Page last updated: 2024-10-16

methane and Necrosis

methane has been researched along with Necrosis in 28 studies

Methane: The simplest saturated hydrocarbon. It is a colorless, flammable gas, slightly soluble in water. It is one of the chief constituents of natural gas and is formed in the decomposition of organic matter. (Grant & Hackh's Chemical Dictionary, 5th ed)
methane : A one-carbon compound in which the carbon is attached by single bonds to four hydrogen atoms. It is a colourless, odourless, non-toxic but flammable gas (b.p. -161degreeC).

Necrosis: The death of cells in an organ or tissue due to disease, injury or failure of the blood supply.

Research Excerpts

ExcerptRelevanceReference
"Methane has been suggested to exert a protective effect against intestinal I/R injury."5.42Methane Attenuates Hepatic Ischemia/Reperfusion Injury in Rats Through Antiapoptotic, Anti-Inflammatory, and Antioxidative Actions. ( Chen, O; Fan, D; Gu, Z; Nakao, A; Sun, X; Tao, H; Ye, Z; Zhang, R; Zhang, T, 2015)
" Taken together, this is the first study to show that CNTs can be used in combination with microwaves to cause targeted ablation of cells in mice without any side effects, which would be ideal for cancer therapies."1.62Ablation of cells in mice using antibody-functionalized multiwalled carbon nanotubes (Ab-MWCNTs) in combination with microwaves. ( Chall, A; Gato, E; Mixson, A; Quirino, RL; Sittaramane, V; Stagg, J, 2021)
" The threshold dose for safe medical application in relation to both pristine and functionalized carbon nanotubes remains ambiguous."1.46Multi-walled carbon nanotubes: A cytotoxicity study in relation to functionalization, dose and dispersion. ( Forman, HJ; Ge, Y; Lunec, J; Zhou, L, 2017)
"Methane has been suggested to exert a protective effect against intestinal I/R injury."1.42Methane Attenuates Hepatic Ischemia/Reperfusion Injury in Rats Through Antiapoptotic, Anti-Inflammatory, and Antioxidative Actions. ( Chen, O; Fan, D; Gu, Z; Nakao, A; Sun, X; Tao, H; Ye, Z; Zhang, R; Zhang, T, 2015)
" Therefore, MWCNTs from manufactured and combustion sources in the environment can have adverse effects on human health."1.39Multi walled carbon nano tubes induced hepatotoxicity in Swiss albino mice. ( Awasthi, A; Awasthi, K; Awasthi, KK; John, PJ, 2013)
"Using a model of triple-negative breast cancer stem cells, we show that BCSCs are markedly resistant to traditional hyperthermia and become enriched in the surviving cell population following treatment."1.38The resistance of breast cancer stem cells to conventional hyperthermia and their sensitivity to nanoparticle-mediated photothermal therapy. ( Ajayan, PM; Burke, AR; Carroll, DL; D'Agostino, RB; Singh, RN; Torti, FM; Torti, SV; Wood, JC, 2012)
" Among the HNPs of different sizes, 50-nm HNPs demonstrated the highest toxic influence on macrophages."1.36Cellular uptake, cytotoxicity, and innate immune response of silica-titania hollow nanoparticles based on size and surface functionality. ( Cho, BR; Choi, M; Hahn, JS; Jang, J; Jeong, YS; Kim, C; Kim, S; Oh, WK, 2010)
" Because of their unique properties, nanotubes can impose potentially toxic effects, particularly if they have been modified to express functionally reactive chemical groups on their surface."1.35Influence of acid functionalization on the cardiopulmonary toxicity of carbon nanotubes and carbon black particles in mice. ( Devlin, RB; Gilmour, MI; Kodavanti, UP; McGee, JK; Saxena, RK; Tong, H, 2009)
" The cytotoxicity increases by as high as approximately 35% when the dosage of SWNTs was increased by 11."1.33Cytotoxicity of carbon nanomaterials: single-wall nanotube, multi-wall nanotube, and fullerene. ( Guo, X; Jia, G; Pei, R; Wang, H; Wang, X; Yan, L; Yan, T; Zhao, Y, 2005)
"Necrosis was present histologically in four of the five meningiomas classified either as atypical or papillary."1.30Noninvasive evaluation of the malignant potential of intracranial meningiomas performed using proton magnetic resonance spectroscopy. ( Handa, J; Inubushi, T; Matsuda, M; Morikawa, S; Nakasu, S; Shino, A, 1999)

Research

Studies (28)

TimeframeStudies, this research(%)All Research%
pre-19904 (14.29)18.7374
1990's1 (3.57)18.2507
2000's5 (17.86)29.6817
2010's17 (60.71)24.3611
2020's1 (3.57)2.80

