What is Diastolic Heart Failure?
Diastolic heart failure, technically referred to as "heart failure with preserved ejection fraction" (HFpEF), is a condition where the lower left chamber of the heart (left ventricle) is not able to fill properly with blood during the diastolic phase, reducing the amount of blood pumped out to the body. The diastolic phase is when the heart relaxes and fills with blood.
Diastolic heart failure occurs if the left ventricle muscle becomes stiff or thickened. The heart must increase pressure inside the ventricle to fill it. Over time, this causes blood to build up inside the left atrium, and then in the lungs, leading to fluid congestion and symptoms of heart failure.
Baptist Health is known for advanced, superior care for patients with heart disease and the diagnosis, management and treatment of diastolic heart failure. The American Heart Association awarded us with the Get With the Guidelines® Bronze Award in 2016 for consistent application of quality measures in treating heart failure.
You will appreciate timely appointments and respectful attention to your concerns, all in a positive and friendly atmosphere. At Baptist Health, you have access to the region’s most comprehensive, multidisciplinary team of specialists and innovative therapies, including many available only through specialized clinical trials. In every way, we work to demonstrate the utmost in excellent care to those who trust us with their health.
Symptoms
Diastolic heart failure signs and symptoms can range from mild to severe, and may include:
- Awakening at night with shortness of breath
- Breathlessness or shortness of breath during exercise or when lying flat
- Coughing or wheezing, sometimes with white or pink phlegm
- Difficulty concentrating
- Fatigue
- Fluid retention causing swelling in the ankles, legs, feet and/or abdomen
- Lack of appetite and nausea
- Rapid or irregular heartbeat
- Sudden weight gain
Causes
The following can lead to diastolic heart failure development:
- Coronary artery disease
- Diabetes
- High blood pressure
- Obesity
Risk Factors
Risk factors that could contribute to diastolic heart failure include:
Aging:As a person gets older, the heart muscle tends to stiffen, preventing the heart from filling with blood properly.
Aortic stenosis:A narrowed opening of the aortic valve can cause the left ventricle to thicken/
Hypertrophic cardiomyopathy:This inherited heart muscle abnormality causes left ventricle walls to thicken.
Pericardial disease:This abnormality in the sac surrounding the heart can cause fluid to build up in the pericardial space or thicken the pericardium.
Diagnosis
To determine if a patient has diastolic heart failure, we ask questions about your medical history and do a physical exam. We then use advanced diagnostic procedures and technology to effectively diagnose, inform treatment and carefully monitor the condition. Common procedures used for diastolic heart failure diagnosis include:
Blood test: Blood tests check the levels of certain fats, cholesterol, sugar and protein in the blood that could indicate heart conditions.
Chest X-ray: A common imaging test of the lungs, heart and aorta.
Echocardiogram: This ultrasound exam uses soundwaves to take moving pictures of the heart’s chambers and valves.
Electrocardiogram (EKG): This test measures the electrical activity of the heart and can help determine if parts of the heart are enlarged, overworked or damaged. The heart’s electrical currents are detected by 12 to 15 electrodes that are attached to the arms, legs and chest via sticky tape.
Electrophysiology study: This test records the heart’s electrical activities and pathways. It can help find what’s causing heart rhythm problems and identify the best treatment.
Stress testing: This test is conducted during exercise. If a person can't exercise, medicine is given to increase heart rate. Used along with an EKG, the test can show changes to the heart’s rate, rhythm or electrical activity as well as blood pressure. Exercise makes the heart work hard and beat fast while heart tests are administered.
Prognosis
Prognosis varies depending on the cause of diastolic heart failure, the severity a person’s symptoms and impairment, the degree to which other organ systems are involved, and his or her response to medications.
Treatment
Diastolic heart failure treatment options may include:
Medication
Medications may be prescribed to treat or reduce symptoms of diastolic heart failure. They include:
- Angiotensin-Converting Enzyme Inhibitors (ACE Inhibitors) and Angiotensin Receptor Blockers (ARBs), which relax blood vessels to improve blood flow.
- Beta-blockers, which can reduce blood pressure and slow a rapid heart rhythm.
- Calcium-channel blockers and long-acting nitrates to relax blood vessels, especially those that feed the heart muscle.
- Diuretics to reduce your body’s fluid content by promoting urination.
- Vasodilators to open blood vessels if you cannot tolerate ACE inhibitors or ARBs.
Surgery and Other Procedures
If medications are not effective, your physician may recommend surgery. Diastolic heart failure surgery options include:
- Angioplasty: to open a blocked artery or surgery to repair a heart valve.
- Heart valve repair: heart valve repair or replacement can help to correct diastolic heart failure
Lifestyle Changes
While you cannot prevent all types of diastolic heart failure, you can take steps to lower your risks for diseases or conditions that can lead to or complicate the condition.
Be active:Moderate exercise helps circulation and decreases stress on your heart muscle.
