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Therapeutic Strategies Targeting Respiratory Recovery after Spinal Cord Injury: From Preclinical Development to Clinical Translation.治疗策略针对脊髓损伤后的呼吸恢复:从临床前开发到临床转化。
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7
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8
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9
Noninvasive, targeted gene therapy for acute spinal cord injury using LIFU-mediated BDNF-loaded cationic nanobubble destruction.使用低强度聚焦超声介导的载有脑源性神经营养因子的阳离子纳米气泡破坏对急性脊髓损伤进行无创靶向基因治疗。
Biochem Biophys Res Commun. 2018 Feb 12;496(3):911-920. doi: 10.1016/j.bbrc.2018.01.123. Epub 2018 Jan 31.
10
Biomaterials for Local, Controlled Drug Delivery to the Injured Spinal Cord.用于局部、可控药物递送至脊髓损伤部位的生物材料。
Front Pharmacol. 2017 May 10;8:245. doi: 10.3389/fphar.2017.00245. eCollection 2017.

确定用于未来脊髓损伤的爆裂聚合物微泡的超声参数。

Determining Ultrasound Parameters for Bursting Polymer Microbubbles for Future Use in Spinal Cord Injury.

机构信息

School of Biomedical Engineering, Science and Health Systems, Drexel University, Philadelphia, PA, USA.

Department of Radiology, Thomas Jefferson University, Philadelphia, PA, USA.

出版信息

Ultrasound Med Biol. 2024 Jun;50(6):888-897. doi: 10.1016/j.ultrasmedbio.2024.02.014. Epub 2024 Mar 22.

DOI:10.1016/j.ultrasmedbio.2024.02.014
PMID:38519360
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11566347/
Abstract

OBJECTIVE

We believe our poly(lactic acid) (PLA) microbubbles are well suited for therapeutic delivery to spinal cord injury (SCI) using ultrasound-triggered bursting. We investigated the feasibility of clinical ultrasound bursting in situ, the optimal bursting parameters in vitro and the loading and release of a model bio-active DNA.

METHODS

Microbubbles were tested using clinical ultrasound in a rat cadaver SCI model. Burst pressure thresholds were determined using the change in enhancement after ultrasound exposure. Resonance frequency, acoustic enhancement, sizing and morphology were evaluated by comparing two microbubble porogens, ammonium carbonate and ammonium carbamate. Oligonucleotides were loaded into the shell and released using the found optimized ultrasound bursting parameters.

RESULTS

In situ imaging and bursting were successful. In vitro bursting thresholds using frequencies 1, 2.25 and 5 MHz were identified between peak negative pressures 0.2 and 0.5 MPa, believed to be safe for spinal cord. The pressure threshold decreased with decreasing frequencies. PLA bursting was optimized near the resonance frequency of 2.5 to 3.0 MHz using 2.25 MHz and not at lower frequencies. PLA microbubbles, initially with a mean size of approximately 2 µm, remained in one piece, collapsed to between 0.5 and 1 µm and did not fragment. Significantly more oligonucleotide was released after ultrasound bursting of loaded microbubbles. Microbubble-sized debris was detected when using ammonium carbamate, leading to inaccurate microbubble concentration measurements.

CONCLUSION

PLA microbubbles made with ammonium carbonate and burst at appropriate parameters have the potential to safely improve intrathecal therapeutic delivery to SCI using targeted ultrasound.

摘要

目的

我们相信我们的聚乳酸(PLA)微泡非常适合使用超声触发破裂将治疗药物递送到脊髓损伤(SCI)。我们研究了在体临床超声破裂的可行性、体外最佳破裂参数以及模型生物活性 DNA 的加载和释放。

方法

在大鼠尸体 SCI 模型中使用临床超声测试微泡。通过比较两种微泡成孔剂碳酸铵和氨基甲酸铵,根据超声暴露后增强的变化来确定破裂压力阈值。通过比较两种微泡成孔剂碳酸铵和氨基甲酸铵,评估共振频率、声增强、粒径和形态。使用发现的优化超声破裂参数将寡核苷酸加载到壳中并释放。

结果

成功进行了原位成像和破裂。在 1、2.25 和 5 MHz 的频率下,使用峰值负压 0.2 至 0.5 MPa 确定了体外破裂阈值,这被认为对脊髓是安全的。压力阈值随频率降低而降低。在 2.25 MHz 下,在 2.5 至 3.0 MHz 的共振频率附近优化了 PLA 破裂,而不是在较低频率下。最初平均粒径约为 2 µm 的 PLA 微泡保持完整,坍塌至 0.5 至 1 µm 之间且不碎裂。负载微泡超声破裂后,释放的寡核苷酸明显增多。使用氨基甲酸铵时检测到微泡大小的碎片,导致微泡浓度测量不准确。

结论

使用碳酸铵制成并在适当参数下破裂的 PLA 微泡具有安全地改善靶向超声治疗 SCI 鞘内治疗药物递送的潜力。