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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT01258257
Other study ID # EARLYDRAIN
Secondary ID
Status Completed
Phase Phase 3
First received December 9, 2010
Last updated February 2, 2017
Start date January 2011
Est. completion date September 2016

Study information

Verified date February 2017
Source Charite University, Berlin, Germany
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The intention of the study is to investigate whether drainage of cerebral spinal fluid via a lumbar route ("Tuohy-drain") will improve outcome after intracranial aneurysmal subarachnoid hemorrhage (SAH).


Description:

1. Introduction

Patients suffering from aneurysmal subarachnoid hemorrhage (SAH) are predominantly threatened by two distinct medical problems. Firstly, they may experience a second - and often more severe - hemorrhage, and secondly, they may suffer a constringence reaction of the vessels supplying the brain with blood, called vasospasm.

The first problem is resolved by rapid cerebrovascular imaging and subsequent treatment of the ruptured aneurysm, thus preventing recurrent hemorrhage. Aneurysm treatment may be performed either via craniotomy and surgical clipping of the aneurysm or with endovascular techniques by occluding the aneurysm with small platinum coils.

The vasospasm - the second problem - is more difficult to handle. A hypothesis is that the development of vasospasm is related to the amount of blood in the basal cisterns. Therefore, a possible strategy tries to remove this blood as much as possible. Excess removal of cerebral spinal fluid (CSF) via an external ventricular drain fails in preventing vasospasm and may lead to a higher incidence of posthemorrhagic shunt dependency. Reason is that after aneurysmal SAH, the blood is packed more densely in the basal cisterns and therefore only CSF, being more lightweight, is drained from the ventricles. As an alternative approach, application of a lumbar drain is proposed to address clotting of the blood in the basal cisterns. Three retrospective studies in patients after aneurysmal SAH, the newest being available only as abstract, were able to establish the safety of this approach (Klimo et al, Kwon et al, Tizi et al (abstract DGNC 2009)). One of the fully published studies addressed vasospasm prophylaxis after surgical clipping, while the other was performed in patients after endovascular coiling. All studies led to a markedly diminished incidence of angiographic vasospasm. Therefore, a prospective study addressing the efficacy of this novel therapeutic approach is warranted.

The focus of the EARLYDRAIN study is to examine the efficacy of application of lumbar drainage in patients with acute subarachnoidal hemorrhage from a cerebral aneurysm. Hypothesis is that early application of lumbar drainage after aneurysmal SAH leads to a diminished incidence of cerebral vasospasm, as assessed by digital subtraction angiography, and an improved outcome, measured by the modified Rankin score, at six months.

2. Study outline

Patients suffering from aneurysmal SAH are treated according to international standards. Aneurysm treatment is at the discretion of the neurovascular team taking care for a patient and not specified by the study protocol. All medical treatment is performed according to local guidelines and standard operating procedures.

Any patient meeting the inclusion criteria and not violating the exclusion criteria may participate in the EARLYDRAIN study and be randomized to either receive a lumbar drain or not, thus defining the two distinct groups LD and NoLD. To prevent premature rupture of the aneurysm due to accidental drainage, randomization to the study and eventual placement of a lumbar drain takes place after securing the aneurysm by the preferred method of choice. Any patient in the LD group receives a lumbar drain during anesthesia required for aneurysm treatment. This is to be performed before anticoagulation or anti-platelet therapy is initiated, which sometimes is warranted after endovascular coiling. A post-procedural CCT scan of the brain is performed within to 24 hours of aneurysm treatment. In case of any neurological worsening after the procedure it is strongly recommended to perform the follow-up CCT scan as soon as possible.

In patients in the LD group, CSF drainage is started via LD slowly and steadily at a rate of approximately 5 ml per hour after the post-interventional CCT. This leads to a planned daily CSF drainage of about 120 ml per day via lumbar route. Patients in both groups may receive additional CSF drainage via a ventricular device as required. The amount of CSF drained via ventricular route is according to clinical requirement and not specified.

To facilitate accuracy of drainage, regular drainage control every other hour and stopping in case of excess drainage is strongly recommended by the principal investigators. In case of neurological decline suspiciously related to the lumbar drainage, the drain is closed immediately and may be gradually restarted after 12 to 24 hours, after performing a CCT scan.

If the post-procedural CCT or any other follow-up CCT scan shows absent basal cisterns or any signs of threatening herniation, lumbar CSF diversion in the LD group shall not be performed. It may still be feasible to carefully drain CSF via the lumbar route may (Tuettenberg et al), but this is at the discretion of the local investigator and not recommended.

