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This is the sixth lesson in chapter 7. This lesson contains information pertaining to bradycardia, its symptoms and the types of bradycardia. Bradycardia is defined and how it should be treated is explained, according to the ACLS Survey. "Bradycardia is defined as a heart rate of less than 60 beats per minute. While any heart rate less than 60 beats per minute is considered bradycardia, not every individual with bradycardia is symptomatic or having a pathological event. Individuals in excellent physical shape often have sinus bradycardia. Symptomatic bradycardia may cause a number of signs and symptoms including low blood pressure, pulmonary edema, and congestion, abnormal rhythm, chest discomfort, shortness of breath, lightheadedness, and/or confusion. Symptomatic bradycardia should be treated with the ACLS Survey. If bradycardia is asymptomatic but occurs with an arrhythmia listed below, obtain a consultation from a cardiologist experienced in treating rhythm disorders. Symptoms of bradycardia include shortness of breath, altered mental status, hypotension, pulmonary edema or congestion, and weakness, dizziness, or lightheadedness. We will review four types of bradycardia in this lesson, including sinus bradycardia, first degree AV block, second-degree type I AV block (which is also known as Wenkebach), and second-degree type II AV block (which is also known as Mobitz II), and third-degree AV block (which is also known as complete heart block). Sinus bradycardia rules include R-R intervals to be regular and overall rhythm to be regular. The rate is less than 60 beats per minute, but usually more than 40 beats per minute. There is one P wave in front of every QRS, and they appear uniform. The PR interval measures between 0.12 and 0.20 seconds in duration and is consistent. The QRS complex measures less than 0.12 seconds. First degree AV block rules include R-R intervals to be regular and overall rhythm to be regular. The rate depends on the underlying rhythm. There is one P wave in front of every QRS, and they appear uniform. The PR interval measures more than 0.20 seconds in duration and is consistent. The QRS complex measures less than 0.12 seconds. Second-degree type I AV block, or Wenkebach, rules include R-R interval to be irregular, but there is usually a pattern to it. The R-R interval gets longer as the PR interval gets longer. The ventricular rate is usually slightly higher than the atrial rate due to some atrial beats not being conducted. The atrial rate is usually normal. P waves are upright and uniform. Most complexes will have a P wave in front of them; however, there will be some that do not have a P wave. The PR interval gets progressively longer until there is a dropped QRS complex. The QRS complex measures less than 0.12 seconds. Second-degree type II AV block, or Mobitz II, rules include the R-R interval to be regular if there is a consistent conduction ratio. If the conduction ratio is not constant, the R-R interval will be irregular. The atrial rate is normal. The ventricular rate is slower, usually half to one third slower than the atrial rate. P waves are upright and uniform. There is not a QRS following every P wave. The PR interval can only be measured on conducted beats, and it is usually constant across the strip. It may or may not be longer than a normal PR interval (which is 0.12 seconds). The QRS complex measures less than 0.12 seconds. Third-degree AV block, or complete heart block, rules include R-R interval to be regular, and P-P interval to also be regular. The atrial rate is regular and normally 60 to 100. The rate of QRS complexes is dependent on the focus. If the focus is ventricular, the rate will be 20 to 40. If the focus is junctional, the rate will be 40 to 60. P waves are upright and uniform. There is not a QRS following every P wave. The PR interval can only be measured on conducted beats, and it is usually constant across the strip. It may or may not be longer than a normal PR interval (which is 0.12 seconds). The QRS complex interval may be normal but is more likely to be prolonged. For Adult Bradycardia with Pulse Algorithm, refer to Figure 36 in your corresponding ACLS manual." Need to be certified or recertified in ACLS, visit 🤍 * Follow us on social media! Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Pinterest: 🤍 LinkedIn: 🤍 To find out more about the Save a Life Initiative and the Disque foundation please visit our site or email us at info🤍DisqueFoundation.org Together, let’s save lives.
