pyruvic acid and Glial Cell Tumors studies

pyruvic acid and Glial Cell Tumors

pyruvic acid has been researched along with Glial Cell Tumors in 25 studies

Pyruvic Acid: An intermediate compound in the metabolism of carbohydrates, proteins, and fats. In thiamine deficiency, its oxidation is retarded and it accumulates in the tissues, especially in nervous structures. (From Stedman, 26th ed)
pyruvic acid : A 2-oxo monocarboxylic acid that is the 2-keto derivative of propionic acid. It is a metabolite obtained during glycolysis.

Research Excerpts

Excerpt	Relevance	Reference
" This study's objective was to utilise microdialysis to monitor levels of glucose, lactate, pyruvate, glutamate and glycerol in patients following surgery for intrinsic brain tumours, and to assess the concentration of growth factors, cytokines and other proteins involved in the pathogenesis of high-grade gliomas in vivo."	3.76	In vivo assessment of high-grade glioma biochemistry using microdialysis: a study of energy-related molecules, growth factors and cytokines. ( Carpenter, KL; Hutchinson, PJ; Marcus, HJ; Price, SJ, 2010)
"Metabolic imaging of brain tumors using (13)C Magnetic Resonance Spectroscopy (MRS) of hyperpolarized [1-(13)C] pyruvate is a promising neuroimaging strategy which, after a decade of preclinical success in glioblastoma (GBM) models, is now entering clinical trials in multiple centers."	1.43	Hyperpolarized (13)C MR imaging detects no lactate production in mutant IDH1 gliomas: Implications for diagnosis and response monitoring. ( Blough, MD; Cairncross, JG; Chaumeil, MM; Chesnelong, C; Eriksson, P; Luchman, HA; Najac, C; Radoul, M; Ronen, SM; Viswanath, P, 2016)

Research

Studies (25)

Timeframe	Studies, this research(%)	All Research%
pre-1990	1 (4.00)	18.7374
1990's	4 (16.00)	18.2507
2000's	6 (24.00)	29.6817
2010's	10 (40.00)	24.3611
2020's	4 (16.00)	2.80

Timeframe

Studies, this research(%)

All Research%

pre-1990

1 (4.00)

18.7374

1990's

4 (16.00)

18.2507

2000's

6 (24.00)

29.6817

2010's

10 (40.00)

24.3611

2020's

4 (16.00)

