Critical Illness Clinical Trial
— STIMIT-IIOfficial title:
Electromagnetic Stimulation of the Phrenic Nerve to Generate Contraction of the Diaphragm in Critically Ill Mechanically Ventilated Patients - a Proof-of-concept Study (STIMIT-II)
Verified date | September 2022 |
Source | Charite University, Berlin, Germany |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
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.
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 |
Country | Name | City | State |
---|---|---|---|
Germany | Charité - Univiversitätsmedizin Berlin | Berlin |
Lead Sponsor | Collaborator |
---|---|
Charite University, Berlin, Germany | Stimit AG |
Germany,
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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