Objective. To describe a new ligament; the ATA, which lies between the dural sac and the ligamentum flavum at the L5 level and to discuss it’s surgical importance.
Summary of Background Data. Postoperative cerebrospinal fluid (CSF) leakage translates into longer hospital stays with significant implications for the patient, the health care system, and society as a whole. To avoid
injury to the dural sac during lumbar surgery, it is crucial to know the surgical anatomy and its variations.
Methods. The length and the number of ATAs were examined in 14 consecutive patients, which underwent an L5 laminoflavectomy in our department. The ATA and its anatomic landmarks are described here for the first time in the literature. We named this ligament the ATA; reminding BVD-523 order us to pay attention to the Terminal Attachment.
Results. The presence of the ATA is
demonstrated in 10 patients (71%). There was a double ATA in four patients (40%). The mean length of the ATA was 7.7 +/- 1.8 mm. The ATA originates from the dorsal surface of the dura mater at the level of the superior border of the superior facet of the S1 vertebra and projects toward the ligamentum flavum. Histologic examination of the ATA revealed fibrous connective tissue.
Conclusion. In this preliminary study, we have described a new ligament, the ATA, between the dural sac and the ligamentum flavum at the L5 level. The ATA is an important structure that creates a potential risk for inadvertent dural lacerations Selleckchem Baf-A1 during flavectomy. Dissecting the ATA before the flavectomy may be an important step in reducing postoperative cerebrospinal fluid leaks, which may result in significant benefits
for patients and health care organizations.”
“Plants https://www.selleck.cn/HIF.html have been used to restore vegetation in desert region in Shapotou, where naturally biological soil crusts (BSCs) have formed after planting for several years. However, few works have been done on the allelopathic effects between the plants and soil microalgae in BSCs currently. In this study, we investigated the chemical compositions of volatile oil of Artemisia ordosica and its allelopathic effects on photosynthetic system II (PSII) and antioxidant system of Palmellococcus miniatus, a green algae isolated from BSCs. 37 components, consisted of 17 terpenoids, 14 alcohols, 2 esters, 2 ketones and other 2 components were identified in the volatile oil from A. ordosica by GC-MS analysis. High concentration of volatile oil could significantly inhibit the growth and photosynthetic activity (Fv/Fm), and decreased the photosynthetic parameters by affecting photon absorption, electron transport and the reaction center of PSII of P. miniatus, and also cause the significant increase of superoxide dismutase (SOD; EC 1.15.1.) activity, peroxidase (POD; EC 1.11.1.7) activity, reactive oxygen evolution (ROS) and malondialdehyde (MDA) contents of P. miniatus through the combined effects of components in volatile oil.