�ݺ�ߣshows by User: FilipKonecny

�ݺ�ߣshows by User: FilipKonecny / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: FilipKonecny / Tue, 31 Jan 2023 20:51:20 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: FilipKonecny Modeling of cardiac contractility-systolic index (ESPVR); comparison of ES (end systolic point) vs. Emax (Max. PV point).pdf /slideshow/modeling-of-cardiac-contractilitysystolic-index-espvr-comparison-of-es-end-systolic-point-vs-emax-max-pv-pointpdf/255632756 modelingofcardiaccontractility-systolicindexespvrcomparisonofesendsystolicpointvs-230131205120-b871407f
Cardiac systolic index of contractility is modeled by Emax (currently). Emax point(s) selection could be dependent on afterload (AL) resistance during measurement as AL is changing independently and could be influenced by e.g., ventilation, autonomic NS, pharmaceuticals etc., On this slides you can appreciate new approach of modeling of systolic elastance, based on more-physiological End-systolic point selection (ES) points.]]>
Cardiac systolic index of contractility is modeled by Emax (currently). Emax point(s) selection could be dependent on afterload (AL) resistance during measurement as AL is changing independently and could be influenced by e.g., ventilation, autonomic NS, pharmaceuticals etc., On this slides you can appreciate new approach of modeling of systolic elastance, based on more-physiological End-systolic point selection (ES) points.]]> Tue, 31 Jan 2023 20:51:20 GMT /slideshow/modeling-of-cardiac-contractilitysystolic-index-espvr-comparison-of-es-end-systolic-point-vs-emax-max-pv-pointpdf/255632756 FilipKonecny@slideshare.net(FilipKonecny) Modeling of cardiac contractility-systolic index (ESPVR); comparison of ES (end systolic point) vs. Emax (Max. PV point).pdf FilipKonecny Cardiac systolic index of contractility is modeled by Emax (currently). Emax point(s) selection could be dependent on afterload (AL) resistance during measurement as AL is changing independently and could be influenced by e.g., ventilation, autonomic NS, pharmaceuticals etc., On this slides you can appreciate new approach of modeling of systolic elastance, based on more-physiological End-systolic point selection (ES) points. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/modelingofcardiaccontractility-systolicindexespvrcomparisonofesendsystolicpointvs-230131205120-b871407f-thumbnail.jpg?width=120&height=120&fit=bounds" /> Cardiac systolic index of contractility is modeled by Emax (currently). Emax point(s) selection could be dependent on afterload (AL) resistance during measurement as AL is changing independently and could be influenced by e.g., ventilation, autonomic NS, pharmaceuticals etc., On this slides you can appreciate new approach of modeling of systolic elastance, based on more-physiological End-systolic point selection (ES) points.

Modeling of cardiac contractility-systolic index (ESPVR); comparison of ES (end systolic point) vs. Emax (Max. PV point).pdf from Filip Konecny

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0 Swine animal model in pressure volume loop (pvl) research /slideshow/swine-animal-model-in-pressure-volume-loop-pvl-research/249920031 swineanimalmodelinpressurevolumelooppvlresearch-210804203454
�ݺ�ߣ presentation is for researcher/ clinician who is interested in pressure-volume loop (PVL) research using swine model. �ݺ�ߣs are presented in logical order as you would be getting ready for hemodynamic experiment. ]]>
�ݺ�ߣ presentation is for researcher/ clinician who is interested in pressure-volume loop (PVL) research using swine model. �ݺ�ߣs are presented in logical order as you would be getting ready for hemodynamic experiment. ]]> Wed, 04 Aug 2021 20:34:54 GMT /slideshow/swine-animal-model-in-pressure-volume-loop-pvl-research/249920031 FilipKonecny@slideshare.net(FilipKonecny) Swine animal model in pressure volume loop (pvl) research FilipKonecny �ݺ�ߣ presentation is for researcher/ clinician who is interested in pressure-volume loop (PVL) research using swine model. �ݺ�ߣs are presented in logical order as you would be getting ready for hemodynamic experiment. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/swineanimalmodelinpressurevolumelooppvlresearch-210804203454-thumbnail.jpg?width=120&height=120&fit=bounds" /> �ݺ�ߣ presentation is for researcher/ clinician who is interested in pressure-volume loop (PVL) research using swine model. �ݺ�ߣs are presented in logical order as you would be getting ready for hemodynamic experiment.

