Department of Neurosurgery, Warren Alpert Medical School, Brown University, Providence, Rhode Island, USA.
Department of Neurosurgery, Warren Alpert Medical School, Brown University, Providence, Rhode Island, USA.
World Neurosurg. 2024 Sep;189:e404-e410. doi: 10.1016/j.wneu.2024.06.077. Epub 2024 Jun 18.
Ultrasound imaging is inexpensive, portable, and widely available. The development of a real-time transcutaneous spinal cord perfusion monitoring system would allow more precise targeting of mean arterial pressure goals following acute spinal cord injury (SCI). There has been no prior demonstration of successful real-time cord perfusion monitoring in humans.
Four adult patients who had undergone posterior cervical decompression and instrumentation at a single center were enrolled into this prospective feasibility study. All participants had undergone cervical laminectomies spanning ≥2 contiguous levels ≥2 months prior to inclusion with no history of SCI. The first 2 underwent transcutaneous ultrasound without contrast and the second 2 underwent contrast-enhanced ultrasound (CEUS) with intravenously injected microbubble contrast.
Using noncontrast ultrasound with or without Doppler (n = 2), the dura, spinal cord, and vertebral bodies were apparent however ultrasonography was insufficient to discern intramedullary perfusion or clear white-gray matter differentiation. With application of microbubble contrast (n = 2), it was possible to quantify differential spinal cord perfusion within and between cross-sectional regions of the cord. Further, it was possible to quantify spinal cord hemodynamic perfusion using CEUS by measuring peak signal intensity and the time to peak signal intensity after microbubble contrast injection. Time-intensity curves were generated and area under the curves were calculated as a marker of tissue perfusion.
CEUS is a viable platform for monitoring real-time cord perfusion in patients who have undergone prior cervical laminectomies. Further development has the potential to change clinical management acute SCI by tailoring treatments to measured tissue perfusion parameters.
超声成像价格低廉、便携且广泛可用。实时经皮脊髓灌注监测系统的开发将允许在急性脊髓损伤(SCI)后更精确地靶向平均动脉压目标。此前尚未在人类中成功演示实时脊髓灌注监测。
在一个中心,4 名接受过后路颈椎减压和器械固定的成年患者被纳入这项前瞻性可行性研究。所有参与者在纳入前均接受过≥2 个连续节段的颈椎椎板切除术,且≥2 个月,且无 SCI 病史。前 2 名接受经皮超声检查,无对比剂,后 2 名接受对比增强超声(CEUS),静脉注射微泡造影剂。
使用无对比剂的超声(有或没有多普勒)(n=2),可以清楚地看到硬脑膜、脊髓和椎体,但超声检查不足以辨别髓内灌注或明确的灰白质分化。应用微泡造影剂(n=2),可以量化脊髓内的差异灌注。此外,通过测量微泡造影剂注射后峰值信号强度和达到峰值信号强度的时间,可以使用 CEUS 量化脊髓血流灌注。生成时间-强度曲线,并计算曲线下面积作为组织灌注的标志物。
CEUS 是监测先前接受颈椎椎板切除术的患者实时脊髓灌注的可行平台。进一步的发展有可能通过将治疗方法调整为测量的组织灌注参数来改变急性 SCI 的临床管理。
