1 |
孙忠人,栾逸先,尹洪娜,等.夹脊电针通过调控细胞死亡治疗脊髓损伤的相关机制研究进展[J].中华中医药杂志,2021,36(4):2213-2215.
|
2 |
马臣杰,张雯,曾瑾,等.铁死亡调控机制的研究进展[J].生物学杂志,2021,38(4):109-113.
|
3 |
DIXON S J, LEMBERG K M, LAMPRECHT M R,et al.. Ferroptosis: an iron-dependent form of nonapoptotic cell death[J].Cell,2012,149(5): 1060-1072.
|
4 |
RIEGMAN M, SAGIE L, GALED C,et al.. Ferroptosis occurs through an osmotic mechanism and propagates independently of cell rupture[J]. Nat. Cell Biol., 2020,22(9):1042-1048.
|
5 |
WAN F, LI J, ZHAO Y, GUO D, et al.. miR-672-3p promotes functional recovery in rats with contusive spinal cord injury by inhibiting ferroptosis suppressor protein 1[J/OL]. Oxid. Med. Cell Longev., 2022, 21:6041612[2022-05-26]. .
|
6 |
GILBERT E A B, LAKSHMAN N, LAU K S K, et al.. Regulating endogenous neural stem cell activation to promote spinal cord injury repair[J/OL]. Cells,2022,11(5):846[2022-05-26]. .
|
7 |
李文祥. Liproxstatin-1抑制铁死亡修复脊髓损伤的实验研究[D].天津:天津医科大学, 2020.
|
8 |
KUMAR R, LIM J, MEKARY R A, et al.. Traumatic spinal injury: global epidemiology and worldwide volume[J]. World Neurosurg., 2018, 113: 345-363.
|
9 |
刘小燮,周谋望.脊髓损伤后脑的结构改变与功能重塑[J].中国康复医学杂志,2021,36(8):1026-1030.
|
10 |
黄腾立,沈君劼,林俊卿,等.M2型巨噬细胞/小胶质细胞来源线粒体移植治疗小鼠脊髓损伤的实验研究[J].中国修复重建外科杂志,2022,36(5):751-759.
|
11 |
熊梅. 曲克芦丁治疗脊髓损伤保护作用机制的研究[D].重庆:重庆医科大学,2020.
|
12 |
KAZAN K, KALAIPANDIAN S. Ferroptosis: yet another way to die[J]. Trends Plant Sci.,2019,24(6):479-481.
|
13 |
王臣健,陈春晓,徐涛,等.阿魏酸钠对大鼠脊髓损伤中NLRP3炎性小体的影响及机制[J].中国脊柱脊髓杂志,2021,31(8):739-748.
|
14 |
徐伟龙,左媛,辛大奇,等.急性钳夹型脊髓损伤模型大鼠造模方式的选择:一项网状Meta分析[J].中国组织工程研究,2021,25(23):3767-3772.
|
15 |
YAN H F, ZOU T, TUO Q Z, et al.. Ferroptosis: mechanisms and links with diseases[J/OL]. Signal Transduct Target Ther., 2021,6(1):49[2022-05-26]. .
|
16 |
HASSANNIA B, VANDENABEELE P, VANDEN BERGHE T. Targeting ferroptosis to iron out cancer[J]. Cancer Cell, 2019,35(6):830-849.
|
17 |
朱婷,范洋.自噬通过影响铁稳态调节急性淋巴细胞白血病细胞对铁死亡激活剂的敏感性[J].中国实验血液学杂志,2021,29(5):1380-1386.
|
18 |
BENNETT B D, GRALNICK J A.Mechanisms of toxicity by and resistance to ferrous iron in anaerobic systems[J]. Free Radic. Biol. Med.,2019,140: 167-171.
|
19 |
ZHOU H, YIN C, ZHANG Z, et al.. Proanthocyanidin promotes functional recovery of spinal cord injury via inhibiting ferroptosis[J/OL]. J. Chem. Neuroanat., 2020,107:101807[2022-05-26]. .
|
20 |
TOTSUKA K, UETA T, UCHITA T, et al.. Oxidative stress induces ferroptotic cell death in retinal pigment epithelial cells[J]. Exp. EyeRes., 2019,181: 316-324.
