How Your Kidneys Work
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- Опубликовано: 5 июн 2024
- MEDICAL ANIMATION TRANSCRIPT: The kidneys are located on either side of the spinal column in the posterior abdominal wall. Adrenal glands sit on top of the kidney. The medullary pyramid and outer cortex compose the renal lobe. Branches of the renal artery supply each renal lobe. The smallest branches of the renal artery called afferent arterioles, supply the excretory components of the kidney called nephrons. Each nephron consists of a renal corpuscle and a renal tubule. The first step of urine production, called glomerular filtration, occurs in the renal corpuscle. It consists of a network of capillaries called the glomerulus and Bowman's capsule. The diameter of the afferent arteriole is larger than the efferent arteriole. This size difference produces high pressure within the glomerulus. The pressure forces the smallest substances such as water, nitrogenous waste, amino acids, glucose, sodium ions, and calcium ions out of the blood into Bowman's capsule through tiny spaces in the membrane separating them. Other substances such as plasma proteins and red blood cells, are too large to pass through the membrane, so they remain in the blood. During the second step of urine production called tubular reabsorption, the fluid passes through the renal tubule which consists of the proximal convoluted tubule, loop of Henle, distal convoluted tubule, and collecting duct. As the fluid passes through the renal tubule, it reabsorbs useful substances into the peritubular capillaries, specifically glucose, amino acids, and some sodium and calcium ions, are reabsorbed by active transport. The peritubular capillary reabsorbs water through osmosis. The final step of urine production is tubular secretion, which occurs primarily in the distal convoluted tubules. These tubules extract larger nitrogenous wastes, excess hydrogen ions, and excess potassium ions from the peritubular capillaries and secrete them into the tubular fluid. From here, these wastes will continue through the urinary system until they pass out of the body in urine.
#KidneyFunction #GlomerularFiltration #TubularReabsorption
ANM11029
Great animation
You're back! Been watching your channel since 2021.
I love their videos
really great animation, thank you
i love it!! I was searching for this days ago, its like the channel knows what I need haha. thank you so much!
This video makes me want to drink water more.
Beautiful description 👌 ❤
Amazing video!!
Loop of Henley. I remembered this in A&P
Such a brilliant Video I have ever seen 😍
Thank you
Love you guys
I can see why these took a billion years to evolve
Fr
Praise the lord 🙏
Just in time for my elimination module. Thank you!!
great
Very good 🤝💞💞
Nice
This reminds me of how uniquely our bodies function
This is my favourite anime
This really sounds convoluted
I feel a nephrologist! So many terminologies have to be learnt carefully within 3:32 minutes where challenges are there for distraction.
If Nucleus Medical Media gives a question paper side by side to attend an answer sheet for viewers (students), confident will create whether this study is an equivalent to a MBBS
Thus, a curriculum CAN be constituted as though a Constitution📴
How can you tell me life is a coincidence after this explanation.
Indeed there's a LIVING GOD
🤔 Why are the adrenaline glands connected to the kidneys
The adrenal glands are connected with the kidneys because they sit atop the kidneys, making them anatomically and functionally linked. The adrenal glands produce hormones such as adrenaline, cortisol, and aldosterone, which play important roles in regulating metabolism, immune function, and blood pressure, among other things. These hormones often interact with the kidneys to maintain homeostasis in the body.
@@Mercifulservnt hello chatgpt
I found myself setting the speed to 1.25x; could you read your script about 25% faster?
It's an education channel, better to be clear than rush
Science annapurna durga ji
I lost my 1 kidney last year 🥺🥺🥺🥺
Yeesh, could you talk any slower?
Great animation