about
Multimodality treatment strategies have changed prognosis of peritoneal metastasesEquivalence of cell survival data for radiation dose and thermal dose in ablative treatments: analysis applied to essential tremor thalamotomy by focussed ultrasound and gamma knife.Using pharmacologic data to plan clinical treatments for patients with peritoneal surface malignancy.Thermal ablation a comparison of thermal dose required for radiofrequency-, microwave-, and laser-induced coagulation in an ex vivo bovine liver model.A proteomic analysis of green and white sturgeon larvae exposed to heat stress and selenium.Liposomal doxorubicin increases radiofrequency ablation-induced tumor destruction by increasing cellular oxidative and nitrative stress and accelerating apoptotic pathwaysA two-state cell damage model under hyperthermic conditions: theory and in vitro experiments.Evaluation of thermal damage in a pig model.Novel substituted (Z)-5-((N-benzyl-1H-indol-3-yl)methylene)imidazolidine-2,4-diones and 5-((N-benzyl-1H-indol-3-yl)methylene)pyrimidine-2,4,6(1H,3H,5H)-triones as potent radio-sensitizing agents.Radiosensitization of cancer cells by hydroxychalconesMultidisciplinary therapy for treatment of patients with peritoneal carcinomatosis from gastric cancer.Methionine protects against hyperthermia-induced cell injury in cultured bovine mammary epithelial cellsGene expression profiling in preterm infants: new aspects of bronchopulmonary dysplasia development.Brain temperature homeostasis: physiological fluctuations and pathological shifts.Therapeutic aspects of chaperones/heat-shock proteins in neuro-oncology.Changes in the transcriptome of morula-stage bovine embryos caused by heat shock: relationship to developmental acquisition of thermotolerance.Heavy metal ions in normal physiology, toxic stress, and cytoprotection.Heat shock inhibits caspase-1 activity while also preventing its inflammasome-mediated activation by anthrax lethal toxin.Novel substituted (Z)-2-(N-benzylindol-3-ylmethylene)quinuclidin-3-one and (Z)-(+/-)-2-(N-benzylindol-3-ylmethylene)quinuclidin-3-ol derivatives as potent thermal sensitizing agentsReverse the Resistance to PARP Inhibitors.Radiofrequency ablation of colorectal hepatic metastases.Peritoneal carcinomatosis: cytoreductive surgery and HIPEC--overview and basics.Peritoneal cancer treatment.Global gene expression analyses reveal changes in biological processes after hyperthermia in a rat glioma model.The heat-induced gamma-H2AX response does not play a role in hyperthermic cell killing.Transient inhibition of Calyculin A induced premature chromosome condensation by hyperthermia.The effects of 41 degrees C hyperthermia on the DNA repair protein, MRE11, correlate with radiosensitization in four human tumor cell lines.Mild thermotolerance induced at 40 °C protects cells against hyperthermia-induced pro-apoptotic changes in Bcl-2 family proteins.Environmental temperature affects physiology and survival of nanosecond pulsed electric field-treated cells.Usefulness of Thermographic Analysis to Control Temperature Homogeneity in the Development and Implementation of a Closed Recirculating CO2 Chemohyperthermia Model.Pharmacokinetic study of perioperative intravenous Ifosfamide.Pharmacologic rationale for treatments of peritoneal surface malignancy from colorectal cancer.Dicer protein levels elevated by mild hyperthermia promote a pro-survival phenotype.Melatonin reduces apoptotic cells, SOD2 and HSPB1 and improves the in vitro production and quality of bovine blastocysts.