🤍 - ACLS Certification Training Videos Get $20 off your certification or recertification with the discount code youtubeacls2017 Bradycardia is defined as a heart rate less than 60 beats per minute. It’s vital to remember that if the bradycardia, regardless of the underlying reason, is causing the patient to display symptoms related to the bradycardia, it should be treated. Because sinus bradycardia can result from many things, to include something as benign as routine aerobic exercise and as pathological as structural heart disease, damage to the electrical conduction system usually related to a past heart attack, hypoxia, metabolic dysfunction and certain medications, it’s important to get a thorough patient history including medication list and any other past medical problems. Subscribe to ProTrainings' Youtube Channel! Check out all of ProTrainings' courses: 🤍 Like ProTrainings on Facebook: 🤍 Follow ProTrainings on Twitter: 🤍 Follow ProTrainings on Instagram: 🤍
It’s common to hear someone say their heart is “racing” when they’re excited, nervous or recovering from strenuous exercise. But your rarely hear about a heart rate that is slower than normal–a condition called bradycardia. What causes a slow heart rate and is it a reason for concern? In this video, San Diego Health host Susan Taylor talks with Scripps cardiologist Poulina Uddin, MD, about bradycardia symptoms, causes and treatments. Learn more: 🤍 0:37 - What causes slow heart rate? 1:31 - Who is most at risk? 2:07 - How too know when to be concerned? 3:00 - How to know when its time to see a doctor? 4:15 - Does it cause insufficient blood flow to the brain? 5:40 - How do you treat bradycardia? 6:50 - What is the recovery time from surgery? 7:18 - When to go to the emergency room? 8:00 - What happens if bradycardia is left untreated?
There are only 3 normal cardiac rhythms, sinus rhythm, sinus bradycardia and sinus tachycardia. These can all be normal, but may also be symptomatic of an abnormal situation, each case must be assessed in the context of the individual. 0:00 Sinus rhythm 1:20 Sinus bradycardia 5:04 Sinus tachycardia
Sinus bradycardia ECG/EKG interpretation, causes, treatment, nursing interventions, and more in this cardiac heart rhythms NCLEX review. Sinus bradycardia is a type of sinus heart rhythm with a slow rate that is typically less than 60 beats per minute (bpm). Bradycardia Quiz: 🤍 In this lecture, you'll learn how to analyze an ECG strip to determine whether sinus bradycardia is present. Specifically, you'll analyze the P wave, QRS complex, T wave, PR interval, QT interval, ST segment, and so on. You'll also learn the nurse's role when dealing with a patient with sinus bradycardia, such as medications that are commonly used, assessments to perform, and more. Learning the causes for sinus bradycardia is also important, and some examples can be due to sick sinus syndrome, old age, hyperkalemia, and many more. Pacemakers are sometimes used in patients with sinus bradycardia, as well as other interventions. Website: 🤍 More Videos: 🤍 Nursing Gear: 🤍 Instagram: 🤍 Facebook: 🤍 Twitter: 🤍 Popular Playlists: NCLEX Reviews: 🤍 Fluid & Electrolytes: 🤍 Nursing Skills: 🤍
AMITA Health Heart & Vascular specialist discusses bradycardia (slow heart rate): symptoms and treatments.
🤍 Ninja Nerds, Join us for the next lecture within our ECG playlist. We will continue discussing rate and rhythm with this lecture on sinus bradycardia and sinus tachycardia. You will be able to understand how to calculate the rate, interpret the rhythm and observe for any abnormalities within this real 12-lead ECG strip. ECG strip: Jason Winter 🤍 ECG Educator DOWNLOAD the Sinus Bradycardia and Sinus Tachycardia templates to learn while you watch! -Just click on this link for our Facebook (and please like our page to stay updated with new content) where it will be made available - 🤍 Support us by purchasing apparel and donating to our GoFundMe or Patreon! 😄 Become a Patron of ours and receive the final, high resolution photo of the lecture! FUNDING GoFundMe | 🤍 APPAREL | 🤍 PATREON | 🤍 SOCIAL MEDIA FACEBOOK | 🤍 INSTAGRAM | 🤍 ALSO, check out our Medical channel | Ninja Nerd Medicine! 🤍
*The newest information for 2022 is available here: 🤍 This is the sixth lesson in chapter 7. This lesson contains information pertaining to bradycardia, its symptoms and the types of bradycardia. Bradycardia is defined and how it should be treated is explained, according to the ACLS Survey. *The newest information for 2022 is available here: 🤍 "Bradycardia is defined as a heart rate of less than 60 beats per minute. While any heart rate less than 60 beats per minute is considered bradycardia, not every individual with bradycardia is symptomatic or having a pathological event. Individuals in excellent physical shape often have sinus bradycardia. Symptomatic bradycardia may cause a number of signs and symptoms including low blood pressure, pulmonary edema, and congestion, abnormal rhythm, chest discomfort, shortness of breath, lightheadedness, and/or confusion. Symptomatic bradycardia should be treated with the ACLS Survey. If bradycardia is asymptomatic but occurs with an arrhythmia listed below, obtain a consultation from a cardiologist experienced in treating rhythm disorders. Symptoms of bradycardia include shortness of