�ݺ�ߣshows by User: Javidsultandar

�ݺ�ߣshows by User: Javidsultandar / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: Javidsultandar / Tue, 24 Nov 2020 17:18:02 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: Javidsultandar Benefit Of Strengthing Exercises For Cardiac Patient /Javidsultandar/benefit-of-strengthing-exercises-for-cardiac-patient presentation8-201124171802
Strength and resistance training exercise is one of the four types of exercise along with endurance, balance and flexibility. Ideally, all four types of exercise would be included in a healthy workout routine and AHA provides easy to follow guidelines for endurance and strength-training in its Recommendations for Physical Activity in Adults. ]]>
Strength and resistance training exercise is one of the four types of exercise along with endurance, balance and flexibility. Ideally, all four types of exercise would be included in a healthy workout routine and AHA provides easy to follow guidelines for endurance and strength-training in its Recommendations for Physical Activity in Adults. ]]> Tue, 24 Nov 2020 17:18:02 GMT /Javidsultandar/benefit-of-strengthing-exercises-for-cardiac-patient Javidsultandar@slideshare.net(Javidsultandar) Benefit Of Strengthing Exercises For Cardiac Patient Javidsultandar Strength and resistance training exercise is one of the four types of exercise along with endurance, balance and flexibility. Ideally, all four types of exercise would be included in a healthy workout routine and AHA provides easy to follow guidelines for endurance and strength-training in its Recommendations for Physical Activity in Adults. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentation8-201124171802-thumbnail.jpg?width=120&height=120&fit=bounds" /> Strength and resistance training exercise is one of the four types of exercise along with endurance, balance and flexibility. Ideally, all four types of exercise would be included in a healthy workout routine and AHA provides easy to follow guidelines for endurance and strength-training in its Recommendations for Physical Activity in Adults.

Benefit Of Strengthing Exercises For Cardiac Patient from Javidsultandar

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0 Mechanism by which exercise training improves clinical status of cardiac patients /slideshow/mechanism-by-which-exercise-training-improves-clinical-status-of-cardiac-patients-239307160/239307160 presentation7mechanismbywhichexercisetraining-201118043901
Exercise improves cardiovascular health by inducing changes in oxygen delivery, vasculature, peripheral tissues, and inflammation. Exercise improves oxygen delivery throughout the body through promotion of vasodilation and angiogenesis. Exercise increases mitochondrial biogenesis in adipocytes skeletal muscle myotubes and cardiomyocytes Exercise causes a long-term anti-inflammatory effect (which is inversely related to the increased inflammation typically seen in CVD and obesity) Myokines released from skeletal muscle during physical exercise partially mediate these anti-inflammatory effects, and promote inter-tissue cross talk to mediate further cardiovascular benefits ]]>
Exercise improves cardiovascular health by inducing changes in oxygen delivery, vasculature, peripheral tissues, and inflammation. Exercise improves oxygen delivery throughout the body through promotion of vasodilation and angiogenesis. Exercise increases mitochondrial biogenesis in adipocytes skeletal muscle myotubes and cardiomyocytes Exercise causes a long-term anti-inflammatory effect (which is inversely related to the increased inflammation typically seen in CVD and obesity) Myokines released from skeletal muscle during physical exercise partially mediate these anti-inflammatory effects, and promote inter-tissue cross talk to mediate further cardiovascular benefits ]]> Wed, 18 Nov 2020 04:39:01 GMT /slideshow/mechanism-by-which-exercise-training-improves-clinical-status-of-cardiac-patients-239307160/239307160 Javidsultandar@slideshare.net(Javidsultandar) Mechanism by which exercise training improves clinical status of cardiac patients Javidsultandar Exercise improves cardiovascular health by inducing changes in oxygen delivery, vasculature, peripheral tissues, and inflammation. Exercise improves oxygen delivery throughout the body through promotion of vasodilation and angiogenesis. Exercise increases mitochondrial biogenesis in adipocytes skeletal muscle myotubes and cardiomyocytes Exercise causes a long-term anti-inflammatory effect (which is inversely related to the increased inflammation typically seen in CVD and obesity) Myokines released from skeletal muscle during physical exercise partially mediate these anti-inflammatory effects, and promote inter-tissue cross talk to mediate further cardiovascular benefits <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentation7mechanismbywhichexercisetraining-201118043901-thumbnail.jpg?width=120&height=120&fit=bounds" /> Exercise improves cardiovascular health by inducing changes in oxygen delivery, vasculature, peripheral tissues, and inflammation. Exercise improves oxygen delivery throughout the body through promotion of vasodilation and angiogenesis. Exercise increases mitochondrial biogenesis in adipocytes skeletal muscle myotubes and cardiomyocytes Exercise causes a long-term anti-inflammatory effect (which is inversely related to the increased inflammation typically seen in CVD and obesity) Myokines released from skeletal muscle during physical exercise partially mediate these anti-inflammatory effects, and promote inter-tissue cross talk to mediate further cardiovascular benefits

