#Cardiac Care technology
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How Hyper-Hypothermia Units Enhance Patient Recovery: Mercury Healthcare
In the realm of modern medicine, precision and control over patient conditions during and after treatment are crucial for successful outcomes. Hyper-hypothermia units play a significant role in this aspect, providing essential temperature regulation that enhances patient recovery. These units, designed to either elevate or lower body temperatures as required, are vital in various medical treatments and surgical procedures. Mercury Healthcare, a leading manufacturer and supplier in India, stands at the forefront of this technology, offering top-quality hyper-hypothermia units that ensure optimal patient care and recovery.
Understanding Hyper-Hypothermia Units
Hyper-hypothermia units are medical devices used to control a patient's body temperature. Hyperthermia refers to raising the body temperature, while hypothermia involves lowering it. These units are equipped with advanced technology to precisely manage temperature, ensuring that it stays within the desired range. This control is crucial in various medical scenarios, including surgeries, post-operative care, and specific treatments for conditions like cancer and cardiac arrest.
Enhancing Patient Recovery
Optimizing Surgical Outcomes
During surgeries, maintaining an optimal body temperature is critical. Hyper-hypothermia units ensure that the patient’s body temperature remains stable, reducing the risk of complications such as infections or excessive bleeding. This stability contributes to better surgical outcomes and faster recovery times.
Post-Operative Care
After surgery, patients often face the challenge of maintaining stable body temperatures. Hyper-hypothermia units aid in this by providing consistent temperature management, which is essential for healing and reducing post-operative complications. Patients benefit from quicker recovery times and improved overall outcomes.
Cancer Treatment
Hyperthermia therapy, where body tissue is exposed to high temperatures, is a promising approach in cancer treatment. It can enhance the effectiveness of radiation and chemotherapy. Hyper-hypothermia units enable precise control of the temperature, ensuring the therapy's effectiveness while minimizing damage to healthy tissues.
Cardiac Arrest and Trauma Care
Inducing hypothermia in patients who have suffered cardiac arrest or severe trauma can significantly improve survival rates and neurological outcomes. Controlled cooling slows down the body's metabolic processes, protecting vital organs, especially the brain, from damage. Hyper-hypothermia units are indispensable in emergency settings for such critical interventions.
Neonatal Care
In neonatal care, maintaining the right body temperature for premature or ill infants is vital. Hyper-hypothermia units provide the necessary thermal support to these vulnerable patients, enhancing their chances of survival and reducing complications.
Why Choose Mercury Healthcare?
When it comes to selecting the best hyper-hypothermia units, Mercury Healthcare emerges as the leading manufacturer and supplier in India. Here’s why:
Advanced Technology: Mercury Healthcare’s hyper-hypothermia units are built with state-of-the-art technology, ensuring precise and reliable temperature control. This advanced technology is crucial for enhancing patient recovery in various medical scenarios.
Quality Assurance: Mercury Healthcare adheres to stringent quality standards, ensuring that every unit is thoroughly tested and certified. This commitment to quality guarantees that healthcare providers receive only the best equipment for their patients.
Comprehensive Support: Understanding the critical nature of their equipment, Mercury Healthcare provides exceptional customer support, including training, maintenance, and technical assistance. This ensures that healthcare facilities can effectively utilize their hyper-hypothermia units to enhance patient care.
Customized Solutions: Recognizing that different medical scenarios require specific temperature management, Mercury Healthcare offers a range of hyper-hypothermia units tailored to various medical needs, ensuring optimal functionality and effectiveness.
Conclusion
Hyper-hypothermia units are pivotal in modern medical treatments, significantly enhancing patient recovery by providing precise temperature control. From optimizing surgical outcomes to supporting critical care and neonatal patients, these units are indispensable in healthcare settings. Mercury Healthcare, as the best hyper-hypothermia units manufacturer and supplier in India, stands out with its advanced technology, commitment to quality, and comprehensive support. Trust Mercury Healthcare for top-tier hyper-hypothermia units that ensure optimal patient care and recovery.
