RT @NephroP: #POCUS basics 🔻 Schematic representation of the calculation of stroke volume (SV) and cardiac output (CO) by #echofirst. CSA…
RT @NephroP: #POCUS basics 🔻 Schematic representation of the calculation of stroke volume (SV) and cardiac output (CO) by #echofirst. CSA…
#POCUS basics 🔻 Schematic representation of the calculation of stroke volume (SV) and cardiac output (CO) by #echofirst. CSA: cross-sectional area; LVOT: left ventricular outflow tract; d: diameter; RVOT: right ventricular outflow tract; LV: left https:/
RT @IM_Crit_: @MDKrunalP @pulmtoilet @cjosephy High LVOT VTI should be expected (or even a "clue") in mod-severe aortic regurgitation. From…
RT @IM_Crit_: @MDKrunalP @pulmtoilet @cjosephy High LVOT VTI should be expected (or even a "clue") in mod-severe aortic regurgitation. From…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
Heres another classic pearl for ya from @IM_Crit_
RT @IM_Crit_: @MDKrunalP @pulmtoilet @cjosephy High LVOT VTI should be expected (or even a "clue") in mod-severe aortic regurgitation. From…
Thanks @IM_Crit_ for recommending this paper by Dr Blanco. Well written and concise read on the understanding and utility of VTi. Highly recommend taking a look https://t.co/u2zwPNbUVa
@MDKrunalP @pulmtoilet @cjosephy High LVOT VTI should be expected (or even a "clue") in mod-severe aortic regurgitation. From Blanco's paper in: Ultrasound J 2020; 12: 21 https://t.co/AvUQD64eY5 https://t.co/W2zPGHTMCP
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @MattersoftheH14: .
RT @MattersoftheH14: .
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @MattersoftheH14: .
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
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RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
RT @drshahrul80: Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output…
Rationale for using the velocity–time integral and the minute distance for assessing the stroke volume and cardiac output in point-of-care settings | The Ultrasound Journal #POCUS #FOAMus #CriticalCareUltrasound #FOAMcc #MedEd #IntensiveCare #echofirst 📖 h
RT @cameron_baston: I really like this concept
I really like this concept
@JonahRubinMD More here: https://t.co/d1PnfPk0QZ
@JonahRubinMD Added to that - here’s some opinion support on using VTI alone. It a gross approximation of whether SV is normal or not, but it’s an approximation with well established normal values https://t.co/5q0GkWQkzm
RT @pocus_today: Doppler evaluation for stroke volume / CO determination in #POCUS #FOAMus https://t.co/wIoLH0OzX0 https://t.co/f1dF0Ktn2f
RT @pocus_today: Doppler evaluation for stroke volume / CO determination in #POCUS #FOAMus https://t.co/wIoLH0OzX0 https://t.co/f1dF0Ktn2f
RT @pocus_today: Doppler evaluation for stroke volume / CO determination in #POCUS #FOAMus https://t.co/wIoLH0OzX0 https://t.co/f1dF0Ktn2f
Doppler evaluation for stroke volume / CO determination in #POCUS #FOAMus https://t.co/wIoLH0OzX0 https://t.co/f1dF0Ktn2f
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
RT @NephroP: #echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, th…
#echofirst #POCUS #MedEd Principle of mass conservation - In the absence of valvular regurgitation or intracardiac shunts, the stroke volume is the same across each valve or orifice. Click on 'ALT' for abbreviations if needed. 🔗https://t.co/YrzNe6LGrO htt