Mechanism by which exercise training improves clinical status of cardiac patients from Javidsultandar

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0 Introduction to exercise electrocardiography /slideshow/introduction-to-exercise-electrocardiography/239229275 introductiontoexerciseelectrocardiography-201113031935
Exercise electrocardiography is a Non- invasive tool to evaluate the cardio vascular system's response to exercise under carefully controlled conditions. Exercise is the body’s most common physiologic stress- most practical test of cardiac perfusion and function. During exercise body increases its metabolic rate to greater than 20 times that of rest; cardiac out put as much as six fold. (depends on age,sex,type of exercise,size etc) Evaluation of functional capacity, heart rate changes, burden of ectopy, and dynamic electrocardiographic changes during and after exercise have emerged as powerful prognostic indicators]]>
Exercise electrocardiography is a Non- invasive tool to evaluate the cardio vascular system's response to exercise under carefully controlled conditions. Exercise is the body’s most common physiologic stress- most practical test of cardiac perfusion and function. During exercise body increases its metabolic rate to greater than 20 times that of rest; cardiac out put as much as six fold. (depends on age,sex,type of exercise,size etc) Evaluation of functional capacity, heart rate changes, burden of ectopy, and dynamic electrocardiographic changes during and after exercise have emerged as powerful prognostic indicators]]> Fri, 13 Nov 2020 03:19:35 GMT /slideshow/introduction-to-exercise-electrocardiography/239229275 Javidsultandar@slideshare.net(Javidsultandar) Introduction to exercise electrocardiography Javidsultandar Exercise electrocardiography is a Non- invasive tool to evaluate the cardio vascular system's response to exercise under carefully controlled conditions. Exercise is the body’s most common physiologic stress- most practical test of cardiac perfusion and function. During exercise body increases its metabolic rate to greater than 20 times that of rest; cardiac out put as much as six fold. (depends on age,sex,type of exercise,size etc) Evaluation of functional capacity, heart rate changes, burden of ectopy, and dynamic electrocardiographic changes during and after exercise have emerged as powerful prognostic indicators <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/introductiontoexerciseelectrocardiography-201113031935-thumbnail.jpg?width=120&height=120&fit=bounds" /> Exercise electrocardiography is a Non- invasive tool to evaluate the cardio vascular system's response to exercise under carefully controlled conditions. Exercise is the body’s most common physiologic stress- most practical test of cardiac perfusion and function. During exercise body increases its metabolic rate to greater than 20 times that of rest; cardiac out put as much as six fold. (depends on age,sex,type of exercise,size etc) Evaluation of functional capacity, heart rate changes, burden of ectopy, and dynamic electrocardiographic changes during and after exercise have emerged as powerful prognostic indicators

