Patrick Schuss scite author profile

Peri-operative SARS-CoV-2 infection increases postoperative mortality. The aim of this study was to determine the optimal duration of planned delay before surgery in patients who have had SARS-CoV-2 infection. This international, multicentre, prospective cohort study included patients undergoing elective or emergency surgery during October 2020. Surgical patients with pre-operative SARS-CoV-2 infection were compared with those without previous SARS-CoV-2 infection. The primary outcome measure was 30-day postoperative mortality. Logistic regression models were used to calculate adjusted 30-day mortality rates stratified by time from diagnosis of SARS-CoV-2 infection to surgery. Among 140,231 patients (116 countries), 3127 patients (2.2%) had a pre-operative SARS-CoV-2 diagnosis. Adjusted 30-day mortality in patients without SARS-CoV-2 infection was 1.5% (95%CI 1.4-1.5). In patients with a pre-operative SARS-CoV-2 diagnosis, mortality was increased in patients having surgery within 0-2 weeks, 3-4 weeks and 5-6 weeks of the diagnosis (odds ratio (95%CI) 4.1 (3.3-4.8), 3.9 (2.6-5.1) and 3.6 (2.0-5.2), respectively). Surgery performed ≥ 7 weeks after SARS-CoV-2 diagnosis was associated with a similar mortality risk to baseline (odds ratio (95%CI) 1.5 (0.9-2.1)). After a ≥ 7 week delay in undertaking surgery following SARS-CoV-2 infection, patients with ongoing symptoms had a higher mortality than patients whose symptoms had resolved or who had been asymptomatic (6.0% (95%CI 3.2-8.7) vs. 2.4% (95%CI 1.4-3.4) vs. 1.3% (95%CI 0.6-2.0), respectively). Where possible, surgery should be delayed for at least 7 weeks following SARS-CoV-2 infection. Patients with ongoing symptoms ≥ 7 weeks from diagnosis may benefit from further delay.

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Cranioplasty after Decompressive Craniectomy: The Effect of Timing on Postoperative Complications

Schuss

Vatter

Marquardt

et al. 2012

Journal of Neurotrauma

183

142

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Decompressive craniectomy (DC) due to intractably elevated intracranial pressure mandates later cranioplasty (CP). However, the optimal timing of CP remains controversial. We therefore analyzed our prospectively conducted database concerning the timing of CP and associated post-operative complications. From October 1999 to August 2011, 280 cranioplasty procedures were performed at the authors' institution. Patients were stratified into two groups according to the time from DC to cranioplasty (early, ≤2 months, and late, >2 months). Patient characteristics, timing of CP, and CP-related complications were analyzed. Overall CP was performed early in 19% and late in 81%. The overall complication rate was 16.4%. Complications after CP included epidural or subdural hematoma (6%), wound healing disturbance (5.7%), abscess (1.4%), hygroma (1.1%), cerebrospinal fluid fistula (1.1%), and other (1.1%). Patients who underwent early CP suffered significantly more often from complications compared to patients who underwent late CP (25.9% versus 14.2%; p=0.04). Patients with ventriculoperitoneal (VP) shunt had a significantly higher rate of complications after CP compared to patients without VP shunt (p=0.007). On multivariate analysis, early CP, the presence of a VP shunt, and intracerebral hemorrhage as underlying pathology for DC, were significant predictors of post-operative complications after CP. We provide detailed data on surgical timing and complications for cranioplasty after DC. The present data suggest that patients who undergo late CP might benefit from a lower complication rate. This might influence future surgical decision making regarding optimal timing of cranioplasty.