#Best hyper-hypothermia units for patient recovery#Benefits of hyper-hypothermia units in surgeries#Post-operative care with hyper-hypothermia units#Cancer treatment hyper-hypothermia therapy#Cardiac arrest hypothermia treatment benefits#Neonatal care hyper-hypothermia units#Top hyper-hypothermia units manufacturer in India#Mercury Healthcare hyper-hypothermia units review#Advanced hyper-hypothermia technology in healthcare#How hyper-hypothermia units improve surgical outcomes#Best temperature control devices for patient care#Reliable hyper-hypothermia units supplier in India#Quality hyper-hypothermia units for hospitals#Customized hyper-hypothermia solutions for medical treatments#Hyper-hypothermia units for trauma and emergency care#Effective use of hyper-hypothermia units in neonatal ICU#Why choose Mercury Healthcare for hyper-hypothermia units#How to maintain hyper-hypothermia units in hospitals#Top-rated hyper-hypothermia units for critical care#Impact of hyper-hypothermia units on patient recovery times
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Best health science institute in Kottayam
#Top health science college in Kerala#College for MLT Kottayam#Best college for radiology in Kerala#Medical imaging technology courses in Kottayam#Cardiac Care Technology Colleges in Kerala#B. Voc. in Cardiac Care Technology Kottayam
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Hiatal Hernia Friendly Foods Delicious Dishes to Soothe Your Belly and Fight the Burn #herniadiet #n
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#Best health science institute in Kottayam#Top health science college in Kerala#College for MLT Kottayam#Best college for radiology in Kerala#Medical imaging technology courses in Kottayam#Cardiac Care Technology Colleges in Kerala#B. Voc. in Cardiac Care Technology Kottayam#Operation Theatre Technology in Kerala#B. Voc. in Operation Theatre Technology near me#Top college for Dialysis Technology#Best college for Dialysis Technology in Kottayam#Dialysis Technology college near me#Best college for radiology in Kottayam#Paramedical courses in Kottayam#Paramedical courses in Kerala#Best Paramedical colleges in Kottayam#Best Paramedical college in Kerala
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Extracorporeal Membrane Oxygenation Machine | Exploring Opportunities and Challenges
The global extracorporeal membrane oxygenation machine market size is anticipated to reach to reach USD 445.7 million by 2030, expanding at a CAGR of 5.5% from 2024 to 2030, based on a new report by Grand View Research, Inc. This growth can be attributed to the rising prevalence of cardiopulmonary and respiratory diseases, increasing adoption of ECMO machines in hospitals, and technological advancements in ECMO machines. The market expansion is also driven by the need for advanced life support technologies like ECMO machines, which are becoming increasingly necessary in treating patients with severe or life-threatening cardiac or pulmonary conditions.
Extracorporeal Membrane Oxygenation Machine Market Report Highlights
In 2023, the oxygenators segment accounted for the largest market share. This can be attributed due to prevalence of diseases like coronary heart disease and chronic obstructive pulmonary disease (COPD) continues to rise, the demand for advanced life support technologies like ECMO machines increases, driving the growth of the oxygenators segment.
The veno-arterial segment dominated the modality segment of ECMO machine market in 2023. This growth can be attributed due to high usage of veno-arterial ECMO in treating patients with cardiac arrest, where it assists with algorithm life support strategies to restore blood circulation. Additionally, the increasing incidence of chronic obstructive pulmonary disease (COPD) is also a key driver of this market segment.
The respiratory segment dominated the application segment in 2023 due to the high prevalence of respiratory diseases, such as Chronic Obstructive Pulmonary Disease (COPD) and acute respiratory distress syndrome (ARDS), which are leading causes of death worldwide, necessitate advanced life support technologies like ECMO machines.
The adult patient segment dominated the patient type segment in 2023 due to the prevalent incidence of heart and lung-related issues necessitating life-saving interventions.