Authors

AuthorsStudies
Halim, AA1
Alsayed, B1
Embarak, S1
Yaseen, T1
Dabbous, S1
Fontaine, O1
Dueluzeau, R1
Raibaud, P1
Chabanet, C1
Popoff, MR1
Badoual, J1
Gabilan, JC1
Andremont, A1
Gómez, L1
Andrés, S1
Sánchez, J1
Alonso, JM1
Rey, J1
López, F1
Jiménez, A1
Yan, Z1
Zhou, L2
Zhao, Y4
Wang, J6
Huang, L2
Hu, K1
Liu, H4
Wang, H4
Guo, Z1
Song, Y1
Huang, H4
Yang, R1
Owen, TW1
Al-Kaysi, RO1
Bardeen, CJ1
Cheng, Q1
Wu, S1
Cheng, T1
Zhou, X1
Wang, B4
Zhang, Q4
Wu, X2
Yao, Y3
Ochiai, T1
Ishiguro, H2
Nakano, R2
Kubota, Y2
Hara, M1
Sunada, K1
Hashimoto, K1
Kajioka, J1
Fujishima, A1
Jiao, J3
Gai, QY3
Wang, W2
Zang, YP2
Niu, LL2
Fu, YJ3
Wang, X5
Yao, LP1
Qin, QP1
Wang, ZY1
Liu, J4
Aleksic Sabo, V1
Knezevic, P1
Borges-Argáez, R1
Chan-Balan, R1
Cetina-Montejo, L1
Ayora-Talavera, G1
Sansores-Peraza, P1
Gómez-Carballo, J1
Cáceres-Farfán, M1
Jang, J2
Akin, D1
Bashir, R1
Yu, Z1
Zhu, J2
Jiang, H1
He, C2
Xiao, Z1
Xu, J2
Sun, Q1
Han, D1
Lei, H1
Zhao, K2
Zhu, L1
Li, X4
Fu, H2
Wilson, BK1
Step, DL1
Maxwell, CL1
Gifford, CA1
Richards, CJ1
Krehbiel, CR1
Warner, JM1
Doerr, AJ1
Erickson, GE1
Guretzky, JA1
Rasby, RJ1
Watson, AK1
Klopfenstein, TJ1
Sun, Y4
Liu, Z3
Pham, TD1
Lee, BK1
Yang, FC1
Wu, KH1
Lin, WP1
Hu, MK1
Lin, L3
Shao, J1
Sun, M1
Xu, G1
Zhang, X6
Xu, N1
Wang, R1
Liu, S1
He, H1
Dong, X2
Yang, M2
Yang, Q1
Duan, S1
Yu, Y2
Han, J2
Zhang, C3
Chen, L2
Yang, X1
Li, W3
Wang, T2
Campbell, DA1
Gao, K1
Zager, RA1
Johnson, ACM1
Guillem, A1
Keyser, J1
Singh, B1
Steubl, D1
Schneider, MP1
Meiselbach, H1
Nadal, J1
Schmid, MC1
Saritas, T1
Krane, V1
Sommerer, C1
Baid-Agrawal, S1
Voelkl, J1
Kotsis, F1
Köttgen, A1
Eckardt, KU1
Scherberich, JE1
Li, H4
Yao, L2
Sun, L3
Zhu, Z1
Naren, N1
Zhang, XX2
Gentile, GL1
Rupert, AS1
Carrasco, LI1
Garcia, EM1
Kumar, NG1
Walsh, SW1
Jefferson, KK1
Guest, RL1
Samé Guerra, D1
Wissler, M1
Grimm, J1
Silhavy, TJ1
Lee, JH2
Yoo, JS1
Kim, Y1
Kim, JS2
Lee, EJ1
Roe, JH1
Delorme, M1
Bouchard, PA1
Simon, M1
Simard, S1
Lellouche, F1
D'Urzo, KA1
Mok, F1
D'Urzo, AD1
Koneru, B1
Lopez, G1
Farooqi, A1
Conkrite, KL1
Nguyen, TH1
Macha, SJ1
Modi, A1
Rokita, JL1
Urias, E1
Hindle, A1
Davidson, H1
Mccoy, K1
Nance, J1
Yazdani, V1
Irwin, MS1
Yang, S1
Wheeler, DA1
Maris, JM1
Diskin, SJ1
Reynolds, CP1
Abhilash, L1
Kalliyil, A1
Sheeba, V1
Hartley, AM2
Meunier, B2
Pinotsis, N1
Maréchal, A2
Xu, JY1
Genko, N1
Haraux, F1
Rich, PR1
Kamalanathan, M1
Doyle, SM1
Xu, C1
Achberger, AM1
Wade, TL1
Schwehr, K1
Santschi, PH1
Sylvan, JB1
Quigg, A1
Leong, W1
Xu, W2
Gao, S1
Zhai, X1
Wang, C3
Gilson, E1
Ye, J1
Lu, Y1
Yan, R1
Zhang, Y6
Hu, Z1
You, Q1
Cai, Q1
Yang, D2
Gu, S1
Dai, H1
Zhao, X1
Gui, C1
Gui, J1
Wu, PK1
Hong, SK1
Starenki, D1
Oshima, K1
Shao, H1
Gestwicki, JE1
Tsai, S1
Park, JI1
Wang, Y7
Zhao, R1
Gu, Z2
Dong, C2
Guo, G1
Li, L4
Barrett, HE1
Meester, EJ1
van Gaalen, K1
van der Heiden, K1
Krenning, BJ1
Beekman, FJ1
de Blois, E1
de Swart, J1
Verhagen, HJ1
Maina, T1
Nock, BA1
Norenberg, JP1
de Jong, M1
Gijsen, FJH1
Bernsen, MR1
Martínez-Milla, J1
Galán-Arriola, C1
Carnero, M1
Cobiella, J1
Pérez-Camargo, D1
Bautista-Hernández, V1
Rigol, M1
Solanes, N1
Villena-Gutierrez, R1
Lobo, M1
Mateo, J1
Vilchez-Tschischke, JP1
Salinas, B1
Cussó, L1
López, GJ1
Fuster, V1