Swine animal model in pressure volume loop (pvl) research from Filip Konecny

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0 Electronic noise filtering strategy in hemodynamic research /slideshow/electronic-noise-filtering-strategy-in-hemodynamic-research/249439025 noisefilteringstrategyinresearch-210621175932
this slide deck is about how to perform step by step electronic data noise filtering using software functions and to find fundamental data frequency]]>
this slide deck is about how to perform step by step electronic data noise filtering using software functions and to find fundamental data frequency]]> Mon, 21 Jun 2021 17:59:32 GMT /slideshow/electronic-noise-filtering-strategy-in-hemodynamic-research/249439025 FilipKonecny@slideshare.net(FilipKonecny) Electronic noise filtering strategy in hemodynamic research FilipKonecny this slide deck is about how to perform step by step electronic data noise filtering using software functions and to find fundamental data frequency <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/noisefilteringstrategyinresearch-210621175932-thumbnail.jpg?width=120&height=120&fit=bounds" /> this slide deck is about how to perform step by step electronic data noise filtering using software functions and to find fundamental data frequency

Electronic noise filtering strategy in hemodynamic research from Filip Konecny

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0 How to create cardiac output live channel using pv loop recording /slideshow/how-to-create-cardiac-output-live-channel-using-pv-loop-recording/193208245 howtocreatecardiacoutputlivechannelusingpvlooprecording-191113165945
This is very common question during the data recording any researcher might have. How to create live channel to track the cardiac output (CO) during pressure-volume loop recording. Using ADInstrument labChart 8 software, I have described it in step by step fashion. Similarly, you can also use this function to display the Stroke work (SW) or Ejection Fraction (EF) live. ]]>
This is very common question during the data recording any researcher might have. How to create live channel to track the cardiac output (CO) during pressure-volume loop recording. Using ADInstrument labChart 8 software, I have described it in step by step fashion. Similarly, you can also use this function to display the Stroke work (SW) or Ejection Fraction (EF) live. ]]> Wed, 13 Nov 2019 16:59:45 GMT /slideshow/how-to-create-cardiac-output-live-channel-using-pv-loop-recording/193208245 FilipKonecny@slideshare.net(FilipKonecny) How to create cardiac output live channel using pv loop recording FilipKonecny This is very common question during the data recording any researcher might have. How to create live channel to track the cardiac output (CO) during pressure-volume loop recording. Using ADInstrument labChart 8 software, I have described it in step by step fashion. Similarly, you can also use this function to display the Stroke work (SW) or Ejection Fraction (EF) live. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/howtocreatecardiacoutputlivechannelusingpvlooprecording-191113165945-thumbnail.jpg?width=120&height=120&fit=bounds" /> This is very common question during the data recording any researcher might have. How to create live channel to track the cardiac output (CO) during pressure-volume loop recording. Using ADInstrument labChart 8 software, I have described it in step by step fashion. Similarly, you can also use this function to display the Stroke work (SW) or Ejection Fraction (EF) live.

How to create cardiac output live channel using pv loop recording from Filip Konecny

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0 Pulmonary artery pressure rat open chest /FilipKonecny/pulmonary-artery-pressure-rat-open-chest pulmonaryarterypressureratopenchest-180301192504
Measurement of Pulmonary artery pressure in a mechanically ventilated rat is described on couple slides with characterization of PA pressure wave ]]>
Measurement of Pulmonary artery pressure in a mechanically ventilated rat is described on couple slides with characterization of PA pressure wave ]]> Thu, 01 Mar 2018 19:25:04 GMT /FilipKonecny/pulmonary-artery-pressure-rat-open-chest FilipKonecny@slideshare.net(FilipKonecny) Pulmonary artery pressure rat open chest FilipKonecny Measurement of Pulmonary artery pressure in a mechanically ventilated rat is described on couple slides with characterization of PA pressure wave <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pulmonaryarterypressureratopenchest-180301192504-thumbnail.jpg?width=120&height=120&fit=bounds" /> Measurement of Pulmonary artery pressure in a mechanically ventilated rat is described on couple slides with characterization of PA pressure wave