breath, altered mental status, hypotension, pulmonary edema or congestion, and weakness, dizziness, or lightheadedness. We will review four types of bradycardia in this lesson, including sinus bradycardia, first degree AV block, second-degree type I AV block (which is also known as Wenkebach), and second-degree type II AV block (which is also known as Mobitz II), and third-degree AV block (which is also known as complete heart block). Sinus bradycardia rules include R-R intervals to be regular and overall rhythm to be regular. The rate is less than 60 beats per minute, but usually more than 40 beats per minute. There is one P wave in front of every QRS, and they appear uniform. The PR interval measures between 0.12 and 0.20 seconds in duration and is consistent. The QRS complex measures less than 0.12 seconds. First degree AV block rules include R-R intervals to be regular and overall rhythm to be regular. The rate depends on the underlying rhythm. There is one P wave in front of every QRS, and they appear uniform. The PR interval measures more than 0.20 seconds in duration and is consistent. The QRS complex measures less than 0.12 seconds. Second-degree type I AV block, or Wenkebach, rules include R-R interval to be irregular, but there is usually a pattern to it. The R-R interval gets longer as the PR interval gets longer. The ventricular rate is usually slightly higher than the atrial rate due to some atrial beats not being conducted. The atrial rate is usually normal. P waves are upright and uniform. Most complexes will have a P wave in front of them; however, there will be some that do not have a P wave. The PR interval gets progressively longer until there is a dropped QRS complex. The QRS complex measures less than 0.12 seconds. Third-degree AV block, or complete heart block, rules include R-R interval to be regular, and P-P interval to also be regular. The atrial rate is regular and normally 60 to 100. The rate of QRS complexes is dependent on the focus. If the focus is ventricular, the rate will be 20 to 40. If the focus is junctional, the rate will be 40 to 60. P waves are upright and uniform. There is not a QRS following every P wave. The PR interval can only be measured on conducted beats, and it is usually constant across the strip. It may or may not be longer than a normal PR interval (which is 0.12 seconds). The QRS complex interval may be normal but is more likely to be prolonged. Here’s a quick summary of all the symptomatic bradycardia. Sinus bradycardia is a normal rhythm with a slow rate. First degree AV block has PR interval longer than 0.20 seconds. Second-degree type I AV block has PR interval increase in length until QRS complex is dropped. Second-degree type II AV block has PR interval same length with intermittently dropped QRS. Third-degree AV block has a PR interval and QRS complex that are not coordinated with each other. For Adult Bradycardia with Pulse Algorithm, refer to Figure 36 in your corresponding ACLS manual." Need to be certified or rectified in ACLS, visit 🤍 Follow us on social media! Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Pinterest: 🤍 LinkedIn: 🤍 Website: 🤍 To find out more about the Save a Life Initiative and the Disque foundation please visit our site or email us at info🤍DisqueFoundation.org Together, let’s save lives.
‼️🎓 Want to earn CE credits for watching these videos? Join ICU Advantage Academy. 👉🏼 🤍 💰🤑 10% off Critical Care Academy (CCRN Review): 👉🏼 🤍 (USE CODE "icuadv10") 💰🤑 10% off EACH Month 🤍 My Mastery Nursing membership: 👉🏼 🤍 This next lesson in the series we move on to talk about our Bradycardia Algorithm based on guidelines from the American Heart Association. This is another vital algorithm for you to cement in your memory and be able to act quickly upon, especially for the unstable patient. Full disclosure that this video is NOT associated with the American Heart Association (AHA) and is merely a review of the information provided in their guidelines. Additional resources can be found at: 🤍 0:00 Intro 1:43 Bradycardia 2:07 Algorithm 3:11 Underlying Causes 3:55 Assess Patient Condition 4:55 Atropine 6:03 Electrically Pace 7:03 Chemically Pace 8:47 Review 🙏🙏 A Special THANK YOU to YouTube and Patreon Members!!! 🙏🙏 Patreon Members: 🏆 Code Team: Taleb! 🥇Trauma Team: Carlos, Frisco, Remigio, Nereida, Sarah Grace, Ben, BT, Angel, Natasha, and Yintenchi! 🥈Rapid Response Team: Quetina, Stephanie, Ty, Dav, Sherri-lynn, Emily, Jackson, Ampa, Yulia, Claudia, Amanda, Julianne, Christoph! YouTube Members: 👏🏼 Nondumiso, Martin, Conor, Angel, Tina, Salah, Jharna, LIVE LIFE, Swaroop, RNMedic289, Mero, Shabbir, Carmen, Theresa, llance, Joseph, Dr Parmer, Danielle, Maria, Frank, Anthony, Jospeh, Neel, Sham, Ly, Kevin, Oscar, Deborah, Faith, Yanet, Mohamed, Kmedic, Samuel, Mero, Shayna, La Robey, Raj, Teya, Eduardo, Krishna, Christopher, Temitope, Alison, Shyamkumar, Merlyn, Shabbir, Helen, Marthaleene, Farah, Heather, Willie, Marie, Sam, Razarajan, Shyamkumar, Sam, Byambakhand, Nurse Howie , Nurrohmah, Teya, LaShonda, Deb, Honey, Dawn, Cornelia, Teya, Kim, Roger, Eloisa, Nurse Wenckebach! 