Desco, M1
Sanchez-González, J1
Ibanez, B1
van den Berg, P1
Schweitzer, DH1
van Haard, PMM1
Geusens, PP1
van den Bergh, JP1
Zhu, X1
Huang, X2
Xu, H2
Yang, G2
Lin, Z1
Salem, HF1
Nafady, MM1
Kharshoum, RM1
Abd El-Ghafar, OA1
Farouk, HO1
Domiciano, D1
Nery, FC1
de Carvalho, PA1
Prudente, DO1
de Souza, LB1
Chalfun-Júnior, A1
Paiva, R1
Marchiori, PER1
Lu, M2
An, Z1
Jiang, J2
Li, J8
Du, S1
Zhou, H1
Cui, J1
Wu, W1
Liu, Y7
Song, J1
Lian, Q1
Uddin Ahmad, Z1
Gang, DD1
Konggidinata, MI1
Gallo, AA1
Zappi, ME1
Yang, TWW1
Johari, Y1
Burton, PR1
Earnest, A1
Shaw, K1
Hare, JL1
Brown, WA1
Kim, GA1
Han, S1
Choi, GH1
Choi, J1
Lim, YS1
Gallo, A1
Cancelli, C1
Ceron, E1
Covino, M1
Capoluongo, E1
Pocino, K1
Ianiro, G1
Cammarota, G1
Gasbarrini, A1
Montalto, M1
Somasundar, Y1
Lu, IC1
Mills, MR1
Qian, LY1
Olivares, X1
Ryabov, AD1
Collins, TJ1
Zhao, L1
Doddipatla, S1
Thomas, AM1
Nikolayev, AA1
Galimova, GR1
Azyazov, VN1
Mebel, AM1
Kaiser, RI1
Guo, S1
Yang, P1
Yu, X2
Wu, Y2
Zhang, H1
Yu, B2
Han, B1
George, MW1
Moor, MB1
Bonny, O1
Langenberg, E1
Paik, H1
Smith, EH1
Nair, HP1
Hanke, I1
Ganschow, S1
Catalan, G1
Domingo, N1
Schlom, DG1
Assefa, MK1
Wu, G2
Hayton, TW1
Becker, B1
Enikeev, D1
Netsch, C1
Gross, AJ1
Laukhtina, E1
Glybochko, P1
Rapoport, L1
Herrmann, TRW1
Taratkin, M1
Dai, W1
Shi, J2
Carreno, J1
Kloner, RA1
Pickersgill, NA1
Vetter, JM1
Kim, EH1
Cope, SJ1
Du, K1
Venkatesh, R1
Giardina, JD1
Saad, NES1
Bhayani, SB1
Figenshau, RS1
Eriksson, J1
Landfeldt, E1
Ireland, S1
Jackson, C1
Wyatt, E1
Gaudig, M1
Stancill, JS1
Happ, JT1
Broniowska, KA1
Hogg, N1
Corbett, JA1
Tang, LF1
Bi, YL1
Fan, Y2
Sun, YB1
Wang, AL1
Xiao, BH1
Wang, LF1
Qiu, SW1
Guo, SW1
Wáng, YXJ1
Sun, J2
Chu, S1
Pan, Q1
Li, D2
Zheng, S2
Ma, L1
Wang, L3
Hu, T1
Wang, F1
Han, Z1
Yin, Z1
Ge, X1
Xie, K1
Lei, P1
Dias-Santagata, D1
Lennerz, JK1
Sadow, PM1
Frazier, RP1
Govinda Raju, S1
Henry, D1
Chung, T1
Kherani, J1
Rothenberg, SM1
Wirth, LJ1
Marti, CN1
Choi, NG1
Bae, SJ1
Ni, L1
Luo, X1
Dai, T1
Yang, Y3
Lee, R1
Fleischer, AS1
Wemhoff, AP1
Ford, CR1
Kleppinger, EL1
Helms, K1
Bush, AA1
Luna-Abanto, J1
García Ruiz, L1
Laura Martinez, J1
Álvarez Larraondo, M1
Villoslada Terrones, V1
Dukic, L1
Maric, N1
Simundic, AM1
Chogtu, B1
Ommurugan, B1
Thomson, SR1
Kalthur, SG1
Benidir, M1
El Massoudi, S1
El Ghadraoui, L1
Lazraq, A1
Benjelloun, M1
Errachidi, F1
Cassar, M1
Law, AD1
Chow, ES1
Giebultowicz, JM1
Kretzschmar, D1
Salonurmi, T1
Nabil, H1
Ronkainen, J1
Hyötyläinen, T1
Hautajärvi, H1
Savolainen, MJ1
Tolonen, A1
Orešič, M1
Känsäkoski, P1
Rysä, J1
Hakkola, J1
Hukkanen, J1
Zhu, N1
Li, Y4
Du, Q1
Hao, P1
Cao, X1
Li, CX1
Zhao, S1
Luo, XM1
Feng, JX1
Gonzalez-Cotto, M1
Guo, L1
Karwan, M1
Sen, SK1
Barb, J1
Collado, CJ1
Elloumi, F1
Palmieri, EM1
Boelte, K1
Kolodgie, FD1
Finn, AV1
Biesecker, LG1
McVicar, DW1
Qu, F1
Deng, Z1
Xie, Y2
Tang, J3
Chen, Z2
Luo, W1
Xiong, D1
Zhao, D1
Fang, J1
Zhou, Z1
Niu, PP1
Song, B1
Xu, YM1
Zhang, Z2
Qiu, N1
Yin, J1
Zhang, J3
Guo, W1
Liu, M2
Liu, T2
Chen, D5
Luo, K1
He, Z2
Zheng, G1
Xu, F1
Sun, W1
Yin, F1
van Hest, JCM1
Du, L2
Shi, X1
Kang, S1
Duan, W1
Zhang, S2
Feng, J2
Qi, N1
Shen, G1
Ren, H1
Shang, Q1
Zhao, W2
Yang, Z2
Jiang, X2
Alame, M1
Cornillot, E1
Cacheux, V1
Tosato, G1