2.80

Authors

Authors	Studies
Vaziri, S	1
Autry, AW	1
Lafontaine, M	1
Kim, Y	1
Gordon, JW	1
Chen, HY	1
Hu, JY	1
Lupo, JM	1
Chang, SM	1
Clarke, JL	1
Villanueva-Meyer, JE	1
Bush, NAO	1
Xu, D	1
Larson, PEZ	2
Vigneron, DB	1
Li, Y	1
Viswanath, P	2
Batsios, G	1
Mukherjee, J	1
Gillespie, AM	1
Luchman, HA	2
Phillips, JJ	1
Costello, JF	1
Pieper, RO	1
Ronen, SM	2
Qi, Q	1
Fox, MS	1
Lim, H	2
Bartha, R	1
Scholl, TJ	2
Hoffman, L	1
Lee, TY	1
Thiessen, JD	1
Jane, EP	1
Premkumar, DR	1
Rajasundaram, D	1
Thambireddy, S	1
Reslink, MC	1
Agnihotri, S	1
Pollack, IF	1
Michel, KA	1
Zieliński, R	1
Walker, CM	1
Le Roux, L	1
Priebe, W	1
Bankson, JA	1
Schellingerhout, D	1
Thind, K	1
Martinez-Santiesteban, FM	1
Park, JM	2
Josan, S	2
Jang, T	2
Merchant, M	2
Watkins, R	1
Hurd, RE	2
Recht, LD	1
Mayer, D	2
Spielman, DM	2
Chaumeil, MM	1
Radoul, M	1
Najac, C	1
Eriksson, P	1
Blough, MD	1
Chesnelong, C	1
Cairncross, JG	1
Joe, E	1
Lee, H	1
Lee, J	1
Yang, S	1
Choi, YS	1
Wang, E	1
Song, HT	1
Kim, DH	1
Lindvall, P	1
Roslin, M	1
Bergenheim, AT	1
Rodrigues, TB	1
López-Larrubia, P	1
Cerdán, S	1
Marcus, HJ	1
Carpenter, KL	1
Price, SJ	1
Hutchinson, PJ	1
Sikka, P	1
Walker, R	1
Cockayne, R	1
Wood, MJ	1
Harrison, PJ	1
Burnet, PW	1
Day, SE	1
Kettunen, MI	1
Cherukuri, MK	1
Mitchell, JB	1
Lizak, MJ	1
Morris, HD	1
Matsumoto, S	1
Koretsky, AP	1
Brindle, KM	1
El Sayed, SM	1
El-Magd, RM	1
Shishido, Y	1
Chung, SP	1
Diem, TH	1
Sakai, T	1
Watanabe, H	1
Kagami, S	1
Fukui, K	1
Yen, YF	1
Recht, L	1
Perrin, A	1
Roudier, E	1
Duborjal, H	1
Bachelet, C	1
Riva-Lavieille, C	1
Leverve, X	1
Massarelli, R	1
Griguer, CE	1
Oliva, CR	1
Gillespie, GY	1
Dringen, R	1
Peters, H	1
Wiesinger, H	1
Hamprecht, B	1
Portais, JC	1
Schuster, R	1
Merle, M	1
Canioni, P	1
Oudard, S	1
Arvelo, F	1
Miccoli, L	1
Apiou, F	1
Dutrillaux, AM	1
Poisson, M	1
Dutrillaux, B	1
Poupon, MF	1
Zhong, W	1
Oberley, LW	2
Oberley, TD	1
Yan, T	1
Domann, FE	1
St Clair, DK	1
Lim, R	1
Zaheer, A	1
Yorek, MA	1
Darby, CJ	1
Darbin, O	1
Lonjon, M	1
Quentien, MH	1
Michiels, JF	1
Grellier, P	1
Negrin, J	1
Rostain, JC	1
Risso, JJ	1
Galarraga, J	1
Loreck, DJ	1
Graham, JF	1
DeLaPaz, RL	1
Smith, BH	1
Hallgren, D	1
Cummins, CJ	1