🤔Curious how you can show your support? I recently activated the YouTube channel membership to go along with the Patreon page. On these, I provide extra content and incentives to our amazing fans! The additional support will go directly towards improving this channel and making it even better for you. If you are interested in supporting ICU Advantage.... on YouTube channel membership head over to: 🤍 on Patreon head over to: 🤍 If not, no worries, as you watching videos here, liking them, commenting and sharing them also really help to support the channel! 😍 📚📖BOOKS I RECOMMEND ✔️Barron’s CCRN Exam: 🤍 ✔️Pass CCRN!: 🤍 ✔️AACN Essentials of Critical Care Nursing: 🤍 ✔️Kaplan Adult CCRN Review: 🤍 ✔️Marino’s The ICU Book: 🤍 🩺🏥🖊SOME OF MY FAVORITE NURSING GEAR ✔️3M Littmann Master Cardiology Stethoscope: 🤍 ✔️Rip Shears - Trauma Shears: 🤍 ✔️Leatherman - Raptor Shears: 🤍 ✔️Stethoscope Tape Holder: 🤍 ✔️Pilot FriXion Erasable Pens: 🤍 💻🎙GEAR THAT I USE TO MAKE THESE VIDEOS ✔️Apple Pencil: 🤍 ✔️iPad Pro 12.9”: 🤍 ✔️Blue Yeti Mic: 🤍 ✔️MacBook Pro 15”: 🤍 👍🏼👍🏼👍🏼 If you enjoyed this video or found it useful, please hit the like button as this greatly helps our channel out! Also make sure and subscribe and hit the bell icon and select all notifications to stay up to date on our latest videos! 👁🎥👁🎥 Check out these other great lessons and series of lessons below! ✅ Hemodynamics: 🤍 ✅ Shock: 🤍 ✅ ECG/EKG Rhythm Interpretation: 🤍 ✅ ICU Drips: 🤍 ✅ ECMO: 🤍 ✅ CRRT: 🤍 ⚠️⚠️ DISCLAIMER: Links included in this description are affiliate links. If you purchase a product or service with the links that I provide I may receive a small commission. There is no additional charge to you! ❗️❗️PLEASE NOTE: ICU Advantage medical videos, medical lectures, medical illustrations, and medical animations are for medical education and exam preparation purposes, and not intended to replace recommendations by your doctor or health care provider. #ICUAdvantage #ACLS #CodeBlue
This video is about Slow heart rate or Bradycardia: Will my heart stop? Hi Guys…my name is Sanjay Gupta and I am a cardiologist in York. To speak with me , visit 🤍yorkcardiology.co.uk/yorkcardiology🤍gmail.com Today I wanted to do a video (as requested by my facebook friend Leah) on slow heart rates or as we doctors refer to it…Bradycardia. The normal range for heart rate at rest is between 60-100 beats per minute. If you heart rate is over 100 at rest then it is described as tachycardia and if it is below 60.min then it is called bradycardia. It is not uncommon for people to measure their heart rates and find it to be low or sometimes patients have holters and get told their heart rates are down to 30-40 beats per minute and this causes a great deal of anxiety because the automatic assumption is that the heart could slow down so much that it will stop Truthfully this almost never happens and is an unjustified concern. In this video I will be able to explain why. 1) it is important to understand the electrics of the heart. The heart is myogenic i.e the electricity is produced within the heart cells itself. All the muscles of the heart are capable of producing electricity but there is one area of the heart which can produce the electrical impulses at the highest rate and this cluster of cells is called the Sinus node or the pacemaker of the heart. The sinus node can be likened to a man with a drum…he hits the drum and waits for the echo to die down and hits the drum. There are certain external influences which will tell the drummer to speed up or to slow down… so adrenaline for example which is generate when you are exercising or stressed or scared or even ill will tell the drummer to beat faster And then there is acetylcholine which is influenced by the vagus nerve when you are resting or sleeping or even digesting which will tell the drummer to slow down So the heart rate is situational…ie the normal heart rate is different for different situations….and therefore a heart rate of 30-40 may be completely fine when you are sleeping but will be slow for someone who is on the treadmill. Secondly if you remove the pacemaker, that doesn’t mean the heart stops beating… another cluster of cells will take over but they wont beat as fast or strong as when the natural pacemaker is. 1) What is the heart rate and why is it important? The heart function is to pump oxygen rich round blood round the body and to be able to pump the blood round, it has to beat at least a certain minimum number of times to get the blood round. If it doesn’t beat the minimum number of times, not as much blood will get round.. and therefore our vital organs wont get as much blood and therefore they will not function as well. Although a heart rate of less than 60 is considered slow, it often has no impact on us because as the heart slows down, the heart has more time to fill with blood and therefore although it is slower it will push more blood with each beat and therefore probably the overall same amount of blood gets round. At a certain rate however, the filling of blood will not compensate for the slow heart rate and I would say that this value would probably be even less than 45/min. Now the most sensitive part of our body to a reduction in blood supply is our brain and if our brain doesn’t get as much blood as it needs, we feel dizzy and therefore one of the first signs of our heart rate being too slow is dizziness or even blackouts if the heart rate is very slow and if these happen most people go and ask for help and the slow heart rate is picked up.