Eat a healthy diet:Limit sugar, saturated fat, cholesterol and salt, and eat plenty of fruit, vegetables, whole grains and low-fat dairy products.
Get regular checkups:And, if you experience new or changing symptoms or side effects from medications, see your physician.
Maintain a healthy weight:Losing weight and maintaining a healthy weight puts less stress on the heart.
Reduce your alcohol intake:In some cases, you may need to stop drinking entirely. If you can drink, keep your intake low.
Stop smoking:Smoking damages blood vessels, raises blood pressure, reduces the amount of oxygen in the blood and makes the heart beat faster.
Take your medications as prescribed:If you’ve been prescribed a medication for diastolic heart failure or a causative condition, be sure to take it as prescribed.
Complications
Complications of diastolic heart failure can lead to other conditions, including:
Anemia: This condition that develops when your blood lacks enough healthy red blood cells or hemoglobin can cause weakness and fatigue.
Atrial fibrillation: This irregular heart rhythm can increase the risk of stroke and blood clots.
Cardiac cachexia: This unintentional weight loss can be life-threatening without supplemental nutrition.
Impaired kidney function: Decreased kidney function is common in patients with heart failure, and it increases the risks for heart complications, hospitalization and death.
Leg venous stasis and ulcers: Poor circulation can cause skin to thicken, change color and look shiny. Hair may fall out and ulcers can develop if you sustain an injury.
Stroke: If the blood supply tothe brain is decreased or cut off, the brain can be deprived of oxygen, causing cells to die.
Diastolic vs Systolic Heart Failure
Diastolic heart failure and systolic heart failure impact the heart in different ways, which leads to different treatments for each type of heart failure.
- Systolic heart failure. Also known as “heart failure with reduced ejection fraction (HFrEF),” this form of the condition means that the left ventricle is unable to generate enough force to move blood around the body.
- Diastolic heart failure. Technically referred to as “heart failure with preserved ejection fraction (HFpEF),” diastolic heart failure is characterized by the left ventricle’s inability to relax and allow the inflow of sufficient blood in preparation for the next beat.
As far as treatments for systolic heart failure, there is a set of medications that are typically prescribed. Devices like an implantable cardiac defibrillator may also be used.With diastolic heart failure, treatment tends to involve identifying and treating the condition or conditions (hypertension, diabetes, etc.) behind the heart problem. With either type of heart failure, your doctor will likely recommend lifestyle changes.
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Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions suchetention, and rapid or irregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such asion, and rapid or irregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronaryon, and rapid or irregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary arteryocd rapid or irregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery diseasepid or irregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, irregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetesirregular heartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, andcardartbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and highrtbeat.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood.
Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure.EKG# Causes and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aCauses and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic and Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic st Risk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenisk Factors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosisctors:
The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis,The development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hyperthe development of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophicevelopment of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardient of diastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyiastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathyastolic heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy,c heart failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pert failure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and periclure is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericarde is linked to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardiald to conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease conditions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease aretions such as coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified conditions coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk coronary artery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factorsrtery disease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
ease, diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
and diabetes, and high blood pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
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pressure. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosisPrognre. Aging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thoroughAging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medicalging, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical historyg, aortic stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history,gnosis stenosis, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam,is, hypertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, andpertrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advancedtrophic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostichic cardiomyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic proceduresyopathy, and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures., and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood and pericardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood testsicardial disease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest,isease are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X are identified as risk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, involvementrisk factors.
Diagnosis:
Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, ech and response to medications. Accurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, echoccurate diagnosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, echocardiograms,nosis involves a thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, echocardiograms, electrocard importancea thorough medical history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, echocardiograms, electrocardiograms personalizedal history, physical exam, and advanced diagnostic procedures. Blood tests, chest X-rays, echocardiograms, electrocardiograms ( plans.
Treatment: Treatment options includees. Blood tests, chest X-rays, echocardiograms, electrocardiograms (EKG), electrophysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis such as ACE inhibitors, ARBsgrams, electrocardiograms (EKG), electrophysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for beta-blockersardiograms (EKG), electrophysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for di calciums (EKG), electrophysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for diastolic electrophysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for diastolic hearthysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for diastolic heart failureysiology studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for diastolic heart failure varieslogy studies, and stress testing are among the diagnostic tools used.
Prognosis:
The prognosis for diastolic heart failure varies baseduretics. In cases where medications are ineffective,ic tools used.
Prognosis:
The prognosis for diastolic heart failure varies based onused.
Prognosis:
The prognosis for diastolic heart failure varies based on the like angioplasty or heart diastolic heart failure varies based on the underlying repair may be recommended. Lifestyle changes, including exerciseg exercise, a healthy diet exercise, a healthy diet, regular checkupse, a healthy diet, regular checkups, weight managementthy diet, regular checkups, weight management, reduced alcohol intakehy diet, regular checkups, weight management, reduced alcohol intake,t, regular checkups, weight management, reduced alcohol intake, smoking cessation, and medicationheckups, weight management, reduced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
**eckups, weight management, reduced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
**Compps, weight management, reduced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
**Complicationst management, reduced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
**Complications:anagement, reduced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
Complications: Compeduced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
Complications: Complicationsced alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
Complications: Complications of alcohol intake, smoking cessation, and medication adherence, are crucial components of management.
