Regional anesthesia and pain medicine
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Reg Anesth Pain Med · May 2016
Are Cure Rates for Breast Cancer Improved by Local and Regional Anesthesia?
Recent preclinical basic science studies suggest that patient tumor immunity is altered by general anesthesia (GA), potentially worsening cancer outcomes. A single retrospective review concluded that breast cancer patients receiving paravertebral block and GA had better cancer outcomes compared with patients receiving GA alone. This study has not been validated. We hypothesized that local or regional anesthesia (LRA) would be associated with better cancer outcomes compared with GA. ⋯ Breast cancer OS, DFS, and LRR were not affected by type of anesthesia in our institution. This result differs from that of the only prior published clinical report on this topic and does not provide clinical corroboration of the basic science studies that suggest oncologic benefits to LRA.
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Reg Anesth Pain Med · May 2016
The Nerves of the Adductor Canal and the Innervation of the Knee: An Anatomic Study.
Adductor canal block contributes to analgesia after total knee arthroplasty. However, controversy exists regarding the target nerves and the ideal site of local anesthetic administration. The aim of this cadaveric study was to identify the trajectory of all nerves that course in the adductor canal from their origin to their termination and describe their relative contributions to the innervation of the knee joint. ⋯ The results suggest that both the SN and NVM contribute to the innervation of the anteromedial knee joint and are therefore important targets of adductor canal block. Given the site of exit of both nerves in the distal third of the adductor canal, the midportion of the adductor canal is suggested as an optimal site of local anesthetic administration to block both target nerves while minimizing the possibility of proximal spread to the femoral triangle.
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Reg Anesth Pain Med · May 2016
Primary Failure of Thoracic Epidural Analgesia in Training Centers: The Invisible Elephant?
In teaching centers, primary failure of thoracic epidural analgesia can be due to multiple etiologies. In addition to the difficult anatomy of the thoracic spine, the conventional end point-loss-of-resistance-lacks specificity. Furthermore, insufficient training compounds the problem: learning curves are nonexistent, pedagogical requirements are often inadequate, supervisors may be inexperienced, and exposure during residency is decreasing. ⋯ The problem of decreasing caseload can be tackled with epidural simulators to supplement in vivo learning. From a technical standpoint, fluoroscopy and ultrasonography could be used to navigate the complex anatomy of the thoracic spine. Finally, correct identification of the thoracic epidural space should be confirmed with objective, real-time modalities such as neurostimulation and waveform analysis.