In patients requiring sedation and mechanical ventilation, either due to neurological impairment or otherwise, intracranial pressure monitoring is mandatory. This may be performed according to local policy either with parenchymal or ventricular devices. If the intracranial pressure exceeds 20 mmHg, further CSF drainage via lumbar route shall be interrupted until the ICP is below 20 mmHg again. Careful CSF drainage via the lumbar route may be still feasible in case of high intracranial pressure (Tuettenberg et al), but is at the discretion of the local investigator.

Further neuromonitoring with TCD, EEG, brain tissue oxygenation, jugular bulb oxymetry, regional cerebral blood flow, microdialysis or other devices is at the discretion of the center and according to its local guidelines. As far as possible, this data should be saved electronically for post-hoc analysis.

A CCT scan as well as conventional digital subtraction angiography, CT angiography or MR angiography for assessment of vasospasm in the larger vessels is routinely performed on day 7 to 10 after the initial hemorrhage, regardless of the patient condition. In case of clinical suspicion of vasospasm, angiography may be performed at any time. If it is performed earlier and the patient shows no clinical deterioration thereafter, the angiography on day 7 to 10 is omitted.

After cerebrovascular imaging on day 7 to 10, or day 8 in case of an earlier angiography, the lumbar drainage of CSF is stopped in the LD group. It may be pursued on a clinical base, as required.

Amount and duration of CSF drainage Patients randomized to the lumbar drainage group shall receive a daily drainage of 120 ml CSF, or 5 ml per hour for seven days. If higher amounts of CSF need to be drained on clinical grounds as in patients with hydrocephalus, this is preferably performed via external ventricular drain.

The drain is planned to remain in place until the control angiography on day 7 to 10 after the initial hemorrhage. The local investigator may decide to remove the drain earlier in patients fully mobilized without clinical necessity of CSF drainage. However, consecutive drainage should not be less than four days to achieve a valid study result. Lumbar CSF drainage may be prolonged beyond the control angiography on clinical requirement. The amount of CSF drainage may then be adjusted to clinical needs and bears no further restriction.

Patients randomized to the control group should not receive a lumbar drain before the planned control angiography to be performed on day 7 to 10 after SAH. If the patient develops hydrocephalus, and no EVD was placed initially for CSF drainage, a lumbar drain may be installed at the discretion of the local investigator. These patients are analyzed in the intention-to-treat analysis, but are not suitable for per-protocol analysis.

3. Consent to the study

Consent for study inclusion is sought after explanation and agreement to a specific aneurysm treatment. Thus, patients capable of consenting to the aneurysm treatment get the study details explained themselves and may or may not agree to participate. If a patient is incapable for consenting to the proposed treatment, the legal representative should be informed on the conditions of treatment choices and afterwards, on the details of the EARLYDRAIN study. A patient may be randomized if the legal representative gives informed consent to the study, based on the presumed will of the patient. If neither the patient is capable of giving informed consent nor a legal representative is available in due time, an independent physician not involved in the patient's treatment nor in the trial may be asked for study approval. In these cases of deferred consent, a legal representative needs to be established as soon as possible, according to German law. As soon as a legal representative is available and/or the patient is capable again to consent to the study, he or she must be asked to give informed consent. If the patient or his/her legal representative refuses consent after inclusion by advice of an independent physician, no further study participation of the patient is possible. In this case, however, the patient or his/her legal representative are asked to give consent for evaluation of already acquired data.

4. Safety of lumbar drains after aneurysmal SAH

In all three retrospective studies, mortality was lower in the lumbar drainage group. None of the retrospective studies mentions procedural related complications for the lumbar drains (Klimo et al, Kwon et al, Tizi et al (abstract at the DGNC 2009)). In patients with increased intracranial pressure, careful lumbar drainage of CSF may be a possible treatment even in case of compressed basal cisterns (Tuettenberg et al). To date, there is no data available indicating an increased risk of lumbar drainage in a controlled neurointensive care environment.

5. Insurance coverage

As the EARLYDRAIN study compares two standard procedures of CSF drainage after subarachnoid hemorrhage used in clinical routine, no additional patient insurance is necessary to perform the study. German laws §§ 40 to 42 Arzneimittelgesetz or §§ 20 to 23 Medizinproduktegesetz are not applicable. Any hypothetical adverse events of either treatment are covered by the regular treatment contracts which do include clinical research.


Recruitment information / eligibility

Status Completed
Enrollment 300
Est. completion date September 2016
Est. primary completion date August 2016
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

- Age of 18 years or older

- First aneurysmal SAH

- Pre-morbid modified Rankin Scale score 0 or 1

- Aneurysm treatment performed in the first 48 hours after the initial hemorrhage.