Studies

Vaziri, S

Autry, AW

Lafontaine, M

Kim, Y

Gordon, JW

Chen, HY

Hu, JY

Lupo, JM

Chang, SM

Clarke, JL

Villanueva-Meyer, JE

Bush, NAO

Xu, D

Larson, PEZ

Vigneron, DB

Li, Y

Viswanath, P

Batsios, G

Mukherjee, J

Gillespie, AM

Luchman, HA

Phillips, JJ

Costello, JF

Pieper, RO

Ronen, SM

Qi, Q

Fox, MS

Lim, H

Bartha, R

Scholl, TJ

Hoffman, L

Lee, TY

Thiessen, JD

Jane, EP

Premkumar, DR

Rajasundaram, D

Thambireddy, S

Reslink, MC

Agnihotri, S

Pollack, IF

Michel, KA

Zieliński, R

Walker, CM

Le Roux, L

Priebe, W

Bankson, JA

Schellingerhout, D

Thind, K

Martinez-Santiesteban, FM

Park, JM

Josan, S

Jang, T

Merchant, M

Watkins, R

Hurd, RE

Recht, LD

Mayer, D

Spielman, DM

Chaumeil, MM

Radoul, M

Najac, C

Eriksson, P

Blough, MD

Chesnelong, C

Cairncross, JG

Joe, E

Lee, H

Lee, J

Yang, S

Choi, YS

Wang, E

Song, HT

Kim, DH

Lindvall, P

Roslin, M

Bergenheim, AT

Rodrigues, TB

López-Larrubia, P

Cerdán, S

Marcus, HJ

Carpenter, KL

Price, SJ

Hutchinson, PJ

Sikka, P

Walker, R

Cockayne, R

Wood, MJ

Harrison, PJ

Burnet, PW

Day, SE

Kettunen, MI

Cherukuri, MK

Mitchell, JB

Lizak, MJ

Morris, HD

Matsumoto, S

Koretsky, AP

Brindle, KM

El Sayed, SM

El-Magd, RM

Shishido, Y

Chung, SP

Diem, TH

Sakai, T

Watanabe, H

Kagami, S

Fukui, K

Yen, YF

Recht, L

Perrin, A

Roudier, E

Duborjal, H

Bachelet, C

Riva-Lavieille, C

Leverve, X

Massarelli, R

Griguer, CE

Oliva, CR

Gillespie, GY

Dringen, R

Peters, H

Wiesinger, H

Hamprecht, B

Portais, JC

Schuster, R

Merle, M

Canioni, P

Oudard, S

Arvelo, F

Miccoli, L

Apiou, F

Dutrillaux, AM

Poisson, M

Dutrillaux, B

Poupon, MF

Zhong, W

Oberley, LW

Oberley, TD

Yan, T

Domann, FE

St Clair, DK

Lim, R

Zaheer, A

Yorek, MA

Darby, CJ

Darbin, O

Lonjon, M

Quentien, MH

Michiels, JF

Grellier, P

Negrin, J

Rostain, JC

Risso, JJ

Galarraga, J

Loreck, DJ

Graham, JF

DeLaPaz, RL

Smith, BH

Hallgren, D

Cummins, CJ

Other Studies

25 other studies available for pyruvic acid and Glial Cell Tumors

Article	Year
Assessment of higher-order singular value decomposition denoising methods on dynamic hyperpolarized [1- NeuroImage. Clinical, 2022, Volume: 36 Topics: Bicarbonates; Glioma; Humans; Lactic Acid; Magnetic Resonance Imaging; Pyruvic Acid	2022
Non-invasive assessment of telomere maintenance mechanisms in brain tumors. Nature communications, 2021, 01-04, Volume: 12, Issue:1 Topics: Alanine; Animals; Biomarkers, Tumor; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Genetic Eng	2021
Multimodality In Vivo Imaging of Perfusion and Glycolysis in a Rat Model of C6 Glioma. Molecular imaging and biology, 2021, Volume: 23, Issue:4 Topics: Animals; Apoptosis; Brain Neoplasms; Cell Proliferation; Fluorodeoxyglucose F18; Glioma; Glucose; Gl	2021
Reversing tozasertib resistance in glioma through inhibition of pyruvate dehydrogenase kinases. Molecular oncology, 2022, Volume: 16, Issue:1 Topics: Aurora Kinases; Child; Glioma; Humans; Isoenzymes; Oxidoreductases; Piperazines; Protein Serine-Thre	2022
Hyperpolarized Pyruvate MR Spectroscopy Depicts Glycolytic Inhibition in a Mouse Model of Glioma. Radiology, 2019, Volume: 293, Issue:1 Topics: Animals; Brain; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy; Disease Models, Animal;	2019
Construction and evaluation of a switch-tuned (13) C - (1) H birdcage radiofrequency coil for imaging the metabolism of hyperpolarized (13) C-enriched compounds. Journal of magnetic resonance imaging : JMRI, 2014, Volume: 40, Issue:5 Topics: Animals; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy; Equipment Design; Glioma; Magne	2014
Volumetric spiral chemical shift imaging of hyperpolarized [2-(13) c]pyruvate in a rat c6 glioma model. Magnetic resonance in medicine, 2016, Volume: 75, Issue:3 Topics: Animals; Brain; Brain Neoplasms; Carbon Isotopes; Glioma; Image Processing, Computer-Assisted; Magne	2016
Hyperpolarized (13)C MR imaging detects no lactate production in mutant IDH1 gliomas: Implications for diagnosis and response monitoring. NeuroImage. Clinical, 2016, Volume: 12 Topics: Biomarkers, Tumor; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy; Glioma; Humans; Isoci	2016
An indirect method for in vivo T NMR in biomedicine, 2017, Volume: 30, Issue:5 Topics: Algorithms; Animals; Biomarkers, Tumor; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy;	2017