|
21 |
FENG Z, MIN L, CHEN H, et al.. Iron overload in the motor cortex induces neuronal ferroptosis following spinal cord injury[J/OL]. Redox Biol., 2021,43:101984[2022-05-26]. .
|
22 |
ASHRAF A, JEANDRIENS J, PARKES H G, et al.. Iron dyshomeostasis, lipid peroxidation and perturbed expression of cystine/glutamate antiporter in Alzheimer's disease: Evidence of ferroptosis[J/OL]. Redox Biol., 2020,32:101494[2022-05-26]. .
|
23 |
MANCARDI D, MEZZANOTT M, ARRIGO E, et al.. Iron overload, oxidative stress, and ferroptosis in the failing heart and liver[J/OL]. Antioxidants (Basel),2021,10(12):1864[2022-05-26]. .
|
24 |
NEGRE-SALVAYRE A, GUERBY P, GAYRAL S, et al.. Role of reactive oxygen species in atherosclerosis: Lessons from murine genetic models[J]. Free Radic Biol. Med., 2020,149:8-22.
|
25 |
MATSCHKE V, THEISS C, MATSCHKE J, et al.. Oxidative stress: the lowest common denominator of multiple diseases[J].Neural Regen Res., 2019,14( 2) : 238-241.
|
26 |
XIE Z, HOU H, LUO D, et al.. ROS-dependent lipid peroxidation and reliant antioxidant ferroptosis-suppressor-protein 1 in rheumatoid arthritis: a covert clue for potential therapy[J]. Inflammation,2021,44(1):35-47.
|
27 |
SUN L, DONG H, ZHANG W, et al.. Lipid peroxidation, GSH depletion, and SLC7A11 inhibition are common causes of EMT and ferroptosis in A549 cells, but different in specific mechanisms[J]. DNA Cell Biol., 2021,40(2):172-183.
|
28 |
SU L J, ZHANG J H, GOMEZ H, et al.. Reactive oxygen species-induced lipid peroxidation in apoptosis, autophagy, and ferroptosis[J/OL]. Oxid. Med. Cell Longev., 2019,2019:5080843[2022-05-26]. .
|
29 |
ZHAO Y, LI Y, ZHANG R, et al.. The role of erastin in ferroptosis and its prospects in cancer therapy[J]. Onco. Targets Ther., 2020,13:5429-5441.
|
30 |
SPRIMONT L, JANSSEN P, DE SWERT K,et al.. Cystine-glutamate antiporter deletion accelerates motor recovery and improves histological outcomes following spinal cord injury in mice[J/OL]. Sci. Rep., 2021,11(1):12227[2022-05-26]. .
|
31 |
ZHENG J, CONRAD M. The metabolic underpinnings of ferroptosis[J]. Cell Metab., 2020,32(6):920-937.
|
32 |
张焱. 去铁胺抑制铁死亡修复脊髓损伤的实验研究[D].天津:天津医科大学, 2019.
|
33 |
GE M H, TIAN H, MAO L, et al.. Zinc attenuates ferroptosis and promotes functional recovery in contuson spinal cord injury by activating Nrf2/GPX4 defense pathway[J]. CNS Neurosci. Ther., 2021,27(9):1023-1040.
|
34 |
QUADRI S A, FAROOQUI M, IKRAM A,et al.. Recent update on basic mechanisms of spinal cord injury[J]. Neurosurg. Rev., 2020,43(2):425-441.
|
35 |
杨云,许光旭.脊髓损伤的神经修复与再生[J].中华物理医学与康复杂志,2021,43(4):375-379.
|
36 |
ZENG H, LIU N, YANG Y Y, et al.. Lentivirus-mediated downregulation of α-synuclein reduces neuroinflammation and promotes functional recovery in rats with spinal cord injury[J]. J. Neuroinflam., 2019,16(1):283[2022-05-26]. .
|
37 |
田婷,李晓光.脊髓损伤再生修复中的问题与挑战[J].中国组织工程研究,2021,25(19):3039-3048.