Four, M1
De Oliveira, L1
Gofflot, S1
Delvenne, P1
Turtoi, E1
Cabello-Aguilar, S1
Nishiyama, M1
Turtoi, A1
Costes-Martineau, V1
Colinge, J1
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Quan, M1
Dong, J1
Bai, J1
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Lv, YQ1
Chen, Q1
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Deng, L1
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Billadeau, DD1
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Zhang, JS1
Xue, Z1
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Gao, F1
Busuttil, RW1
Kupiec-Weglinski, JW1
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Minute, L1
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Liang, X1
Tie, Y1
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Xie, D1
Wei, Y1
Wei, X2
Dokla, EME1
Fang, CS1
Chu, PC1
Chang, CS1
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Chen, CS1
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Dymek, B1
Stanczak, PS1
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Olczak, J1
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Golebiowski, A1
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Jones, JH1
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Hesson, T1
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Murugan, P1
Santoro, JC1
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Pedron, J1
Boudot, C1
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Boutet-Robinet, E1
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Tronnet, A1
Bergé, J1
Bonduelle, C1
Deraeve, C1
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Paris, L1
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Corvaisier, S1
Since, M1
Malzert-Fréon, A1
Wyllie, S1
Milne, R1
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Valentin, A1
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Verhaeghe, P1
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Tang, H1
Cui, Y1
Zhang, L3
Fan, H1
Yu, H1
Mathison, CJN1
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Rucker, PV1
Nelson, J1
Roland, J1
Huang, Z2
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Epple, R1
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Qi, H1
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Chua, H1
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Huang, M1
Zhu, Y1
Yu, J1
Tian, J1
Zhao, M1
Hu, J2
Yao, C1
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Usawachintachit, M1
Tzou, DT1
Washington, SL1
Hu, W1
Chi, T1
Sorensen, MD1
Bailey, MR1
Hsi, RS1
Cunitz, BW1
Simon, J1
Wang, YN1
Dunmire, BL1
Paun, M1
Starr, F1
Lu, W1
Evan, AP1
Harper, JD1
Han, G1
Rodrigues, AE1
Fouladvand, F1
Falahi, E1
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Abbasnezhad, A1
Anigboro, AA1
Avwioroko, OJ1
Cholu, CO1
Sonei, A1
Fazelipour, S1
Kanaani, L1
Jahromy, MH1
Jo, K1
Hong, KB1
Suh, HJ1
Park, JH1
Shin, E1
Park, E1
Kouakou-Kouamé, CA1
N'guessan, FK1
Montet, D1
Djè, MK1
Kim, GD1
González-Fernández, D1
Pons, EDC1
Rueda, D1
Sinisterra, OT1
Murillo, E1
Scott, ME1
Koski, KG1
Shete, PB1
Gonzales, R1
Ackerman, S1
Cattamanchi, A1
Handley, MA1
Li, XX1
Xiao, SZ1
Gu, FF1
He, WP1
Ni, YX1
Han, LZ1
