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Contenuto fornito da USMLE-Rx. Tutti i contenuti dei podcast, inclusi episodi, grafica e descrizioni dei podcast, vengono caricati e forniti direttamente da USMLE-Rx o dal partner della piattaforma podcast. Se ritieni che qualcuno stia utilizzando la tua opera protetta da copyright senza la tua autorizzazione, puoi seguire la procedura descritta qui https://it.player.fm/legal.
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The Rx Bricks Podcast
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Contenuto fornito da USMLE-Rx. Tutti i contenuti dei podcast, inclusi episodi, grafica e descrizioni dei podcast, vengono caricati e forniti direttamente da USMLE-Rx o dal partner della piattaforma podcast. Se ritieni che qualcuno stia utilizzando la tua opera protetta da copyright senza la tua autorizzazione, puoi seguire la procedura descritta qui https://it.player.fm/legal.
The Rx Bricks podcast from USMLE-Rx is designed to help you master medical school. Each episode is an audio version of one of our revolutionary Rx Bricks, which are short, high-yield, interactive learning modules. Each week, we present a new audiobrick based on an important basic science topic (e.g., pressure-volume loops) or clinical concept (e.g., ischemic heart disease). Learn more at www.usmle-rx.com
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107 episodi
Segna tutti come (non) riprodotti ...
Manage series 2789995
Contenuto fornito da USMLE-Rx. Tutti i contenuti dei podcast, inclusi episodi, grafica e descrizioni dei podcast, vengono caricati e forniti direttamente da USMLE-Rx o dal partner della piattaforma podcast. Se ritieni che qualcuno stia utilizzando la tua opera protetta da copyright senza la tua autorizzazione, puoi seguire la procedura descritta qui https://it.player.fm/legal.
The Rx Bricks podcast from USMLE-Rx is designed to help you master medical school. Each episode is an audio version of one of our revolutionary Rx Bricks, which are short, high-yield, interactive learning modules. Each week, we present a new audiobrick based on an important basic science topic (e.g., pressure-volume loops) or clinical concept (e.g., ischemic heart disease). Learn more at www.usmle-rx.com
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107 episodi
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×Early in fetal development, the precursors of the major systems in the body are outlined. The three germ layers (endoderm, mesoderm, ectoderm) are formed during the third week of development. We’ll focus on the ectoderm, from which the entire nervous system (central and peripheral) forms. But first, let’s back up to review the anatomy of the central nervous system (CNS) and peripheral nervous system (PNS) so that we know what the end products of their development are. The CNS comprises the brain and spinal cord; the PNS is composed of the 31 pairs of spinal and 12 pairs of cranial nerves and all the ganglia. After listening to this AudioBrick, you should be able to: List the derivatives of ectoderm. Define neurulation and explain how it occurs, including closure and the dates of neuropore closure. Describe the origin, migration, and fate of neural crest cells, particularly those that form the peripheral nervous system. Explain how the neural tube is organized into three layers. Describe how the spinal cord develops from the neural tube, and describe the contributions of each to these layers to the structure of the mature spinal cord, with emphasis on the alar and basal plates. Describe the development of the brain, including the five brain vesicles, the brainstem, and the cerebral cortex. You can also check out the original brick on the development of the nervous system from our Neurology and Special Senses collection, which is available for free. Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/ from our Musculoskeletal, Skin, and Connective Tissue collection, which is available for free. Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
Differences in ion concentrations inside and outside a cell cause a difference in the charge of the intracellular and extracellular environments. This electrical polarization of a cell relative to its environment is referred to as cellular membrane potential. This potential serves as an energy source for a variety of cellular functions and as a way for excitable cells like muscle cells and neurons to communicate their signals. A cell controls its membrane potential by regulating the concentration of multiple ions and other charged particles. Let’s take a closer look at the biochemistry behind the cell membrane potential. After listening to this AudioBrick, you should be able to: Define equilibrium and describe the forces at work on ions across a biological membrane. Discuss the importance of the Nernst equation and equilibrium potentials. Describe the importance of Na-K-ATPase in relation to the resting membrane potential (Vr). Describe the nonequilibrium steady-state (NESS). Define and discuss the chord conductance equation. You can also check out the original brick from our Cellular Biology collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