The North American region held the largest share of the market in 2023 due to key industry players, consistent product launches, government backing for quality healthcare, advanced healthcare infrastructure, and favorable reimbursement policies.
Market players adopt several strategic initiatives to increase the product reach and improve availability in diverse geographic areas.
For More Details or Sample Copy please visit link @: Extracorporeal Membrane Oxygenation Machine Market Report
The rising prevalence of cardiovascular and respiratory diseases. Diseases such as coronary heart disease, cerebrovascular disease, rheumatic and congenital heart diseases, respiratory diseases like acute respiratory distress syndrome (ARDS), and chronic obstructive pulmonary diseases are leading causes of death worldwide. For instance, according to the World Heart Federation, approximately 18.6 million people die annually from cardiovascular diseases. Additionally, about 190,000 Americans are diagnosed with ARDS annually in the U.S. Such an increasing prevalence of cardiovascular and respiratory diseases has boosted the demand for ECMO machines, driving the market growth.
In addition, the increasing rate of technical improvement is increasing the usage of products. It is easier to transfer critically ill patients now as machine parts like hollow pumps and oxygenators are smaller. Moreover, introducing technologically advanced components, such as improved rotary pumps, dual-lumen cannulas, innovative oxygenators, and new cannulation approaches, is anticipated to ease the use of ECMO machines. For instance, in 2022, Inspira Technologies OXY B.H.N. Ltd. recently introduced the "Liby" System, an advanced life support system used to treat patients with life-threatening heart and lung failure. Similar advancements and the introduction of new products are expected to drive market growth in the coming years.
#extracorporeal membrane oxygenation#ECMO#life support technology#critical care#cardiopulmonary support#medical devices#intensive care#respiratory failure#heart-lung bypass#market analysis#healthcare technology#patient care#emergency medicine#global health#cardiac surgery#pulmonology#resuscitation#innovation#market trends#healthcare industry
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One Heartbeat at a Time: MedTech and Engineering Services Save Lives
In the United States, sudden cardiac arrest (SCA) claims the lives of 436,000 people annually, with over 350,000 incidents occurring outside hospitals. Addressing this urgent need, Kestra Medical Technologies introduced the ASSURE® Wearable Cardioverter Defibrillator (WCD), a revolutionary solution for at-risk cardiac patients.
Partnering with GlobalLogic, a Hitachi Group company, Kestra developed the ASSURE cardiac care and recovery system, a digital cardiac monitoring system comprising the ASSURE WCD, patient app, and Kestra CareStation™ remote patient data platform.
Designed for comfort and safety, the ASSURE system offers seamless protection. Nearly 74 percent of out-of-hospital cardiac arrests occur at home, making the ASSURE system’s continuous remote patient monitoring vital. This wearable system autonomously detects abnormal heart rhythms and administers therapeutic defibrillation shocks when necessary, without requiring patient or bystander intervention.
Kestra’s partnership with GlobalLogic resulted in a user-centric system with lightweight garments featuring ECG sensors and therapy pads. The ASSURE app empowers patients, encouraging engagement in their recovery process. Moreover, this digital cardiac monitoring system equips clinicians with valuable insights into patient heart rhythms, enhancing mobile patient monitoring.
Recognized with the Medical Design Excellence Award, the ASSURE system, available to over 100 million insurance plan members in the U.S., represents a significant leap in digital healthcare. The partnership between Kestra and GlobalLogic exemplifies the power of innovation in revolutionizing MedTech.
With a commitment to continuous improvement and patient empowerment, Kestra’s cutting-edge technology is shaping the future of mobile healthcare.
Discover how Kestra Medical Technologies and GlobalLogic joined forces to introduce the breakthrough ASSURE® Cardiac Recovery System to provide life-saving cardiac care and recovery
To learn how GlobalLogic can provide you with a cost-effective, scalable, highly competent and quality process-compliant software engineering product development team, visit
https://www.globallogic.com/services/industries/healthcare-life-sciences/.
