What is Pain? : How Austin Eubanks Dealt with Addiction and the Aftermath of Columbine.

Austin and Corey

Stephen Austin Eubanks was a junior and a star student in Columbine High School. Corey Tyler DePooter, his best friend, was also a particularly gifted student who prioritized his studies over anything else. Despite having a wide range of interests, the two kids particularly bonded over their shared passion for fishing.

At the age of 17, Corey had gotten a job doing maintenance at a golf club in order to earn money for a fishing boat that he planned to buy with a friend — likely Austin. The two often used to go fishing together and would talk about the struggles they had as teenagers.

Day of the Tragedy

On April 20th of 1999, the two were inside the library getting ready to get lunch with their friends, Jennifer Doyle and Peter Ball. That was until they had heard shots fired from the outside, not recognizing the sounds and believing that it was only the sounds of construction. Then they heard a bomb go off, a teacher rushing in to scream for the students to hide underneath the table because two students were armed with guns.

In a state of shock and fear, the four duck under the same table near the windows. With 10 minutes passing, the shooters had already entered the library and methodically fired under each table as recalled by him. His best friend, Corey, was one of those who were shot after being aimed with a semi-automatic rifle and shot at the neck, chest, and left arm by Dylan Klebold.

The bullet that hit Austin's hand first passed through his best friend, killing him instantly. With his best friend lying lifelessly beside him and being wounded on his hand and knee, Austin had no other choice than to try to play dead while laying in a pool of blood. When the shooting had stopped, Austin ran through the smoke and out of the backdoor of the library. He was only 17 when the shooting occured.

In Austin's TedTalk “What Columbine Shooting taught me about pain and addiction”, he recalls:

"I remember how I felt: I was confused, I was afraid, I felt sick and I was vulnerable. And just minutes later, I was playing dead underneath a table next to a pool of blood. I had just been shot and I witnessed my best friend murdered right in front of me as we were huddled together waiting for help to come."

Pain, Grief, and Narcotics

During the time he fled from the crime scene, Austin marked that as one of the most impacting and damaging experiences he has ever experienced in regards to the feeling of pain. His definition of pain was nothing similar to what he describes in his present days.

Pain, in a medical sense, is the variably unpleasant sensation of physiological systems mediated by specific nerve fibers of the brain that are conscious of receiving signals of awareness. According to Austin's TedTalk, the American Pain Society introduced the term "pain is the fifth vital sign" in 1996. This means that when you enter the room, your status is assessed using five different data points: blood pressure, pulse rate, temperature, respiration rate, and pain.

Due to a movement that was certain that we were undertreating pain, patient satisfaction surveys were implemented in order to monitor the campaign's success. To him, in order to uphold this new momentum and cause the patient's pain levels to cease completely, the ethical dilemma instantly arose:

“Do I issue this person with narcotics to make them happy or deny them and potentially hurt my compensation, the revenue of the hospital? Or at worse, open myself up for a grievance for undertreating pain that could potentially result in the loss of my job?”

Austin says that the healthcare system predominantly treats physiological systems and would rather not assess emotional pain into the equation. He akins the emotional pain of dealing with trauma being identical or if not more than when dealing with physical pain. With that, within months after the incident, Austin was prescribed opiate medication for his injuries.

In an exclusive interview with The Fix, he said that his injuries were not to the point of needing an opiate pain medication but was immediately given a 30-day supply and became addicted within three months. From then on, he said, “I used substances every day, day in and day out.”

After the shooting, his parents took him to a therapist who said Austin was too shut down to process his horrific trauma. But the reason no one could reach him was because he was overmedicated. He was addicted to painkillers, and used medication because of his unwillingness to engage in the stages of grief that he dreaded to face. He was haunted by the past. Struggling with survivor's guilt and the death of his best friend, he would rather ignore the intense burdening feelings he bore. According to him,

“Acute Physical Pain ends relatively quickly, complex emotional pain does not.”

The morphine Eubanks received at the hospital that day proved to be the opening dose of a costly addiction to prescription painkillers - one that revolved around commonly prescribed drug Oxycontin, he said.

“I learned to manipulate doctors … I could literally get whatever I wanted. Telling them I’d been shot at Columbine and lost my best friend was like [getting] an open prescription book from any doctor.”

He could not process the grief, moreso, he didn't want to. He didn't want to be haunted by the memories that scarred him. In his own words, he would describe the physical ailments he felt to be a 4 or 5, but the emotional turmoil was a 10.

Austin never set foot back to Columbine. His parents hired a tutor and he then went on to graduate in 2000. He attended the Columbine ceremonies but never went back inside the school. He then went into advertising and married in his early 20s. Around this time his substance abuse escalated, and his first attempt to get sober was in 2006. He went into a 30-day inpatient program but failed within hours of leaving, for  relapsing using pain pills and Adderall. 

Addiction and Sobriety 

He failed both outpatient and rehab twice and it wasn't until 10 years later, in 2009 that he was able to overcome this addiction. Right before Columbine, young Austin had been misdiagnosed with ADD. 

“I didn’t have ADD,” said Eubanks. “I just liked being outdoors and playing golf better than being in school. At that time, if anybody was truant at school they said, ‘Oh, they must be ADD. Let’s put them on a stimulant.’ That was why I got Adderall. I liked it because I could abuse opiate pain medication to the level that most people would be nodding out. With Adderall, I could function. Basically, I was doing oral speedballs. It was like using methamphetamine and heroin.”

His second try at being sober was in 2008. Gaining the motivation to change after recently separating from his wife, he went to treatment, stayed 90 days, and achieved eight months of sobriety. Then, he akinned addiction to a causal sequence, a domino effect. According to him, he achieved abstinence for a period of time, built up enough false confidence to where he thought he could drink, because alcohol was never a problem. From alcohol, he went to weed, then Xanax, then Oxycontin, and then back into the same routine.

In 2011, approaching the age of 30 and estranged from his wife and kids, he hit rock bottom: "My sobriety date is April 2, 2011. I woke up in a jail cell and had no clue how I got there." His downward spiral began with Oxycontin and alcohol abuse, leading to arrests for various offenses like car theft and fraud. Realizing that he needed a drastic change, he recounted that his lowest moment was waking up in withdrawal, hungover, and facing the ruins of his marriage and being estranged from his children. He knew he had to stop or he would die. After unsuccessful attempts at sobriety, he finally sought help, surrendered to treatment, and was now willing to follow any guidance to rebuild his life.

His journey to lasting sobriety didn't hinge on traditional 12-step programs, but rather on understanding behavioral triggers and brain function through a therapeutic community approach. He was five years sober and started working at The Foundry in Colorado, becoming the COO and handling approaches that combined neuroscience with 12-step principles, recognizing that each person's path to recovery is unique. Using comprehensive approaches aiming to rebuild the lives of those in recovery.

