|Year : 2020 | Volume
| Issue : 3 | Page : 781-785
Asymptomatic brain abscess following decompressive craniotomy for stroke – A report of two cases and review of the literature
Raja K Kutty, Sunilkumar Balakrishnan Sreemathyamma, Jyothish Laila Sivanandapanicker, Abhishek Vijayan, Prasanth Asher, Anilkumar Peethambaran
Department of Neurosurgery, Government Medical College, Thiruvananthapuram, Kerala, India
|Date of Submission||09-Feb-2020|
|Date of Acceptance||29-Apr-2020|
|Date of Web Publication||28-Aug-2020|
Dr. Raja K Kutty
Department of Neurosurgery, Government Medical College, Thiruvananthapuram - 695 011, Kerala
Source of Support: None, Conflict of Interest: None
Stroke is a significant health problem in both developed and developing nations. The treatment strategies of stroke differ among various centers depending on the available expertise. Nevertheless, stroke contributes to a major economic burden for patients and health institutions. The recovery period after stroke is a critical period wherein various complications can develop in survivors. Among these multiple complications, the formation of brain abscess in the infarcted brain tissue is rare and less well described in the literature. Fever or signs of raised intracranial pressure are the usual manifestation of poststroke brain abscess. We present two unique cases of large brain abscess in patients who survived a malignant stroke. Both the patients were recuperating well after decompressive craniectomy for stroke without any signs of intracranial infection or raised intracranial pressure. Both the patients underwent open drainage of brain abscess, followed by delayed cranioplasty. There are only a few cases of brain abscess reported in the literature in patients who underwent decompressive craniectomy for stroke.
Keywords: Brain abscess, cerebral infarction, decompressive craniectomy
|How to cite this article:|
Kutty RK, Sreemathyamma SB, Sivanandapanicker JL, Vijayan A, Asher P, Peethambaran A. Asymptomatic brain abscess following decompressive craniotomy for stroke – A report of two cases and review of the literature. Asian J Neurosurg 2020;15:781-5
|How to cite this URL:|
Kutty RK, Sreemathyamma SB, Sivanandapanicker JL, Vijayan A, Asher P, Peethambaran A. Asymptomatic brain abscess following decompressive craniotomy for stroke – A report of two cases and review of the literature. Asian J Neurosurg [serial online] 2020 [cited 2020 Sep 25];15:781-5. Available from: http://www.asianjns.org/text.asp?2020/15/3/781/293746
| Introduction|| |
Stroke is the second leading cause of mortality in the world after coronary artery disease. The global burden of stroke has risen substantially in the past two decades, especially in low and middle-income countries. The outcome of malignant stroke in general is poor. Due to the recent trend of decompressive craniectomy, there has been an increase in the number of survivors at the cost of higher morbidity. There have been many complications described as a sequela to stroke. Brain abscess is a rare complication which is less described among survivors of stroke. The usual presentation of brain abscess following stroke is due to symptoms of raised intracranial pressure. In this report, we describe two cases of malignant stroke in young patients who survived with decompressive hemicraniectomy. They were found to have a large brain abscess at the site of the previously infarcted region, which was detected incidentally at the time of cranioplasty. We discuss the management strategies along with a brief review of the literature of brain abscess following decompressive craniectomy for stroke.
| Case Reports|| |
A 35-year-old male presented to the emergency department with a history of sudden onset of headache and vomiting. His symptoms progressed the next day during which he noticed weakness of right side of the body and difficulty in speech. He was referred to our tertiary unit after 2 days of illness. His Glasgow Coma Scale (GCS) at admission was E4V1M5 with Grade 0 power in the right upper and lower limb along with brisk reflexes and a positive Babinski's sign. The National Institutes of Health Stroke Scale score was 25. An emergency computed tomography (CT) brain was done, which showed mild hypodensity in the region of the left middle cerebral artery territory. His routine investigations revealed that he had diabetes mellitus and also high packed cell volume values, possibly due to dehydration. A diagnosis of middle cerebral artery infarct was made after which he was started on heparin infusion. After 1 day, he deteriorated in his consciousness with a GCS of E2V1M5 with mild pupillary asymmetry. A repeat CT scan showed that there was a large infarct in the area supplied by the left middle cerebral artery with a midline shift of 7 mm [Figure 1]a. A decision to do a decompressive hemicraniectomy was made at this point. A large fronto-temporo-parietal flap was raised, and the underlying bone was removed during the surgery. The dura was opened. We do not breach the pia for decompressive hemicraniectomy for stroke. A sizeable synthetic dural graft, G-Patch (Surgiwear Inc.) was placed over the brain, and skin was closed in layers. The resected large piece of the bone flap was placed in the subcutaneous pouch created in the abdomen.
