257 results on '"Boedtkjer, Ebbe"'
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2. Strengthening the basics: acids and bases influence vascular structure and function, tissue perfusion, blood pressure, and human cardiovascular disease
3. How protons pave the way to aggressive cancers
4. Ketone body 3-hydroxybutyrate elevates cardiac output through peripheral vasorelaxation and enhanced cardiac contractility
5. Carbonic anhydrases reduce the acidity of the tumor microenvironment, promote immune infiltration, decelerate tumor growth, and improve survival in ErbB2/HER2-enriched breast cancer
6. Loss of RPTPγ primes breast tissue for acid extrusion, promotes malignant transformation and results in early tumour recurrence and shortened survival
7. Ion Channels, Transporters, and Sensors Interact with the Acidic Tumor Microenvironment to Modify Cancer Progression
8. Short‐Chain Fatty Acid Butyrate Is an Inotropic Agent With Vasorelaxant and Cardioprotective Properties
9. Enantiomer‐Specific Cardiovascular Effects of the Ketone Body 3‐Hydroxybutyrate
10. The electroneutral Na+-HCO3− cotransporter NBCn1 (SLC4A7) modulates colonic enterocyte pHi, proliferation, and migration.
11. Antibodies toward Na+,HCO3–-cotransporter NBCn1/SLC4A7 block net acid extrusion and cause pH-dependent growth inhibition and apoptosis in breast cancer.
12. Ion Channels, Transporters, and Sensors Interact with the Acidic Tumor Microenvironment to Modify Cancer Progression
13. A novel method to isolate retinal and brain microvessels from individual rats: Microscopic and molecular biological characterization and application in hyperglycemic animals
14. Na+,HCO3− cotransporter NBCn1 accelerates breast carcinogenesis
15. Na+,HCO3–-cotransporter NBCn1 (Slc4a7) accelerates ErbB2-induced breast cancer development and tumor growth in mice
16. Stimulation of the Hydroxycarboxylic Acid Receptor 2 With the Ketone Body 3‐Hydroxybutyrate and Niacin in Patients With Chronic Heart Failure: Hemodynamic and Metabolic Effects
17. Hemodynamic Effects of Ketone Bodies in Patients With Pulmonary Hypertension
18. Increased Alcohol Consumption in Mice Lacking Sodium Bicarbonate Transporter NBCn1
19. Prior renovascular hypertension does not predispose to atherosclerosis in mice
20. Stimulation of the Hydroxycarboxylic Acid Receptor 2 With the Ketone Body 3-Hydroxybutyrate and Niacin in Patients With Chronic Heart Failure:Hemodynamic and Metabolic Effects
21. Additional file 1 of Carbonic anhydrases reduce the acidity of the tumor microenvironment, promote immune infiltration, decelerate tumor growth, and improve survival in ErbB2/HER2-enriched breast cancer
22. Acid–base regulation and sensing: Accelerators and brakes in metabolic regulation of cerebrovascular tone
23. Carbonic anhydrase inhibitors modify intracellular pH transients and contractions of rat middle cerebral arteries during CO2/HCO3– fluctuations
24. Stimulation of the Hydroxycarboxylic Acid Receptor 2 With the Ketone Body 3-Hydroxybutyrate and Niacin in Patients With Chronic Heart Failure: Hemodynamic and Metabolic Effects.
25. Murine breast cancer feed arteries are thin-walled with reduced α1A-adrenoceptor expression and attenuated sympathetic vasocontraction
26. Amplified Ca2+ dynamics and accelerated cell proliferation in breast cancer tissue during purinergic stimulation
27. The solution to bicarbonate
28. Acid–base transporters modulate cell migration, growth and proliferation: Implications for structure development and remodeling of resistance arteries?
29. Increased NBCn1 expression, Na+/HCO3− co-transport and intracellular pH in human vascular smooth muscle cells with a risk allele for hypertension
30. Na+,HCO3 −-cotransport is functionally upregulated during human breast carcinogenesis and required for the inverted pH gradient across the plasma membrane
31. Extracellular H C Combining Overline is sensed by mouse cerebral arteries: Regulation of tone by receptor protein tyrosine phosphatase γ
32. Amplified Ca2+ dynamics and accelerated cell proliferation in breast cancer tissue during purinergic stimulation.
33. Perivascular tissue inhibits rho-kinase-dependent smooth muscle Ca2+ sensitivity and endothelium-dependent H2S signalling in rat coronary arteries
34. Acid-base transporters and pH dynamics in human breast carcinomas predict proliferative activity, metastasis, and survival
35. Author response: Acid-base transporters and pH dynamics in human breast carcinomas predict proliferative activity, metastasis, and survival
36. Intracellular Acidification Alters Myogenic Responsiveness and Vasomotion of Mouse Middle Cerebral Arteries
37. Carnosine facilitates lysosomal release of inhibitors of T cell surveillance.
38. Insulin inhibits [Na.sup.+]/[H.sup.+] exchange in vascular smooth muscle and endothelial cells in situ: involvement of [H.sub.2][O.sub.2] and tyrosine phosphatase SHP-2
39. Sodium bicarbonate cotransporter NBCn1/Slc4a7 affects locomotor activity and hearing in mice
40. Vaginal, Cervical and Uterine pH in Women with Normal and Abnormal Vaginal Microbiota
41. NBCn1 Increases NH4 + Reabsorption Across Thick Ascending Limbs, the Capacity for Urinary NH4 + Excretion, and Early Recovery from Metabolic Acidosis
42. Antibody-independent localization of the electroneutral [Na.sup.+]-HC[O.sup.-.sub.3] cotransporter NBCn1 (s1c4a7) in mice
43. Contribution of Na+,HCO3−-cotransport to cellular pH control in human breast cancer: A role for the breast cancer susceptibility locus NBCn1 (SLC4A7)
44. Endothelial alkalinisation inhibits gap junction communication and endothelium-derived hyperpolarisations in mouse mesenteric arteries
45. Intracellular pH in the Resistance Vasculature: Regulation and Functional Implications
46. NHE1 knockout reduces blood pressure and arterial media/lumen ratio with no effect on resting pHi in the vascular wall
47. PTPRG is an ischemia risk locus essential for HCO3–-dependent regulation of endothelial function and tissue perfusion
48. Author response: PTPRG is an ischemia risk locus essential for HCO3–-dependent regulation of endothelial function and tissue perfusion
49. Targeting the Acidic Tumor Microenvironment: Unexpected Pro-Neoplastic Effects of Oral NaHCO3 Therapy in Murine Breast Tissue
50. The Acidic Tumor Microenvironment as a Driver of Cancer
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