Pulmonary artery pressure rat open chest from Filip Konecny

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0 Cardiac Contractility using QA interval /slideshow/cardiac-contractility-using-qa-interval/87254671 contractilityusingqainterval-180205143417
Using swine model to perform correlations of QA interval with end systolic elastance using quadratic and linear curve fitting. Also intricacies of how to best capture A in the QA interval are described. ]]>
Using swine model to perform correlations of QA interval with end systolic elastance using quadratic and linear curve fitting. Also intricacies of how to best capture A in the QA interval are described. ]]> Mon, 05 Feb 2018 14:34:17 GMT /slideshow/cardiac-contractility-using-qa-interval/87254671 FilipKonecny@slideshare.net(FilipKonecny) Cardiac Contractility using QA interval FilipKonecny Using swine model to perform correlations of QA interval with end systolic elastance using quadratic and linear curve fitting. Also intricacies of how to best capture A in the QA interval are described. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/contractilityusingqainterval-180205143417-thumbnail.jpg?width=120&height=120&fit=bounds" /> Using swine model to perform correlations of QA interval with end systolic elastance using quadratic and linear curve fitting. Also intricacies of how to best capture A in the QA interval are described.

Cardiac Contractility using QA interval from Filip Konecny

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0 Intrathoracic pressure measurement in a rat /slideshow/intrathoracic-pressure-measurement-in-a-rat/81105477 intrathoracicpressurerat-171023144345
measured pressures in the chest cavity of a rat using solid state pressure catheter showed interesting values and pressure waves captured during controlled mechanical volume ventilation. ]]>
measured pressures in the chest cavity of a rat using solid state pressure catheter showed interesting values and pressure waves captured during controlled mechanical volume ventilation. ]]> Mon, 23 Oct 2017 14:43:45 GMT /slideshow/intrathoracic-pressure-measurement-in-a-rat/81105477 FilipKonecny@slideshare.net(FilipKonecny) Intrathoracic pressure measurement in a rat FilipKonecny measured pressures in the chest cavity of a rat using solid state pressure catheter showed interesting values and pressure waves captured during controlled mechanical volume ventilation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/intrathoracicpressurerat-171023144345-thumbnail.jpg?width=120&height=120&fit=bounds" /> measured pressures in the chest cavity of a rat using solid state pressure catheter showed interesting values and pressure waves captured during controlled mechanical volume ventilation.

Intrathoracic pressure measurement in a rat from Filip Konecny

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0 Characterization of end systole (PPESPVR) using Pressure-volume loops /slideshow/characterization-of-end-systole-ppespvr-using-pressurevolume-loops/79288156 characterizationofendsystoleppespvrusingpvloops-170830134816
PPESPVR is load dependent relationship of Peak LV pressure point at LV PV loop and ES point, also at LV PV loop. Both can be linearly linked and extended axis towards the declining pressure and volume leads to picking up Pressure at intercept with volume at intercept. Both P int. and V int. can be used to calculate parameters of systole during one cardiac cycle. ]]>
PPESPVR is load dependent relationship of Peak LV pressure point at LV PV loop and ES point, also at LV PV loop. Both can be linearly linked and extended axis towards the declining pressure and volume leads to picking up Pressure at intercept with volume at intercept. Both P int. and V int. can be used to calculate parameters of systole during one cardiac cycle. ]]> Wed, 30 Aug 2017 13:48:16 GMT /slideshow/characterization-of-end-systole-ppespvr-using-pressurevolume-loops/79288156 FilipKonecny@slideshare.net(FilipKonecny) Characterization of end systole (PPESPVR) using Pressure-volume loops FilipKonecny PPESPVR is load dependent relationship of Peak LV pressure point at LV PV loop and ES point, also at LV PV loop. Both can be linearly linked and extended axis towards the declining pressure and volume leads to picking up Pressure at intercept with volume at intercept. Both P int. and V int. can be used to calculate parameters of systole during one cardiac cycle. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/characterizationofendsystoleppespvrusingpvloops-170830134816-thumbnail.jpg?width=120&height=120&fit=bounds" /> PPESPVR is load dependent relationship of Peak LV pressure point at LV PV loop and ES point, also at LV PV loop. Both can be linearly linked and extended axis towards the declining pressure and volume leads to picking up Pressure at intercept with volume at intercept. Both P int. and V int. can be used to calculate parameters of systole during one cardiac cycle.

