation of mechanical ventilation. Recently, a correlation between diaphragmatic atrophy and mortality could be established. Induction of diaphragmatic contractions via stimulation of the phrenic nerve would be a possible method to prevent or treat VIDD. A possible modality would be the non-invasive electromagnetic stimulation but feasibility has not been established. In this proof-of-concept trial the primary aim is to show that it is possible to induce a diaphragmatic contraction in critically ill ICU patients via an external electromagnetic stimulation of the phrenic nerve, leading to an inspiration (i) with a sufficient tidal volume (3-6 ml/kg ideal body weight) and (ii) with verifiable muscular diaphragmatic contraction through ultrasound imaging.


Recruitment information / eligibility

Status Terminated
Enrollment 10
Est. completion date May 15, 2022
Est. primary completion date May 15, 2022
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Patients between 18 and 60 years old, hospitalized in ICU - Mechanical ventilation < 36 h - Prone to stay ventilated > 72 h Exclusion Criteria: - Known neurological condition affecting motor neuron or muscle (e.g. ALS) - Known paralysis of the phrenic nerve - Proven or suspected spinal cord injury that contraindicates weight bearing on the spinal cord - Conditions that limit diaphragm movement (high intra-abdominal pressure, ascites, obesity) - Not able to read and understand the national language German - Patients with Implanted cardiac support systems (pacemaker, implanted defibrillator) - Patients with implanted medical pumps - Pregnant patients - Patients with skin lesions, infections or strictures in throat/neck area - Patients with metallic implants

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Non-invasive electromagnetic stimulation
Non-invasive bilateral electromagnetic stimulation of the phrenic nerve

Locations

Country Name City State
Germany Charité - Univiversitätsmedizin Berlin Berlin

Sponsors (2)

Lead Sponsor Collaborator
Charite University, Berlin, Germany Stimit AG

Country where clinical trial is conducted

Germany, 

Outcome

Type Measure Description Time frame Safety issue
Primary Frequency of non-feasible stimulation, due to organisational or patient-specific reasons. Percentage of non-feasible stimulation out of the total number of stimulations planned according to the investigation protocol. 10 days
Primary Time to find the optimal stimulation point of the N. phrenicus Time between first successful N. phrenicus stimulation and identification of the optimal stimulation locus in seconds Study duration (10 days)
Primary Frequency of sufficient Tidal volume generated by electromagentical stimulation of the phrenic nerve (3-6 ml/kg ideal body weight) Percentage of stimulated breaths above the cut-off Today volume (3-6 ml/kg ideal body weigh) out of the total number of stimulated breaths. Tidal volumes are measured by the mechanical ventilator. Study duration (10 days)
Secondary Variance of Tidal volume generated by electromagentical stimulation of the phrenic nerve Measurement of variance among the Tidal volumes stimulated during the experimental therapy intervention; Tidal volumes are measured by the mechanical ventilator. Study duration (10 days)
Secondary Correlation between amplitude and duration of sEMG signals during stimulated breathing. sEMG amplitude and duration are measured by a device (sEMG Amplificator) connected to electrodes applied to the patient's chest during electromagnetic phrenic nerve stimulation. Study duration (10 days)
Secondary Transpulmonary pressure during electromagnetical stimulation of the phrenic nerve Transpulmonary pressure is measured by the mechanical ventilator during electromagnetic phrenic nerve stimulation. Study duration (10 days)
Secondary Occlusion pressure during electromagnetical stimulation of the phrenic nerve Occlusion pressure is measured by the mechanical ventilator during electromagnetic phrenic nerve stimulation. Study duration (10 days)
Secondary Diaphragm thickening fraction Diaphragm thickening fraction measured with ultrasound of the diaphragm. approx. 28 days (till ICU discharge)
Secondary Diaphragm excursion Diaphragm excursion measured with ultrasound of the diaphragm. approx. 28 days (till ICU discharge)
Secondary Stimulated tracheal pressure during electromagentical stimulation of the phrenic nerve Stimulated tracheal pressure is measured by the mechanical ventilator during electromagnetic phrenic nerve stimulation. Study duration (10 days)
Secondary Rapid Shallow Breathing Index (RSBI) record and evaluation. Progression of RSBI during 10 days after subject inclusion, based on the mechanical ventilation parameters (Tidal volume) and the ICU continuous monitoring system (Respiratory Rate). Study duration (10 days)
Secondary Lung compliance during electromagentical stimulation of the phrenic nerve Lung compliance is measured by the mechanical ventilator during electromagnetic phrenic nerve stimulation. 10 days
Secondary Lung resistance during electromagentical stimulation of the phrenic nerve Lung resistance is measured by the mechanical ventilator during electromagnetic phrenic nerve stimulation. 10 days
Secondary Maximal inspiratory pressure (MIP) during electromagnetical stimulation of the phrenic nerve. MIP is measured by the mechanical ventilator during electromagnetic phrenic nerve stimulation. Study duration (10 days)
Secondary Expiratory and Inspiratory Diaphragm Thickness measured by Ultrasound Diaphragm Thickness measured by Ultrasound as a baseline parameter for muscle atrophy. Study duration (10 days)
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