#cardiac care#cardiac recovery#heart attack#medical technology#cardiac rehabilitation#cardiac health#remote patient monitoring#patient app#heart monitor#Wearable Cardioverter Defibrillator
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How To Become A Dialysis Technician? Job Roles And Eligibility
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# What is the Role of a Dialysis Technician?
# Responsibilities of a Dialysis Technician
# Getting Started as a Dialysis Technician
# Why Should You Pursue a Career as a Dialysis Technician?
Dialysis is used to flush out toxins, extra water, and solutes from the blood in people whose kidneys cannot do this independently. A qualified professional must administer care in complex…
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Bsc Cardiac Care Technology Colleges In Bangalore
Bsc in cardiac care technology is one of the most sought-after courses in Bangalore for students who aspire to contribute to the healthcare industry. Bangalore is home to many prestigious institutions that offer Bsc cardiac care technology colleges in bangalore that prepare students for a challenging career in cardiology.
One of the top colleges to pursue Bsc cardiac care technology in Bangalore is the Acharya Institute of Allied Health Sciences. The college has state-of-the-art infrastructure, experienced faculty members, and a comprehensive curriculum that covers all aspects of cardiac care. Students in this program learn about the anatomy and physiology of the heart, various cardiac diseases and disorders, and the latest diagnostic and treatment methods.
Another popular college is the KLE Academy of Higher Education and Research. This institution offers a Bsc cardiac care technology course that focuses on advanced research techniques and technologies used in the treatment of cardiovascular diseases. Students in this program gain hands-on experience in using specialized equipment and performing diagnostic tests.
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The Rajiv Gandhi University of Health Sciences is another top institution in Bangalore that offers a Bsc cardiac care technology course. The university has world-class facilities and provides students with the latest knowledge and skills needed to succeed in the field of cardiology. Students also get the opportunity to work with top cardiac specialists, conduct research, and participate in cardiac care conferences.
Apart from the above-mentioned colleges, there are many other top colleges in Bangalore that offer Bsc cardiac care technology courses. Some of these include the Indian Academy Degree College, Sree Siddhartha Medical College, and the Dayananda Sagar College of Physiotherapy.
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In conclusion, pursuing a Bsc in cardiac care technology in Bangalore can be incredibly rewarding for students who are passionate about cardiology. With well-equipped facilities, experienced faculty members, and comprehensive curriculums, students in these colleges get the opportunity to acquire knowledge and skills that will prepare them for a fulfilling career. Therefore, if you have a keen interest in the field of cardiology, Bangalore is an excellent option to pursue your Bsc in cardiac care technology.
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BSc Cardiac Care Technology Colleges in Himachal Pradesh | Dolphin PG College
BSc Cardiac Care Technology Colleges In Himachal Pradesh - Science-stream students who have completed their 12th grade can pursue a career as a cardiac care professional or technologist. In Himachal Pradesh, several BSc cardiac care technology colleges provide professional programmed in this area of study. Enthusiasts can enroll in a reputable university to acquire the abilities and potential needed to succeed in the field of cardiac care technology.
For ambitious students, the allied healthcare industry includes a variety of professional degrees. There is a high demand for medical experts to address public health demands in the ever-expanding field of medical services. One of these, the BSc in heart care technology, offers aspiring candidates excellent growth prospects and success.
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"In a highly-anticipated world-first, the Texas Heart Institute has successfully implanted an artificial titanium heart that uses the same technology as bullet trains to pump blood mechanically throughout the body.
Called the Total Artificial Heart (TAH), the feat is seen as a major step in keeping people alive for longer and longer periods while they wait for heart transplants.
Texas Heart partnered with the medical tech company BiVACOR to create the TAH. It’s a titanium-constructed biventricular rotary blood pump with a single moving part that utilizes a magnetically levitated rotor that pumps the blood and replaces both ventricles of a failing heart.
