Skip to main content

Symptoms of Heart Valve Issues and a Nashville CPR Certification


When it comes to valve disease, some people show no symptoms. But you should remember that you can still have a valve problem even if you do not experience any symptoms and that would require proper treatment. Some people experience very visible symptoms. The symptoms can also develop very quickly if the condition is severe. The disease advances quite slowly for some people as well. What is important is proper education and awareness about the possible causes for a gradual onset of symptoms for patients who may be at risk.

Each and every individual should be CPR trained in the face of the rising number of cardiac death cases all over. The best way to deal with such life-threatening emergencies is by obtaining a CPR certification Nashville. The techniques comprise chest compressions and rescue breaths. Proper application of the procedures can stabilize the condition of a victim until the arrival of emergency medical services. If you belong to the Nashville region in Tennessee, you can sign up for a program at the AHA certified CPR Nashville.


Physical signs of heart valve disease include:
1.      Chest pain or palpitations (rapid rhythms or skips)
2.      Shortness of breath, difficulty catching your breath, fatigue, weakness, or inability to maintain regular activity level
3.      Lightheadedness or loss of consciousness
4.      Swollen ankles, feet or abdomen
The seriousness of an individual’s valve problems cannot be determined with the warning signs as a problem can be severe with no symptoms.

Risks:
 1.      Valvular disease is more common among older people because with age our heart valves can become lined with calcium deposits that cause the valve flaps to thicken and become stiffer.
2.      People who have had rheumatic fever or a case of infective endocarditis are at greater risk. Heart problems like a heart attack, heart failure, arrhythmia, or previous heart valve conditions from birth (called congenital heart defects) can also increase the risk.

Recognizing the Symptoms:
1.      Do you feel a sudden urge to lie down until you feel more steady? Assess how often do you have this sensation.
2.      Do you become short of breath by just walking 3 miles or just by walking to the mailbox- consult a healthcare provider.
3.      There is also chest pain or unusual swelling in the feet or ankles. It’s important to keep a track of the symptoms, do review them every six months or at least annually because most valvular problems advance slowly. Keeping track will help you to understand whether the condition has begun to worsen.

Causes:
The causes are often linked to birth abnormalities.
Congenital defects (abnormalities present at birth):
1.      Aortic valve stenosis
2.      Ebstein’s anomaly
3.      Pulmonary valve stenosis
Illnesses and conditions that can cause valve problems:
1.      Infective endocarditis
2.      Injury
3.      Rheumatic fever 

Hope, this information proves to be useful for you. For more information or to join a CPR program at CPR Nashville, call on (615) 638-0005. We focus on providing the best hands-on CPR classes in Nashville. Our classes are organized, stress-free, and fast! Our American Heart Association certified instructors provide a friendly and supportive environment.
Labels:

Comments

Post a Comment

Popular posts from this blog

Risks, Types and Causes of Atrial Flutter and CPR Classes in Palm Harbor

Atrial flutter is a problem when the atria of the ticker beats rapidly and regularly due to an anomaly of the ticker’s electrical system that usually results in a tachycardia (an abnormally fast heart rate). An individual with the condition may get feelings like near-fainting, rapid heartbeats (palpitations), mild shortness of breath and fatigue. During atrial flutter, the ticker beats extra fast about 250-400 beats per minute. This type of arrhythmia (abnormal heart rhythm) can be dangerous because complications can easily develop, and a normal heartbeat is 60-100 beats per minute. Atrial fibrillation is another arrhythmia that atrial flutter is closely related to. Atrial Flutter Types : 1.       Persistent atrial flutter which is more or less permanent. 2.       Paroxysmal atrial flutter which can come and go. An atrial flutter episode usually lasts hours or days. Risks: The main danger is that your ticker doesn’t p...
Post a Comment
Read more

Pediatric Advanced Life Support (PALS) Algorithms for Respiratory and Cardiac Arrests

  Introduction Pediatric Advanced Life Support (PALS) algorithms provide healthcare providers with systematic approaches to managing respiratory and cardiac emergencies in children. These evidence-based protocols are designed to optimize outcomes by offering clear, sequential steps for assessment and intervention during critical situations. Understanding and implementing PALS algorithms correctly can be the difference between life and death for pediatric patients experiencing respiratory distress or cardiac arrest. The Importance of PALS Algorithms in Pediatric Care Respiratory and cardiac emergencies in children differ significantly from those in adults. Children have unique anatomical and physiological characteristics that influence how they respond to respiratory failure and cardiac arrest. For instance, respiratory issues frequently precede cardiac arrest in pediatric patients, unlike in adults, where primary cardiac events are more common. PALS algorithms account for these dif...
Post a Comment
Read more

Understanding the Consequences of Incomplete Chest Recoil in CPR

  When it comes to performing effective cardiopulmonary resuscitation (CPR), most people focus on the compression depth and rate. However, an equally crucial but often overlooked aspect is chest recoil. The quality of chest recoil during CPR can make the difference between life and death for cardiac arrest victims. This article explores what chest recoil is, why it matters, and the serious consequences of incomplete chest recoil during resuscitation efforts. What Is Chest Recoil in CPR? Chest recoil refers to the return of the chest wall to its natural, expanded position after each compression during CPR. During cardiac arrest, the heart stops pumping blood effectively throughout the body. CPR manually takes over this function through a two-part process: Compression phase : Pushing down on the chest to squeeze the heart and force blood out to vital organs Recoil phase : Completely releasing pressure to allow the chest to return to its resting position This second phase—the complete...
Post a Comment
Read more