Heffernan, JK1
Valgepea, K1
de Souza Pinto Lemgruber, R1
Casini, I1
Plan, M1
Tappel, R1
Simpson, SD1
Köpke, M1
Nielsen, LK1
Marcellin, E1
Cen, YK1
Lin, JG1
Wang, YL1
Wang, JY1
Liu, ZQ1
Zheng, YG1
Spirk, D1
Noll, S1
Burnier, M1
Rimoldi, S1
Noll, G1
Sudano, I1
Penzhorn, BL1
Oosthuizen, MC1
Kobos, LM1
Alqatani, S1
Ferreira, CR1
Aryal, UK1
Hedrick, V1
Sobreira, TJP1
Shannahan, JH1
Gale, P1
Singhroy, DN1
MacLean, E1
Kohli, M1
Lessem, E1
Branigan, D1
England, K1
Suleiman, K1
Drain, PK1
Ruhwald, M1
Schumacher, S1
Denkinger, CM1
Waning, B1
Van Gemert, W1
Pai, M1
Myers, RK1
Bonsu, JM1
Carey, ME1
Yerys, BE1
Mollen, CJ1
Curry, AE1
Douglas, TA1
Alinezhadbalalami, N1
Balani, N1
Schmelz, EM1
Davalos, RV1
Kamaldinov, T1
Erndt-Marino, J1
Levin, M1
Kaplan, DL1
Hahn, MS1
Heidarimoghadam, R1
Farmany, A1
Lee, JJ1
Kang, J1
Park, S1
Cho, JH1
Oh, S1
Park, DJ1
Perez-Maldonado, R1
Cho, JY1
Park, IH1
Kim, HB1
Song, M1
Mfarrej, B1
Jofra, T1
Morsiani, C1
Gagliani, N1
Fousteri, G1
Battaglia, M1
Giuliano, C1
Levinger, I1
Vogrin, S1
Neil, CJ1
Allen, JD1
Lv, Y1
Yuan, R1
Cai, B1
Bahrami, B1
Chowdhury, AH1
Yang, C2
Qiao, Q1
Liu, SF1
Zhang, WH1
Kolano, L1
Knappe, D1
Volke, D1
Sträter, N1
Hoffmann, R1
Coussens, M1
Calders, P1
Lapauw, B1
Celie, B1
Banica, T1
De Wandele, I1
Pacey, V1
Malfait, F1
Rombaut, L1
Vieira, D1
Angel, S1
Honjol, Y1
Gruenheid, S1
Gbureck, U1
Harvey, E1
Merle, G1
Seo, G1
Lee, G1
Kim, MJ1
Baek, SH1
Choi, M2
Ku, KB1
Lee, CS1
Jun, S1
Park, D1
Kim, HG1
Kim, SJ1
Lee, JO1
Kim, BT1
Park, EC1
Kim, SI1
Ende, M1
Kirkkala, T1
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Talla, D1
Wildner, M1
Miletich, R1
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Lavela, P1
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Kang, D1
Feng, D2
Fang, Z1
Wei, F1
De Clercq, E1
Pannecouque, C1
Zhan, P1
Guo, Y1
Shen, Y1
Wang, Q2
Kawazoe, Y1
Jena, P1
Sun, Z1
Li, Z2
Liang, H1
Xu, X1
Ma, G1
Huo, X1
Church, JS1
Chace-Donahue, F1
Blum, JL1
Ratner, JR1
Zelikoff, JT1
Schwartzer, JJ1
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Yao, W1
Wang, P1
Mi, K1
Cheng, J1
Gu, C1
Huang, J2
Sun, HB1
Xing, WQ1
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Zheng, Y1
Yang, SJ1
Wang, ZF1
Liu, SL1
Ba, YF1
Zhang, RX1
Liu, BX1
Fan, CC1
Chen, PN1
Liang, GH1
Yu, YK1
Wang, HR1
Li, HM1
Li, ZX1
Lalani, SS1
Anasir, MI1
Poh, CL1
Khan, IT1
Nadeem, M1
Imran, M1
Khalique, A1
Raspini, B1
Porri, D1
De Giuseppe, R1
Chieppa, M1
Liso, M1
Cerbo, RM1
Civardi, E1
Garofoli, F1
Monti, MC1
Vacca, M1
De Angelis, M1
Cena, H1
Kong, D1
Han, X1
Zhou, Y3
Xue, H1
Zhang, W1
Ruan, Z1
Li, S2
Noer, PR1
Kjaer-Sorensen, K1
Juhl, AK1
Goldstein, A1
Ke, C1
Oxvig, C1
Duan, C1
Kong, F1
Lin, S1
Wang, Z2
Bhattacharya, R1
Mazumder, D1
Yan, X1
Ma, C1
Tang, Y1
Kong, X1
Lu, J1
Zhang, M1
Vital-Jacome, M1
Cazares-Granillo, M1
Carrillo-Reyes, J1
Buitron, G1
Jacob, SI1
Douair, I1
Maron, L1
Ménard, G1
Rusjan, P1
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Di Ciano, P1
Mansouri, E1
Boileau, I1
Laveillé, A1
Capet, M1
Duvauchelle, T1
Schwartz, JC1
Robert, P1
Le Foll, B1
Xia, Y1
Chen, S1
Luo, M1
Wu, J1
Cai, S1
He, Y2
Garbacz, P1
Misiak, M1
Jackowski, K1
Yuan, Q1
Sherrell, PC1