Bradycardia can be because of lots of reasons. Most important reason is patients can have heart attack and have bradycardia. Bradycardia means low heart rate. Bradycardia can also be because of myocarditis, pericarditis, lots of other reasons like hypothyroidism, drugs like digoxin, beta blockers, which has been given for hypertension or anti arrhythmic drugs where the patient is having irregular heart rate. Even those drugs can cause bradycardia. Even if there is excess potassium in the blood you have to correct potassium. If there is heart attack, pericarditis, myocarditis, you have to treat those conditions. If there is excess of beta blockers and digoxin, you have to stop those medications. If there is intractable bradycardia, we have to put the patient on permanent pacemakers, that is the lead is passed on the femoral vein and hooked into the right ventricle and we have a small machine which is kept underneath the pockets of your skin maybe the chest. So that will keep your heart rate a little high.
Welcome to our latest video focusing on bradycardia, defined as a heart rate less than 60 beats per minute (bpm). We will explore the topic of a slow heart rate and discuss the various conditions that can affect our heart rate. Our primary objective is to delve into the causes and symptoms of bradycardia. Additionally, we will emphasize the causes and classification, specifically by examining the different types of 'heart block' and comprehending their implications. It's important to note that having a slow heart rate is not necessarily indicative of a problem. It is quite common to experience a pulse rate below 60 beats per minute during periods of rest, sleep, among younger individuals, and those who engage in regular physical activity. However, when symptoms such as dizziness, lightheadedness, feeling faint, or actual fainting (blackout or syncope) manifest, a slow pulse may signify issues with the proper functioning of the conduction system, also known as the electrical wiring of the heart. In such cases, further assessment involving additional tests is required to determine the underlying causes. In certain instances, the management of these conditions may involve the implantation of a pacemaker, a device designed to regulate and optimize the heart's electrical activity. By closely examining bradycardia and its associated complexities, we aim to provide a comprehensive understanding of this condition and the potential interventions available for those affected. It is reassuring to note that in many cases where we identify a slow pulse, nothing particular needs to be done apart from reassuring those individuals but as we always suggest, please always have any concerns assessed by your local health care professional.
Bradycardia is the name doctors use for a slow heart rate. A slow heart rate, in this sense, means your heart beats fewer than 60 times a minute. You'd want to get rid of bradycardia, if you have it, because a consistently slow heart rate can threaten your health in a number of ways. When your heart rate is below normal, normal being between 60-100 beats per minute, it means your heart isn't pumping enough blood to your body. This video describes medically accepted ways to get rid of bradycardia and raise your heart rate. Have you experienced bradycardia, or slow heart rate? How did your doctor treat it? Feel free to comment below.👇 Please share this video, and thanks for watching "How Can You Get Rid Of Bradycardia And Raise A Slow Heart Rate?" SUBSCRIBE for more fascinating health, nutrition, pet care and travel tips 🔔► 🤍 FACEBOOK ➡️➡️ 🤍 PINTEREST ➡️➡️ 🤍 TWITTER ➡️➡️ 🤍 Other videos and webpages that will give you more information about how to get rid of bradycardia include the following: Is A Slow Heart Rate Dangerous? 🤍 Slow heart rate or Bradycardia: Will my heart stop? 🤍 Bradycardia Overview - Mayo Clinic 🤍 Keywords Get Rid Of Bradycardia, slow heart rate, bradycardia symptoms, bradycardia treatment, is a slow heart rate dangerous, Can bradycardia be cured naturally, Can low heart rate be cured, How do you raise a low heart rate, What should I eat if I have bradycardia, How can I raise my heart rate without exercise
Dr. Zalmen Blanck discussing a case study about the correlation between Bradycardia and Sleep Apnea
Visit 🤍 today for more great content This video reviews the components of a sinus bradycardia ECG. For more great information on ECG’s, check out our website, EMTprep.com This video is specifically provided by EMTprep to assist Members in preparing for the NREMT exam and related skills sheets and for no other purpose. NREMT study aids and resources provided by EMTprep are not intended to provide training for life saving techniques, emergency response training, or any other type of medical training.