Introduction to exercise electrocardiography from Javidsultandar

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0 Role of physiotherapy on COVID-19 patient in ICU settings /slideshow/role-of-physiotherapy-on-covid19-patient-in-icu-settings-239079743/239079743 presentation5oncovid19-201104092925
Early physiotherapy, i.e., started during mechanical ventilation, is considered feasible and safe to improve patient performance and long-term quality of life ( kayambu et al., 2013), although this has not yet been proven in COVID-19. Among chest physiotherapy strategies during mechanical ventilation, mucus clearance and alveolar RMs are very commonly applied in clinical practice. Sputum production was reported in about 34 % of COVID-19 patients ( Guan et al., 2020), thus suggesting that, by promoting mucus clearance during mechanical ventilation, early physiotherapy interventions (such as subglottic secretion drainage, postural hygiene, and ventilator hyperinflation) may produce beneficial effects in this new critically ill population (Thomas et al., 2020). ]]>
Early physiotherapy, i.e., started during mechanical ventilation, is considered feasible and safe to improve patient performance and long-term quality of life ( kayambu et al., 2013), although this has not yet been proven in COVID-19. Among chest physiotherapy strategies during mechanical ventilation, mucus clearance and alveolar RMs are very commonly applied in clinical practice. Sputum production was reported in about 34 % of COVID-19 patients ( Guan et al., 2020), thus suggesting that, by promoting mucus clearance during mechanical ventilation, early physiotherapy interventions (such as subglottic secretion drainage, postural hygiene, and ventilator hyperinflation) may produce beneficial effects in this new critically ill population (Thomas et al., 2020). ]]> Wed, 04 Nov 2020 09:29:25 GMT /slideshow/role-of-physiotherapy-on-covid19-patient-in-icu-settings-239079743/239079743 Javidsultandar@slideshare.net(Javidsultandar) Role of physiotherapy on COVID-19 patient in ICU settings Javidsultandar Early physiotherapy, i.e., started during mechanical ventilation, is considered feasible and safe to improve patient performance and long-term quality of life ( kayambu et al., 2013), although this has not yet been proven in COVID-19. Among chest physiotherapy strategies during mechanical ventilation, mucus clearance and alveolar RMs are very commonly applied in clinical practice. Sputum production was reported in about 34 % of COVID-19 patients ( Guan et al., 2020), thus suggesting that, by promoting mucus clearance during mechanical ventilation, early physiotherapy interventions (such as subglottic secretion drainage, postural hygiene, and ventilator hyperinflation) may produce beneficial effects in this new critically ill population (Thomas et al., 2020). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentation5oncovid19-201104092925-thumbnail.jpg?width=120&height=120&fit=bounds" /> Early physiotherapy, i.e., started during mechanical ventilation, is considered feasible and safe to improve patient performance and long-term quality of life ( kayambu et al., 2013), although this has not yet been proven in COVID-19. Among chest physiotherapy strategies during mechanical ventilation, mucus clearance and alveolar RMs are very commonly applied in clinical practice. Sputum production was reported in about 34 % of COVID-19 patients ( Guan et al., 2020), thus suggesting that, by promoting mucus clearance during mechanical ventilation, early physiotherapy interventions (such as subglottic secretion drainage, postural hygiene, and ventilator hyperinflation) may produce beneficial effects in this new critically ill population (Thomas et al., 2020).