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Bi, X1
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Mahalapbutr, P1
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Shigeta, Y1
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Rungrotmongkol, T1
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Kher, R1
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Delaney, S1
Xue, J1
Wu, P1
Xu, L1
Yuan, Y1
Luo, J1
Ye, S1
Ustriyana, P1
Wei, B1
Raee, E1
Hu, Y1
Wesdemiotis, C1
Sahai, N1
Kaur, A1
Nigam, K1
Srivastava, S1
Tyagi, A1
Dang, S1
Millar, JE1
Bartnikowski, N1
Passmore, MR1
Obonyo, NG1
Malfertheiner, MV1
von Bahr, V1
Redd, MA1
See Hoe, L1
Ki, KK1
Pedersen, S1
Boyle, AJ1
Baillie, JK1
Shekar, K1
Palpant, N1
Suen, JY1
Matthay, MA1
McAuley, DF1
Fraser, JF1
Settles, JA1
Gerety, GF1
Spaepen, E1
Suico, JG1
Child, CJ1
Oh, BL1
Lee, JS1
Lee, EY1
Lee, HY1
Yu, HG1
Leslie, I1
Boos, LA1
Larkin, J1
Pickering, L1
Lima, HK1
Vogel, K1
Hampel, D1
Wagner-Gillespie, M1
Fogleman, AD1
Ferraz, SL1
O'Connor, M1
Mazzucchelli, TG1
Kajiyama, H1
Suzuki, S1
Shimbo, A1
Utsumi, F1
Yoshikawa, N1
Kikkawa, F1
Javvaji, PK1
Dhali, A1
Francis, JR1
Kolte, AP1
Roy, SC1
Selvaraju, S1
Mech, A1
Sejian, V1
DeSilva, S1
Vaidya, SS1
Mao, C1
Akhatayeva, Z1
Cheng, H1
Zhang, G1
Jiang, F1
Meng, X1
Elnour, IE1
Lan, X1
Song, E1
Rohde, S1
Antonides, CFJ1
Muslem, R1
de Woestijne, PCV1
der Meulen, MHV1
Kraemer, US1
Dalinghaus, M1
Bogers, AJJC1
Pourmand, A1
Ghassemi, M1
Sumon, K1
Amini, SB1
Hood, C1
Sikka, N1
Duan, H1
Chen, WP1
Fan, M1
Wang, WP1
Yu, L1
Tan, SJ1
Xin, S1
Wan, LJ1
Guo, YG1
Tanda, S1
Gingl, K1
Ličbinský, R1
Hegrová, J1
Goessler, W1
Li, ZL1
Zhou, YL1
Yan, W1
Luo, L1
Su, ZZ1
Fan, MZ1
Wang, SR1
Zhao, WG1
Xu, D1
Hassan, HM1
Jiang, Z1
Bachmann, KF1
Haenggi, M1
Jakob, SM1
Takala, J1
Gattinoni, L1
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Vecchiarelli, E1
Banks, L1
Gonçalves, PEO1
Thomas, SG1
Goodman, JM1
Mather, K1
Boachie, R1
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Panahi, S1
Anderson, GH1
Luhovyy, BL1
Nafie, MS1
Arafa, K1
Sedky, NK1
Alakhdar, AA1
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Fan, S1
Hu, H1
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Hu, BC1
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Hu, D1
Liu, YY1
Chu, Q1
Wu, MC1
Lu, X1
Wang, D1
Hu, M1
Shen, H1
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Kulich, P1
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Mikuška, P1
Večeřa, Z1
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Moravec, P1
Balcar, VJ1
Šerý, O1
Qiao, L1
Xiong, X1
Peng, X1
Zheng, J1
Duan, J1
Xiao, W1
Zhou, HY1
Sui, ZY1
Zhao, FL1
Sun, YN1
Wang, HY1
Han, BH1
Jintao, X1
Shasha, Y1
Jincai, W1
Chunyan, L1
Mengya, Y1
Yongli, S1
Rasoanirina, BNV1
Lassoued, MA1
Miladi, K1
Razafindrakoto, Z1
Chaâbane-Banaoues, R1
Ramanitrahasimbola, D1
Cornet, M1
Sfar, S1
Liang, C1
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Tang, SJ1
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Peng, M1
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Zhang, T2
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Yu, CQ1
Wang, SF1
Pang, ZC1
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Reviews