- Informed consent by the patient or his/her legal representative. In case neither the patient is capable of giving informed consent nor a legal representative is available, informed consent can be given by an independent physician neither involved in the patient´s treatment nor the trial (for specification see below)

Exclusion Criteria:

- Subarachnoid hemorrhage of other than aneurysmal origin

- No hemorrhage visible on initial CCT scan (Fisher Grade I)

- Pregnancy

- Concurrent participation in another interventional trial (participation in an observational trial is allowed)

- Life expectancy less than 1 year for other reasons than the actual SAH

- Other concomitant severe disease that would confound with treatment

- Other clear contraindication for treatment

Study Design


Related Conditions & MeSH terms


Intervention

Procedure:
Insertion of a lumbar drain
In patients in the LD group, after insertion of the drain CSF is drained slowly and steadily at a rate of approximately 5 ml per hour. This leads to a planned daily CSF drainage of about 120 ml per day via lumbar route. To facilitate accuracy of drainage, regular drainage control every other hour and stopping in case of unwarranted excess drainage is strongly recommended by the principal investigators. In case of neurological decline suspiciously related to the lumbar drainage, the drain is closed immediately and may be gradually restarted after 12 to 24 hours, after performing a CCT scan. The drain is planned to remain in place until the control angiography on day 7 to 10 after the initial hemorrhage.

Locations

Country Name City State
Germany Charité University Medicine Department of Neurosurgery Campus Virchow Klinikum Berlin

Sponsors (1)

Lead Sponsor Collaborator
Charite University, Berlin, Germany

Country where clinical trial is conducted

Germany, 

References & Publications (3)

Klimo P Jr, Kestle JR, MacDonald JD, Schmidt RH. Marked reduction of cerebral vasospasm with lumbar drainage of cerebrospinal fluid after subarachnoid hemorrhage. J Neurosurg. 2004 Feb;100(2):215-24. — View Citation

Kwon OY, Kim YJ, Kim YJ, Cho CS, Lee SK, Cho MK. The Utility and Benefits of External Lumbar CSF Drainage after Endovascular Coiling on Aneurysmal Subarachnoid Hemorrhage. J Korean Neurosurg Soc. 2008 Jun;43(6):281-7. doi: 10.3340/jkns.2008.43.6.281. — View Citation

Tuettenberg J, Czabanka M, Horn P, Woitzik J, Barth M, Thomé C, Vajkoczy P, Schmiedek P, Muench E. Clinical evaluation of the safety and efficacy of lumbar cerebrospinal fluid drainage for the treatment of refractory increased intracranial pressure. J Neurosurg. 2009 Jun;110(6):1200-8. doi: 10.3171/2008.10.JNS08293. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Disability in Lumbar drainage group (LD) vs. disability in control group (No-LD) Disability is assessed by the modified Rankin Scale, dichotomized at a score of 0 to 2 versus 3 to 6 (6=death).Assessment is performed by a blinded investigator of the local study center by personal visit. Alternatively, a telephone questionnaire is suitable for outcome assessment of the modified Rankin Scale (13). Outcome assessment is planned to be done on the whole dataset as well as in preplanned stratified subsets (i.e. for example clinical SAH grade according to the Hunt&Hess scale 1-2 vs. 3-5 (14), CT grading according to Fisher I-III vs. IV (15)). 6 months after SAH
Secondary mortality 6 months after SAH
Secondary Modified Rankin scale (mRS) score as continuous variable 6 months after SAH
Secondary Angiographically determined vasospasm Vasospasm here is defined as a caliber reduction by 33% or more on day 7-9 compared to the initial digital subtraction angiography. once between day 7 to 9 after SAH
Secondary Vasospastic infarction last CT-scan during hospital stay, an expected average of 4 weeks
Secondary Expression of clinical delayed neurological deficit day 1-14 after SAH
Secondary Transcranial duplex ultrasound measured flow velocity in both middle cerebral arteries TCD-measured mean flow velocity in both MCA is determined daily at a depth of 50-60 mm. daily during hospital stay of the patient
Secondary Early mortality Time span of initial hospital treatment after SAH, an expected average of 4 weeks
Secondary Rate of CSF shunt insertion in the first six months First 6 months after SAH
Secondary Presence of CSF infection Infection in this case is defined by the modified criteria for device-associated (CDC) meningitis (treatment required on either positive culture, or elevated cell count, red cell/ white cell ratio, increased lactate and/or decreased glucose) First 14 days after SAH
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