Subgaleal Drains in Decompressive Craniectomies

Not Applicable

Completed

• Conditions: Hematoma Intracranial; Surgical Site Infection; Wound Breakdown; Hypotension Postprocedural; Hydrocephalus; Bradycardia
• Interventions: Procedure: Vacuum Redon subgaleal drains; Procedure: No Redon subgaleal drains; Procedure: Passive Redon subgaleal drains

• Registration Number: NCT03777774
• Lead Sponsor: Universiti Sains Malaysia

Brief Summary

This research is about the use of subgaleal drains to prevent accumulation of blood under the skin in patients undergoing surgery to remove part of the skull(craniectomy) and its associated complications. There have been early research that shows usage of subgaleal drains maybe related to increase in complication rates after craniectomy. These complications include hydrocephalus (accumulation of fluid in the brain), new hemorrhages, infection and low blood pressure. The investigators are performing this research to determine which type of subgaleal drains would produce the least complications. With this knowledge, the investigators would be able to reduce the amount of complications for future patients that undergo surgery to remove part of the skull.

The purpose of this study is to determine the rate of complications in the 3 different groups of patients using the different types of drains under the skin in surgeries that involve removal of part of the skull.

All participants will undergo the required surgery to remove part of the skull (craniectomy). Participants will then be randomly assigned to either one of 3 groups which are the vacuum drain group, passive drain group or no drain group.Participants in the vacuum drain group will have vacuum drains inserted during the closing stage of the surgery. Participants in the passive drain group will have passive drains inserted during the closing stage of the surgery. Participants in the no drain group will have a drain inserted during the closing stage of the procedure but the drain will remained closed.

Data will then be collected and analysed to determine if the type of drains influence the rate of complications in craniectomy

Detailed Description

Prophylactic subcutaneous drains in surgery have generally been used for detection and drainage of hematomas or excessive secretions. In the past three decades, multiple surgical disciplines have conducted studies to determine the necessity of vacuum drains or even the need of drains altogether and a meta-analysis found that many operations can be carried out safely without prophylactic drainage.

In addition to that, drains have been associated with complications. A few of them include wound infections, injury to tissues, source of discomfort and pain during removal, limiting mobility and additional scarring.

Of all the cranial surgeries, the most commonly performed surgery is decompressive craniectomy. This surgery has been an increasingly common surgical procedure for the neurosurgical community as there is clear evidence from numerous studies that support decompressive craniectomy as a life-saving surgical procedure in traumatic brain injury, malignant middle cerebral artery infarction and spontaneous intracerebral haemorrhage.

Decompressive craniectomies have been associated with many complications including subdural effusions (49%), post-craniectomy hydrocephalus (14%), subgaleal hematomas and new remote hematomas (10.2%). These complications may just be due to the surgery itself. But it may still be possible that these complications are worsened or arise solely due to the routine use of the vacuum drain.

As the utility of decompressive craniectomy increases, efforts should be made to reduce the complications related to it. Studies have been done to optimize and standardize the technique of decompressive craniectomy but the necessity to use the vacuum drains and the possible contribution that these drains may have to the complications of decompressive craniectomies have been overlooked so far. There have been no randomized studies to compare usage of subgaleal vacuum drains, subgaleal passive drains and the omission of subgaleal drains in neurosurgical practice to date.

Usage of subgaleal vacuum drains for decompressive craniectomies have been the usual practice so far to prevent subgaleal hematoma collection. However, this practice is not backed by any strong evidence that these vacuum drains actually deter subgaleal hematoma collection. On top of that, these vacuum drains may itself be causing complications that have not been discovered before. The usual complications associated with prophylactic vacuum drains are surgical site infections and wound breakdown. There are other complications that could be attributed to the routine usage of prophylactic vacuum drains. These include new remote intracranial hematomas, post craniectomy hydrocephalus and bradycardia or hypotension during the skin closure stage of craniectomy.

The investigators plan to compare the complication rates of vacuum drains, passive drains and no drains in decompressive craniectomy. These 3 groups include a group with active vacuum drains, another group with passive non-vacuum drains and a group without any drains. The current practice is to use active or passive vacuum drains as prophylactic drains in patients undergoing decompressive craniectomy.