Characterization of end systole (PPESPVR) using Pressure-volume loops from Filip Konecny

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0 Pressure flow (pf loop) large animal /FilipKonecny/pressure-flow-pf-loop-large-animal pressure-flowpflooplargeanimal-170608155007
Interesting description of Blood pressure-Flow in-vivo as a (pressure-flow loop). The PF loop can characterize central blood hemodynamics. Used Dobutamine (positive ionotrop) allows for accounts of immediate hemodynamic changes. ]]>
Interesting description of Blood pressure-Flow in-vivo as a (pressure-flow loop). The PF loop can characterize central blood hemodynamics. Used Dobutamine (positive ionotrop) allows for accounts of immediate hemodynamic changes. ]]> Thu, 08 Jun 2017 15:50:07 GMT /FilipKonecny/pressure-flow-pf-loop-large-animal FilipKonecny@slideshare.net(FilipKonecny) Pressure flow (pf loop) large animal FilipKonecny Interesting description of Blood pressure-Flow in-vivo as a (pressure-flow loop). The PF loop can characterize central blood hemodynamics. Used Dobutamine (positive ionotrop) allows for accounts of immediate hemodynamic changes. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pressure-flowpflooplargeanimal-170608155007-thumbnail.jpg?width=120&height=120&fit=bounds" /> Interesting description of Blood pressure-Flow in-vivo as a (pressure-flow loop). The PF loop can characterize central blood hemodynamics. Used Dobutamine (positive ionotrop) allows for accounts of immediate hemodynamic changes.

Pressure flow (pf loop) large animal from Filip Konecny

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0 Transonic PV work book /slideshow/transonic-pv-work-book/68193605 f4bd3949-ccf8-4edd-b6f8-3645258a8b44-161104141554
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]]> Fri, 04 Nov 2016 14:15:53 GMT /slideshow/transonic-pv-work-book/68193605 FilipKonecny@slideshare.net(FilipKonecny) Transonic PV work book FilipKonecny <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/f4bd3949-ccf8-4edd-b6f8-3645258a8b44-161104141554-thumbnail.jpg?width=120&height=120&fit=bounds" />

Transonic PV work book from Filip Konecny

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0 Pressure volume assessment of diastolic dysfunction /slideshow/pressure-volume-assessment-of-diastolic-dysfunction/52948018 pressurevolumeassessmentofdiastolicdysfunction-150918201150-lva1-app6892
Deposited slides describe some tips and tricks how to analyze hemodynamic data using pressure-volume loop. ]]>
Deposited slides describe some tips and tricks how to analyze hemodynamic data using pressure-volume loop. ]]> Fri, 18 Sep 2015 20:11:50 GMT /slideshow/pressure-volume-assessment-of-diastolic-dysfunction/52948018 FilipKonecny@slideshare.net(FilipKonecny) Pressure volume assessment of diastolic dysfunction FilipKonecny Deposited slides describe some tips and tricks how to analyze hemodynamic data using pressure-volume loop. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pressurevolumeassessmentofdiastolicdysfunction-150918201150-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds" /> Deposited slides describe some tips and tricks how to analyze hemodynamic data using pressure-volume loop.

Pressure volume assessment of diastolic dysfunction from Filip Konecny

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0 https://cdn.slidesharecdn.com/profile-photo-FilipKonecny-48x48.jpg?cb=1675196713 Surgical and data analysis management of pre-clinical animal projects (from design of pressure, blood flow and pressure volume hemodynamics measurements up until careful data analysis and reporting for internal or external purposes) Selected Skills: Echocardiography/ECG/ invasive pressure and pressure-volume (Millar, SciSense), transit time invasive blood flow measurement. Open acute / survival heart surgeries on large animals (swine, dog, sheep) Open chest coronary artery ligation/TAB (mice, rats) Testing efficacy and safety ... http://fhs.mcmaster.ca/plasticsurgery/contact_information.html https://cdn.slidesharecdn.com/ss_thumbnails/modelingofcardiaccontractility-systolicindexespvrcomparisonofesendsystolicpointvs-230131205120-b871407f-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/modeling-of-cardiac-contractilitysystolic-index-espvr-comparison-of-es-end-systolic-point-vs-emax-max-pv-pointpdf/255632756 Modeling of cardiac co... https://cdn.slidesharecdn.com/ss_thumbnails/swineanimalmodelinpressurevolumelooppvlresearch-210804203454-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/swine-animal-model-in-pressure-volume-loop-pvl-research/249920031 Swine animal model in ... https://cdn.slidesharecdn.com/ss_thumbnails/noisefilteringstrategyinresearch-210621175932-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/electronic-noise-filtering-strategy-in-hemodynamic-research/249439025 Electronic noise filte...