Complications: Complications of dintake, smoking cessation, and medication adherence, are crucial components of management.
Complications: Complications of diastke, smoking cessation, and medication adherence, are crucial components of management.
Complications: Complications of diastolicng cessation, and medication adherence, are crucial components of management.
Complications: Complications of diastolic heart failuretion, and medication adherence, are crucial components of management.
Complications: Complications of diastolic heart failure mayd medication adherence, are crucial components of management.
Complications: Complications of diastolic heart failure may leadn adherence, are crucial components of management.
Complications: Complications of diastolic heart failure may lead toadherence, are crucial components of management.
Complications: Complications of diastolic heart failure may lead to andherence, are crucial components of management.
Complications: Complications of diastolic heart failure may lead to anemiaerence, are crucial components of management.
Complications: Complications of diastolic heart failure may lead to anemia,ence, are crucial components of management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial, are crucial components of management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibral components of management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillationl components of management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillation,ponents of management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillation, cardiac cachs of management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillation, cardiac cachexf management.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillation, cardiac cachexiamanagement.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillation, cardiac cachexia,nt.
Complications: Complications of diastolic heart failure may lead to anemia, atrial fibrillation, cardiac cachexia, impaired.
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**o anemia, atrial fibrillation, cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastanemia, atrial fibrillation, cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolicatrial fibrillation, cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolic vsl fibrillation, cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolic vs S fibrillation, cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolic vs Systolication, cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolic vs Systolic Heart cardiac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolic vs Systolic Heart Failurediac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
**Diastolic vs Systolic Heart Failure:iac cachexia, impaired kidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: management, andkidney function, leg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart cessationeg venous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failurevenous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systous stasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolictasis and ulcers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure:
cers, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in, and stroke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in termsoke. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on. Managing these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on theanaging these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heartging these complications is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. S heart failureations is essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic hearts essential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failuressential for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the,ial for overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventfor overall patient well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventr fibrillationent well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventriclent well-being.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle'sbeing.
Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability toex Diastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enoughDiastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough forceDiastolic vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to vs Systolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pumptolic Heart Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood,rt Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, whilet Failure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diilure: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolice: Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart Diastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failureiastolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure isolic heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized heart failure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized bycersfailure differs from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the and stroke.
from systolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left Disystolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventrtolic heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventriclec heart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle'seart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability toart failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relaxt failure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax andailure in terms of impact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow Heart Failure:
pact on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow.t on the heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treat heart. Systolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments aSystolic heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary heart failure involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly,re involves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, withves the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications the left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications ande left ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devicesft ventricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices likeentricle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantcle's inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantables inability to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiacility to generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac def generate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillgenerate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heartnerate enough force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failureolic heart force to pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure,, pump blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, andmp blood, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diod, while diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diaste diastolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolicstolic heart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic hearteart failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failurert failure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
Inure is characterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusionaracterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion,acterized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diFrerized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastized by the left ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic involves thet ventricle's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart ventr's inability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failurenability to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requiresbility to relax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires arelax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensiveax and allow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp oflow sufficient blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of itsent blood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causesood inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, inflow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis,ow. Treatments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment.atments vary accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, contrast accordingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications diastingly, with medications and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. heart failure (ons and devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. ThispEFnd devices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge isevices like implantable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is byntable cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essentialle cardiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential forrdiac defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare defibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionalsdefibrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals andbrillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individualsillators commonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seekingommonly used for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to relaxsed for systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to manage orfor systolic heart failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to manage or prevent sufficientt failure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to manage or prevent thisure, and diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to manage or prevent this cardiovascular conditionand diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to manage or prevent this cardiovascular condition.d diastolic heart failure management focusing on identifying and treating underlying conditions.
In conclusion, understanding diastolic heart failure requires a comprehensive grasp of its causes, diagnosis, treatment options, and associated complications. This knowledge is essential for healthcare professionals and individuals seeking to manage or prevent this cardiovascular condition.The treatments for systolic and diastolic heart failure differ, with medications and devices like implantable cardiac defibrillators typically prescribed for systolic heart failure, while addressing underlying conditions is a primary focus in diastolic heart failure.
In conclusion, diastolic heart failure is a complex condition that demands a comprehensive approach involving accurate diagnosis, tailored treatment strategies, and ongoing management. The integration of medical expertise, cutting-edge technology, and a patient-centric approach, as exemplified by institutions like Baptist Health, plays a pivotal role in enhancing outcomes for individuals affected by diastolic heart failure.