During this time, he would also indulge in old activities in remembrance of his bestfriend.

“It’s something I do to connect with Corey. It's always nice whenever I catch a fish that's above the normal or something special about it. I always tend to look up and give a nod to him. And I know he’s still looking out for me."

Sadly, despite his long battle against drug addiction, in 2019, Austin had passed away in his home in Colorado after an accidental heroin overdose. Just a month after the 20th anniversary of Columbine, Austin was 37 at the time.

What is Pain?

Pain, to Austin, encompassed many things: the confusion and vulnerability of not knowing what to do in such a time of terror, the physical wounds that the doctors tried to medicate to bring the pain meter to zero, and most importantly, the emotional hurt of knowing your best friend was gone, taken right in front of you. Knowing that very moment can never be undone.

His advice for survivors dealing with the same guilt is to feel it. Don't run away from it. Survivors often find other things that allow them to detach from the pain, but to him, that's the wrong choice.

“You can heal physical pain while you’re medicating it. You cannot heal emotional pain while you are medicating it, In order to heal emotional pain, you have to feel it ... You want to feel better immediately, [but] you have to have the courage to sit in and feel it, and if you can do that long enough, you will come out on the other side.”

Along with post-traumatic stress, there is also the potential for post-traumatic growth.

“That doesn’t imply you will ever be the same person again. After a trauma, you will be changed forever.”

Exposure

Read here on Ao3!

Whumptober 2024 - Day 10 - Prompts: Blow to the Head / Slurred Words / "I can't think straight."

Rated: T | Words: 1566

A/N: I am not a medical profession. Do with that as you will 🫠

Fear takes root when Hunter stops shivering. 

The temperature in the shallow cave has not improved, Tech knows that much. He has been monitoring the weather conditions closely, hoping that the storm will pass, that the interference preventing their distress signal will clear. Unfortunately, the concept of hope has little effect on natural events. Hope, however, does prevent panic, so Tech clings to the fragile abstraction, metaphorically, with both hands. His actual hands are numb, even under his gloves, knuckles swollen and sore. His fingers struggle to do what should be the simple function of unclasping his armor. 

“What are you doing?” Hunter asks, syllables slurring together almost incomprehensibly. 

“Removing my armor,” Tech states simply. It is far too cold to elaborate further. 

The Sergeant glares up at him blearily, mismatched pupils blown wide with concussion. “Why?” 

Tech does not explain. It is taking all his focus just to remove pieces of plastoid with clumsy, uncooperative fingers. If Hunter would simply be patient, he would be able to see soon enough. Tech liberates himself from his cuirass and backplate and moves to the challenging bits of armor clinging to his arms, silently cursing their smaller latches. 

“Tech,” Hunter growls. If he is aiming for authoritative, it is undermined by the weak breathlessness of his voice. However, it does renew the fervor with which Tech fights with his armor pieces. 

At last, Tech drops the last segment of armor from his upper portion, leaving him in just his thermal blacks from the waist up. He kneels next to Hunter and begins to repeat the process on his barely conscious brother. 

“What are you doing?” Hunter demands again, trying to pull away. 

“We need to get your body temperature back up,” Tech explains. His voice trembles, teeth clacking together. At least he is still shivering. That is a bright side. 

Hunter makes an indignant sound, as though it is Tech who lost his helmet and received a blow to the head rappelling down the cliff face in ice and snow. “By taking off our armor?” 

“We must lend one another our warmth,” Tech continues patiently, “which cannot be achieved through amor. Please hold still. 

Hunter slumps back against the cave wall obediently. He watches Tech work, blinking slowly. “I’m not cold,” he says. “Not anymore.” 

“I understand you feel that way,” Tech says. “That is a sign of moderate hypothermia. We must work to raise your internal temperature as soon as possible.” 

“Not safe,” Hunter mumbles. 

“It is our only choice at this juncture. Unfortunately, we lost our emergency packs in the fall. They will be buried in the snowfall dozens of meters below us by now.” 

Hunter’s brow furrows. “’s my fault.” 

“It was an unfortunate accident,” Tech corrects him. 

Tech finds some small sense of triumph as Hunter’s upper armor is more easily removed. He stacks their cuirasses and backplates near where Hunter is situated, retrieves his data pad, then sits down next to his brother. He draws the wounded man to his side. Hunter does not produce any warmth to share, merely absorbing Tech’s limited supply. With his free hand, Tech haphazardly arranges the larger armor pieces in what he hopes will be a small barrier from the elements. 

It will not last long. They will die of exposure if help does not arrive soon. 

If the storm does not let up soon. 

If their brothers do not find them soon. 

Soon. 

Soon is not on their side. 

“You’re shaking,” Hunter mutters drowsily. 

Tech wants to explain that shivering is a preferable state to Hunter’s; however, he merely jostles the man a little too roughly. “You have to stay awake,” he orders. 

Hunter utters something that Tech cannot make out. 

Tech answers nonetheless. “No. I need to rest. You’ve got the watch. Do you understand? You need to keep watch for the others to find us.”

Hunter becomes heavier against his side, deadweight. 

Tech shakes him again. “You must stay awake, Hunter.” His voice breaks, only partially from the intense cold plaguing him. “Please. Stay awake. Help is coming.” 

Hunter doesn’t respond. 

Time slips by. 

Tech isn’t shivering anymore. 

**

The landscape is white, clean, and dangerous. Crosshair’s sharp eyes slice across it, searching for imperfections, disturbances. Signs that their missing brothers are out there. Waiting for Echo to pinpoint their location is taking too long. Every lost second carries a heavy cost they can’t afford. 

Wrecker crashes through the fresh snow, pacing. “Where are they?” he demands. 

Crosshair tips his head, expression shielded by his helmet. “If we knew, we wouldn’t be looking, would we?” he snarls. 

“Not helping,” Echo tells him through comms. He’s on the ship, trying to boost the signal. 

Crosshair bites out, “Neither is he. Neither are you. They’re probably already dead.” 

“Don’t say that!” Wrecker stops his pacing and looms over Crosshair. He looks like he might lash out physically. 

Crosshair shifts, squaring up, wordlessly daring Wrecker to try.

“Both of you, knock it off!” Echo orders, ARC voice bladed. 

Wrecker deflates immediately, but Crosshair holds his ground a moment longer, claiming a weak and idle victory. He can’t see Wrecker’s face, but his body language, like his voice, is loud. The drop of his shoulders, the angle of his helmet. Wrecker is scared, like the rest of them. They all know the likelihood of Hunter and Tech surviving the elements without proper gear. Crosshair voicing it doesn’t change the terrible facts. 

He cannot bring himself to apologize in so many words, so Crosshair bumps against Wrecker’s arm, hard, with his shoulder. “If anyone could figure out how to survive, it’d be those two.” 