Role of physiotherapy on COVID-19 patient in ICU settings from Javidsultandar

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0 Use Of Ventilator Hyperinflation In ICU /slideshow/use-of-ventilator-hyperinflation-in-icu-239079732/239079732 vhi-201104092853
Ventilator Hyperinflation (VHI) is a physiotherapy intervention that enables the deliverance of larger than baseline tidal volumes (Vt) via adjustment of the ventilator in the intubated and ventilated patient. Ventilator hyperinflation (VHI) is a technique used by physiotherapists in intensive care patients who are receiving mechanical ventilation. The aims of VHI are similar to that of manual hyperinflation (MHI) and are primarily implemented in order to improve respiratory function by mobilising secretions and restoring lung volume. Since first being described in the literature in 2002 the use of VHI techniques has increased, with recent surveys suggesting they are utilised within 20% to 40% of tertiary hospitals Despite this interest, there has been little research into VHI to guide education and practice. Clinical studies that have investigated VHI techniques have all utilised different methods to deliver the technique and there is considerable variability among clinicians in how VHI is delivered ]]>
Ventilator Hyperinflation (VHI) is a physiotherapy intervention that enables the deliverance of larger than baseline tidal volumes (Vt) via adjustment of the ventilator in the intubated and ventilated patient. Ventilator hyperinflation (VHI) is a technique used by physiotherapists in intensive care patients who are receiving mechanical ventilation. The aims of VHI are similar to that of manual hyperinflation (MHI) and are primarily implemented in order to improve respiratory function by mobilising secretions and restoring lung volume. Since first being described in the literature in 2002 the use of VHI techniques has increased, with recent surveys suggesting they are utilised within 20% to 40% of tertiary hospitals Despite this interest, there has been little research into VHI to guide education and practice. Clinical studies that have investigated VHI techniques have all utilised different methods to deliver the technique and there is considerable variability among clinicians in how VHI is delivered ]]> Wed, 04 Nov 2020 09:28:53 GMT /slideshow/use-of-ventilator-hyperinflation-in-icu-239079732/239079732 Javidsultandar@slideshare.net(Javidsultandar) Use Of Ventilator Hyperinflation In ICU Javidsultandar Ventilator Hyperinflation (VHI) is a physiotherapy intervention that enables the deliverance of larger than baseline tidal volumes (Vt) via adjustment of the ventilator in the intubated and ventilated patient. Ventilator hyperinflation (VHI) is a technique used by physiotherapists in intensive care patients who are receiving mechanical ventilation. The aims of VHI are similar to that of manual hyperinflation (MHI) and are primarily implemented in order to improve respiratory function by mobilising secretions and restoring lung volume. Since first being described in the literature in 2002 the use of VHI techniques has increased, with recent surveys suggesting they are utilised within 20% to 40% of tertiary hospitals Despite this interest, there has been little research into VHI to guide education and practice. Clinical studies that have investigated VHI techniques have all utilised different methods to deliver the technique and there is considerable variability among clinicians in how VHI is delivered <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/vhi-201104092853-thumbnail.jpg?width=120&height=120&fit=bounds" /> Ventilator Hyperinflation (VHI) is a physiotherapy intervention that enables the deliverance of larger than baseline tidal volumes (Vt) via adjustment of the ventilator in the intubated and ventilated patient. Ventilator hyperinflation (VHI) is a technique used by physiotherapists in intensive care patients who are receiving mechanical ventilation. The aims of VHI are similar to that of manual hyperinflation (MHI) and are primarily implemented in order to improve respiratory function by mobilising secretions and restoring lung volume. Since first being described in the literature in 2002 the use of VHI techniques has increased, with recent surveys suggesting they are utilised within 20% to 40% of tertiary hospitals Despite this interest, there has been little research into VHI to guide education and practice. Clinical studies that have investigated VHI techniques have all utilised different methods to deliver the technique and there is considerable variability among clinicians in how VHI is delivered

Use Of Ventilator Hyperinflation In ICU from Javidsultandar

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0 Aortic Aneurysm: Diagnosis, Management, Exercise Testing, And Training /slideshow/aortic-aneurysm-diagnosis-management-exercise-testing-and-training-239079730/239079730 presentation3-201104092844
An aortic aneurysm is a balloon-like bulge in the aorta, the large artery that carries blood from the heart through the chest and torso. Aortic aneurysms can dissect or rupture: The force of blood pumping can split the layers of the artery wall, allowing blood to leak in between them. This process is called a dissection. The aneurysm can burst completely, causing bleeding inside the body. This is called a rupture. Dissections and ruptures are the cause of most deaths from aortic aneurysms. ]]>
An aortic aneurysm is a balloon-like bulge in the aorta, the large artery that carries blood from the heart through the chest and torso. Aortic aneurysms can dissect or rupture: The force of blood pumping can split the layers of the artery wall, allowing blood to leak in between them. This process is called a dissection. The aneurysm can burst completely, causing bleeding inside the body. This is called a rupture. Dissections and ruptures are the cause of most deaths from aortic aneurysms. ]]> Wed, 04 Nov 2020 09:28:44 GMT /slideshow/aortic-aneurysm-diagnosis-management-exercise-testing-and-training-239079730/239079730 Javidsultandar@slideshare.net(Javidsultandar) Aortic Aneurysm: Diagnosis, Management, Exercise Testing, And Training Javidsultandar An aortic aneurysm is a balloon-like bulge in the aorta, the large artery that carries blood from the heart through the chest and torso. Aortic aneurysms can dissect or rupture: The force of blood pumping can split the layers of the artery wall, allowing blood to leak in between them. This process is called a dissection. The aneurysm can burst completely, causing bleeding inside the body. This is called a rupture. Dissections and ruptures are the cause of most deaths from aortic aneurysms. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentation3-201104092844-thumbnail.jpg?width=120&height=120&fit=bounds" /> An aortic aneurysm is a balloon-like bulge in the aorta, the large artery that carries blood from the heart through the chest and torso. Aortic aneurysms can dissect or rupture: The force of blood pumping can split the layers of the artery wall, allowing blood to leak in between them. This process is called a dissection. The aneurysm can burst completely, causing bleeding inside the body. This is called a rupture. Dissections and ruptures are the cause of most deaths from aortic aneurysms.