What are bullous skin disorders? Bullae are fluid-filled blisters >1 cm in diameter. They can be caused by infection, mechanical stress, or a malfunctioning immune system. In this discussion, we tackle the latter, focusing on the most common autoimmune bullous (blistering) disorders: pemphigus vulgaris, bullous pemphigoid, and dermatitis herpetiformis. Distinctly, the blisters in each of these disorders involve different layers of the skin and autoantibodies against different proteins. After listening to this AudioBrick, you should be able to: Describe the typical clinical presentation, risk factors, pathophysiology, diagnostic features, and treatment of pemphigoid vulgaris. Describe the typical clinical presentation, risk factors, pathophysiology, diagnostic features, and treatment of bullous pemphigoid. Describe the typical clinical presentation, risk factors, pathophysiology, diagnostic features, and treatment of dermatitis herpetiformis. You can also check out the original brick on Bullous Skin Disorders from our Musculoskeletal, Skin, and Connective Tissue collection, which is available for free. Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
A macrovascular complication of diabetes, diabetic nephropathy is progressive, chronic kidney disease seen in patients with both type 1 and type 2 diabetes mellitus, usually after at least 10 years of hyperglycemia (high blood glucose levels). The three main lesions that are seen in the kidney in patients with diabetes are glomerular lesions, vascular lesions, and pyelonephritis. This brick will focus primarily on the first two of these three lesions; diabetic pyelonephritis is covered in a separate brick. After listening to this AudioBrick, you should be able to: Define diabetic nephropathy. Outline the timeline of progression of diabetic nephropathy (DN) by urine, serum, and histologic criteria. Describe the diagnosis of diabetic nephropathy. Outline the prevention of diabetic nephropathy and, once it is established, how to slow its progression. Describe the management of diabetic nephropathy. You can also check out the original brick from our Renal collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
It might not be the flashiest anatomical structure, but if you want to stand upright, and keep your retroperitoneal organs (like your kidneys) in place, the posterior abdominal wall is pretty important. Located at the back of the body, bounded by the lateral abdominal walls and the posterior parietal peritoneum, the posterior abdominal wall is a complex combination of muscles, bones, nerves, and vessels that provides structural support for the body and for the organs of the retroperitoneal space. After listening to this AudioBrick, you should be able to: Describe the structure and relationships of the posterior abdominal wall, including the aorta (including collateral channels), inferior vena cava (including collateral tributaries), lymphatics, muscles (psoas major, quadratus lumborum), sympathetic chain, and lumbar plexus. Describe the relationship of the kidneys in the retroperitoneal space as it relates to posterior abdominal wall anatomy. You can also check out the original brick from our Cardiovascular collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
Epithelium is one of the four basic tissue types (the other three are muscle tissue, nerve tissue, and connective tissue). It is found throughout the body—covering it; lining organs, vessels, and cavities; and forming glands. It absorbs nutrients, transports electrolytes, secretes hormones, and regulates body temperature by producing sweat. We begin with some general principles of how epithelial tissue is organized, and then we describe its various components. After listening to this AudioBrick, you should be able to: List the two types of epithelium (covering/lining and glandular) and describe their functions. Describe the structure and histologic features of epithelial tissue. Explain how covering/lining epithelium is classified. Describe the histologic features of glandular epithelium. Describe the five types of epithelial intercellular junctions. You can also check out the original brick on the Histology of Epithelial Tissue from our Musculoskeletal, Skin, and Connective Tissue collection, which is available for free. Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
What do you know about prokaryote structure and the gram stain? Bacteria are members of a unique taxonomic kingdom consisting of prokaryotic unicellular organisms. Prokaryote is a term from ancient Greek meaning “before the kernel.” The kernel in this case is a nucleus, which prokaryotes lack. Prokaryotes also do not have any membrane-bound organelles. In fact, many of the organelles found in eukaryotes—like an endoplasmic reticulum, mitochondria, Golgi apparatus, lysosomes, and peroxisomes—are completely absent in prokaryotes. Bacteria first began to be identified by a “defective method.” Or so its Danish inventor, a recent medical school grad named Hans Christian Gram, deemed it in 1884. Gram was working with lung tissue from cadavers who had died of infections from Streptococcus pneumoniae and Klebsiella pneumoniae when he discovered that those organisms reacted differently to certain substances under the microscope, and—voilà—the Gram stain was born, to identify gram-positive bacteria. The defect he mentioned was overcome by German pathologist Carl Weigert, who added a final step to Gram’s procedure and gave us the method to identify gram-negative bacteria. We’re still using the same techniques more than 130 years later! After listening to this AudioBrick, you should be able to: Describe the structure of prokaryotic cells. Discuss the physiologic niche of bacteria and their growth characteristics. Describe the staining characteristics and classification and identification of bacteria. To learn more about prokaryote structure and the gram stain, check out the original brick on Gastrointestinal Regulatory Substances from our Gastrointestinal collection, which is available for free. Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