[Change of ERCC1 expression of residual VX2 squamous carcinoma cells in rabbit lung after radiofrequency ablation].Core Body Temperature but Not Intraabdominal Pressure Predicts Postoperative Complications Following Closed-System Hyperthermic Intraperitoneal Chemotherapy (HIPEC) Administration.Volume Transitions of Isolated Cell Nuclei Induced by Rapid Temperature Increase.Effect of mild temperature shift on poly(ADP-ribose) and γH2AX levels in cultured cells.Applications of hyperthermic intraperitoneal chemotherapy for metastatic colorectal cancer.Biologically Targeted Magnetic Hyperthermia: Potential and Limitations
P2860
Q26769938-84F653D8-368C-4AE3-8E08-7853AC07993FQ30275112-9168DC04-2E5D-43AA-87E3-5A6F284C220BQ33416610-5479819E-1141-466C-9034-EAB5FB2B4DE9Q33511100-649C588F-8036-483C-A13E-E97CCC2AC3BDQ33569763-72CF2070-7862-4B4A-8538-5BBD9B9C55D1Q33746626-58D8DB31-1A31-426A-BFA9-5B4BD27C4A76Q33849010-D78EB65A-5EBE-40E5-8B2F-04AA2D98761CQ34137909-3ADACB2B-AF1C-4E05-B935-5B773B518835Q34157755-8F8162D0-C185-40EF-AA40-02C33879027EQ34160283-F5BA5420-1613-44D8-B34A-FF8CCD6AD68FQ34390124-01AF98D2-2CC7-434F-ABA0-086656DF727DQ34629001-18167FD9-5ACB-47DC-B9F4-DDFE7D01742BQ35032620-A6B50D15-90C9-4D1E-85A5-E7DBDE4FD349Q35146344-EC77E574-7BB6-4FEC-801A-3978BBC79C83Q36499222-580F95B8-F2D7-41CC-A3B5-757702CDC7D7Q36643395-F32114DE-0AAB-4FE3-8F2B-573BB60BFAF6Q36812709-D7E51951-197D-4AF5-9A4D-20E7ED2A78A0Q36992599-6E54D40A-D3D7-4294-B2F3-3BC4995B0DB7Q37052479-0415D273-618F-4159-8980-D2B558AC9874Q37675896-8C5635D9-D0E3-4C54-834A-71A45278E9DAQ37821852-26C7900E-D618-4DBC-8CD1-C5EAEEB641F1Q37987561-586193EA-E40F-4638-944E-9436F9EF96B0Q38195114-AEEA0A1C-21C1-438A-BAD1-404546B86A3DQ38513249-D7068C8A-979E-4FC0-8DE8-6356C7B1451FQ39852375-1F757C94-C826-49DA-BFA1-13925F4BFFD6Q39884396-74736D82-19BD-4939-AAD6-C6DDA5E9C016Q40122077-90B41A12-3842-4D86-A98E-DF38F147F059Q40185074-3F9F0E0A-DDF2-4978-A824-4445EA2ACFC9Q40228249-07487C39-A963-45C2-A1A7-5C81A972C3E6Q40405199-169E9464-6117-4F45-A168-B71243526BCCQ40583827-DE334EB0-111B-4133-8F17-BFC0E669AEF4Q41132998-8B93A2A9-85DE-40DA-A863-D3DADA253A7FQ42366524-2BB7D177-EB54-43AC-9922-78FC6346B727Q46247969-F7744B23-A0F5-4BE3-8E41-4FB9B5B1C1DDQ46293669-0A682F03-26D4-405A-891E-E350338379D4Q48334242-00FC10B6-CA01-4CFF-9024-C8DC8987C1DEQ51081901-95003403-3EBF-4BE7-AD47-AC0927391F91Q51720033-D1A64350-9C47-4AFD-99FD-F9FBE9422AD8Q51825453-759FE08C-E72D-45D5-B920-CA586BCDB544Q58803377-24614805-F91B-4A7C-B124-A41CD4C78DDF
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
How do cells respond to their thermal environment?
@ast
How do cells respond to their thermal environment?
@en
type
label
How do cells respond to their thermal environment?
@ast
How do cells respond to their thermal environment?
@en
prefLabel
How do cells respond to their thermal environment?
@ast
How do cells respond to their thermal environment?
@en
P2860
P1476
How do cells respond to their thermal environment?
@en
P2093
James R Lepock
P2860
P304
P356
10.1080/02656730500307298
P577
2005-12-01T00:00:00Z