22 results on '"Kobylarz, Keith"'
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2. Preclinical Evaluation of 89Zr-Df-IAB22M2C PET as an Imaging Biomarker for the Development of the GUCY2C-CD3 Bispecific PF-07062119 as a T Cell Engaging Therapy
3. Acute Cholesterol Depletion Inhibits Clathrin-Coated Pit Budding
4. FK506 and Erectile Function Preservation in the Cavernous Nerve Injury Model: Optimal Dosing and Timing
5. The Functional and Structural Consequences of Cavernous Nerve Injury are Ameliorated by Sildenafil Citrate
6. The Effect of Hyperbaric Oxygen Therapy on Erectile Function Recovery in a Rat Cavernous Nerve Injury Model
7. The Impact of Shock Wave Therapy at Varied Energy and Dose Levels on Functional and Structural Changes in Erectile Tissue
8. Sildenafil citrate improves erectile function after castration in a rat model
9. p53-Associated Parkin-like cytoplasmic protein (Parc) short-interfering RNA (siRNA) alters p53 location and biology of Peyronieʼs disease fibroblasts
10. Preclinical Evaluation of 89Zr-Df-IAB22M2C PET as an Imaging Biomarker for the Development of the GUCY2C-CD3 Bispecific PF-07062119 as a T Cell Engaging Therapy.
11. ASSESSMENT OF THE USE OF SILDENAFIL CITRATE FOR THE PROTECTION OF ERECTILE TISSUE AND FUNCTION FOLLOWING CASTRATION IN THE RAT MODEL: 971
12. THE DEVELOPMENT OF AN IN VIVO MODEL FOR THE ASSESSMENT OF CIGARETTE SMOKING-ASSOCIATED ERECTILE DYSFUNCTION: 810
13. PROFILING OF THE APOPTOSIS PATHWAYS IN ERECTILE TISSUE FOLLOWING CAVERNOUS NERVE INJURY: 658
14. Sildenafil citrate improves erectile function after castration in a rat model
15. Tight regulation between cell survival and programmed cell death in GBM stem-like cells by EGFR/GSK3b/PP2A signaling.
16. Apoptotic Protein Profiling of Cavernosal Tissue following Cavernous Nerve Injury
17. Endothelial Pre-conditioning – sildenafil prior to cavernous nerve injury in the rat model: defining the optimal dosing and timing regimen for erectile function preservation
18. Cerebellar stimulation reduces inducible nitric oxide...
19. 779: Microarray Analysis of the Impact of Sildenafil Treatment on Gene Expression in the Rat Cavernous Nerve Injury Model
20. Infantile Hemangioma Originates From A Dysregulated But Not Fully Transformed Multipotent Stem Cell.
21. 1051: Short-Term Erectile Function Preservation Using Daily Sildenafil Citrate in a Rat Cavernous Nerve Injury Model is not Mediated Through Neuromodulation.
22. 1050: The Functional and Structural Consequences of Cavernous Nerve Injury in the Rat Model are Ameliorated by Sildenafil Citrate.
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