Wrecker’s posture lifts. “I know they did.” 

“I got something!” Echo calls out, making their in-helmet comms hiss in protest. “Putting in coordinates now.” 

Crosshair and Wrecker clamber on board, and the ship is already off the ground before Crosshair punches the button to close the hatch. 

**

Hunter wakes feeling trapped. 

He can’t move his arms or legs, bound by a strange, encompassing weight. His first, mind-addled reaction is to panic, writhing frantically to free himself from the swaddling confines of whatever is holding him.

“Hey! They’re just blankets, di’kut, kriff,” Crosshair’s voice snaps at him. 

The familiar, waspish tone of his youngest brother makes Hunter stop, and Crosshair helps him disentangle enough fabric to free his arms. “How many blankets are there?” Hunter asks, voice rough from disuse, throat sore and parched. 

“Too many,” Crosshair admits. “I don’t know where Wrecker keeps finding them. Thirsty?” 

Hunter nods, and Crosshair hauls him up into a sitting position and hands him an open canteen. Hunter takes a sip of the tepid liquid, the taste of added electrolytes bitter on his tongue. He makes a face. “How long was I out?” 

“Two standard days,” Crosshair says. “Really did a number on yourself. Concussion and hypothermia. What’s the last thing you remember?”

Hunter frowns. “The last thing I remember clearly was checking my cables before rappelling down the cliff face. We were going to hike to the rendezvous point.” 

Crosshair scoffs. “That’s it?” 

“I remember my head feeling like it got split open,” Hunter grumbles. 

“Not quite, but not for lack of trying,” Crosshair says. “Lost your helmet and your emergency packs. Tech is still annoyed about losing his favorite med scanner.” 

“Is Tech alright?” Hunter asks, turning to look at where the other cot is empty across the aisle. A faint recollection of panicked words filters into his muddled memories. Please. Stay awake. Help is coming.

“Hypothermia and exposure, but he’s recovering,” Crosshair says with a smirk. “He’s supposed to be resting still; however, he claims he heard a rattle in the ship’s console before the mission, and insisted he had to repair it now. Weak excuse, but Echo let him get away with it.”

Hunter chuckles, the remnants of his concussion protesting with a throb of his skull. 

Crosshair’s expression turns solemn. “We almost didn’t make it in time. When Wrecker and I got into that cave...we thought we were recovering corpses.” 

Another painful throb pulses, this time in Hunter’s throat as he imagines what that must have been like. He doesn’t want to imagine, doesn’t want to think of any two of his brothers lying so still that he thought they were dead. So, he pushes the horrifying thought away, reaching out and grabbing hold of Crosshair’s arm. “But you weren’t.” 

Crosshair scowls at the durasteel floor and gives one, tight nod. 

Tech comes into the hold, Wrecker right behind him. 

“Ah, you’re awake,” Tech says, something akin to warm smile touching his lips. 

Hunter smiles. “Thanks to you, sounds like.” 

Tech waves away the comment, taking a seat on the opposite cot. “How are you feeling?” 

“Smothered with all these blankets,” Hunter says, tossing a good-natured glare in Wrecker’s direction. 

The giant gasps. “You should have seen yourself before the blankets! Have you ever seen blue clones before? ‘Cause it’s something I never want to see again.” 

“I agree,” Crosshair mutters. 

“I assure you; such is an event I hope none of us experience a second time. On either side of the equation,” Tech says firmly.

There is a haunted expression in his brothers’ eyes, a lingering look of hope snuffed out. 

That nearly transparent memory returns. Please. Stay awake. Help is coming.

Hunter thanks the maker Tech was right. 

For all their sakes. 

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it's just not the same!

❥❥i tried to be a little more descriptive in this one, so i hope you guys enjoy! (and hopefully my writing style doesn't sound completely ridiculous :'D)

❥When a cold front hits you and your boyfriend's shared home, how will he react when you come to seek warmth with him in his room? And how will he react if you try to return to yours?

Category- Fluff ☀

Content- Tighnari and Wanderer, GN!Reader, ever so slight hurt/comfort? (you're super cold and he warms you up), a few mentions of death, but nobody actually dies.

❥❥ I was gonna make some more bullet points for Baizhu and Albedo as well, but my job has me working all kinds of extra hours and it's giving me writer's block 😵 so for now I'll just post these ones so I don't leave you guys with nothing this month, and if you guys like it I could do a part 2 for those two as well?

Tighnari

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➼When the other forest rangers said there would be a cold front coming in, you weren't expecting it to be THIS cold. Whereas you were expecting a little temperature drop, some sweater weather and maybe a bit of frost, the cold front in reality was enough to freeze the rivers running through the Avidia Forest.

➼Needless to say, you regretted not taking the advice of your boyfriend when he told you to prepare accordingly, and now here you were, curled up in your bed, shivering as the cold air seeped into your skin.

➼You had tried your best to tough it out, but at this rate, you knew you were going to get hypothermia if you didn't do something soon. So you did the first thing that came to mind. You bundled up in some blankets, put on some slippers and shuffled your way to your boyfriend's room.

➼With some hesitance, you knocked on the door lightly and waited patiently as you heard some movement inside the room. In just a few moments, he was there at the door, an eyebrow raised as he looked at your shaky form.

➼"well well, what's this now? Is it the consequences of your actions coming back to bite you?" he chastised, crossing his arms and seeming to understand immediately the reason you came to his bedroom door. "Nariii" you pouted, pulling the blanket tighter around yourself to try and shield you from the cold. He could tell by how the color was drained from your skin and how blue your lips were that you must've been like this for a while now, so despite how much he wanted to scold you for not heeding his advice, he knew there was no time to waste in warming you up.

➼"Alright, get in here you big lummox" he sighed before grabbing your hand, leading you into his room and closing the door behind him. He hardly wasted any time gathering up some extra clothes from his own wardrobe before unearthing you from the large blanket you cocooned yourself in, layering you up in some proper attire before dragging you off to his bed, both of you laying down together while he rubbed your hands and blew hot air onto them.

➼It was only when he felt confident that you were no longer knocking on death's door that he started to scold you, although based on the concerned look in his eyes, it seemed he was more fretting over you if anything. "You really should take my advice seriously, this could've ended a lot worse for you if you didn't get here when you did" "I know.. Sorry Nari" even though you knew he said this out of genuine worry for your well-being, you couldn't help but shrink a bit when he got like this.

➼He noticed this fact and sighed, "just please don't hesitate next time, I don't want you to get hurt, okay?" he carefully wrapped his arms around you and pulled you close, the warmth emanating from his body beginning to sooth your cold skin. All you could let out was a soft "mhmm.." as his comforting embrace had already begun to lull you to sleep.

