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.
Exercise is the cancer drug we all forget we need.
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