| scholarly article | Q13442814 |
| P356 | DOI | 10.1161/01.ATV.0000138028.14390.E4 |
| P8608 | Fatcat ID | release_5jvjpryldzdqdixvymjnrmeusa |
| P698 | PubMed publication ID | 15242864 |
| P2093 | author name string | Wei-Jun Cai | |
| Wolfgang Schaper | |||
| Bela Ziegler | |||
| Christian Scheler | |||
| Farzin Adili | |||
| Frederic Pipp | |||
| Gordana Karanovic | |||
| Jörn Balzer | |||
| Ralf Ritter | |||
| Stefanie Boehm | |||
| Thomas Schmitz-Rixen | |||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | pig | Q787 |
| P304 | page(s) | 1664-1668 | |
| P577 | publication date | 2004-07-08 | |
| P1433 | published in | Arteriosclerosis, Thrombosis, and Vascular Biology | Q4797542 |
| P1476 | title | Elevated fluid shear stress enhances postocclusive collateral artery growth and gene expression in the pig hind limb | |
| P478 | volume | 24 |
| Q35723731 | A review of the pathophysiology and potential biomarkers for peripheral artery disease. |
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| Q48696576 | Allometric scaling of wall shear stress from mice to humans: quantification using cine phase-contrast MRI and computational fluid dynamics |
| Q35897879 | Anthrax Toxin Receptor 1 Is Essential for Arteriogenesis in a Mouse Model of Hindlimb Ischemia |
| Q89879770 | Arteriogenesis of the Spinal Cord-The Network Challenge |
| Q84738456 | Arteriogenesis requires toll-like receptor 2 and 4 expression in bone-marrow derived cells |
| Q37978268 | Arteriogenesis versus angiogenesis in peripheral artery disease |
| Q36430853 | Arteriogenesis versus angiogenesis: similarities and differences |
| Q36925987 | Arteriogenesis: basic mechanisms and therapeutic stimulation |
| Q38926872 | Blood Brothers: Hemodynamics and Cell-Matrix Interactions in Endothelial Function |
| Q38179365 | Calf pump activity influencing venous hemodynamics in the lower extremity |
| Q49595942 | Cardiac shock wave therapy promotes arteriogenesis of coronary micrangium, and ILK is involved in the biomechanical effects by proteomic analysis |
| Q38693262 | Cardiovascular Adaptations to Exercise Training |
| Q35995220 | Cardiovascular gene therapy: current status and therapeutic potential. |
| Q33396892 | Cellular and molecular mechanism regulating blood flow recovery in acute versus gradual femoral artery occlusion are distinct in the mouse |
| Q38103602 | Cellular and pharmacological targets to induce coronary arteriogenesis |
| Q53428765 | Collateral Vessel Formation Causes Clinical Recovery From Limb Ischemia in a Mouse Model. |
| Q42575188 | Collateral circulation: past and present |
| Q43425376 | Collateral vessel growth induced by femoral artery ligature is impaired by denervation |
| Q36053227 | Collaterals: Implications in cerebral ischemic diseases and therapeutic interventions |
| Q38602917 | Competent and incompetent calf perforators in primary varicose veins: a resistant myth |
| Q33725003 | Diabetic monocyte and vascular endothelial growth factor signaling impairment. |
| Q36681603 | Effect of shunting of collateral flow into the venous system on arteriogenesis and angiogenesis in rabbit hind limb |
| Q39145446 | Effects of cell grafting on coronary remodeling after myocardial infarction. |
| Q34288422 | Effects of neuropeptide Y on collateral development in a swine model of chronic myocardial ischemia |
| Q41661866 | Endothelial Msx1 transduces hemodynamic changes into an arteriogenic remodeling response |
| Q54125176 | Endothelial TFEB (Transcription Factor EB) Positively Regulates Postischemic Angiogenesis. |
| Q39375877 | Endothelial cell-dependent regulation of arteriogenesis |
| Q35893318 | Endothelial glycocalyx dimensions are reduced in growing collateral arteries and modulate leucocyte adhesion in arteriogenesis |
| Q33625831 | Endothelial nitric oxide synthase affects both early and late collateral arterial adaptation and blood flow recovery after induction of hind limb ischemia in mice |
| Q42245007 | Endothelial nitric oxide synthase deficiency causes collateral vessel rarefaction and impairs activation of a cell cycle gene network during arteriogenesis. |
| Q37157213 | Exercise training and peripheral arterial disease |
| Q36381949 | Experimental models of arteriogenesis: differences and implications |
| Q36339465 | Fluid shear stress upregulates placental growth factor in the vessel wall via NADPH oxidase 4. |
| Q92962682 | Hemodynamic effects of enhanced external counterpulsation on cerebral arteries: a multiscale study |
| Q49075719 | Hemodynamics-based treatment of varices: A therapeutic concept counteracting the intrinsic tendency of varicose veins to recur |
| Q33352448 | Impaired collateral recruitment and outward remodeling in experimental diabetes |
| Q83182899 | Increased intravascular flow rate triggers cerebral arteriogenesis |
| Q58472284 | Innate collateral segments are predominantly present in the subendocardium without preferential connectivity within the left ventricular wall |
| Q37234751 | Insights into mechanisms behind arteriogenesis: what does the future hold? |
| Q58579298 | Is there a Chance to Promote Arteriogenesis by DPP4 Inhibitors Even in Type 2 Diabetes? A Critical Review |