➼It didn't take you long to pass out in his arms, and while he stayed up just a bit longer to monitor your condition, he couldn't help but feel the corners of his lips turn up in a smile as he looked down at your sleeping form. Despite how forgetful you were, he couldn't deny he loved you deeply. He knew he would have to help you find some proper winter wear soon, but perhaps he could be selfish for just a tad longer. Seeing you in his clothes admittedly made him melt a bit for you.

➼And so, for a while afterwards, he would use the cold front as an excuse to pull you into his room and have you sleep comfortably in his arms. Not only because he had secretly been craving this step forward in intimacy, but also because he genuinely never wanted to see you that cold again, it had scared him a bit.

➼But when the cold front had begun to die down and the temperatures had finally became suitable for regular clothing again, he was a bit surprised when he saw you walking towards your room instead of his. "Where are you heading off to?" he had asked with a flick of his ears, and when you had responded with "oh, I thought I may as well sleep in here since it's warmer, I don't want to overstay my welcome", he frowned.

➼"overstay your welcome? Don't you think we're a little past that point? Come on now, let's get to bed, or would you rather we sleep in your room tonight?"

➼You couldn't help but smile at how insistent he was in both of you sleeping together. He truly couldn't get enough of you, and it was quite telling in the way his tail swished lightly when you agreed.

Wanderer

══✿══╡°˖✧✿✧˖°╞══✿══

➼You were honestly a bit anxious to try and ask at first. Sure, the puppet loved you, he had professed so himself, but he wasn't exactly known for being accommodating. Even to his beloved there would be the occasional sharp slip of the tongue, though a bit less harsh than he would give to most.

➼You worried that maybe bothering him so late at night would make him angry at you, but the way the frigid air bit at your skin and numbed your fingers and nose was far too harsh. You thought it was at least worth a try. So here you were, standing at his doorway with the thickest blanket you own draped around your shoulders, your breath visible in the air as a fog.

➼You lightly creaked the door open just a crack. "Kuni?" you whispered into the dark room, only the moonlight from the window illuminating what was inside.

➼"What is it?" he asked with a sigh, sitting up. He was a relatively light sleeper, considering he technically didn't need to sleep, so he had woken up a good while before you even reached the door.

➼Ofc his ever grouchy tone was present, though slightly muddled by the grogginess of waking up, it had almost deterred you from asking the question, but the cold was seeping into your bones and making your joints ache, you couldn't make this trip be for nothing.

➼"H-hey, is it okay if I sleep here with you tonight..?" you asked with a shiver. "it's.. Really cold"

➼He almost had half a mind to scoff at you and tell you to just deal with it, but as his eyes scanned your shaky frame, he knew he couldn't bring himself to do that. After all, humans could get sick if left in the cold, and he wouldn't be able to forgive himself if you had died because of something he did.

➼"fine, get over here" he grumbled. He was glad it was so dark in the room so you wouldn't see the way his cheeks flushed red at the thought of sharing a bed with you. You smiled happily and hurried over, burrowing your way under the sheets, thankful that they were at least a bit warmer from his presence (although that may or may not have been due to his blushing.)

➼He reluctantly placed his arms around you and held you awkwardly at his side in an attempt to share body heat. You really weren't kidding about being cold, he couldn't feel an ounce of warmth in your skin, and he wasn't even human. But compared to the emptiness of your bed, he felt like a welcoming candle flame in your eyes.

➼You had passed out almost immediately once you began to warm up, however he could hardly get an ounce of sleep for a good while. Your sudden intrusion had his mind racing and butterflies in his stomach. He hated it, but he also couldn't help but feel something warm inside, looking down at your sleeping form. How ridiculous.

➼This went on for almost a week, you would come peeking into his door asking if you could spend the night with him, he'd begrudgingly comply, and the two of you would wake up the next morning in eachother's arms. At some point he told you to just "stop asking and get over here already", so some nights you would just slip into the bed with him and he would curl around you almost immediately.

➼Once the weather warmed up enough though, you had decided it was time to return to your own room. After all, you didn't want to overstay your welcome and make him angry with you. So, you began to make your way to your room.

➼He noticed this almost immediately and furrowed his brow. "Where do you think you're going?". "Ah, I was going to sleep in my room tonight since it's warmer now. I didn't want to inconvenience you too much" you explained, giving him a light smile. "Tch, whatever" he grumbled before making his way to his own room.

➼ "Whatever" indeed, because that "whatever" caused him to spend almost all night tossing and turning in his bed without a wink of sleep. He didn't understand why, but his bed felt.. Empty, almost too empty. It was agitating him to no end, why was he acting so childish over some human???

➼Eventually he decided enough was enough. He got up out of bed and marched straight to your room, opening up the door much similarly to the way you once did. "Hey, are you up?" he muttered into your dark room. He could just barely make out your form curled up in bed around one of your pillows, and upon hearing his voice, you looked up at him before sitting up with a "hm?"

➼He carefully shut the door before making his way over to your bed, practically inviting himself in under your covers and clinging onto you tightly. Immediately, his mind felt more at ease. This is what he was missing.

➼"Kuni, is something wrong?" "… I'm cold" "… Kuni, it's 58 degrees outside" "shut up"

➼Needless to say, you're probably never sleeping alone again <3

Latwoski Mark 6 Chastity Cage: The Apex of Paramedic Control

In the ever-advancing world of paramedic technology, the Latwoski Mark 6 chastity cage stands as the epitome of precision engineering and control. Developed to meet the rigorous demands of the Paramedic Corps, this device is not merely an instrument of physical restriction but a marvel of sophisticated design and relentless innovation.

Lead Engineer Dr. Richard Latwoski: "The Mark 6 isn't just about physical constraints; it's about mental conditioning. We've designed it to be a seamless part of the paramedic’s identity. It's not a limitation; it's an empowerment, ensuring our paramedics are at their best, always."

Key Features:

1. Dual-Chamber Design: The Mark 6 boasts a unique two-chamber structure, isolating the testicles and penis, ensuring both comfort and security. The material, a blend of lightweight yet durable alloys, contours to the wearer's form, providing a snug fit without discomfort.

2. Self-Cleaning System: A state-of-the-art self-cleaning mechanism ensures hygiene and sanitation. Nano-cleansing agents are released at specified intervals, eliminating the need for manual cleaning and reducing the risk of infections.

Paramedic A32FA: "The Mark 6 isn't even more then the other belts; it's a mindset. It's like having a constant reminder of my duty, my purpose. It keeps me focused, sharp, and entirely dedicated to my patients."

3. Health Surveillance: Equipped with an array of sensors, the Mark 6 continuously monitors vital signs. Heart rate, body temperature, and other physiological metrics are seamlessly integrated into the wearer's health record, enabling real-time health surveillance for timely interventions when necessary.