The benefit of using magnetic levitation is that none of the moving parts ever scrape or slide against each other, reducing friction, and dramatically increasing the longevity of the device. But what’s really cool is the TAH can pump blood at a rate of 12 liters per minute, enough to allow an adult male to engage in exercise.
The first-in-human clinical study, overseen closely by the FDA, aims to evaluate the safety and performance of the BiVACOR TAH as a bridge-to-transplant solution for patients with severe bi or univentricular heart failure. Following this first implantation completed at Baylor St. Luke’s Medical Center in the Texas Medical Center, four additional patients are to be enrolled in the study.
“The Texas Heart Institute is enthused about the groundbreaking first implantation of BiVACOR’s TAH. With heart failure remaining a leading cause of mortality globally, the BiVACOR TAH offers a beacon of hope for countless patients awaiting a heart transplant,” said Dr. Joseph Rogers, President and Chief Executive Officer of The Texas Heart Institute and National Principal Investigator on the research.
“We are proud to be at the forefront of this medical breakthrough, working alongside the dedicated teams at BiVACOR, Baylor College of Medicine, and Baylor St. Luke’s Medical Center to transform the future of heart failure therapy for this vulnerable population.”
Heart failure is a global epidemic affecting at least 26 million people worldwide, 6.2 million adults in the US, and is increasing in prevalence. Heart transplantations are reserved for those with severe heart failure and are limited to fewer than 6,000 procedures per year globally. Consequently, the US National Institutes of Health estimated that up to 100,000 patients could immediately benefit from mechanical alternatives.
The successful implantation of BiVACOR’s TAH highlights the potential of innovative technologies to address critical challenges in cardiac care, such as long transplantation waitlists.
“This achievement would not have been possible without the courage of our first patient and their family, the dedication of our team, and our expert collaborators at The Texas Heart Institute,” said Daniel Timms, founder and CTO of BiVACOR."
youtube
-Article via Good News Network, August 1, 2024. Video via 7News Australia, July 26, 2024.
#heart transplant#organ transplant#medical news#public health#organ donation#heart disease#titanium#texas#australia#cyborg#mechanical#transhumanism#the future is now#like for real apparently#good news#hope#Youtube
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Akso Hospital
Location: Downtown Linkon City
Clinic Number: 2122637824
"Linkon's municipal hospital, located downtown. A facility focused on medicine, research, and education. Its divisions, such as the Division of Cardiac Surgery and Division of General Surgery, are widely respected. At the forefront of healthcare, it is a world-renowned medical institute."
- Linkonopedia Entry
Details:
Okay, this is going to be a long one. Rather than try to cram everything into one huge post, I'll be splitting it up into a series of posts to sufficiently cover everything. I'll list the link menu at the bottom of this main post. But first, let's go over the general details of Akso Hospital!
Mottos:
"Akso Hospital, for a brighter future"
"For A Better Future of Life"
"Akso Hospital Cares"
Features & Facts:
It has its own Flux Stabilizer
The Akso Remote Monitor is a hospital took used for monitoring the health status of remote patients
It has a rooftop helipad with at least two rescue helicopters
Akso Hospital has at least 11 confirmed floors
The protaganist mentions a waiting area with a TV that plays movies. According to Zayne, there's also popcorn in a vending machine next to the nurse's station.
Events:
Hospital Staff's Lottery: This year, the grand prize was a hot springs trip for two. Zayne won.
Patient's Favorite Doctor: An annual public poll the hospital releases. The protaganist says the votes showed Zayne was very popular this year. The winner will be forced to appear in the hospital's promotional videos (a detail Zayne is not excited about lol)
Health Initiatives:
Zayne says the hospital has many health initiatives. But these are the ones specifically mentioned by name:
The Mindfulness Chamber: a mindfulness initiative
Get Out of Bed: an encouragement initiative
Floorplan:
At Akso Hospital, floors are denoted with a letter (possibly indicating the specific building or wing?) followed by the floor number. Rooms, offices, or defined areas on that floor are two-digit numbers. (For example, Room 2 on the fifth floor of building B would likely be written as "B6/B06, Room B02".)