Cerebral metabolism during air transport of patients after surgery for malignant glioma. Aviation, space, and environmental medicine, 2008, Volume: 79, Issue:7 Topics: Air Ambulances; Brain; Brain Neoplasms; Glioma; Glucose; Glutamic Acid; Glycerol; Humans; Lactic Aci	2008
Redox dependence and compartmentation of [13C]pyruvate in the brain of deuterated rats bearing implanted C6 gliomas. Journal of neurochemistry, 2009, Volume: 109 Suppl 1 Topics: Animals; Astrocytes; Brain Chemistry; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Cerebral C	2009
In vivo assessment of high-grade glioma biochemistry using microdialysis: a study of energy-related molecules, growth factors and cytokines. Journal of neuro-oncology, 2010, Volume: 97, Issue:1 Topics: Adult; Aged; Antineoplastic Agents, Hormonal; Cytokines; Dexamethasone; Energy Metabolism; Female; G	2010
D-Serine metabolism in C6 glioma cells: Involvement of alanine-serine-cysteine transporter (ASCT2) and serine racemase (SRR) but not D-amino acid oxidase (DAO). Journal of neuroscience research, 2010, Volume: 88, Issue:8 Topics: Amino Acid Transport System ASC; Animals; Cell Line, Tumor; D-Amino-Acid Oxidase; Dose-Response Rela	2010
Detecting response of rat C6 glioma tumors to radiotherapy using hyperpolarized [1- 13C]pyruvate and 13C magnetic resonance spectroscopic imaging. Magnetic resonance in medicine, 2011, Volume: 65, Issue:2 Topics: Animals; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Contrast Media; Glioma; Lactic Acid; Ma	2011
3-Bromopyruvate antagonizes effects of lactate and pyruvate, synergizes with citrate and exerts novel anti-glioma effects. Journal of bioenergetics and biomembranes, 2012, Volume: 44, Issue:1 Topics: Antineoplastic Agents, Alkylating; Apoptosis; Cell Survival; Citric Acid; D-Amino-Acid Oxidase; Elec	2012
Metabolite kinetics in C6 rat glioma model using magnetic resonance spectroscopic imaging of hyperpolarized [1-(13)C]pyruvate. Magnetic resonance in medicine, 2012, Volume: 68, Issue:6 Topics: Animals; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Female; Glioma; Kinetics; Magnetic Reso	2012
Pyruvate reverses metabolic effects produced by hypoxia in glioma and hepatoma cell cultures. Biochimie, 2002, Volume: 84, Issue:10 Topics: Animals; Carcinoma, Hepatocellular; Cell Hypoxia; Cell Line, Tumor; Glioma; Glucose; Humans; Hypoxia	2002
Glucose metabolism heterogeneity in human and mouse malignant glioma cell lines. Journal of neuro-oncology, 2005, Volume: 74, Issue:2 Topics: Amino Acid Sequence; Animals; Cell Hypoxia; Cell Survival; Electron Transport; Glioma; Glucose; Glyc	2005
Lactate transport in cultured glial cells. Developmental neuroscience, 1995, Volume: 17, Issue:2 Topics: Animals; Astrocytes; Cells, Cultured; Female; Glioma; Hydrogen-Ion Concentration; Kinetics; Lactates	1995
Metabolic flux determination in C6 glioma cells using carbon-13 distribution upon [1-13C]glucose incubation. European journal of biochemistry, 1993, Oct-01, Volume: 217, Issue:1 Topics: Alanine; Aspartic Acid; Carbon Isotopes; Citric Acid Cycle; Glioma; Gluconeogenesis; Glucose; Glutam	1993
High glycolysis in gliomas despite low hexokinase transcription and activity correlated to chromosome 10 loss. British journal of cancer, 1996, Volume: 74, Issue:6 Topics: Adenosine Triphosphate; Chromosome Deletion; Chromosomes, Human, Pair 10; Glioma; Glycolysis; Hexoki	1996
Inhibition of cell growth and sensitization to oxidative damage by overexpression of manganese superoxide dismutase in rat glioma cells. Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research, 1996, Volume: 7, Issue:9 Topics: Animals; Antineoplastic Agents, Alkylating; Buthionine Sulfoximine; Carmustine; Catalase; Cell Divis	1996
Activation of nuclear factor-kappaB in C6 rat glioma cells after transfection with glia maturation factor. Journal of neurochemistry, 2000, Volume: 74, Issue:2 Topics: Animals; Catalase; Glia Maturation Factor; Glioma; Humans; NF-kappa B; Pyruvic Acid; Rats; RNA, Mess	2000
In vivo study of tumor metabolism: an application of new multi-probe microdialysis system in the striatum of freely moving rats grafted with C6 cells. Brain research, 2000, Oct-27, Volume: 881, Issue:2 Topics: Animals; Brain Neoplasms; Corpus Striatum; Glioma; Glucose; Lactic Acid; Male; Microdialysis; Pyruvi	2000
Glucose metabolism in human gliomas: correspondence of in situ and in vitro metabolic rates and altered energy metabolism. Metabolic brain disease, 1986, Volume: 1, Issue:4 Topics: Adenosine Triphosphate; Energy Metabolism; Glioma; Glucose; Humans; Phosphocreatine; Pyruvates; Pyru	1986