What Is Global Health? In our increasingly interconnected world, health challenges transcend national boundaries and demand global solutions. Global health is an interdisciplinary field of study and practice that seeks to improve the health and well-being of populations worldwide, focusing on the health challenges that require global and national action in every country. It encompasses epidemiology, public health, medicine, environmental health, anthropology, sociology, health policy, and economics. After listening to this AudioBrick, you should be able to: Explain how globalization impacts health.1 Explain how health status varies across countries, time, age, and gender.2 Identify the main threats to global health. You can also check out the original brick from our Global Health collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
How do we survive in a complex environment filled with harmful organisms that thrive on colonizing us? Our heroic defender is the immune system, a network of organs and cell lines that exist with the mission of protecting the body from harm. While we often recognize the pathogen-fighting capabilities of the system, we can sometimes forget that the immune system is also crucial in ensuring the body is kept safe from itself, as in when our cells transform into cancer cells. On the dark side, sometimes our immune system can get overactive, reacting against our own normal body tissue. Taken together, the immune system is both critical for survival and a vital topic for new medical research. After listening to this AudioBrick, you should be able to: Discuss the main purposes of the immune system. Briefly explain how the innate immune system works, and describe how antigens are transferred from the innate to the adaptive immune system (dendritic cells). Briefly describe the main purpose of the adaptive immune system, and explain how the two arms (cellular and humoral) work. Describe what happens after an immune response is finished. You can also check out the original brick from our Immunology collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
In the fed state, glucose is used by almost all the cells in the body to generate energy. But even when we are not fueling it with food, our bodies still run well, such as during sleep. Gluconeogenesis is the process of synthesizing glucose from noncarbohydrate precursors. The major substrates (substances that enzymes act on) are the glucogenic amino acids, lactate, glycerol, and propionate. The liver and kidneys are the major sites where gluconeogenesis occurs; the kidneys may contribute up to 40% of total glucose synthesis in the fasting state and more in starvation. After listening to this AudioBrick, you should be able to: Describe gluconeogenesis and the compounds that can and cannot serve as glucose precursors in mammals. Explain the gluconeogenesis pathway. Describe ways in which gluconeogenesis and glycolysis are reciprocally regulated. You can also check out the original brick from our Cellular and Molecular Biology collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
When you hear the word blood, what do you picture in your mind? Most likely, your brain conjures up an image of thick, red liquid. But what would blood look like if you removed all the red cells? You’d be left with a murky yellowish liquid that would clear up once you removed the white cells and platelets. This lovely, clear, straw-yellow, liquid portion of blood is known as plasma. So let’s talk about plasma composition. After listening to this AudioBrick, you should be able to: Define blood plasma and explain its importance and function. Compare and contrast the contents of plasma and serum. Understand how plasma components are used in medicine. You can also check out the original brick on plasma composition from our Hematology collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
Hemophilia is a bleeding disorder resulting from defects in factors of the coagulation cascade. There are two primary types of hemophilia: A and B. Both types of hemophilia are rare, with only a combined frequency of about 1 in 5000 live births. Of the two types, hemophilia A is about four times more common. In the intrinsic arm of the coagulation cascade, factor VIII serves as a cofactor for factor IX. They cooperate to activate factor X, leading to the formation of fibrin. After listening to this AudioBrick, you should be able to: Compare and contrast the underlying defect in hemophilia A and B. Describe the inheritance pattern and relative incidence of hemophilia A and B. Describe the clinical features of hemophilia A and B. Explain how hemophilia A and B are diagnosed. List and briefly describe other factor deficiencies. You can also check out the original brick on Hemophilia from our Hematology collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