Here are some Akso Hospital room locations I was able to confirm throughout the game:
Floor A8/A08:
00-03: Diagnosis Rooms
02: Division of Cardiac Surgery
04-06: Doctor's Offices
Floor A4/A04:
Reception where Yvonne works
Zayne's check up room is on floor A4
017: Radiotherapy
Link Menu:
Cafeteria
Division of General Surgery
Division of Cardiac Surgery
Division of Evol and Protocore Medical Technology
Emergency Room
Evol-Cardiac Medical Research Lab
Garden
Neurology and Sleep Center
Pediatrics & Pediatric Ward
Public Relations Division
Radiology
Radiotherapy
Surgery Center
(In-Game Medical Glossary)
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SPOILERS FOR BATMAN 148!!
Am I a bad person for laughing when I heard that Jason got killed off again? No, here’s why and how I think he should die instead:
This is gonna be a long one so strap in folks. I have sort of been cherry picking this whole run just because the writing has been so wishy washy, so much so that it’s genuinely made me lose an interest in DC. Comics lately have been pulling the weirdest things just for shock value, because they can’t write a half decent story line or character anymore. Their characters will have some growth and then it immediately gets destroyed a couple of issues later.
I’m sure you’ve heard it before (because we all agree) but there’s no real consequences in comics anymore. Characters get killed off at the end of an issue just for them to be revived within a few issues or if we’re going with Batman 148, literally the next one. There’s no legitimate stakes because everything that happens gets “fixed.” Tim gets shot through the throat? Eh he’ll be fine, he can walk it off and be up and running within an issue or two. Bruce starts acting erratic/insane (again)? Oh don’t worry it’s not actually Bruce it’s his alternate personality Zur-En-Arrh. Which, side note, is the stupidest fucking name/concept I’ve seen in a while, truly baffling.
Honestly, the only part of the run that I’ve seen so far that’s even a little bit interesting is Bruce literally changing Jason’s brain chemistry so that whenever adrenaline hits he has a fear response so bad it shuts him down. Let’s start off with, hey Bruce what the fuck? If he’s had a machine that can legitimately rewire a person’s brain in that way to make him incapable of killing, why in the world would you not use it on the rogues? And yes, I understand that some of them either don’t react to fear, embrace it, don’t care etc etc but if you have the technology to change their brain whos to say you can’t make that machine do whatever you want? It doesn’t have to be specifically fear. Maybe force their motor neurons to not respond whenever they experience an adrenaline rush so they physically cannot move and kill their prey. Moralistically, it’s not the most correct, obviously, but that’s just an example of an extreme. There’s a lot more acceptable things it could be used for and Batman never does. Having that as a plot point makes no sense logically when applying it to Bruce in any way. Even though he’s been written as straight up brain dead these last few years based on his decisions, Bruce is a very smart man and could absolutely find both a morally correct and smart/safe option using the machine. It doesn’t even make sense for him to have it seeing as he would have used it already and cut down on about half of his Gotham related problems. “Oh, but red! That would mean that we’d have to get rid of the Joker because the machine would have taken care of him.” GOOD, I’m sick of his ass, there are so many better rogues to pick from as a new arch enemy. The Joker is bland, predictable, and I could not give less of a fuck about him, he’s not compelling in any way.