Article

Year

Assessment of higher-order singular value decomposition denoising methods on dynamic hyperpolarized [1-

NeuroImage. Clinical, 2022, Volume: 36

Topics: Bicarbonates; Glioma; Humans; Lactic Acid; Magnetic Resonance Imaging; Pyruvic Acid

2022

Non-invasive assessment of telomere maintenance mechanisms in brain tumors.

Nature communications, 2021, 01-04, Volume: 12, Issue:1

Topics: Alanine; Animals; Biomarkers, Tumor; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Genetic Eng

2021

Multimodality In Vivo Imaging of Perfusion and Glycolysis in a Rat Model of C6 Glioma.

Molecular imaging and biology, 2021, Volume: 23, Issue:4

Topics: Animals; Apoptosis; Brain Neoplasms; Cell Proliferation; Fluorodeoxyglucose F18; Glioma; Glucose; Gl

2021

Reversing tozasertib resistance in glioma through inhibition of pyruvate dehydrogenase kinases.

Molecular oncology, 2022, Volume: 16, Issue:1

Topics: Aurora Kinases; Child; Glioma; Humans; Isoenzymes; Oxidoreductases; Piperazines; Protein Serine-Thre

2022

Hyperpolarized Pyruvate MR Spectroscopy Depicts Glycolytic Inhibition in a Mouse Model of Glioma.

Radiology, 2019, Volume: 293, Issue:1

Topics: Animals; Brain; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy; Disease Models, Animal;

2019

Construction and evaluation of a switch-tuned (13) C - (1) H birdcage radiofrequency coil for imaging the metabolism of hyperpolarized (13) C-enriched compounds.

Journal of magnetic resonance imaging : JMRI, 2014, Volume: 40, Issue:5

Topics: Animals; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy; Equipment Design; Glioma; Magne

2014

Volumetric spiral chemical shift imaging of hyperpolarized [2-(13) c]pyruvate in a rat c6 glioma model.

Magnetic resonance in medicine, 2016, Volume: 75, Issue:3

Topics: Animals; Brain; Brain Neoplasms; Carbon Isotopes; Glioma; Image Processing, Computer-Assisted; Magne

2016

Hyperpolarized (13)C MR imaging detects no lactate production in mutant IDH1 gliomas: Implications for diagnosis and response monitoring.

NeuroImage. Clinical, 2016, Volume: 12

Topics: Biomarkers, Tumor; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy; Glioma; Humans; Isoci

2016

An indirect method for in vivo T

NMR in biomedicine, 2017, Volume: 30, Issue:5

Topics: Algorithms; Animals; Biomarkers, Tumor; Brain Neoplasms; Carbon-13 Magnetic Resonance Spectroscopy;

2017

Cerebral metabolism during air transport of patients after surgery for malignant glioma.

Aviation, space, and environmental medicine, 2008, Volume: 79, Issue:7

Topics: Air Ambulances; Brain; Brain Neoplasms; Glioma; Glucose; Glutamic Acid; Glycerol; Humans; Lactic Aci

2008

Redox dependence and compartmentation of [13C]pyruvate in the brain of deuterated rats bearing implanted C6 gliomas.

Journal of neurochemistry, 2009, Volume: 109 Suppl 1

Topics: Animals; Astrocytes; Brain Chemistry; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Cerebral C

2009

In vivo assessment of high-grade glioma biochemistry using microdialysis: a study of energy-related molecules, growth factors and cytokines.

Journal of neuro-oncology, 2010, Volume: 97, Issue:1

Topics: Adult; Aged; Antineoplastic Agents, Hormonal; Cytokines; Dexamethasone; Energy Metabolism; Female; G

2010

D-Serine metabolism in C6 glioma cells: Involvement of alanine-serine-cysteine transporter (ASCT2) and serine racemase (SRR) but not D-amino acid oxidase (DAO).

