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#hemodynamics — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #hemodynamics, aggregated by home.social.

  1. Hemodynamic initial-dip reflects local spiking activity.
    🧠 Initial-dip: transient HbR increase.
    🔍 More spatially specific than hemodynamic response.
    📉 HbT decrease leads to capping HbR.
    🔄 Biphasic HbR with early decrease, late rebound.

    #fNIRS #Neuroimaging #Hemodynamics #Neuroscience #Pub2Post tnyp.me/l3nndrWk/m

  2. Hemodynamic initial-dip reflects local spiking activity.
    🧠 Initial-dip: transient HbR increase.
    🔍 More spatially specific than hemodynamic response.
    📉 HbT decrease leads to capping HbR.
    🔄 Biphasic HbR with early decrease, late rebound.

    #fNIRS #Neuroimaging #Hemodynamics #Neuroscience #Pub2Post tnyp.me/l3nndrWk/m

  3. Hemodynamic initial-dip reflects local spiking activity.
    🧠 Initial-dip: transient HbR increase.
    🔍 More spatially specific than hemodynamic response.
    📉 HbT decrease leads to capping HbR.
    🔄 Biphasic HbR with early decrease, late rebound.

    #fNIRS #Neuroimaging #Hemodynamics #Neuroscience #Pub2Post tnyp.me/l3nndrWk/m

  4. Hemodynamic initial-dip reflects local spiking activity.
    🧠 Initial-dip: transient HbR increase.
    🔍 More spatially specific than hemodynamic response.
    📉 HbT decrease leads to capping HbR.
    🔄 Biphasic HbR with early decrease, late rebound.

    #fNIRS #Neuroimaging #Hemodynamics #Neuroscience #Pub2Post tnyp.me/l3nndrWk/m

  5. Hemodynamic initial-dip reflects local spiking activity.
    🧠 Initial-dip: transient HbR increase.
    🔍 More spatially specific than hemodynamic response.
    📉 HbT decrease leads to capping HbR.
    🔄 Biphasic HbR with early decrease, late rebound.

    #fNIRS #Neuroimaging #Hemodynamics #Neuroscience #Pub2Post tnyp.me/l3nndrWk/m

  6. 'Hemodynamic Evaluation of an Enhanced External Counterpulsation Strategy for Coronary Heart Disease with a Geometric Multiscale Model' - a new article published in 'Cardiovascular Innovations and Applications' on #ScienceOpen 🔓🔗 scienceopen.com/hosted-documen

    #CoronaryHeartDisease #EECP #Hemodynamics #ComputationalModeling #CardiovascularResearch

  7. 'Hemodynamic Evaluation of an Enhanced External Counterpulsation Strategy for Coronary Heart Disease with a Geometric Multiscale Model' - a new article published in 'Cardiovascular Innovations and Applications' on #ScienceOpen 🔓🔗 scienceopen.com/hosted-documen

    #CoronaryHeartDisease #EECP #Hemodynamics #ComputationalModeling #CardiovascularResearch

  8. 'Hemodynamic Evaluation of an Enhanced External Counterpulsation Strategy for Coronary Heart Disease with a Geometric Multiscale Model' - a new article published in 'Cardiovascular Innovations and Applications' on #ScienceOpen 🔓🔗 scienceopen.com/hosted-documen

    #CoronaryHeartDisease #EECP #Hemodynamics #ComputationalModeling #CardiovascularResearch

  9. The previous consensus on circulatory shock and hemodynamic monitoring was brilliant. I have a talk for the residents of our ICU which is almost entirely based on this paper.

    link.springer.com/article/10.1

    #Hemodynamics #Monitoring #CriticalCare #Shock #FOAMcc

  10. The previous consensus on circulatory shock and hemodynamic monitoring was brilliant. I have a talk for the residents of our ICU which is almost entirely based on this paper.

    link.springer.com/article/10.1

    #Hemodynamics #Monitoring #CriticalCare #Shock #FOAMcc

  11. The previous consensus on circulatory shock and hemodynamic monitoring was brilliant. I have a talk for the residents of our ICU which is almost entirely based on this paper.

    link.springer.com/article/10.1

    #Hemodynamics #Monitoring #CriticalCare #Shock #FOAMcc

  12. The previous consensus on circulatory shock and hemodynamic monitoring was brilliant. I have a talk for the residents of our ICU which is almost entirely based on this paper.

    link.springer.com/article/10.1

    #Hemodynamics #Monitoring #CriticalCare #Shock #FOAMcc

  13. The previous consensus on circulatory shock and hemodynamic monitoring was brilliant. I have a talk for the residents of our ICU which is almost entirely based on this paper.

    link.springer.com/article/10.1

    #Hemodynamics #Monitoring #CriticalCare #Shock #FOAMcc

  14. #Albumin Should Be Remembered When Patients With #SepticShock Are Resuscitated

    “Although no significant difference in 28-day mortality rate or 90-day mortality rate was observed between the use of albumin and #crystalloids, #colloids appeared to be more effective than crystalloids in stabilizing hemodynamic end points”

    I couldn't agree more. Sometimes you have to find what to do at the moment. It is safe and may help.

    journal.chestnet.org/article/S

    #FOAMcc #CHEST #CriticalCare #Sepsis #Hemodynamics

  15. #Albumin Should Be Remembered When Patients With #SepticShock Are Resuscitated