| Q34873268 | Local delivery of polarized macrophages improves reperfusion recovery in a mouse hind limb ischemia model |
| Q90111936 | Long-term hemodynamic mechanism of enhanced external counterpulsation in the treatment of coronary heart disease: a geometric multiscale simulation |
| Q27004093 | Microvascular repair: post-angiogenesis vascular dynamics |
| Q38466556 | Molecular controls of arterial morphogenesis |
| Q37594559 | Multimodality imaging approach for serial assessment of regional changes in lower extremity arteriogenesis and tissue perfusion in a porcine model of peripheral arterial disease. |
| Q92677852 | Nitric Oxide and Hydrogen Sulfide Regulation of Ischemic Vascular Growth and Remodeling |
| Q31025245 | Overexpression of catalase in myeloid cells causes impaired postischemic neovascularization. |
| Q26799591 | Peripheral artery disease in patients with diabetes: Epidemiology, mechanisms, and outcomes |
| Q36246209 | Placenta growth factor and vascular endothelial growth factor a have differential, cell-type specific patterns of expression in vascular cells |
| Q51593115 | Porcine coronary collateral formation in the absence of a pressure gradient remote of the ischemic border zone. |
| Q36197625 | Prazosin Can Prevent Glucocorticoid Mediated Capillary Rarefaction |
| Q38087578 | Promoting blood vessel growth in ischemic diseases: challenges in translating preclinical potential into clinical success |
| Q33765463 | Redox-dependent mechanisms in coronary collateral growth: the "redox window" hypothesis |
| Q28389912 | Redox-sensitive Akt and Src regulate coronary collateral growth in metabolic syndrome |
| Q47094282 | Reduced Gja5 expression in arterial endothelial cells impairs arteriogenesis during acute ischemic cardiovascular disease |
| Q37800992 | Reperfusion of chronic tissue ischemia: nitrite and dipyridamole regulation of innate immune responses. |
| Q91292077 | Requirement of β1 integrin for endothelium-dependent vasodilation and collateral formation in hindlimb ischemia |
| Q35630546 | Role of PECAM-1 in Arteriogenesis and Specification of Preexisting Collaterals |
| Q36941842 | Role of image-guided vascular intervention in therapeutic angiogenesis translational research |
| Q38663384 | Significance of Reflux Abolition at the Saphenofemoral Junction in Connection with Stripping and Ablative Methods |
| Q26825242 | Skeletal Blood Flow in Bone Repair and Maintenance |
| Q30430026 | Spatial and temporal coordination of bone marrow-derived cell activity during arteriogenesis: regulation of the endogenous response and therapeutic implications |
| Q27317941 | Sphingosine-1-Phosphate Receptor-1 Selective Agonist Enhances Collateral Growth and Protects against Subsequent Stroke |
| Q37665063 | Stem cell-mediated neovascularization in heart repair |
| Q37138949 | Suppressed hindlimb perfusion in Rac2-/- and Nox2-/- mice does not result from impaired collateral growth |
| Q37520596 | Targeting angiogenesis to restore the microcirculation after reperfused MI. |
| Q34173287 | Temporal patterns of blood flow and nitric oxide synthase expression affect macrophage accumulation and proliferation during collateral growth |
| Q91816174 | The Extraordinary Role of Extracellular RNA in Arteriogenesis, the Growth of Collateral Arteries |
| Q92316107 | The Human Coronary Collateral Circulation, Its Extracardiac Anastomoses and Their Therapeutic Promotion |
| Q58692821 | The Role of Midkine in Arteriogenesis, Involving Mechanosensing, Endothelial Cell Proliferation, and Vasodilation |
| Q90413613 | The Roles of AMPK in Revascularization |
| Q50691709 | The Timing of Onset of Mechanical Systole and Diastole in Reference to the QRS-T Complex: a Study to Determine Performance Criteria for a Non-Invasive Diastolic Timed Vibration Massage System in Treatment of Potentially Unstable Cardiac Disorders |
| Q34756631 | The collateral circulation of the heart |
| Q37940769 | The coronary collateral circulation: genetic and environmental determinants in experimental models and humans |
| Q42873793 | The hemodynamic paradox as a phenomenon triggering recurrent reflux in varicose vein disease |
| Q37670498 | Therapeutic approaches in the stimulation of the coronary collateral circulation |
| Q37405822 | Training-induced vascular adaptations to ischemic muscle. |
| Q46239842 | Trpv4 induces collateral vessel growth during regeneration of the arterial circulation |
| Q33325686 | Up-regulation of multiple proteins and biological processes during maxillary expansion in rats |
| Q37357266 | Update on therapeutic vascularization strategies. |
| Q45389592 | Uric acid and coronary collateral circulation: to be or not to be? |
| Q37929573 | Vascular growth in health and disease |
| Q34972793 | Vascular remodeling after ischemic stroke: mechanisms and therapeutic potentials |
| Q50941661 | [Effects of polyethylene oxide on blood perfusion in the hind limbs of rats with chronic hindlimb ischemia]. |
| Q41159240 | microRNA-352 regulates collateral vessel growth induced by elevated fluid shear stress in the rat hind limb |
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