====== Fever ======

{{rss>https://pubmed.ncbi.nlm.nih.gov/rss/search/1HWISzimAbE9FtrDG2FL6Nb6FK4lvnMxBFFP7j_VCVo8bI2QXi/?limit=15&utm_campaign=pubmed-2&fc=20230817051626}}
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Prolonged [[fever]] is the common [[complication]] in neurosurgical [[patient]]s. The risks of prolonged fever in patients are attributed to [[antibiotic]] therapy, use of central [[venous catheter]] and prolonged [[mechanical ventilation]]. Indicators of prolonged fever are helpful for better identification of high-risk patients and fever control
((Wang Z, Shen M, Qiao M, Zhang H, Tang Z. Clinical factors and incidence of
prolonged fever in neurosurgical patients. J Clin Nurs. 2016 May 30. doi:
10.1111/jocn.13409. [Epub ahead of print] PubMed PMID: 27240113.
)).
===== Etiology =====

[[Fever Etiology]]

====Treatment====
Oral [[acetaminophen]] continues to be the primary choice for fever management, followed by ice packs and fans. This study encourages the development of a stepwise approach to neuro-specific protocols for fever management. Furthermore, it shows the continuing need to promote further education and specialty training among nurses and encourage collaboration with physicians to establish best practices
((Rockett H, Thompson HJ, Blissitt PA. Fever management practices of
neuroscience nurses: what has changed? J Neurosci Nurs. 2015 Apr;47(2):66-75.
doi: 10.1097/JNN.0000000000000118. PubMed PMID: 25634653.)).

==== Outcome ====

Fever burden is associated with early neurological deterioration in intracerebral hemorrhage patients undergoing hematoma evacuation. The findings add to previous evidence on the relationship between the fever burden and the occurrence of early neurological deterioration in patients with intracerebral hemorrhage. Future studies with larger sample sizes are required to confirm these findings
((Wu F, Xiong Y, He SL, Wang XH, Chen XL, Chen WC, Huang QM, Huang XY, Pan ZG, Hu WP, He HF, Zheng F. Fever burden within 24 h after hematoma evacuation predicts early neurological deterioration in patients with intracerebral hemorrhage: a retrospective analysis. Front Neurol. 2023 Jul 19;14:1205031. doi: 10.3389/fneur.2023.1205031. PMID: 37538253; PMCID: PMC10395082.)).

==== Reviews ====

In a review Kitagawa et al. from McGovern Medical School at the University of Texas Health Science Center at [[Houston]]
published in
[[Neurosurgical Clinics of North America]]
to [[review]] [[fever etiology]] in [[neurocritical]]ly ill patients, assessed current pharmacologic and mechanical strategies for [[temperature]] control, and evaluated the existing [[evidence]] on whether these interventions improve [[clinical outcome]]s. The [[goal]] was to inform [[clinical decision-making]] in the neuro ICU setting.
They concuded that fever is common in neuro ICU patients and is associated with worse outcomes. While several interventions effectively reduce body temperature, the [[literature]] remains [[inconclusive]] regarding their [[impact]] on [[prognosis]]. [[Management]] should be individualized, weighing the potential benefits against [[adverse effect]]s. Further research is needed to clarify the clinical value of temperature control in this [[population]]
((Kitagawa R, Cook R, Zima L. [[Fever]] in the [[Neurocritical]]ly Ill Patient. Neurosurg Clin N Am. 2025 Jul;36(3):365-373. doi: 10.1016/j.nec.2025.03.005. Epub 2025 Apr 28. PMID: 40543945.))
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Another polished yet pointless review, safely orbiting the surface of a real clinical problem without offering a single actionable insight. If you’ve spent time in a Neuro-ICU, you already know everything this article says. And if you haven’t — reading it won’t help you survive your next febrile crisis.

Reads like a literature summary assembled for a PowerPoint — not a review meant to rethink practice.

===== 📉 Scientific Weaknesses =====

1. No Original Insight:

The authors elegantly describe what we already know: fever is bad, its causes are multiple, and cooling may help… or not. The “inconclusive evidence” card is played like a wildcard that justifies intellectual passivity.

2. Methodological Vacuum:

No structured methodology for selecting studies. No inclusion criteria. No rating of evidence quality. It’s a narrative review in the loosest sense — more “cut and paste” than “critique and synthesize.”

3. Absence of Controversy:

No discussion of ongoing debates: Should we induce hypothermia in subarachnoid hemorrhage? Is neurogenic fever overdiagnosed? Are cooling devices overused in resource-limited settings? Silence.

4. Zero Framework for Decision-Making:

The article ends exactly where it starts: “We don’t really know, so be cautious.” It neither proposes a clinical algorithm nor offers stratification by patient subtype. It fails the very clinicians it claims to inform.

===== 🎭 Intellectual Apathy =====

This [[review]] exemplifies the [[academic theater]] of modern neurosurgery:

Appearing rigorous by stacking references,

Avoiding any position that could provoke discussion,

Leaving the reader grateful for the reminder — and utterly unchallenged.

A safe publication to decorate a CV — not to change a [[protocol]].

===== 🧠 What It Should Have Done =====

Challenged the [[dogma]] of treating all fever aggressively.

Differentiated infectious from [[neurogenic fever]] with diagnostic criteria.

Evaluated temperature control methods with outcome-focused critique.

Proposed a management algorithm or research agenda.

Instead, it chose the intellectual equivalent of lukewarm water — ironic for a paper on body temperature.

===== 🚫 Final Verdict =====

Clinical value: Low
Scientific contribution: Minimal
Risk of drowsiness: High

You can read it. You just won’t remember it. And that’s the problem.
====Case series====
===2016===
Among 2845 patients, prolonged fever occurred in 466 (16%). The older patients were associated with longer duration of mechanical ventilation and [[length of stay]]. It was predominantly occurred in patients with [[subarachnoid hemorrhage]] (SAH) and traumatic [[brain injury]]. Patients receiving [[antibiotic]] treatment tended to manifest prolonged fever more frequently. Multivariate analysis revealed that the use of antibiotics, [[central venous catheter]] and prolonged [[mechanical ventilation]] were independent risk predictors for prolonged fever. Patients diagnosed with brain tumor seemed to be not associated with prolonged fever.

Prolonged fever is the common complication in neurosurgical patients. The risks of prolonged fever in patients are attributed to antibiotic therapy, use of central venous catheter, and prolonged mechanical ventilation. Indicators of prolonged fever are helpful for better identification of high-risk patients and fever control. 
((Wang Z, Shen M, Qiao M, Zhang H, Tang Z. Clinical factors and incidence of
prolonged fever in neurosurgical patients. J Clin Nurs. 2016 May 30. doi:
10.1111/jocn.13409. [Epub ahead of print] PubMed PMID: 27240113.
)).