    “Although no significant difference in 28-day mortality rate or 90-day mortality rate was observed between the use of albumin and #crystalloids, #colloids appeared to be more effective than crystalloids in stabilizing hemodynamic end points”

    I couldn't agree more. Sometimes you have to find what to do at the moment. It is safe and may help.

    journal.chestnet.org/article/S

    #FOAMcc #CHEST #CriticalCare #Sepsis #Hemodynamics

  16. #Albumin Should Be Remembered When Patients With #SepticShock Are Resuscitated

    “Although no significant difference in 28-day mortality rate or 90-day mortality rate was observed between the use of albumin and #crystalloids, #colloids appeared to be more effective than crystalloids in stabilizing hemodynamic end points”

    I couldn't agree more. Sometimes you have to find what to do at the moment. It is safe and may help.

    journal.chestnet.org/article/S

    #FOAMcc #CHEST #CriticalCare #Sepsis #Hemodynamics

  17. #Albumin Should Be Remembered When Patients With #SepticShock Are Resuscitated

    “Although no significant difference in 28-day mortality rate or 90-day mortality rate was observed between the use of albumin and #crystalloids, #colloids appeared to be more effective than crystalloids in stabilizing hemodynamic end points”

    I couldn't agree more. Sometimes you have to find what to do at the moment. It is safe and may help.

    journal.chestnet.org/article/S

    #FOAMcc #CHEST #CriticalCare #Sepsis #Hemodynamics

  18. #Albumin Should Be Remembered When Patients With #SepticShock Are Resuscitated

    “Although no significant difference in 28-day mortality rate or 90-day mortality rate was observed between the use of albumin and #crystalloids, #colloids appeared to be more effective than crystalloids in stabilizing hemodynamic end points”

    I couldn't agree more. Sometimes you have to find what to do at the moment. It is safe and may help.

    journal.chestnet.org/article/S

    #FOAMcc #CHEST #CriticalCare #Sepsis #Hemodynamics

  19. Nice work by Jon-Emile Kenny et. al emphasizing that a significant amount of fluid challenge in ED are ineffective to improve flow, therefore can’t have any positive effect at all.

    jintensivecare.biomedcentral.c

    #JIntensiveCare #FOAMcc #CriticalCare #Physiology #Hemodynamics

  20. Nice work by Jon-Emile Kenny et. al emphasizing that a significant amount of fluid challenge in ED are ineffective to improve flow, therefore can’t have any positive effect at all.

    jintensivecare.biomedcentral.c

    #JIntensiveCare #FOAMcc #CriticalCare #Physiology #Hemodynamics

  21. Nice work by Jon-Emile Kenny et. al emphasizing that a significant amount of fluid challenge in ED are ineffective to improve flow, therefore can’t have any positive effect at all.

    jintensivecare.biomedcentral.c

    #JIntensiveCare #FOAMcc #CriticalCare #Physiology #Hemodynamics

  22. Nice work by Jon-Emile Kenny et. al emphasizing that a significant amount of fluid challenge in ED are ineffective to improve flow, therefore can’t have any positive effect at all.

    jintensivecare.biomedcentral.c

    #JIntensiveCare #FOAMcc #CriticalCare #Physiology #Hemodynamics

  23. Nice work by Jon-Emile Kenny et. al emphasizing that a significant amount of fluid challenge in ED are ineffective to improve flow, therefore can’t have any positive effect at all.

    jintensivecare.biomedcentral.c

    #JIntensiveCare #FOAMcc #CriticalCare #Physiology #Hemodynamics

  24. Critical Care Transesophageal Echocardiography for the Resuscitation of Shock: An Important Diagnostic Skill for the Modern Intensivist

    journal.chestnet.org/article/S

    #CriticalCare #POCUS #Hemodynamics

  25. Critical Care Transesophageal Echocardiography for the Resuscitation of Shock: An Important Diagnostic Skill for the Modern Intensivist

    journal.chestnet.org/article/S

    #CriticalCare #POCUS #Hemodynamics

  26. Critical Care Transesophageal Echocardiography for the Resuscitation of Shock: An Important Diagnostic Skill for the Modern Intensivist

    journal.chestnet.org/article/S

    #CriticalCare #POCUS #Hemodynamics

  27. Critical Care Transesophageal Echocardiography for the Resuscitation of Shock: An Important Diagnostic Skill for the Modern Intensivist

    journal.chestnet.org/article/S

    #CriticalCare #POCUS #Hemodynamics

  28. Elite Freedivers Beat #Seals During Deep Dives – Incredible Heart Rates and Brain Oxygen Levels

    Back in 2021, McKnight et al. published a paper in which they used a special device, the PortaDiver, to make #NIRS measurements with elite #freedivers. This one-of-a-kind device is a modified version of the PortaLite mini, and was made by request for this specific study.

    #diving #sport #research #hemodynamics #brain #fNIRS #HR

  29. Elite Freedivers Beat #Seals During Deep Dives – Incredible Heart Rates and Brain Oxygen Levels

    Back in 2021, McKnight et al. published a paper in which they used a special device, the PortaDiver, to make #NIRS measurements with elite #freedivers. This one-of-a-kind device is a modified version of the PortaLite mini, and was made by request for this specific study.

    #diving #sport #research #hemodynamics #brain #fNIRS #HR