|
38 |
TAI W, WU W, WANG L L, et al.. In vivo reprogramming of NG2 glia enables adult neurogenesis and functional recovery following spinal cord injury[J]. Cell Stem Cell, 2021,28(5):923-937.
|
39 |
李全,栾逸先,朱荟一,等.基于铁死亡Xc~-/GPX4通路探究夹脊电针促进脊髓损伤修复机制[J].针灸临床杂志,2020,36(6):6-10.
|
40 |
WEI G Z, SARASWAT O S, KHATTAR N K, et al.. Hypoxia-inducible factor prolyl hydroxylase domain (PHD) inhibition after contusive spinal cord injury does not improve locomotor recovery[J/OL]. PLoS ONE,2021,6(4):e0249591[2022-05-26]. .
|
41 |
DE GREGORIO-ROCASOLANO N, MARTI-SISTAC O, PONCE J, et al..Iron-loaded transferrin (Tf) is detrimental whereas iron-free Tf confers protection against brain ischemia by modifying blood Tf saturation and subsequent neuronal damage[J]. Redox Biol., 2018,15:143-158.
|
42 |
郭佳帅,崔炎格,杨文静,等.星形胶质细胞铁代谢在帕金森病中的作用机制研究进展[J].生命科学,2021,33(10):1206-1214.
|
43 |
曾耀莹,吴建春,骆莹滨,等.天然化合物通过铁死亡途径抗肿瘤作用的研究进展[J].中国肿瘤,2021,30(11):867-874.
|
44 |
姚雪,冯世庆.铁死亡在创伤性脊髓损伤中作用的研究进展[J].中国脊柱脊髓杂志,2019,29(12):1133-1136.
|
45 |
史建涛. 脊髓损伤后铁超载致Ferroptosis在白质继发损伤中的作用研究[D].重庆:中国人民解放军陆军军医大学, 2020.
|
46 |
GE H, XUE X, XIAN J, et al.. Ferrostatin-1 alleviates white matter injury via decreasing ferroptosis following spinal cord injury[J]. Mol. Neurobiol., 2022,59(1):161-176.
|
47 |
胡伟,谢兴奇,屠冠军.骨髓间充质干细胞来源外泌体改善脊髓损伤后血脊髓屏障的完整性[J].中国组织工程研究,2022,26(7):992-998.
|
48 |
张鹏飞,于春泽,于建云,等.NLRP3炎性小体在中枢神经系统疾病中的作用研究进展[J].中国临床解剖学杂志,2022,40(1):113-116.
|
49 |
冯世庆.脊髓损伤基础研究的现状和展望[J].中华实验外科杂志,2021,38(7):1193-1198.
|
50 |
ZHANG Y, SUN C, ZHAO C, et al.. Ferroptosis inhibitor SRS 16-86 attenuates ferroptosis and promotes functional recovery in contusion spinal cord injury[J]. Brain Res., 2019,1706:48-57.
|
51 |
OLIVEIRA K M, BINDA N S, LAVOR M S L, et al.. Conotoxin MVIIA improves cell viability and antioxidant system after spinal cord injury in rats[J/OL]. PLoS ONE,2018,13(10):e0204948[2022-05-26]. .
|
52 |
杨引娣,张洋铭,吴妮妮,等.亚硒酸钠通过抑制铁死亡促进大鼠脊髓损伤修复[J].神经解剖学杂志,2022,38(1):33-37.
|
53 |
王旭. 依达拉奉调控铁死亡修复脊髓损伤的实验研究[D].天津:天津医科大学, 2020.
|
54 |
ZHOU H, YIN C, ZHANG Z, et al.. Proanthocyanidin promotes functional recovery of spinal cord injury via inhibiting ferroptosis[J/OL]. J. Chem. Neuroanat., 2020,107:101807 [2022-05-26]. .
|
55 |
马宝仓,陈忻,熊珮,等.鱼藤酮帕金森大鼠多脑区铁积聚与胶质细胞激活[J].中国实验动物学报,2013,21(6):41-45+47.
|
56 |
闫晓,李在洺,冯晓东,等.隔姜灸对大鼠脊髓损伤后神经源性膀胱M2、M3乙酰胆碱mRNA及P2X3受体表达的影响[J].护理学杂志,2020,35(19):1-3+17.
|