Researcher Dr. Evelyn Torres: "The real breakthrough here is the integration of health monitoring. We're not just restraining the body; we're ensuring the wearer's well-being. It's about merging control with care, a paradigm shift in paramedic technology."

4. Lightweight Construction: Crafted from advanced composite materials, the Mark 6 is exceptionally light, allowing for ease of movement and comfort during extended wear. It ensures that wearers can carry out their duties without being encumbered by unnecessary weight.

5. Pleasant Sensation: Designed with wearer comfort in mind, the inner lining of the cage provides a soft, almost imperceptible sensation against the skin. Wearers report a subtle, calming effect, ensuring a focused and composed mindset even in high-stress situations.

Testing Participant B17X4: "Wearing the Mark 6 was different, but the sense of unity it creates among us is undeniable. We're all bound by the same rules, the same dedication. It’s not just a chastity cage; it’s a symbol of our shared commitment."

6. Tampering-Proof Security: The Mark 6 incorporates cutting-edge security measures. Its tamper-proof design and biometric lock mechanism guarantee that once worn, it cannot be removed without authorized intervention, ensuring strict compliance with paramedic protocols.

Lead Psychologist Dr. Sarah Mills: "The psychological impact of the chastity belts and the new Mark 6 cannot be overstated. It's creating a unified mindset, a shared ethos among paramedics. They're not just wearing a belt; they're embodying a commitment, a calling. It's fascinating to observe. And its what we want in our Conscripts and Personell."

7. Seamless Integration with Armor: When worn with paramedic armor, the Mark 6 integrates seamlessly, connecting via an anal connector and diaper function. This integration not only enhances security but also ensures optimal functionality, allowing wearers to concentrate fully on their duties without distractions.

In the world of paramedic service, where precision and control are paramount, the Latwoski Mark 6 chastity cage stands as a testament to the Corps' commitment to excellence. With its unparalleled features and seamless integration, it symbolizes the fusion of technology and duty, ensuring that every paramedic is equipped to face the challenges of their noble profession.

Open Your Future: Discover Free CNA Classes in Brooklyn, NY!

Unlock⁢ Your Future: Discover⁤ Free CNA Classes in ‍Brooklyn, NY!

Are you looking to kickstart ⁣a rewarding career in ​healthcare? Becoming a Certified Nursing ⁤Assistant (CNA) may be the perfect path for ⁢you. With the demand for ⁣healthcare services on ​the‌ rise, now ⁢is an excellent time to explore free ‌CNA classes in Brooklyn, ‍NY. This article will ⁢guide you ‌through everything you need to know​ about these opportunities, what to expect from the training, and how to ⁢take ​the first step towards ‌an ‌enriching⁣ career.

What ⁣is a ⁤CNA?

A Certified Nursing Assistant (CNA) plays ‌a crucial role in patient care within various healthcare settings such as hospitals, nursing homes, and assisted living facilities. CNAs assist patients⁤ with daily activities, monitor patient health, and work under the ​supervision‌ of a Registered Nurse (RN) or Licensed ‌Practical‍ Nurse (LPN).

Key Responsibilities of​ a CNA

Assisting ⁢patients with daily living activities such as bathing and dressing.

Taking vital signs, including temperature, blood pressure, and pulse.

Feeding patients and ensuring they⁤ receive proper nutrition.

Maintaining patient hygiene and‌ comfort.

Documenting patient care⁢ and reporting ‌any changes to the nursing staff.

Why Consider Free CNA‌ Classes in Brooklyn?

Many ⁣aspiring CNAs hesitate ‌to begin their training ​due to financial constraints.​ However, there are several benefits ‍to exploring ⁤free CNA classes. ‍Here are some​ reasons why they might be the right choice for you:

Benefits of Free CNA Classes

Cost-effective: Completing your CNA ‍training for free or at a reduced cost will lessen the financial burden as you start your ⁣career.

Job opportunities: There ⁤is a ‍high demand for CNAs in Brooklyn, ‌which means job‌ placements are often available⁤ upon graduation.

Short⁤ training period: Most CNA programs can be completed within a few weeks or months, ⁤allowing you to enter the workforce sooner.

Hands-on experience: Many classes offer clinical ‌rotations, providing ⁢practical experience in ‍real ‌healthcare settings.

Where to Find Free CNA Classes in ⁣Brooklyn, NY

Many institutions and ‌organizations offer free CNA classes in Brooklyn.‌ Here are a few⁣ options to ​consider:

Institution/Organization

Contact ‍Information

Program Details

Brooklyn Workforce Innovations

bwi.org

Free CNA training for⁣ eligible candidates; includes clinical⁢ experience.

Convene⁤ Nursing Academy

(718) 555-0123

Offers free CNA programs with job‌ placement assistance.

NYC Department of Education

schools.nyc.gov

Various healthcare training programs, check for CNA-specific​ classes.

Admission Requirements for CNA Programs

To enroll in a free CNA ​class,​ applicants usually need to meet certain requirements, which may include:

A high school diploma or GED.

A background check and drug screening.

Basic understanding of ⁣English (reading and writing).

A genuine interest in ⁤caregiving and healthcare.

Practical Tips for⁣ Succeeding in ⁢Your CNA ⁢Training

Below are some practical ⁣tips to help you make the most out of your CNA‌ training:

Stay organized: Keep track of your assignments, exams, and clinical hours using ⁢a planner ‍or digital tool.

Practice time management: Balance your study and practice time effectively ⁣to ⁤avoid burnout.

Engage with‍ instructors​ and peers: Don’t hesitate to ask questions and participate in discussions⁣ to ⁣enhance your ‍understanding.

Take care of yourself: ⁤Staying healthy and well-rested is ⁣essential for effective learning‌ and performance.

Case Study: A Day‌ in ​the Life of ⁤a CNA

To provide insight into the CNA profession, let’s share ​a brief story from a recent graduate, Sarah:

“Before I enrolled in the free CNA program, ​I ⁢was unsure if I wanted to work in healthcare. However, during training, ‌I learned​ so much about patient care and formed‍ lasting relationships with my instructors⁣ and classmates. ⁢On ⁢my first ​day as a CNA, I was nervous ​but excited. I assisted a patient with her ‍daily needs ⁢and felt⁤ so fulfilled knowing I‌ was making a difference in her life. It reinforced my decision to pursue a career in healthcare.”

Conclusion

Unlocking your future in the healthcare field ⁢is⁤ just a step away!‍ With abundant opportunities for⁢ free‌ CNA classes in Brooklyn, NY, you can gain the skills and⁣ knowledge needed to excel as a Certified Nursing‍ Assistant. By taking advantage of these ⁣resources,‍ you’ll ‍be‌ on your way to a meaningful ​and fulfilling⁢ career that not only supports you financially but‌ also contributes to the well-being of others. Start your⁣ journey today and ⁢take the ​first step toward a​ brighter future!

https://cnacertificationprogram.net/open-your-future-discover-free-cna-classes-in-brooklyn-ny/

What I Learned Growing Giant Pumpkins

I started backyard gardening more than 15 years ago while living in Florida when I became fascinated with growing food in unused and unlikely spaces. I experimented with in-ground, above-ground, vertical growing, growing in containers, hydroponics, and aquaculture gardening methods.

