RT @VI4Research: #VI4RecReading from @igorlucasgs at @MGHSteeleLabs ⬇️ "Exercise Training Improves Tumor Control by Increasing CD8 + T-cell…
#VI4RecReading from @igorlucasgs at @MGHSteeleLabs ⬇️ "Exercise Training Improves Tumor Control by Increasing CD8 + T-cell Infiltration via CXCR3 Signaling and Sensitizes Breast Cancer to Immune Checkpoint Blockade" - https://t.co/wPnh2UiAnm 🗣️ @BalkoLab
A study mechanistically showing the benefit of exercise in breast cancer mouse models. “Exercise training improves tumor control by increasing CD8+ T-cell infIltration via CXCR3 signaling and sensitizes breast cancer to immune checkpoint blockade” https
#ExerciseTraining may slow tumor growth and improve outcomes for females with #BreastCancer, by stimulating naturally occurring immune mechanisms, researchers at @MassGeneralNews and @harvardmed have found. Find more about this study https://t.co/5ElM7awJ
Fascinating research on stimulating the immune system with Exercise...
Auf verschiedenen Ebenen (Modulation Blutversorgung, Aktivierung T Zellen, Reduktion der 'Immunblockade' durch den Tumor) reduziert Bewegungstraining bei Mäusen deutlich Tumoren von Brustkrebszellen. Das könnte auch für Menschen etwas bedeuten.
RT @Ludwig_Cancer: A study led by Ludwig @harvardmed's Rakesh Jain detailed in mouse models of breast cancer how aerobic exercise alters th…
RT @DrScottLear: Exercise training in mice 🐭 delayed progression of breast cancer tumor compared @CIR_AACR : https://t.co/ndbZMJXWZ5 #cance…
Exercise training in mice 🐭 delayed progression of breast cancer tumor compared @CIR_AACR : https://t.co/ndbZMJXWZ5 #cancer #exercise https://t.co/1BYxtP4gfz
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
RT @groen_w: Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast canc…
RT @groen_w: Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast canc…
Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast cancer to immune checkpoint blockade | Cancer Immunology Research https://t.co/MkZ0mp6FiQ
RT @groen_w: Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast canc…
RT @groen_w: Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast canc…
RT @groen_w: Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast canc…
Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast cancer to immune checkpoint blockade. https://t.co/ZoSRCiXiry
Scientists from @harvardmed provide a rationale for the clinical translation of exercise training to improve immunotherapy of #BreastCancer. #TumorMicroenvironment 📌 @CIR_AACR 📍 https://t.co/VmwhoKQBAC https://t.co/udJzcjnnLO
Check out this study by @harvardmed's Rakesh Jain. Rakesh spoke at our cancer prevention and physical activity virtual conference earlier this year, in collaboration with @Ludwig_Cancer 👇
RT @Ludwig_Cancer: A study led by Ludwig @harvardmed's Rakesh Jain detailed in mouse models of breast cancer how aerobic exercise alters th…
A study led by Ludwig @harvardmed's Rakesh Jain detailed in mouse models of breast cancer how aerobic exercise alters the microenvironment of tumors and stimulates anti-cancer immune responses. The findings offer a rationale for its use in cancer therapy h
Excercise and immunity 💪 https://t.co/xemGoO5XXZ
Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 sig... https://t.co/ho6yiRZf6I
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
congratulation @igorlucasgs and everybody involved in this very interesting study on the impact of exercise therapy on tumor control and tumor microenvironment!
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
Check out this paper from NFCR Fellow Rakesh Jain. The work of Dr. Jain & team will be presented at #AACR21! #BreastCancer #Immunotherapy #Together4ACure
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast cancer to immune checkpoint blockade https://t.co/ohf6iTcAow
Exercise training improves tumor control by increasing CD8+ T-cell infiltration via CXCR3 signaling and sensitizes breast cancer to immune checkpoint blockade https://t.co/sqhsEFy3ga
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
RT @CIR_AACR: #AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfi…
#AACR21 💥 Poster-related paper! 💥 Find out how optimized exercise therapy (#ExTr) affects the #TumorVasculature, #ImmuneInfiltration, and therapy sensitivity in refractory #BreastCancer. @igorlucasgs @_ashwinsk @MGHSteeleLabs #CXCR3 #CD8 #ICB https://t.c