|Figure 1: Computed tomography brain plain. (a) Large hypodensity in the left middle cerebral artery territory with mass effect on the lateral ventricle and midline shift to the right. (b) Postoperative image after decompressive craniectomy showing adequate decompression of the left cerebral hemisphere|
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Postoperative period and follow-up
The patient was mechanically ventilated and gradually extubated after 2 days. His consciousness improved to preoperative status. Postoperative CT showed an excellent decompression of the infarcted area and adequate room for the edematous brain [Figure 1]b. He had a moderate-to-severe chest infection complicating his recovery period for which he was treated with appropriate antibiotics. During the same period, he developed gradual swelling of his right lower limb. A Doppler study revealed deep vein thrombosis involving common femoral and popliteal veins. He was continued on heparin infusion along with warfarin. He recovered well over 1 month and at discharge with advice to continue with warfarin and insulin. At discharge, he was E4VAM5 with right hemiplegia.
Readmission and surgery
He reported to us for cranioplasty after 6 months. There was no history of fever during any time of follow-up. He was E4VAM5 with Grade 1 power in his right upper and lower limb. According to bystanders, he had improved well over the previous 6 months. A CT brain was taken before cranioplasty, which showed a large hypodense ring-enhancing lesion in the region of previous infarct [Figure 2]a and [Figure 2]b. A diagnosis of possible brain abscess was arrived at, and cranioplasty was deferred. All routine blood investigations including culture were sent to detect any signs of infection, but they were normal. His blood sugar values were within control as he was on insulin. He underwent open surgery for the draining of brain abscess. After skin incision the synthetic dura was excised completely. The abscess cavity was opened, and around 20 ml of pus was let out and send for cultures and bacteriology. The capsule of the brain abscess was excised as much as possible leaving a part of it on the medial side adjacent to the ventricle. This was done as we did not want to contaminate the ventricles. The abscess cavity was washed with gentamicin solution, and the brain was covered with a large fascia lata graft harvested from the left thigh and skin closed in layers.
|Figure 2: (a and b) Computed tomography brain plain showing ring-enhancing lesions in the left frontoparietal region with central hypodensity. Note the absence of any mass effect in spite of the large size of the lesion|
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Follow-up after the second surgery
The patient recovered well from the operation. The results of the culture of pus, as well as the dural prosthesis, were sterile. He was given intravenous imipenem and vancomycin for 4 weeks with advice to continue oral antibiotics for 2 weeks at home. He was advised to continue physiotherapy at home. He was on regular follow-up in the outpatient department. At 6 months, his power in the limbs had improved to Grade 3. At 1 year, CT scan was done, which showed resolution of abscess after which he underwent cranioplasty with autologous bone flap [Figure 3]. He is on regular follow-up for 2 years, and there are no signs of raised intracranial pressure or intracranial infections. He is fully conscious and has right hemiplegia and aphasia.
|Figure 3: Computed tomography brain plain – Postcranioplasty after 1 year showing no residual abscess|
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A 26-year-old male had a sudden onset of headache and altered sensorium. He was brought into the emergency department and found to be delirious. On examination, he was febrile, and GCS was 10/15. Both pupils were bilateral sluggishly reacting. He had right hemiplegia. He was a known case of congenital heart disease, for which he had undergone surgery in childhood. All blood investigations including culture were sent. He tested positive for immunoglobulin M Brucella antibody suggesting brucellosis. However, blood culture did not grow any organism including Brucella. He was also found to have concomitant endocarditis. An emergent CT scan was taken, which showed a left-sided middle cerebral artery infarct with mass effect and midline shift of 10 mm [Figure 4]a and [Figure 4]b. The need for emergency surgery was discussed with the bystanders, after which he underwent left fronto-temporo-parietal decompressive craniectomy. The bone flap was kept in the abdomen. Postoperatively, his consciousness improved. He recovered well but was aphasic and was discharged after 2 weeks with a GCS of E4VAM5. After 2 weeks, he turned up for a follow-up. He was fully conscious, had expressive aphasia, but was wheelchair-bound. He was asked to continue doxycycline for Brucella, as advised by the general medicine department.