Aortic Aneurysm: Diagnosis, Management, Exercise Testing, And Training from Javidsultandar

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0 Exercise Training Recommendation For Individual With Left Ventricular Assistive Device. /slideshow/exercise-training-recommendation-for-individual-with-left-ventricular-assistive-device-239079725/239079725 presentation21-201104092827
A left ventricular assist device, or LVAD, is a mechanical pump that is implanted inside a person's chest to help a weakened heart pump blood. Unlike a total artificial heart, the LVAD doesn't replace the heart. It just helps it do its job ]]>
A left ventricular assist device, or LVAD, is a mechanical pump that is implanted inside a person's chest to help a weakened heart pump blood. Unlike a total artificial heart, the LVAD doesn't replace the heart. It just helps it do its job ]]> Wed, 04 Nov 2020 09:28:27 GMT /slideshow/exercise-training-recommendation-for-individual-with-left-ventricular-assistive-device-239079725/239079725 Javidsultandar@slideshare.net(Javidsultandar) Exercise Training Recommendation For Individual With Left Ventricular Assistive Device. Javidsultandar A left ventricular assist device, or LVAD, is a mechanical pump that is implanted inside a person's chest to help a weakened heart pump blood. Unlike a total artificial heart, the LVAD doesn't replace the heart. It just helps it do its job <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentation21-201104092827-thumbnail.jpg?width=120&height=120&fit=bounds" /> A left ventricular assist device, or LVAD, is a mechanical pump that is implanted inside a person's chest to help a weakened heart pump blood. Unlike a total artificial heart, the LVAD doesn't replace the heart. It just helps it do its job

Exercise Training Recommendation For Individual With Left Ventricular Assistive Device. from Javidsultandar

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0 Outcome measures in cardiac rehabilitation /Javidsultandar/outcome-measures-in-cardiac-rehabilitation-239079719 outcomemeasuresincardiacrehabilitation-201104092810
Physical therapists, as integral members of the multidisciplinary team in cardiac rehabilitation, should be knowledgeable about methods for assessing outcomes for their patients, and they need to understand the value of aggregated data in improving interventions. (Pashkow P. Outcomes in cardiopulmonary rehabilitation. Phys Ther. 1996;76:643-656.1 ). ]]>
Physical therapists, as integral members of the multidisciplinary team in cardiac rehabilitation, should be knowledgeable about methods for assessing outcomes for their patients, and they need to understand the value of aggregated data in improving interventions. (Pashkow P. Outcomes in cardiopulmonary rehabilitation. Phys Ther. 1996;76:643-656.1 ). ]]> Wed, 04 Nov 2020 09:28:10 GMT /Javidsultandar/outcome-measures-in-cardiac-rehabilitation-239079719 Javidsultandar@slideshare.net(Javidsultandar) Outcome measures in cardiac rehabilitation Javidsultandar Physical therapists, as integral members of the multidisciplinary team in cardiac rehabilitation, should be knowledgeable about methods for assessing outcomes for their patients, and they need to understand the value of aggregated data in improving interventions. (Pashkow P. Outcomes in cardiopulmonary rehabilitation. Phys Ther. 1996;76:643-656.1 ). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/outcomemeasuresincardiacrehabilitation-201104092810-thumbnail.jpg?width=120&height=120&fit=bounds" /> Physical therapists, as integral members of the multidisciplinary team in cardiac rehabilitation, should be knowledgeable about methods for assessing outcomes for their patients, and they need to understand the value of aggregated data in improving interventions. (Pashkow P. Outcomes in cardiopulmonary rehabilitation. Phys Ther. 1996;76:643-656.1 ).

Outcome measures in cardiac rehabilitation from Javidsultandar

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/presentation8-201124171802-thumbnail.jpg?width=320&height=320&fit=bounds Javidsultandar/benefit-of-strengthing-exercises-for-cardiac-patient Benefit Of Strengthing... https://cdn.slidesharecdn.com/ss_thumbnails/presentation7mechanismbywhichexercisetraining-201118043901-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/mechanism-by-which-exercise-training-improves-clinical-status-of-cardiac-patients-239307160/239307160 Mechanism by which exe... https://cdn.slidesharecdn.com/ss_thumbnails/introductiontoexerciseelectrocardiography-201113031935-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/introduction-to-exercise-electrocardiography/239229275 Introduction to exerci...