3 reviews available for methane and Necrosis

ArticleYear
    The Egyptian journal of chest diseases and tuberculosis, 2016, Volume: 65, Issue:1

    Topics: A549 Cells; Acetylmuramyl-Alanyl-Isoglutamine; Acinetobacter baumannii; Acute Lung Injury; Adaptor P

2016
Biochemical mechanisms of liver injury.
    The American journal of medicine, 1970, Volume: 49

    Topics: Aflatoxins; Alkaloids; Animals; Calcium; Carbon Tetrachloride Poisoning; Chloroform; Disease Models,

1970
Nanomaterials: the next step in injectable bone cements.
    Nanomedicine (London, England), 2014, Volume: 9, Issue:11

    Topics: Anti-Bacterial Agents; Biocompatible Materials; Bone Cements; Bone Regeneration; Bone Screws; Bone S

2014

Trials

1 trial available for methane and Necrosis

ArticleYear
    The Egyptian journal of chest diseases and tuberculosis, 2016, Volume: 65, Issue:1

    Topics: A549 Cells; Acetylmuramyl-Alanyl-Isoglutamine; Acinetobacter baumannii; Acute Lung Injury; Adaptor P

2016

Other Studies

25 other studies available for methane and Necrosis

ArticleYear
Methane Attenuates Hepatic Ischemia/Reperfusion Injury in Rats Through Antiapoptotic, Anti-Inflammatory, and Antioxidative Actions.
    Shock (Augusta, Ga.), 2015, Volume: 44, Issue:2

    Topics: Alanine Transaminase; Animals; Anti-Inflammatory Agents; Antigens, CD; Antigens, Differentiation, My

2015
Cellular uptake, cytotoxicity, and innate immune response of silica-titania hollow nanoparticles based on size and surface functionality.
    ACS nano, 2010, Sep-28, Volume: 4, Issue:9

    Topics: Adenosine Triphosphate; Amines; Animals; Apoptosis; Biological Transport; Carboxylic Acids; Cell Lin

2010
A NOTE ON THE RELATIVE TOXIC ACTIVITIES OF TETRACHLOROMETHANE AND TRICHLORO-FLUORO-METHANE ON THE RAT.
    Biochemical pharmacology, 1965, Volume: 14

    Topics: Blood; Carbon Tetrachloride; Carbon Tetrachloride Poisoning; Chemical and Drug Induced Liver Injury;

1965
Noninvasive evaluation of the malignant potential of intracranial meningiomas performed using proton magnetic resonance spectroscopy.
    Journal of neurosurgery, 1999, Volume: 91, Issue:6

    Topics: Adult; Aged; Aged, 80 and over; Antigens, Nuclear; Biomarkers, Tumor; Brain; Cell Division; Cell Tra

1999
Bladder cancer and N-methyl-N-nitrosourea. II. Sub-cellular changes associated with a single noncarcinogenic dose of MNU.
    Chemico-biological interactions, 1973, Volume: 7, Issue:3

    Topics: Animals; Carcinogens; Cyclophosphamide; Cytoplasm; Epithelium; Germ-Free Life; Hemorrhage; Hyperplas

1973
[Pathomorphology of toxic liver lesions].
    Ceskoslovenska patologie, 1973, Volume: 9, Issue:4

    Topics: Adult; Aflatoxins; Aged; Animals; Biopsy; Chemical and Drug Induced Liver Injury; Child; Chlorpromaz

1973
Ablation of cells in mice using antibody-functionalized multiwalled carbon nanotubes (Ab-MWCNTs) in combination with microwaves.
    Nanotechnology, 2021, May-07, Volume: 32, Issue:19

    Topics: Ablation Techniques; Animals; Antibodies; Hot Temperature; Male; Mice; Mice, Inbred C57BL; Microwave

2021
Multi-walled carbon nanotubes: A cytotoxicity study in relation to functionalization, dose and dispersion.
    Toxicology in vitro : an international journal published in association with BIBRA, 2017, Volume: 42

    Topics: A549 Cells; Apoptosis; Carboxylic Acids; Cell Survival; DNA Damage; Humans; Hydroxides; L-Lactate De

2017
Single-walled carbon nanotubes (SWCNTs) inhibit heat shock protein 90 (HSP90) signaling in human lung fibroblasts and keratinocytes.
    Toxicology and applied pharmacology, 2017, 08-15, Volume: 329

    Topics: Apoptosis; Carboxylic Acids; Cell Proliferation; Cell Survival; Dose-Response Relationship, Drug; Fi

2017
Interactions of oxidized multiwalled carbon nanotube with cadmium on zebrafish cell line: The influence of two co-exposure protocols on in vitro toxicity tests.
    Aquatic toxicology (Amsterdam, Netherlands), 2018, Volume: 200

    Topics: Adsorption; Animals; Apoptosis; Cadmium; Cell Line; Cell Survival; Flow Cytometry; Nanotubes, Carbon

2018
Carbon-based nanomaterials as stimulators of production of pharmaceutically active alkaloids in cell culture of Catharanthus roseus.
    Nanotechnology, 2019, Jul-05, Volume: 30, Issue:27

