Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
about
Label-retaining cells in the adult murine salivary glands possess characteristics of adult progenitor cellsLow-level laser therapy/photobiomodulation in the management of side effects of chemoradiation therapy in head and neck cancer: part 2: proposed applications and treatment protocolsSuppression of radiation-induced salivary gland dysfunction by IGF-1.PUMA decreases the growth of prostate cancer PC-3 cells independent of p53.Restoration of radiation therapy-induced salivary gland dysfunction in mice by post therapy IGF-1 administration.Autophagy correlates with maintenance of salivary gland function following radiationSensitivity of salivary glands to radiation: from animal models to therapiesInsulin-like growth factor-1 preserves salivary gland function after fractionated radiationIGF1 activates cell cycle arrest following irradiation by reducing binding of ΔNp63 to the p21 promoterBone marrow-derived mesenchymal stem cells migrate to healthy and damaged salivary glands following stem cell infusionClinical management of salivary gland hypofunction and xerostomia in head-and-neck cancer patients: successes and barriers.Feasibility of image-guided radiotherapy based on helical tomotherapy to reduce contralateral parotid dose in head and neck cancerPrevention of radiation-induced salivary gland dysfunction utilizing a CDK inhibitor in a mouse modelPharmacological activation of the EDA/EDAR signaling pathway restores salivary gland function following radiation-induced damageMiR-222 targeted PUMA to improve sensitization of UM1 cells to cisplatin.Radiation produces irreversible chronic dysfunction in the submandibular glands of the rat.X-Ray-Induced Damage to the Submandibular Salivary Glands in Mice: An Analysis of Strain-Specific Responses.Concurrent transient activation of Wnt/β-catenin pathway prevents radiation damage to salivary glands.The Role of Autophagy in Salivary Gland Homeostasis and Stress Responses.P2X7 receptor activation induces inflammatory responses in salivary gland epithelium.Mechanism of the protective effect of phenylephrine pretreatment against irradiation-induced damage in the submandibular gland.Botulinum Toxin Confers Radioprotection in Murine Salivary Glands.Nanoparticle-mediated gene silencing confers radioprotection to salivary glands in vivoTransient activation of hedgehog pathway rescued irradiation-induced hyposalivation by preserving salivary stem/progenitor cells and parasympathetic innervation.Radioprotective effects of Keratinocyte Growth Factor-1 against irradiation-induced salivary gland hypofunction.Palliative Care for Salivary Gland Dysfunction Highlights the Need for Regenerative Therapies: A Review on Radiation and Salivary Gland Stem Cells.Radiation inhibits salivary gland function by promoting STIM1 cleavage by caspase-3 and loss of SOCE through a TRPM2-dependent pathway.Insulin-Like Growth Factor-1-Mediated DNA Repair in Irradiated Salivary Glands Is Sirtuin-1 Dependent.Adenoviral delivery of Tousled kinase for the protection of salivary glands against ionizing radiation damage.Pro-apoptotic gene knockdown mediated by nanocomplexed siRNA reduces radiation damage in primary salivary gland cultures.Does hyperbaric oxygen therapy have the potential to improve salivary gland function in irradiated head and neck cancer patients?Injury in Minipig Parotid Glands following Fractionated Exposure to 30 Gy of Ionizing Radiation.Salivary glands regenerate after radiation injury through SOX2-mediated secretory cell replacement.Protective effects of Korean red ginseng on radiation-induced oral mucositis in a preclinical rat model.Organotypic Spheroid Culture to Mimic Radiation-Induced Salivary Hypofunction.The protective efficacy of basic fibroblast growth factor in radiation-induced salivary gland dysfunction in mice.aPKCζ-dependent Repression of Yap is Necessary for Functional Restoration of Irradiated Salivary Glands with IGF-1.Histamine prevents functional and morphological alterations of submandibular glands induced by ionising radiation.
P2860
Q27346608-41BF76F1-5E17-4D7D-837D-43D52168AF48Q30355452-005D8CF6-B1BB-44A1-8913-F29B3420A137Q33413752-EF4B6D99-6A94-4799-9B2D-2CC32DBC34ABQ33597750-06FBA582-1E50-4184-BDA1-BE70D11F09D5Q33653671-D7E6BA49-BF27-4334-97A9-0652626EAF29Q33718956-2833F081-0123-495C-8747-D5F5A298EE81Q33901931-0875D83A-F799-4E78-91AF-691CC944AC8FQ34126820-FFA26AAE-DDDB-4703-BFE2-6596BD5555DCQ34128019-585E69F0-BF7C-4608-B217-12C2799E9A0FQ34219544-6F1DEB87-1440-48BD-AF2B-A06E5CD44CF5Q34242059-9C0A59FD-63EE-4183-8D17-43C5D20A3EFFQ34266308-34B6E19A-DFA0-4CE2-9F75-17682C9A5555Q34510942-02911286-AEED-4612-A78D-770295185F03Q34542166-2C704630-36D7-4CD0-B8C5-3CF4EF84F67FQ34834106-DE65B477-F4EC-4332-843A-19E6B9D51742Q35701691-EB2EA40F-1AC4-43BF-8918-4695AB7875C1Q35836021-E6FBE7E0-2443-46A7-A168-718AC72F738EQ35923451-0FAD3141-4A23-4DDD-BC09-41EF1B4B3365Q35932740-39B20746-406E-4B9D-89C5-AF12D31772E6Q36312386-7F3304C9-4B88-409B-A9E1-026F0C841E2DQ36603888-317205FE-AC66-4844-B340-9114189E3B3BQ36823007-1D516237-0DAA-4E61-AF05-14D905AFB403Q36915128-C0B53BF3-C64C-49F3-89C2-E22034548918Q37632842-B9B3C184-D3F2-439E-979E-40FB1FD1F566Q37706648-61BC8571-4DB3-4013-BC47-1D705C18E843Q38676039-E315CBA2-9899-4F95-8DA1-273655965290Q38701053-F69630B1-2E28-43BF-8872-D3E87597CF3FQ39010416-2105AB04-52A1-4E42-B86C-5522A4AD32ACQ39277352-2A90E46E-E2B4-47C1-92B2-D7740553B547Q42177838-6BEB9F43-D661-4CF0-BC3E-FA06CFF787E2Q42554100-D8B43CB3-F8A5-4BC2-989A-C7C4EC07965EQ46913431-88B87038-D3D7-4A62-859A-BD557D468712Q48240877-7FC5E02F-9C06-4306-AF2D-1BAD180BEE9EQ50477200-FB8FAB03-51D2-4D30-8B66-609C101554B9Q50975635-9098B4D9-57B0-4B44-A7B7-B26251B047B6Q51397255-F0BD2E33-D0E1-411C-A6CB-5D3AA46EE9F9Q52573331-30109FB9-C930-4E45-B9B5-0F6B4AB78FA5Q53284736-97B6ABA3-0E8A-4391-8B0B-07FF0C3CDE40
P2860
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on February 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
@en
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
@nl
type
label
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
@en
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
@nl
prefLabel
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
@en
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis.
@nl
P2860
P1476
Radiation-induced salivary gland dysfunction results from p53-dependent apoptosis
@en
P2093
Jennifer L Avila
Randy Burd
P2860
P304
P356
10.1016/J.IJROBP.2008.09.036
P407
P577
2009-02-01T00:00:00Z