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AMITA Health Heart & Vascular specialist explains who is at risk for bradycardia (slow heart rate).
EKG / ECG heart rhythms interpretation #shorts for nurses and nursing students. In this video, Nurse Sarah gives you 8 heart rhythms you need to know as a nurse, nursing student, and for NCLEX exams. EKG Videos: 🤍 You'll learn quick facts about heart rhythms and see EKG examples for the following heart rhythms: -Normal Sinus Rhythm -Sinus Bradycardia -Sinus Tachycardia -Atrial Fibrillation (A-fib) -Atrial Flutter (A-flutter) -Ventricular Tachycardia (VT or V-tach) -Ventricular Fibrillation (VF or V-fib) -Cardiac Asystole (Flatline) Nursing quizzes: 🤍 #EKG #ECG #heart #rhythms #nclex #nurse Website: 🤍 More Videos: 🤍 Nursing Gear: 🤍 Instagram: 🤍 Facebook: 🤍 Twitter: 🤍 Popular Playlists: NCLEX Reviews: 🤍 Fluid & Electrolytes: 🤍 Nursing Skills: 🤍
#shorts 🌐 Explore our entire animation video library: 🤍 ● Follow me at: • Instagram: 🤍 • Facebook: 🤍 The SA node in the heart, controls the heart rate. And the cells in SA node, contain β1 receptors. Normally, stimulation of these receptors, increases the activity of the SA node, leading to an increase in heart rate. But β blockers, block these receptors. So with β blockers, there is a fall in heart rate. For this action, β blockers can be used in conditions, like hypertension, angina, myocardial infarction, arrhythmias, pheochromocytoma, thyrotoxicosis, anxiety, etc. However, caution is needed in patients with sick sinus because bradycardia might get worse in them. That's it. Dr Vipul Navadiya DISCLAIMER: This video is for education purposes only. Although every effort is made to ensure the accuracy of the material, viewers should refer to the appropriate regulatory body/authorized websites, guidelines, and other suitable sources of information as deemed relevant and applicable. In view of the possibility of human error or changes in medical science, any person or organization involved in the preparation of this work accepts no responsibility for any errors or omissions, or results obtained from the use of information in this video.
This video “Bradycardia: First Degree Heart Block” is part of the Lecturio course “Cardiovascular Pathology” ► WATCH the complete course on 🤍 ► LEARN ABOUT: - First degree heart block ► THE PROF: Carlo Raj has earned his MD at the Medical University of the Americas (MUA) and continued his medical career as international lecturer and author—both assisting MD Edward Goljan and later on his own. Today he is CEO of Indus Intellect, whose goal it is to spread medical knowledge across the globe. ► LECTURIO is your single-point resource for medical school: Study for your classes, USMLE Step 1, USMLE Step 2, MCAT or MBBS with video lectures by world-class professors, recall & USMLE-style questions and textbook articles. Create your free account now: 🤍 ► INSTALL our free Lecturio app iTunes Store: 🤍 Play Store: 🤍 ► READ TEXTBOOK ARTICLES related to this video: Dysarrhytmias & Conduction System Disease: Bradyarrhythmias 🤍 ► SUBSCRIBE to our YouTube channel: 🤍 ► WATCH MORE ON YOUTUBE: 🤍 ► LET’S CONNECT: • Facebook: 🤍 • Instagram: 🤍
This lesson is the second of two parts about Bradycardia. Once an event has been recognized, it is time to respond and administer care. Guidelines are provided and there are different protocols to be followed, according to the severity of the situation. "To respond to symptomatic bradycardia, check the heart rate to confirm abnormally low heart rate or a significant rate drop from previous normal. Complete the ABC survey by checking the airway, breathing, and circulation. Check for signs and symptoms of shock and acute change in mental status. Perform necessary CPR and administer epinephrine and atropine as indicated. Evaluate the success of drugs and consider transthoracic or transvenous pacing, especially if bradycardia is the result of a complete heart block or an abnormal sinus node function. Seek consultation from an expert, if needed. Remember that the primary goal of symptomatic bradycardia treatment is to make sure the heart is adequate perfusion. Treatment is not necessarily aimed at increasing the heart rate; treatment should continue until symptoms and signs resolve. If the individual stops having a pulse, move to the Cardiac Arrest Protocol. Always consider the reversible causes of bradycardia in pediatrics and treat if possible. For further details on responding to bradycardia in pediatrics, please refer to Table 15 and the Pediatric Bradycardia with Pulse/Poor Perfusional Algorithm (that is Figure 13) in your corresponding PALS manual." Need to be certified or recertified in PALS, visit 🤍 Follow us on social media! Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Pinterest: 🤍 LinkedIn: 🤍 Website: 🤍 To find out more about the Save a Life Initiative and the Disque foundation please visit our site or email us at info🤍DisqueFoundation.org Together, let’s save lives.
