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Advances in Wound Care
|
October 31, 2018
Iron Chelation with Transdermal Deferoxamine Accelerates Healing of Murine Sickle Cell Ulcers
Melanie Rodrigues, Clark A Bonham, Caterina P Minniti, et al.
Neuroscience
|
June 17, 2023
Descending Facilitation of Nociceptive Transmission From the Rostral Ventromedial Medulla Contributes to Hyperalgesia in Mice with Sickle Cell Disease
Victoria M Rogness, Joseph Juliette, Iryna A Khasabova, et al.
Blood
|
February 24, 2019
Sensitization of nociceptors by prostaglandin E<sub>2</sub>-glycerol contributes to hyperalgesia in mice with sickle cell disease
Iryna A Khasabova, Megan Uhelski, Sergey G Khasabov, et al.
Cancer Research
|
August 3, 2002
Morphine stimulates angiogenesis by activating proangiogenic and survival-promoting signaling and promotes breast tumor growth
Kalpna Gupta, Smita Kshirsagar, Liming Chang, et al.
Journal of Clinical Medicine
|
December 4, 2020
Considerations for Cannabis Use to Treat Pain in Sickle Cell Disease
Donovan A Argueta, Anupam Aich, Fjolla Muqolli, et al.
Free Radical Biology & Medicine
|
July 11, 2025
Breaking the vicious cycle in sickle cell disease: Redox stress impairs red blood cell rheology and promotes lung vasocongestion
Tarun Pant, Keguo Li, Deron W Jones, et al.
American Journal of Physiology. Renal Physiology
|
April 4, 2008
Morphine induces mesangial cell proliferation and glomerulopathy via kappa-opioid receptors
Marc L Weber, Mariya Farooqui, Julia Nguyen, et al.
Journal of Oncology
|
February 9, 2012
Influence of morphine on pericyte-endothelial interaction: implications for antiangiogenic therapy
Kathryn Luk, Sonja Boatman, Katherine N Johnson, et al.
International Journal of Nephrology and Renovascular Disease
|
August 14, 2012
Morphine promotes renal pathology in sickle mice
Marc L Weber, Derek Vang, Paulo E Velho, et al.
Blood Vessels, Thrombosis & Hemostasis
|
January 29, 2026
A novel transdermal curcumin gel shows potential in improving cardiac bioenergetic functions in Berkeley sickle cell mice
Sirsendu Jana, Wayne Hicks, Haley Garbus-Grant, et al.
Page
of 14
Search research articles
Search
Showing results (71-80 of 140) with videos related to
Sort By:
Page
of 14
Advances in Wound Care
|
October 31, 2018
Iron Chelation with Transdermal Deferoxamine Accelerates Healing of Murine Sickle Cell Ulcers
Melanie Rodrigues, Clark A Bonham, Caterina P Minniti, et al.
Neuroscience
|
June 17, 2023
Descending Facilitation of Nociceptive Transmission From the Rostral Ventromedial Medulla Contributes to Hyperalgesia in Mice with Sickle Cell Disease
Victoria M Rogness, Joseph Juliette, Iryna A Khasabova, et al.
Blood
|
February 24, 2019
Sensitization of nociceptors by prostaglandin E<sub>2</sub>-glycerol contributes to hyperalgesia in mice with sickle cell disease
Iryna A Khasabova, Megan Uhelski, Sergey G Khasabov, et al.
Cancer Research
|
August 3, 2002
Morphine stimulates angiogenesis by activating proangiogenic and survival-promoting signaling and promotes breast tumor growth
Kalpna Gupta, Smita Kshirsagar, Liming Chang, et al.
Journal of Clinical Medicine
|
December 4, 2020
Considerations for Cannabis Use to Treat Pain in Sickle Cell Disease
Donovan A Argueta, Anupam Aich, Fjolla Muqolli, et al.
Free Radical Biology & Medicine
|
July 11, 2025
Breaking the vicious cycle in sickle cell disease: Redox stress impairs red blood cell rheology and promotes lung vasocongestion
Tarun Pant, Keguo Li, Deron W Jones, et al.
American Journal of Physiology. Renal Physiology
|
April 4, 2008
Morphine induces mesangial cell proliferation and glomerulopathy via kappa-opioid receptors
Marc L Weber, Mariya Farooqui, Julia Nguyen, et al.
Journal of Oncology
|
February 9, 2012
Influence of morphine on pericyte-endothelial interaction: implications for antiangiogenic therapy
Kathryn Luk, Sonja Boatman, Katherine N Johnson, et al.
International Journal of Nephrology and Renovascular Disease
|
August 14, 2012
Morphine promotes renal pathology in sickle mice
Marc L Weber, Derek Vang, Paulo E Velho, et al.
Blood Vessels, Thrombosis & Hemostasis
|
January 29, 2026
A novel transdermal curcumin gel shows potential in improving cardiac bioenergetic functions in Berkeley sickle cell mice
Sirsendu Jana, Wayne Hicks, Haley Garbus-Grant, et al.
Page
of 14