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Posterior Communicating Artery Aneurysm–Related Oculomotor Nerve Palsy: Influence of Surgical and Endovascular Treatment on Recovery: Single-Center Series and Systematic Review

Güresir

Schuss

Setzer

et al. 2011

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Bone Flap Resorption: Risk Factors for the Development of a Long-Term Complication following Cranioplasty after Decompressive Craniectomy

Schuss

Vatter

Oszvald

et al. 2013

Journal of Neurotrauma

113

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Aseptic bone flap resorption (BFR) is a known long-term complication after cranioplasty (CP). We analyzed our institutional data in order to identify risk factors for BFR. From October 1999 to April 2012, 254 patients underwent CP after decompressive craniectomy (DC) at our institution, and had a long-term follow-up period of >1 year after CP (range 12-146 months). Overall, BFR occurred in 10 of 254 patients as a long-term complication after CP (4%). BFR developed more often in patients aged ≤18 years (p=0.008), in patients who previously underwent DC for traumatic brain injury (p=0.04), and in patients with multiple fractures within the reinserted bone flap (p=0.002). Furthermore, BFR developed significantly more often in patients who underwent cranioplasty ≤2 months after DC (p=0.008), as well as in patients with wound healing disturbance or abscess as an early complication after the CP procedure (p=0.01). The multivariate analysis of the present data identified the presence of multiple fractures within the bone flap (p=0.002, OR 10.3, 95% CI 2.4-43.8), wound infection after CP (p=0.003, OR 12.3, 95% CI 2.3-65.3), and cranioplasty performed ≤2 months after DC (p=0.01, OR 6.3, 95% CI 1.5-26.3) as independent risk factors for the development of BFR after CP in a large series with long-term follow-up. This might influence future surgical decision making, especially in patients fulfilling high risk criteria for developing BFR.

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Decompressive craniectomy in subarachnoid hemorrhage

Güresir¹,

Schuss²,

Vatter³

et al. 2009

FOC

104

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Object The aim of this study was to analyze decompressive craniectomy (DC) in the setting of subarachnoid hemorrhage (SAH) with bleeding, infarction, or brain swelling as the underlying pathology in a large cohort of consecutive patients. Methods Decompressive craniectomy was performed in 79 of 939 patients with SAH. Patients were stratified according to the indication for DC: 1) primary brain swelling without or 2) with additional intracerebral hematoma, 3) secondary brain swelling without rebleeding or infarcts, and 4) secondary brain swelling with infarcts or 5) with rebleeding. Outcome was assessed according to the modified Rankin Scale (mRS) at 6 months (mRS Score 0–3 favorable vs 4–6 unfavorable). Results Overall, 61 (77.2%) of 79 patients who did and 292 (34%) of the 860 patients who did not undergo DC had a poor clinical grade on admission (World Federation of Neurosurgical Societies Grade IV–V, p < 0.0001). A favorable outcome was attained in 21 (26.6%) of 79 patients who had undergone DC. In a comparison of favorable outcomes in patients with primary (28.0%) or secondary DC (25.5%), no difference could be found (p = 0.8). Subgroup analysis with respect to the underlying indication for DC (brain swelling vs bleeding vs infarction) revealed no difference in the rate of favorable outcomes. On multivariate analysis, acute hydrocephalus (p = 0.009) and clinical signs of herniation (p = 0.02) were significantly associated with an unfavorable outcome. Conclusions Based on the data in this study the authors concluded that primary as well as secondary craniectomy might be warranted, regardless of the underlying etiology (hemorrhage, infarction, or brain swelling) and admission clinical grade of the patient. The time from the onset of intractable intracranial pressure to DC seems to be crucial for a favorable outcome, even when a DC is performed late in the disease course after SAH.

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Patrick Schuss

Timing of surgery following SARS‐CoV‐2 infection: an international prospective cohort study

Cranioplasty after Decompressive Craniectomy: The Effect of Timing on Postoperative Complications

Posterior Communicating Artery Aneurysm–Related Oculomotor Nerve Palsy: Influence of Surgical and Endovascular Treatment on Recovery: Single-Center Series and Systematic Review

Bone Flap Resorption: Risk Factors for the Development of a Long-Term Complication following Cranioplasty after Decompressive Craniectomy

Decompressive craniectomy in subarachnoid hemorrhage

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