    Topics: A549 Cells; Alkaloids; Catharanthus; Cell Culture Techniques; Cell Proliferation; Cell Survival; Gra

2019
Multi-walled carbon nanotube induces nitrative DNA damage in human lung epithelial cells via HMGB1-RAGE interaction and Toll-like receptor 9 activation.
    Particle and fibre toxicology, 2016, Mar-29, Volume: 13

    Topics: Acute Lung Injury; Antibodies; Cell Line, Tumor; CpG Islands; DNA Breaks, Double-Stranded; Dose-Resp

2016
Multiwalled Carbon Nanotubules Induce Pathological Changes in the Digestive Organs of Mice.
    Bulletin of experimental biology and medicine, 2016, Volume: 161, Issue:1

    Topics: Animals; Cell Shape; Drug Evaluation, Preclinical; Enterocytes; Hepatocytes; Intestinal Mucosa; Inte

2016
Multiwalled Carbon Nanotube-Chitosan Scaffold: Cytotoxic, Apoptoti c, and Necrotic Effects on Chondrocyte Cell Lines.
    Current pharmaceutical biotechnology, 2017, Volume: 18, Issue:4

    Topics: Apoptosis; Biocompatible Materials; Bone and Bones; Cell Line; Cell Survival; Chitosan; Chondrocytes

2017
Toxicity and imaging of multi-walled carbon nanotubes in human macrophage cells.
    Biomaterials, 2009, Volume: 30, Issue:25

    Topics: Animals; Biocompatible Materials; Cell Survival; Cells, Cultured; Electron Microscope Tomography; Fe

2009
Influence of acid functionalization on the cardiopulmonary toxicity of carbon nanotubes and carbon black particles in mice.
    Toxicology and applied pharmacology, 2009, Sep-15, Volume: 239, Issue:3

    Topics: Air Pollutants; Animals; Blood Cell Count; Bronchoalveolar Lavage Fluid; Female; Hemodynamics; Inhal

2009
Effects of carbon nanotubes on human monocytes.
    Annals of the New York Academy of Sciences, 2009, Volume: 1171

    Topics: Antineoplastic Agents, Phytogenic; Apoptosis; Cytotoxins; Dose-Response Relationship, Drug; Etoposid

2009
Enhanced laser thermal ablation for the in vitro treatment of liver cancer by specific delivery of multiwalled carbon nanotubes functionalized with human serum albumin.
    International journal of nanomedicine, 2011, Jan-17, Volume: 6

    Topics: Caveolin 1; Drug Delivery Systems; Fluorescein-5-isothiocyanate; Hep G2 Cells; Humans; Laser Therapy

2011
Effects of single and multi walled carbon nanotubes on macrophages: cyto and genotoxicity and electron microscopy.
    Mutation research, 2011, May-18, Volume: 722, Issue:1

    Topics: Animals; Cell Death; Cell Line; Cell Shape; Chromosome Aberrations; DNA Damage; Inflammation; Macrop

2011
Magnetic functionalised carbon nanotubes as drug vehicles for cancer lymph node metastasis treatment.
    European journal of cancer (Oxford, England : 1990), 2011, Volume: 47, Issue:12

    Topics: Animals; Antimetabolites, Antineoplastic; Apoptosis; Biomarkers, Tumor; Cell Line, Tumor; Cell Survi

2011
Selective ex-vivo photothermal ablation of human pancreatic cancer with albumin functionalized multiwalled carbon nanotubes.
    International journal of nanomedicine, 2011, Volume: 6

    Topics: Ablation Techniques; Area Under Curve; Cell Line, Tumor; Drug Delivery Systems; Fluorescein-5-isothi

2011
The resistance of breast cancer stem cells to conventional hyperthermia and their sensitivity to nanoparticle-mediated photothermal therapy.
    Biomaterials, 2012, Volume: 33, Issue:10

    Topics: Animals; Breast Neoplasms; Cell Death; Cell Line, Tumor; Cell Membrane Permeability; Cell Proliferat

2012
Multi walled carbon nano tubes induced hepatotoxicity in Swiss albino mice.
    Micron (Oxford, England : 1993), 2013, Volume: 44

    Topics: Animals; Blood Coagulation; Catalase; Inflammation; Liver; Macrophages; Mice; Nanotubes, Carbon; Nec

2013
Cytotoxicity of carbon nanomaterials: single-wall nanotube, multi-wall nanotube, and fullerene.
    Environmental science & technology, 2005, Mar-01, Volume: 39, Issue:5

    Topics: Animals; Apoptosis; Fullerenes; Guinea Pigs; Macrophages, Alveolar; Nanotubes, Carbon; Necrosis; Par

2005
In vitro toxicity evaluation of single walled carbon nanotubes on human A549 lung cells.
    Toxicology in vitro : an international journal published in association with BIBRA, 2007, Volume: 21, Issue:3

    Topics: Adenylate Kinase; Cell Line; Cell Nucleus; Cell Survival; Culture Media, Conditioned; Cytoplasm; Dos

2007