Secondly, as fucked up as it is it could actually (unfortunately, I don’t like giving them any credit nowadays) be an insanely good way to kill off Jason and make it stick. Or, at least I think they should make it stick because again, actions have consequences and comics need to go back to that. Anyways, to sum it up it would most likely send Jason into cardiac arrest. The sympathetic nervous system (SNS) controls both the adrenaline and fear responses the machine would be “regulating.” The SNS triggers the fight/flight response and sends epinephrine (adrenaline) throughout the body, elevating heart rate and blood pressure. As soon as higher levels of epinephrine are produced the machine will kick on the fear response to “suppress” this, but instead of shutting off the flow of epinephrine and/or producing acetylcholine to lower heart rate, when the fear response is kicked into motion even more epinephrine will flood the system. It becomes a never ending cycle fueling itself, never ending fear. Your heart working that hard and fast for such an extended period of time would absolutely give out on you.
Personally, I think that would be an insane wake up call to everyone but for this he would need to stay dead and to stay dead for a while. As in several years at least. As stated earlier, long term consequences do not exist in DC (or at least Batman) comics anymore, everything gets turned around with not great writing or retconned or generally not accepted as canon. But a death like this would mean something. It wouldn’t just be death for shock value, it would be Jason Todd, one of Batman’s alleged greatest mistakes being put down like a dog and Bruce having to live with it. How would Bruce’s morals shift and change because of his death? Would he reconsider how he deals with rogues, would he retire, would he leave? How would his children react and retaliate? How would the rogues react seeing Batman inadvertently cause the death of his child in his pursuit of Justice?
The effect of Jason’s death was extremely significant on many characters and their development the first time it occurred, would it be more or less so this time? So many routes to pursue, it’s a horrifying concept when you think about how it would actually affect Jason which is why they’re never going to do anything about it. If you’re going to use a character death as a plot point it has to actually mean something, not a mindless death that’ll be cured quickly and with an incredibly inane line of “I’ve had practice dying.” Wow, you’re so original. I’m pretty sure I read that in some b-rated fic by a 14 year old two years ago. Also, maybe stop acting like Jason is the only one who has died and that he’s the most special because of it? Outside of Tim (because he’s never legit died in canon, only offshoots) practically everyone else in the family has died at one point. His personality is not just his death. It’s irritating and it’s poor writing.
TLDR: I’m right, DC’s wrong and their writing is shit. If Jason dies it needs to have an actual literary purpose and it needs to stick for it to mean anything.
#jason todd dc#jason red hood#jason todd red hood#jason todd robin#jason todd#red hood comics#red hood dc#red hood#bruce wayne#bruce wayne batman#the batman#batman comics#batman#batman 148#failsafe
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Best health science institute in Kottayam
GIHS is a paramedical college run by Mar Gregorious Memorial Education and Charitable Trust. The institute is located at Kangazha on the state highway at a distance of half a kilometer from Kangazha town. It is well connected with the main cities of Kottayam, Pathanamthitta and Alappuzha Districts. GIHS is established with a dream of providing job oriented vocational courses in health care stream. The main objective is to develop an institute with an aim to mould true health care professionals with service driven empathetic approach, medical ethics and accountability to the society. Our campus buildings and facilities are eco-friendly. Solar energy, rain water harvesting, tree plantation are some of the eco-friendly efforts of GIHS. We practice and strive to inculcate the feeling of social responsibility to each student. We aim to create health care professionals with a human touch and service mentality.
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Belly Button Exercises for Hernias Yes, Please! Gentle Moves to Strengthen Your Core and Minimize Bu
#health #herniarepair #hernia #surgery #medicalstudents #medicalprofessionals #DrAtefAhmed
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Atef’s Notes In Hernia for Medical…
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College for MLT Kottayam
#Best health science institute in Kottayam#Top health science college in Kerala#College for MLT Kottayam#Best college for radiology in Kerala#Medical imaging technology courses in Kottayam#Cardiac Care Technology Colleges in Kerala#B. Voc. in Cardiac Care Technology Kottayam#Operation Theatre Technology in Kerala#B. Voc. in Operation Theatre Technology near me#Top college for Dialysis Technology#Best college for Dialysis Technology in Kottayam#Dialysis Technology college near me#Best college for radiology in Kottayam#Paramedical courses in Kottayam#Paramedical courses in Kerala#Best Paramedical colleges in Kottayam#Best Paramedical college in Kerala
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that ask/meta about Bucky and sleeping broke my heart. I always feel sad when seeing that scene of them manhandling Bucky out of the vault and so but to know they manhandled him while he was basically dead is just sad as hell. he deserved better than a bunch of criminals doing that to him. 😔
while writing this a question came to my mind: what do you think are all the things attached to his body in that opening scene of civil war? I always thought the mask was oxygen but if he was basically dead then he didn't need oxygen, right? plus he's not wearing a mask in other times when we saw him being put under cryo, so what was that for? and the things around his chest??