When I moved to Michigan I learned to grow cool weather vegetables like onions and hardneck garlic. I grew short season items like collards and tomatoes too.

More recently I've turned to growing Atlantic Giant pumpkins and Napoli squash in my suburban backyard too.

Here are a few things I've learned along the way about growing giant pumpkins:

1. Patience and Long-Term Commitment

Growing a giant pumpkin takes several months of care, insect mitigation, and close attention.

It reminds you that gardening success takes time, so you must be consistent and patient to achieve your goals.

2. The Importance of Planning

You need to prepare the soil, select the best seeds, and carefully manage the water and nutrients.

This highlights the importance of planning, preparation, and strategy before starting any big project.

3. Attention to Detail

Giant pumpkins require precise conditions—correct temperature, humidity, and the right balance of nutrients.

It teaches you to pay attention to small details that can make a huge difference in outcomes, a skill that's transferable to business and life.

4. Adaptability

Weather conditions, pests, and diseases are unpredictable.

Successfully growing giant pumpkins often means adjusting your approach in response to unforeseen challenges, teaching flexibility and problem-solving skills.

5. Hard Work and Dedication

These pumpkins grow rapidly but require significant effort in watering, weeding, fertilizing, and monitoring daily.

The lesson here is that consistent effort and dedication lead to extraordinary results.

6. Teamwork and Knowledge Sharing

Many giant pumpkin growers exchange tips and techniques, forming communities.

This emphasizes the value of learning from others and sharing knowledge, a key to growth in any field.

7. Celebrating Small Wins

Along the way, you’ll notice small milestones—new leaves, the first fruit, rapid growth spurts.

Celebrating these teaches you to appreciate progress and incremental success, keeping motivation high for long-term projects.

8. Understanding Nature’s Limits

Despite your best efforts, not every pumpkin will grow to record-breaking size.

Learning to accept that external factors (like nature) are sometimes out of your control is a lesson in humility and resilience.

Growing giant pumpkins mirrors many aspects of personal and professional growth, teaching lessons in perseverance, adaptability, and the importance of nurturing something over time.

It's the ultimate lesson in patience and understanding that nothing worthwhile comes easily.

The adoption of technology in the field of medicine has resulted in some amazing innovations. These innovations have helped in making healthcare more efficient, personalized, and convenient. Smart technology in healthcare includes technologies such as artificial intelligence, big data, the internet of things services, and cloud computing. In this article, we’ll look at the top examples of smart technology in medicine.Smart InhalersAsthma is a health condition that affects millions of people around the world. Through smart technology, people with the condition can gain better control of their symptoms and treatment by purchasing smart inhalers. A smart inhaler includes a sensor that is connected to an inhaler or a Bluetooth spirometer. This sensor is then connected to an app to help the user track their medication use, identify oncoming attacks, and learn more about what might cause their symptoms. This technology helps the user to take the correct medication consistently and generates reports that can be shared with a doctor.AI-powered Insulin PumpThis was first developed in 2014 by Bryan Mazlish. He developed this by modifying an off-the-shelf insulin pump and a continuous glucose monitor. He created an algorithm that controls the dosing and an app to display the results. The device includes a metabolic simulation engine that predicts the insulin dosage and when the patient will need it, instead of only responding to increases in blood sugar. This technology is preventive rather than curative and thus benefits the patient’s long-term health.Smart DrillThe smart drill is a medical device that recommends how to drill and where to drill based on its calculations, the bone density, and the resistance encountered. It has a screen that displays real-time performance feedback. It helps surgeons get the right depth, the right number of screws to use, and the correct tightness.Ingestible SensorsA lot of people do not take their medicine as directed and this invention is here to change that. It involves pills that dissolve in the stomach and release a signal that can be picked up by a sensor worn by the patient. The sensor then automatically relays the data to a smartphone app and confirms that the user has taken their medication. The system has been trialed with antipsychotic medication, Type 2 diabetes medication, and other types of medication and has been proven effective. A company like Intellias produces similar products like wearable sensors that collect biometric data and vital signs.HealthPatchThis is a wearable patch with a bio-sensor that can be worn on the forearm. Under this structure, there are electrodes with axis accelerometers that detect and record the user’s temperature, heart rate, breathing rate, or sudden movements. It is used for monitoring patients as it can send an alarm once it detects any abnormal body position. The patch is also Bluetooth enabled and can send results to a connected smartphone or tablet for analysis. Instead of going from patient to patient and checking their vitals, this device does this on the doctor’s behalf.

Tracking Health Trends: Growth and Innovation in the Body Temperature Monitoring Market

Market Overview

The Body Temperature Monitoring Market is projected to reach USD 2.16 billion by 2029, up from an estimated USD 1.69 billion in 2024, with a CAGR of 5.04% over the forecast period (2024-2029).

Key Drivers of Growth

Rising Demand for Non-Invasive Monitoring Devices With advancements in medical technology, non-invasive temperature monitoring devices like infrared thermometers and wearable devices have gained traction. These devices offer accurate readings without causing discomfort, making them popular among patients and healthcare providers alike.

Increasing Prevalence of Infectious Diseases Infectious diseases like COVID-19 and influenza have heightened the need for frequent temperature monitoring. Fever is one of the first indicators of infection, making reliable temperature monitoring devices essential in identifying and managing outbreaks.

Adoption of Wearable Devices Wearable health technology has seen significant adoption in recent years. Wearable body temperature monitors allow continuous monitoring, which is particularly useful in detecting early signs of fever and other health issues. This technology is becoming a preferred option for both personal use and clinical monitoring.

Growing Geriatric Population The elderly population is more vulnerable to infections and chronic diseases, requiring regular health monitoring. As the global population ages, there is an increasing demand for reliable and user-friendly temperature monitoring devices.

Market Segmentation

By Product Type: The market includes various types of devices such as digital thermometers, infrared thermometers, wearable temperature sensors, and more.

By End-User: Hospitals, clinics, home healthcare, and ambulatory surgical centers are the primary end-users of temperature monitoring devices.

By Region: North America currently holds the largest market share due to advanced healthcare infrastructure, but the Asia-Pacific region is expected to witness rapid growth driven by rising healthcare awareness and economic development.

Challenges and Opportunities

Despite its growth, the body temperature monitoring market faces several challenges, including the high cost of advanced devices and the limited accuracy of some non-invasive technologies. However, continuous research and development efforts are expected to improve device accuracy and reduce costs, creating new opportunities for market players.