Bradycardia rapid algorithm review video by the ACLS Certification Institute. To view more videos, check out the ACLS Certification Institute at 🤍 or subscribe to our channel at 🤍
#LiveWithLauren: Today we are learning about Bradycardia in ACLS. Watch these quick tips and be better prepared to save someone's life! Need certified or recertified in ACLS, visit 🤍 Watch all of our webinars at 🤍 Follow us on social media! Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Pinterest: 🤍 LinkedIn: 🤍 Website: 🤍 To find out more about the Save a Life Initiative and the Disque foundation please visit our site or email us at info🤍DisqueFoundation.org Together, let’s save lives.
A 55-year-old female with end-stage renal disease presents for weakness and loss of consciousness. She is now awake, but confused and hypotensive. - // AXOKIT - Health education Learn more - 🤍 - // FOLLOW US Facebook: 🤍 Instagram: 🤍 Twitter: 🤍 - // DISCLAIMER For Healthcare Practitioners: This content is provided only for medical education. Although the authors have made every effort to provide the most up-to-date, evidence-based medical information, this content should not necessarily be considered the standard of care. It may not reflect individual practices in other geographic locations. It should be considered in the context of other medical educational resources. For the Public: This content is not intended to be a substitute for professional medical advice, diagnosis, or treatment. You should contact your own physician or other qualified healthcare providers with any questions you may have regarding your medical condition. Do not disregard professional medical advice or delay seeking it based on information from this content. Relying on information provided in this content is done at your own risk. In a medical emergency, contact your physician or call 9-1-1 immediately.
The American Heart Association ACLS Bradycardia Algorithm is an important algorithm for the management of Symptomatic Bradycardia: 0:00 Intro 1:00 Initial Management Steps 1:57 Good Perfusion 2:20 Symptomatic Bradycardia 2:45 Atropine 3:47 Transcutaneous Pacing (TCP) 4:27 Dopamine 4:50 Epinephrine 5:00 No response to treatments- Search for contributing causes 5:36 Outro AHA 2020 Guidelines: 🤍 Disclaimer: This video is for educational purposes only, and is not intended as medical advice. While we strive for 100% accuracy, errors may occur, and medications or protocols may change over time. #theresuscitationcoach #Bradycardia #atropine
🤍 - ACLS Certification Training Videos Get $20 off your certification or recertification with the discount code youtubeacls2017 If you have a patient that is conscious and alert, with vitals of respirations 20, Heart rate 48 beats per minute and irregular, Blood Pressure 78/40, and spO2 94%, this patient is bradycardic and hypotensive. Since the patient is conscious, .5mg of atropine would be a good choice. If the patient became unconscious or the atropine was ineffective, transcutaneous pacing would be appropriate. The pacer would be started at 60 beats per minute. Also, the milliamps should start at 50. As the pacer is running, you would turn up the milliamps until the heart is captured. When there is consistent capture, depending on the intervals of the machine, turn up the milliamps 2-5 more to keep capture. Then the heart would be increased until symptoms improve. This is typically between 60-70 bpm. Check out all of ProTrainings' courses: 🤍 For more videos like this or to get CPR Certified please visit 🤍 ProTrainings offers a variety of courses such as: Bloodborne pathogens: 🤍 Pet First Aid and CPR: 🤍 Anaphylaxis: 🤍 HIPAA: 🤍 ACLS: 🤍 PALS: 🤍 Follow us on Twitter: 🤍 Like us on Facebook: 🤍 Follow us on Instagram: 🤍
Tachycardia-Bradycardia Syndrome is a manifestation of sinus node dysfunction, one that is characterized by periods of supraventricular tachycardia interspersed with periods of bradycardia. 📺 Subscribe To My Channel and Get More Great Quizzes and Tutorials 🤍 #FOAMed #cardiology #ECG Disclaimer: All the information provided by Medical Education for Visual Learners and associated videos are strictly for informational purposes only. It is not intended as a substitute for medical advice from your health care provider or physician. It should not be used to overrule the advice of a qualified healthcare provider, nor to provide advice for emergency medical treatment. If you think that you or someone that you know may be suffering from a medical condition, then please consult your physician or seek immediate medical attention.
