It has been hypothesized that there are two mechanisms of acute traumatic spinal cord injury (SCI): the primary mechanical damage and the secondary injury due to additional pathological processes initiated by the primary injury. Neurological damage due to laceration, contusion, distraction or compression of the spinal cord is called ''primary injury''. This mechanical injury leads to a cascade of biochemical and pathological changes, described as ''secondary injury'', which occurs minutes to weeks after the initial trauma and causes further neurological deterioration. This secondary cascade involves vascular changes, an inflammatory response, neurotoxicity, apoptosis and glial scarring, and further compromises neurological impairment after traumatic spinal cord injury. Edema, ischemia and loss of autoregulation continue to spread bi-directionally from the initial lesion along the spinal cord for up to 72 hours after the trauma. It has been postulated that the damage caused by the primary injury mechanism is irreversible and therapeutic approaches in recent years have focused on modulating the secondary injury cascade. Researchers found significantly greater numbers of myelinated fibers in peripheral nerves after a single ESWT application in an experimental model on rats after a homotopic nerve autograft into the sciatic nerve. In another study a spinal cord ischemia model in mice was performed. ESWT was applied immediately after surgery and the treated animals showed a significantly better motor function and decreased neuronal degeneration compared to the control group within the first 7 days after surgery. Researchers investigated the effect of low-energy ESWT for the duration of three weeks on a thoracic spinal cord contusion injury model in rats. Animals in the ESWT group demonstrated significantly better locomotor improvement and reduced neuronal loss compared to the control animals at 7, 35, and 42 days after contusion. It has been postulated previously, that ESWT improves the metabolic activity of various cell types and induces an improved rate of axonal regeneration. ESWT might be a promising therapeutic strategy in the treatment of traumatic SCI. The underlying study aims to investigate the effect of ESWT after acute traumatic spinal cord injury in humans within 48 hours of trauma in order to intervene in the secondary injury phase with the objective to reduce the extent of neuronal damage.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
246
The shockwave generator orthogold 100® generates high-energy acoustic waves that behave much like other sound waves except that they have much greater pressure and energy. As with sound waves, Spark Waves® can easily travel great distance as long as the acoustic impedance stays the same.
The shockwave generator orthogold 100® will be used in combination with a dummy head, to Refrain shock waves
Medical University Innsbruck
Innsbruck, Tyrol, Austria
RECRUITINGRehazentrum Bad Häring
Bad Häring, Austria
ACTIVE_NOT_RECRUITINGLandeskarnkenhaus Feldkirch
Feldkirch, Austria
RECRUITINGUnfallkrankenhaus Graz
Graz, Austria
RECRUITINGRehazentrum Tobelbad
Graz, Austria
ACTIVE_NOT_RECRUITINGUnfallkrankenhaus Klagenfurt
Klagenfurt, Austria
RECRUITINGRehazentrum Weißer Hof
Klosterneuburg, Austria
ACTIVE_NOT_RECRUITINGUnfallkrankenhaus Linz
Linz, Austria
RECRUITINGUnfallkrankenhaus Salzburg
Salzburg, Austria
RECRUITINGUniversitätsklinik für Orthopädie und Traumatologie
Salzburg, Austria
WITHDRAWN...and 5 more locations
changes in total motor scores (TMSC) = TMSC after 6 month minus TMSC at baseline
greater improvement in motor and sensory function (the AIS grade) can be achieved in patients after spinal trauma (AIS A-D) by applying a single extracorporeal shockwave therapy compared to the control group.
Time frame: day 0 to 6 month
American Spinal Injury Association (ASIA) Impaiment Scale (AIS) grade
the AIS grade ranges from AIS A to AIS D, whereby AIS A are complete lesions and AIS B-D represent incomplete lesions
Time frame: day 0 to 6 month
degree of spasticity
self-rated degree of spasticity according to Penn Spasm Frequency Scale (PSFS); the scale ranges from 0 to 4, whereby 0 refers to no spasticity and 4 refers to more than 10 spasms per hour
Time frame: day 0 to 6 month
Walking ability (yes/no)
walking ability is being assessed using different walking tests as part of standard clinical routine: Walking Index for Spinal Cord Injury (WISCI) II, Timed up and go test (TUG), 10 Meter-Timed-Walk, 6 Minute-Walk-Test
Time frame: day 0 to 6 month
Urological function
Urological function will be assessed by several questions which should be answered with yes or no: * Permanent catheter: yes/no * Sensation of urinary bladder filling: yes/no * Documentation of the first attempt of bladder emptying: pos/neg, date * Self-catheterization: yes/no * Do you feel sensory innervation of the external genitalia (penis / labia)? * Do you feel the change of the catheter or manipulations on the catheter? * Do you feel the urge to defecate? * Do you feel stool evacuation? * Male patients: Have you had an erection since your injury? * Female patients: Have you felt sexually aroused since your injury?
Time frame: day 0 to 6 month
Plantar reflex (left/right: yes/no)
The plantar reflex (also called Babinski Test) will be performed separately on each foot to assess if pathological reflexes are present.
Time frame: day 0 to 6 month
Independence in everyday life
of patients is assessed with the Spinal Cord Independence Measure (SCIM II)
Time frame: day 0 to 6 month
adverse events (AEs)
The number of study related adverse events (AEs) are measured according to NCI CTCAE, version 5.0.
Time frame: day 0 to 21 days
Nine-Hole Peg Test (NHPT) (if feasible)
An evaluation of hand motor function is assessed in those patients who have their lesions above the level T5
Time frame: day 0 to 6 month
Grasp and Release Test (GRT)
An evaluation of hand motor function is assessed in those patients who have their lesions above the level T5
Time frame: day 0 to 6 month
Pinch grip: yes/no
An evaluation of hand motor function is assessed in those patients who have their lesions above the level T5
Time frame: day 0 to 6 month
Clenched grip: yes/no
An evaluation of hand motor function is assessed in those patients who have their lesions above the level T5
Time frame: day 0 to 6 month
Pencil grip: yes/no
An evaluation of hand motor function is assessed in those patients who have their lesions above the level T5
Time frame: day 0 to 6 month
Lumbrical grip: yes/no
An evaluation of hand motor function is assessed in those patients who have their lesions above the level T5
Time frame: day 0 to 6 month
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