Journal of neuroscience research, 2010, Volume: 88, Issue:8

Topics: Amino Acid Transport System ASC; Animals; Cell Line, Tumor; D-Amino-Acid Oxidase; Dose-Response Rela

2010

Detecting response of rat C6 glioma tumors to radiotherapy using hyperpolarized [1- 13C]pyruvate and 13C magnetic resonance spectroscopic imaging.

Magnetic resonance in medicine, 2011, Volume: 65, Issue:2

Topics: Animals; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Contrast Media; Glioma; Lactic Acid; Ma

2011

3-Bromopyruvate antagonizes effects of lactate and pyruvate, synergizes with citrate and exerts novel anti-glioma effects.

Journal of bioenergetics and biomembranes, 2012, Volume: 44, Issue:1

Topics: Antineoplastic Agents, Alkylating; Apoptosis; Cell Survival; Citric Acid; D-Amino-Acid Oxidase; Elec

2012

Metabolite kinetics in C6 rat glioma model using magnetic resonance spectroscopic imaging of hyperpolarized [1-(13)C]pyruvate.

Magnetic resonance in medicine, 2012, Volume: 68, Issue:6

Topics: Animals; Brain Neoplasms; Carbon Isotopes; Cell Line, Tumor; Female; Glioma; Kinetics; Magnetic Reso

2012

Pyruvate reverses metabolic effects produced by hypoxia in glioma and hepatoma cell cultures.

Biochimie, 2002, Volume: 84, Issue:10

Topics: Animals; Carcinoma, Hepatocellular; Cell Hypoxia; Cell Line, Tumor; Glioma; Glucose; Humans; Hypoxia

2002

Glucose metabolism heterogeneity in human and mouse malignant glioma cell lines.

Journal of neuro-oncology, 2005, Volume: 74, Issue:2

Topics: Amino Acid Sequence; Animals; Cell Hypoxia; Cell Survival; Electron Transport; Glioma; Glucose; Glyc

2005

Lactate transport in cultured glial cells.

Developmental neuroscience, 1995, Volume: 17, Issue:2

Topics: Animals; Astrocytes; Cells, Cultured; Female; Glioma; Hydrogen-Ion Concentration; Kinetics; Lactates

1995

Metabolic flux determination in C6 glioma cells using carbon-13 distribution upon [1-13C]glucose incubation.

European journal of biochemistry, 1993, Oct-01, Volume: 217, Issue:1

Topics: Alanine; Aspartic Acid; Carbon Isotopes; Citric Acid Cycle; Glioma; Gluconeogenesis; Glucose; Glutam

1993

High glycolysis in gliomas despite low hexokinase transcription and activity correlated to chromosome 10 loss.

British journal of cancer, 1996, Volume: 74, Issue:6

Topics: Adenosine Triphosphate; Chromosome Deletion; Chromosomes, Human, Pair 10; Glioma; Glycolysis; Hexoki

1996

Inhibition of cell growth and sensitization to oxidative damage by overexpression of manganese superoxide dismutase in rat glioma cells.

Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research, 1996, Volume: 7, Issue:9

Topics: Animals; Antineoplastic Agents, Alkylating; Buthionine Sulfoximine; Carmustine; Catalase; Cell Divis

1996

Activation of nuclear factor-kappaB in C6 rat glioma cells after transfection with glia maturation factor.

Journal of neurochemistry, 2000, Volume: 74, Issue:2

Topics: Animals; Catalase; Glia Maturation Factor; Glioma; Humans; NF-kappa B; Pyruvic Acid; Rats; RNA, Mess

2000

In vivo study of tumor metabolism: an application of new multi-probe microdialysis system in the striatum of freely moving rats grafted with C6 cells.

Brain research, 2000, Oct-27, Volume: 881, Issue:2

Topics: Animals; Brain Neoplasms; Corpus Striatum; Glioma; Glucose; Lactic Acid; Male; Microdialysis; Pyruvi

2000

Glucose metabolism in human gliomas: correspondence of in situ and in vitro metabolic rates and altered energy metabolism.

Metabolic brain disease, 1986, Volume: 1, Issue:4

Topics: Adenosine Triphosphate; Energy Metabolism; Glioma; Glucose; Humans; Phosphocreatine; Pyruvates; Pyru

1986