The complication rates to be studied are:

1. subgaleal hematoma thickness

2. new remote hematomas,

3. post craniectomy hydrocephalus,

4. surgical site infection,

5. wound breakdown,

6. bradycardia/hypotension during closing stage of craniectomy

7. and functional outcomes of patients at 6 months

If the rates of complications in the groups without a drain or a passive drain are lower or equal to that of the group with active drains, this study may change the paradigm of prophylactic drain usage in decompressive craniectomies

Study Timeline

• Study First Submitted: 2018-12-11
• Study First Submitted QC: 2018-12-14
• Study First Posted: 2018-12-17
• Study Start: 2019-01-01
• Primary Completion: 2020-06-30
• Study Completion: 2020-06-30
• Status Verified: 2021-05
• Last Update Submitted: 2021-05-28
• Last Update Posted: 2021-06-02

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 78

Inclusion Criteria

• patients with indication for decompressive craniectomy as decided by the neurosurgeon in-charge. Indications maybe for traumatic intracranial bleed, spontaneous intracranial bleed and malignant middle cerebral artery territory infarction
• Written informed consent by legal representative of patient

Exclusion Criteria

• history of recent antiplatelet or anticoagulant use
• patients with evidence of coagulopathy or thrombocytopenia from lab results
• possible disseminated intravascular coagulation preoperatively
• Presence of hydrocephalus preoperatively

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Vacuum subgaleal drains	Vacuum Redon subgaleal drains	Active vacuum drains will be placed during closing stage of craniectomy
No subgaleal drains	No Redon subgaleal drains	Drains will be placed during closing stage of craniectomy but will be clamped so that no drainage takes place. Drains can be opened if needed
Passive subgaleal drains	Passive Redon subgaleal drains	Passive non-vacuum drains will be placed during closing stage of craniectomy

Primary Outcome Measures

Name	Time	Method
Subgaleal hematomas	24 hours +/- 12 hours post craniectomy	Mean maximum thickness and volume of subgaleal hematomas as post craniectomy complication. Defined as maximum thickness and volume (using XYZ/2 formula) of subgaleal hematoma on CT brain post craniectomy.

Secondary Outcome Measures

Name	Time	Method
Surgical site infection	1 month post craniectomy	Rate of surgical site infection. Defined as purulent or serous discharge from the surgical site with clinical signs of inflammation
Wound breakdown	1 month post craniectomy	Rate of wound breakdown. Defined as spontaneous separation of sutured edges
New remote hematomas	1 week post craniectomy	Rate of new remote hematomas. Defined as hematomas not previously seen on earlier CT brains but seen on post operative CT brain that cannot be explained by direct connection or complication from the original hematomas
Bradycardia or hypotension during skin closure stage.	end of surgery till 30 minutes after surgery has ended	Rate of bradycardia or hypotension during skin closure stage. Bradycardia defined as \<60 beat per minute, hypotension defined as BP \<90/60 mmHg, that cannot be clearly explained by other possible causes
Post craniectomy hydrocephalus	6 months post craniectomy	Rate of post craniectomy hydrocephalus. Defined as radiographic and clinical evidence of hydrocephalus post craniectomy
Functional outcome	6 months post craniectomy	Modified Rankin Scale(MRS) score on 6 months post craniectomy; MRS is a commonly used scale for measuring the degree of disability or dependence in the daily activities; The scale runs from 0-6, running from perfect health without symptoms to death.; 0 - No symptoms.; 1. - No significant disability. Able to carry out all usual activities, despite some symptoms.; 2. - Slight disability. Able to look after own affairs without assistance, but unable to carry out all previous activities.; 3. - Moderate disability. Requires some help, but able to walk unassisted.; 4. - Moderately severe disability. Unable to attend to own bodily needs without assistance, and unable to walk unassisted.; 5. - Severe disability. Requires constant nursing care and attention, bedridden, incontinent.; 6. - Dead.

Trial Locations

Locations (2)

Hospital University Sains Malaysia; 🇲🇾 Kubang Kerian, Kelantan, Malaysia

Sarawak General Hospital; 🇲🇾 Kuching, Sarawak, Malaysia