In this video “Sinus Bradycardia ECG (EKG) Explained" you will learn about: ►the characteristics of sinus bradycardia ►the steps of ECG interpretation and identify how to assess for sinus bradycardia ►the difference between normal sinus rhythm (NSR) and sinus bradycardia ► This video is part of the Lecturio course “Med-Surg/Pathophysiology” ► WATCH the complete course on 🤍 ► THE PROF: Dr. Rhonda Lawes is a Certified Nurse Educator (CNE), and an Assistant Professor at the University of Oklahoma College of Nursing in Oklahoma, USA. She obtained her PhD in Educational Psychology from Oklahoma State University in 2016. Due to her achievements, she has earned numerous teaching awards. She teaches nursing students how to use the science of cognitive learning to maximize their study effectiveness. Within Lecturio, Dr. Lawes is the Director of Nursing Education Programs, and teaches courses on Pharmacology (Nursing), Medical Surgical Nursing and Pathophysiology. ► LECTURIO is your smart tutor for nursing school: Learn the toughest NCLEX® topics with high-yield video lectures, integrated quiz questions, and more. Register now to study anytime and anywhere you want to: 🤍 ► CHECK OUT ALL NURSING COURSES: Leadership Nursing: 🤍 Dosage Calculation Nursing: 🤍 Physiology Nursing: 🤍 Medical Surgical Nursing: 🤍 Pharmacology Nursing: 🤍 NCLEX® Pharmacology Nursing: 🤍 Pediatric Nursing: 🤍 Study Skills Nursing: 🤍 Fundamentals of Nursing - Theory: 🤍 Fundamentals of Nursing - Clinical Skills: 🤍 Nursing Prerequisites: 🤍 Mental Health Nursing: 🤍 Maternal-Newborn Nursing: 🤍 ► INSTALL the free Lecturio app iTunes Store: 🤍 Play Store: 🤍 ► SUBSCRIBE to our YouTube channel: 🤍 ► WATCH MORE ON YOUTUBE: 🤍 ► LET’S CONNECT: Facebook: 🤍facebook.com/lecturio.nursing Instagram: 🤍instagram.com/lecturio_nursing Join Discord Community: 🤍 TikTok: 🤍tiktok.com/🤍lecturio_nursing #nursingschool #nursingeducation #medicalsurgicalnursing #leadershipnursing #nclex #pathophysiology #medsurg #medsurgnursing #patho
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In this video some common causes of bradycardia, as well as the consequences are explained.
Tachycardia and bradycardia are two commonly used terms in the dysautonomia community. This video explains the difference between the two.
#LiveWithLauren: Today we are learning about Bradycardia in PALS. Watch these quick tips and be better prepared to save someone's life! Need certified or recertified in PALS, visit 🤍 Watch all of our webinars at 🤍 Follow us on social media! Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Pinterest: 🤍 LinkedIn: 🤍 Website: 🤍 To find out more about the Save a Life Initiative and the Disque foundation please visit our site or email us at info🤍DisqueFoundation.org Together, let’s save lives.
How do you know if you have bradycardia? Listen to Usman Siddiqui, M.D. explain the symptoms of bradycardia.
Bradycardia // Bradyarrhythmia Short video for medical students Instagram: 🤍1postmedicine Website: 1postmedicine.com
This lesson defines pediatric bradycardia and how to recognize and respond to all the different types of bradycardia. The different types of bradycardia includes Sinus Bradycardia, First Degree AV Block, Type I Second Degree AV Block (Mobitz I), Type II Second Degree AV Block (Mobitz II), Third Degree AV Block (Complete). To become PALS certified with NHCPS, visit 🤍 Follow us on social media! Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Pinterest: 🤍 LinkedIn: 🤍 Website: 🤍 To find out more about NHCPS, Save a Life Initiative and the Disque foundation please visit our site or email us at customerservice🤍nhcps.com. Together, let’s save lives.
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