|Figure 4: Computed tomography brain plain (a and b) – Acute infarct in the left frontal-temporal and parietal region with mass effect on the lateral ventricles and midline shift toward the right side|
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After 4 months, he was readmitted to the neurosurgery department for cranioplasty. He had no worsening of consciousness or weakness of limbs during this period. He underwent a routine preoperative CT scan, which showed a large loculated hypodense collection in the infarcted area of the brain [Figure 5]a and [Figure 5]b. After arriving at a diagnosis of postdecompressive craniectomy brain abscess, he underwent surgery for the excision of brain abscess. At surgery, the cavity was aspirated, which yielded around 25 ml of pus. The abscess, along with the fibrous capsule, was excised in toto. The pus which was sent for culture turned out to be sterile. He recovered well after the surgery. The postoperative CT scan showed the total excision of the abscess [Figure 6]a and [Figure 6]b. Two months after the excision of brain abscess, he was called up for cranioplasty. He underwent a cranioplasty with the autologous bone flap 2 months after the second surgery. He recovered well after cranioplasty, and a postoperative CT scan was taken, which was uneventful [Figure 6]c and [Figure 6]d. At the last follow-up, he had partial recovery of his speech and was fully conscious with a GCS of E4V4M6. A summary of both cases is detailed in [Table 1].
|Figure 5: Computed tomography brain plain (a and b) – A well-defined oval-shaped hypodensity (suggestive of brain abscess). Occupying the left fronto-temporo-parietal region. The decompressive bone defect is also visualized|
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|Figure 6: Computed tomography brain plain (a and b) – Postbrain abscess excision shows total excision of the abscess. There is ex vacuo dilatation of the ventricular system on the left side. (c and d) – Postcranioplasty computed tomography brain|
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| Discussion|| |
The occurrence of brain abscess following stroke was less well recognized until number of case reports surfaced in recent years in this regard. A thorough search on popular medical search engine PubMed and Google Scholar using the Boolean terms, “Stroke” AND “Complications” AND “Brain abscess” yielded only 19 case reports where a similar association was described.,,,,,,,,,,,,,,,,,, Among them, four reports were excluded in this review because only abstracts were available in English.,,, Of the remaining 15 cases reported so far, only two patients had abscess following a decompressive craniectomy for stroke., In both reports, the patients were symptomatic with respect to the secondary brain abscess, but in our case both the patients were relatively asymptomatic. The condition of both had very much improved over time from the initial surgery for stroke to the development of an abscess. Our report hence emphasizes the role of routine CT in the recovery period after decompressive craniectomy following ischemic stroke. This can detect such silent abscesses and prompt early intervention. Following the universal dictum that abscess anywhere in the body has to be drained, we decided that the best option is to go ahead with surgery and drainage of the abscess. During surgery, we had instilled gentamycin solution to wash the abscess cavity. This was done to decrease the antibacterial load within the remaining abscess cavity. Such practices have been recommended by many authors in the literature.,, Furthermore, it was decided that the antibiotics needed to be stepped in view of high incidences of organisms not being discovered in routine cultures in our experience. Such sterile abscess form up to 40% of large series of brain abscess reported in the literature. Brain abscess after stroke has been seen to occur mostly in the elderly population,,,,,,,,,,, with only a few cases reported in the younger age group.,,, The combination of immunocompromised states such as surgery, diabetes, and advanced age may have played a role in the development of brain abscess in the setting of stroke. Although both our patients were young, the former was a diabetic. This, along with surgery, might have been a predisposing factor for developing an intracranial infection in him. Our second patient was a case of congenital heart disease and had Brucella meningitis and endocarditis. Neurobrucellosis has known to cause cerebral infarction , as well as brain abscess.,, In addition, it has been reported that the central nervous system itself is an immunodepressive state after stroke which predisposes patients to various infection.,, The pathogen responsible for abscess after stroke has been mostly due to Staphylococcus spp. However, there have been instances where rare organisms ,, or negative cultures ,,, have been reported.
The time for the development of brain abscess following stroke varies in the literature from as early as few weeks,,,,,,, months,,,, or even an year. In our patients, the exact time for the development of abscess is not known since imaging was not repeated after initial discharge to the time of readmission for cranioplasty. Overall, the prognosis of the development of abscess following ischemic stroke is poor. Death or recovery with neurological deficit predominates the literature review of this condition. In the review by Ramesh et al. which included 19 cases of brain abscess following stroke, there were five deaths and four partial recoveries of neurological status. The early surgical intervention followed by appropriate antibiotics will decrease the mortality associated with this condition.
| Conclusion|| |
Brain abscess following DC for stroke is rare. The symptoms and signs are usually masked by the accommodative nature of the decompressed brain. A routine CT scan should be considered in all patients undergoing cranioplasty before the procedure. Surgical excision followed by interval cranioplasty should be done in all cases.
Declaration of patient consent
The authors certify that they have obtained all appropriate patient consent forms. In the form, the patients have given their consent for their images and other clinical information to be reported in the journal. The patients understand that their names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
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