Conclusion

The body temperature monitoring market is poised for significant growth in the coming years, driven by technological innovations, rising healthcare needs, and increased awareness of health monitoring. As the demand for efficient, accurate, and non-invasive temperature monitoring solutions continues to grow, market players are focusing on enhancing product offerings to meet the evolving needs of consumers and healthcare providers.

For a detailed overview and more insights, you can refer to the full market research report by Mordor Intelligence: https://www.mordorintelligence.com/industry-reports/global-body-temperature-monitoring-market-industry

Urinary Catheters Market Size, Share, Research and Competitive Landscape 2030

The global urinary catheters market was valued at USD 5.2 billion in 2022, and it is projected to grow at a compound annual growth rate (CAGR) of 5.4% from 2023 to 2030. This growth is primarily driven by several key factors, including an increase in the number of patients experiencing Urinary Tract Infections (UTIs) and blockages in the urethra. Additionally, rising incidences of tumors affecting the urinary tract or reproductive organs, coupled with the rapidly aging global population, are also contributing to the expansion of the market. A urinary catheter is a partially flexible tube designed to drain urine from the bladder, and it is commonly made from materials such as plastic, rubber, and silicone. Medical professionals recommend urinary catheters for conditions such as Urinary Incontinence (UI), urinary retention, prostate surgeries, or in cases where patients suffer from spinal cord injuries, multiple sclerosis, or dementia.

Gather more insights about the market drivers, restrains and growth of the Urinary Catheters Market

Impact of COVID-19 on the Market:

The COVID-19 pandemic is expected to have a positive impact on the urinary catheter market. According to data from the National Center for Biotechnology Information (NCBI), the use of catheters, including urinary and central line catheters, saw an increase during the COVID-19 outbreak. For instance, in 2020, the Standardized Utilization Ratio (SUR) for urinary catheters increased by 7.4%, rising from 0.79 before the pandemic to 0.84 during the outbreak. Similarly, the SUR for central line catheters rose by 4.9%, from 0.88 pre-pandemic to 0.92 during the crisis. This increased demand for catheters, especially in critical care settings, is expected to contribute to the market's growth over the forecast period.

The pandemic also underscored the importance of infection prevention, leading to innovations in catheter technology. Several manufacturers have responded to the heightened awareness of infection control by developing products like coated urinary catheters with built-in temperature monitoring capabilities. These advancements are aimed at reducing the risk of secondary infections in critically ill patients. For instance, in February 2021, Health Canada approved Bactiguard's urinary catheter with a temperature sensor for infection prevention. This approval was expedited due to the urgency created by the pandemic, as these catheters have shown the potential to lower secondary infection rates, thereby supporting market growth.

Product Segmentation Insights:

In 2022, the intermittent catheter segment led the urinary catheters market, accounting for over 57.5% of total revenue. Intermittent catheters are medical devices used to intermittently drain the bladder. These catheters are considered a superior alternative to indwelling (continuous) catheters, which are more likely to lead to UTIs. Intermittent catheterization is often recommended for patients with spinal cord injuries or neurogenic bladder issues. As a result, these devices are considered the gold standard for bladder management in such cases. The availability of reimbursement for intermittent catheters under programs like Medicaid and Medicare has further contributed to the growth of this market segment.

The fastest-growing product segment is expected to be external catheters over the forecast period. These catheters are primarily used for male patients and offer a less invasive alternative to indwelling catheters, which must be inserted through the urethra. External catheters are also popular among patients who prefer to self-catheterize, especially in cases of UI or urinary retention. Additionally, these catheters come in a range of styles and sizes, providing patients with various options to suit their individual needs. Leading companies in the industry are offering advanced external catheter products. For example, BD (C.R. Bard) manufactures the ULTRAFLEX male external catheter, which features a more secure fit compared to traditional non-silicone sheaths, providing users with greater comfort and reliability.

Order a free sample PDF of the Urinary Catheters Market Intelligence Study, published by Grand View Research.

Embedded Hardware Solutions Paving the Way for Advanced Robotics

As the field of robotics continues to evolve, the integration of sophisticated embedded hardware solutions has become a cornerstone for innovation and efficiency. These technologies are not just enhancing the capabilities of robotic systems; they are fundamentally reshaping how robots are designed, programmed, and deployed across various industries. This blog explores the pivotal role of embedded hardware in advancing robotics, highlighting its applications, benefits, and future trends.

Understanding Embedded Hardware in Robotics

Embedded hardware refers to specialized computing systems designed for specific tasks within a larger mechanical or electronic system. In robotics, this includes microcontrollers, sensors, actuators, and communication modules that work together to perform complex functions. The seamless integration of these components allows for real-time processing and decision-making, essential for the operation of autonomous and semi-autonomous robots.

Key Components of Embedded Hardware Solutions

Microcontrollers: The brain of any robotic system, microcontrollers are compact integrated circuits that manage the robot's operations. They process data from sensors, execute control algorithms, and manage communication with other hardware components.

Sensors: These devices gather data about the robot's environment, such as distance, temperature, light, and motion. Sensors play a crucial role in enabling robots to interact with their surroundings and make informed decisions.

Actuators: Actuators convert electrical signals into physical movement, enabling robots to perform tasks such as lifting, moving, and manipulating objects. They are essential for translating the robot's decisions into actions.

Communication Modules: In a world where connectivity is paramount, communication modules allow robots to share data with other systems and devices. This connectivity enables remote control, monitoring, and integration into larger networks, such as the Internet of Things (IoT).

Applications of Embedded Hardware in Robotics

1. Industrial Automation

In manufacturing and assembly lines, robots equipped with advanced embedded hardware solutions are optimizing production processes. These robots perform repetitive tasks with precision and speed, reducing the likelihood of human error and increasing overall efficiency. The integration of sensors allows for real-time monitoring and adjustments, ensuring optimal performance throughout the production cycle.

2. Healthcare

Robots in the healthcare sector, from surgical assistants to rehabilitation devices, rely heavily on embedded hardware for their functionality. Advanced sensors provide critical feedback during surgeries, ensuring accuracy and safety. Moreover, rehabilitation robots utilize embedded systems to adapt to the needs of patients, offering personalized therapy based on real-time data analysis.

3. Autonomous Vehicles

The automotive industry is witnessing a revolution with the rise of autonomous vehicles. These vehicles depend on a complex array of embedded hardware solutions to navigate and make decisions in real-time. Sensors such as LIDAR and cameras work in conjunction with powerful microcontrollers to interpret data and execute driving actions, paving the way for safer and more efficient transportation.