Pain is a sensation that warns of potential injury and alerts the person to avoid or treat it. For example, if you touch a hot object, you will feel pain and immediately remove your hand from that object, protecting your hand from further damage. As much as pain can burden and torment, ultimately it is an essential part of our bodies’ mechanisms of self-preservation. Pain can be mild or severe, constant or intermittent, sharp or dull. Sometimes it can even be hard to describe the uncomfortable sensation in words. Nevertheless, clinicians always ask their patients to describe their pain. Why? Because its characteristics can help us better determine the mechanism behind a patient’s pain. In the clinic, the patient’s subjective experience of pain can be crucial to arriving at the correct diagnosis and treatment. For this reason, understanding the different kinds of pain and their underlying biology is an essential building block of foundational clinical knowledge. There is no standard system of classifying pain. In this discussion, we will classify the five main types of pain as nociceptive, breakthrough, inflammatory, neuropathic, and functional. After listening to this AudioBrick, you should be able to: Define the different classifications of pain and why they occur. Describe the mechanisms of neuropathic pain. Define and describe transient and chronic paresthesia. Define and describe allodynia and hyperalgesia. You can also check out the original brick on Pain Mechanisms from our Neurology and Special Senses collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
As we eat, our gastrointestinal (GI) system releases a host of both local and distant regulators to control the process of digestion. We will begin with the primary hormones, then cover some of the secondary hormones, and lastly discuss how our body senses its intraluminal contents and then subsequently integrates all of the various stimuli it receives. After listening to this AudioBrick, you should be able to: Identify the location, cell type, release stimulus to the endocrine cells, and function of the major gastrointestinal (GI) hormones secretin, cholecystokinin (CCK), gastrin, vasoactive intestinal polypeptide (VIP). Describe in brief the release stimulus and function of the GI regulatory peptides bombesin, GLP-1, GLP-2, ghrelin, leptin, motilin, somatostatin, and gastric inhibitory polypeptide (GIP). Understand how the physical and chemical compositions of luminal contents are sensed and the hormonal responses that then occur. Outline how GI cells integrate multiple regulatory inputs from hormonal and neural inputs to control function. You can also check out the original brick on Gastrointestinal Regulatory Substances from our Gastrointestinal collection, which is available for free. Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
Headaches are an unavoidable fact of life and often are nothing more than the result of sitting through one too many lectures. However, they can become debilitating and get in the way of daily life, especially when they become recurrent. Although some headaches have symptoms other than head pain, we typically think of headache pain relative to its location, how intense it is, and how long it lasts. After listening to this AudioBrick, you should be able to: Compare and contrast the clinical features of primary headache syndromes (migraine, cluster, tension-type headaches). Differentiate migraine aura from other transient neurological disorders (eg, transient ischemic attacks, seizure, presyncope). Discuss the mechanisms of central nervous system sensitization and pain referral and the interaction of neural structures, particularly pain pathways and neurovascular control. Outline which patients warrant radiologic or other lab evaluation for headache. Describe the treatment of patients with headache disorders and potential complications of treatment. You can also check out the original brick on Migraine, Cluster, and Tension Headaches from our Neurology and Special Senses collection, which is available for free . Learn more about Rx Bricks by signing up for a free USMLE-Rx account: www.usmle-rx.com You will get 5 days of full access to our Rx360+ program, including nearly 800 Rx Bricks. After the 5-day period, you will still be able to access over 150 free bricks , including the entire collections for General Microbiology and Cellular and Molecular Biology . *** If you enjoyed this episode, we’d love for you to leave a review on Apple Podcasts . It helps with our visibility, and the more med students (or future med students) listen to the podcast, the more we can provide to the future physicians of the world. Follow USMLE-Rx at: Facebook: www.facebook.com/usmlerx Blog: www.firstaidteam.com Twitter: https://twitter.com/firstaidteam Instagram: https://www.instagram.com/firstaidteam/ YouTube: www.youtube.com/USMLERX Learn how you can access over 150 of our bricks for FREE: https://usmlerx.wpengine.com/free-bricks/…
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