Thanks for the ask! Cryo is not at all within the realm of my knowledge because there’s complicated physics involved 😂 And to be fair, I think this is classic movie science where the creators themselves have done very little research into how cryo is achieved.
This article provides a good run-down of the theory behind cryopreservation, but it’s from 2008 and technology and our understanding of cell metabolism is likely different now.
To summarise:
The subject needs to be cooled to -120C to be held in cryostasis. At these temperatures, chemical reactions are so slow that the cells can stay stable for centuries.
Blood is removed before the subject has been cooled below 0C and vitrification mixtures are injected into the subject to prevent ice crystal formation. This mixture is toxic, so has to be tightly controlled for the temperature it is given.
Another factor to control for is reperfusion injury upon warming and re-infusing the subject with blood.
Other interesting facts noted in that article is that humans have been cooled to 16-24C with cardiac arrest of more than an hour, then reawakened without neurological damage, which is impressive given brain damage is said to occur within minutes of cardiac arrest at normal body temperature.
Importantly though, the article doesn’t seem to mention any cases where an entire mammal has been successfully resurrected from cryo, much less multiple rounds of freeze-thaw cycles that Bucky had to go through. A lot of what it discusses in theory is on the basis of maximising the preservation of brain tissue, while sacrificing other organs to potential damage (I think the article said something along the lines of “in the future stem cell technology would take care of all those damaged organs!” which…isn’t going to help poor Buck out)
What I can’t find with my (very limited) reading is how the blood is stored after it is replaced. Presumably it is also cryopreserved separately? Because transfusing someone else’s blood into the subject’s body will cause huge issues. The other major difference between current data and Bucky’s situation is that current cryo methods are for the preservation of recently deceased bodies, while Bucky is still alive when he is placed into cryo.
So uh, assuming Bucky’s cryo is anything based in current real world science, he’s likely to have attachments for: heart monitoring and defibrillation, airway support and oxygen supply, large bore intravenous lines for rapid blood removal and replacement which would also help control the cooling/warming, some sort of real time monitoring of acid-base and electrolyte and oxygenation levels and replacement, and maybe some sort of EEG to monitor brainwaves. The blue glowing buttons are kiiiinda in the right place for heart monitor if we’re assuming a 3-lead system and the other one is hidden on his right side.
Keep in mind, this is not taking into account any magic effect the serum might have, ie maybe cryosuspension and revitalisation is only possible because of the serum, and maybe crystallisation isn’t an issue because of the serum.
And this is going to be TMI but I wonder what the effect of intestinal contents would be on cryo. Limiting his intestinal contents is partly the reason why I feel like Bucky likely didn’t have a lot of chance to eat real food, and likely got most of his nutrition as some sort of prescribed nutrition mix that would give him the energy hit he needs for the mission. Assuming that his gut will go into hibernation mode with cryo and probably won’t digest properly at least for a few days (much longer if he were a normal human), I suspect they’ll go for IV nutrition if they need him functional quickly. (* This won’t be one of his lines during cryo obviously cos he won’t need the support)
So yeah, all those fics about Bucky exploring oral textures and tastes of foods as a part of his recovery has a special place in my heart.
#bucky barnes#oh hello new angst just dropped#bucky barnes meta#asks#medical meta#the angst that keeps on angsting
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