4. Service Robots

From cleaning and delivery to companionship, service robots are becoming increasingly prevalent in our daily lives. These robots rely on embedded hardware to operate autonomously, interact with users, and adapt to dynamic environments. For instance, cleaning robots use sensors to map their surroundings and optimize their cleaning routes, while delivery robots communicate with users to ensure timely and accurate service.

Benefits of Embedded Hardware Solutions in Robotics

Enhanced Performance and Efficiency

Embedded hardware solutions enable robots to process information rapidly and execute commands with high precision. This efficiency translates to faster response times, improved accuracy, and overall enhanced performance, which is crucial in applications where timing and reliability are essential.

Cost Reduction

By automating tasks traditionally performed by humans, embedded hardware solutions contribute to significant cost savings. Robots can work tirelessly, reducing labor costs and minimizing the need for manual oversight. Furthermore, advancements in embedded technologies often lead to reduced hardware costs over time, making sophisticated robotics more accessible to various industries.

Scalability

Embedded hardware systems can be easily scaled to accommodate different levels of complexity and functionality. This flexibility allows organizations to start with basic robotic systems and gradually integrate more advanced features as needed, ensuring that they can adapt to changing market demands without substantial investments in new hardware.

Future Trends in Embedded Hardware for Robotics

1. Artificial Intelligence Integration

The integration of artificial intelligence (AI) with embedded hardware is set to transform robotics significantly. AI algorithms can enhance the decision-making capabilities of robots, allowing them to learn from their experiences and adapt to new challenges. This synergy will lead to smarter, more autonomous robots capable of performing complex tasks in unpredictable environments.

2. Miniaturization

As technology advances, the trend toward miniaturization of embedded hardware will continue. Smaller components will enable the development of more compact and lightweight robots, expanding their applicability in various settings, from home automation to space exploration.

3. Increased Connectivity

The future of robotics lies in enhanced connectivity through IoT and cloud computing. Robots will increasingly rely on real-time data from various sources to optimize their performance. This connectivity will also enable remote monitoring and control, improving maintenance and operational efficiency.

4. Collaborative Robotics

Collaborative robots, or cobots, are designed to work alongside humans in shared environments. The development of embedded hardware solutions that prioritize safety and intuitive interaction will drive the growth of cobots in industries such as manufacturing, healthcare, and logistics.

Conclusion

Embedded hardware solutions are at the forefront of the robotics revolution, driving advancements across various sectors. By enhancing performance, reducing costs, and enabling scalability, these technologies are paving the way for innovative applications and capabilities. As we look to the future, the continued integration of AI, miniaturization, and increased connectivity will undoubtedly shape the next generation of robotics, transforming how we interact with machines and the world around us. Embracing these advancements is not just a technological shift; it is a strategic move toward a more efficient and automated future.

To Know More About embedded hardware solutions

Supply Chain Disruptions: Challenges and Solutions for the Internet of Things in Healthcare Industry

The global Internet of Things (IoT) in Healthcare Market Revenue, valued at USD 121.20 billion in 2023, is set for exponential growth, with forecasts suggesting it will reach USD 471.20 billion by 2031. This expansion reflects a compound annual growth rate (CAGR) of 21.4% over the forecast period from 2024 to 2031. The significant growth highlights the increasing integration of IoT solutions in the healthcare sector, revolutionizing patient care, operational efficiency, and healthcare management.

The Internet of Things in Healthcare refers to the network of connected devices that collect and transmit data over the internet, enabling real-time monitoring, data analysis, and enhanced communication between patients and healthcare providers. From wearable devices that track vital signs to smart hospital systems that manage equipment and patient flow, IoT solutions are transforming the healthcare landscape by providing more personalized, efficient, and effective care.

Market Dynamics and Growth Drivers

The surge in the adoption of IoT in healthcare is driven by several factors, including the increasing need for remote patient monitoring, the rise in chronic diseases, and the growing emphasis on improving patient outcomes. The COVID-19 pandemic also accelerated the adoption of IoT solutions as healthcare providers sought ways to monitor patients remotely and reduce the strain on healthcare facilities. IoT technology enables continuous monitoring of patients' health, allowing for early intervention and timely treatment, which is crucial for managing chronic conditions.

Another key driver of market growth is the technological advancements in wearable devices, biosensors, and smart medical devices. These innovations are enabling more accurate and reliable health monitoring, providing healthcare professionals with vital data that can be used to make informed clinical decisions. Additionally, the integration of IoT with electronic health records (EHRs) enhances the accessibility of patient data, leading to improved care coordination and patient outcomes.

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Key Market Trends

The growing demand for remote patient monitoring is one of the most significant trends in the IoT healthcare market. With the increase in aging populations and the prevalence of chronic diseases, there is a need for continuous monitoring of patients’ health outside traditional healthcare settings. IoT solutions offer a convenient and effective way to track vital signs, medication adherence, and other health metrics remotely, allowing healthcare providers to offer personalized care plans.

The development of smart healthcare facilities is another emerging trend. Hospitals and clinics are adopting IoT solutions to improve operational efficiency, reduce costs, and enhance patient care. Smart hospitals utilize IoT devices to manage equipment, monitor patient flow, and even control environmental factors such as lighting and temperature, creating a more comfortable and efficient healthcare environment.

Artificial intelligence (AI) and machine learning (ML) are playing an increasingly important role in the IoT healthcare market. By integrating AI and ML algorithms with IoT devices, healthcare providers can analyze vast amounts of data to identify patterns, predict health outcomes, and automate routine tasks. This not only improves the accuracy of diagnoses but also allows for early detection of potential health issues, leading to better patient care.

Regional Insights

North America currently leads the global IoT in Healthcare Market, with the region accounting for the largest market share in 2023. The well-established healthcare infrastructure, high adoption of advanced technologies, and supportive government initiatives promoting the use of digital health solutions contribute to this leadership position. The presence of major IoT solution providers in the U.S. further strengthens the region’s market dominance.

The Asia-Pacific region is expected to witness the highest growth rate during the forecast period. Factors such as the increasing adoption of digital health solutions, growing healthcare expenditure, and rising prevalence of chronic diseases are driving the market growth in countries like China, India, and Japan. Additionally, the increasing penetration of internet and smartphone usage in these regions is making it easier to implement IoT solutions across healthcare facilities.

Key Players in the Market

The Internet of Things in Healthcare Market is competitive, with several key players focusing on strategic partnerships, mergers, acquisitions, and product innovations to strengthen their market presence. Leading companies in this sector include Medtronic, GE Healthcare, Philips Healthcare, Siemens Healthineers, IBM Corporation, and Cisco Systems. These companies are continuously investing in research and development to enhance their IoT offerings, addressing the evolving needs of the healthcare sector.

Conclusion

The global Internet of Things in Healthcare Market is on a strong growth trajectory, driven by the increasing adoption of connected devices, remote patient monitoring solutions, and advancements in AI and machine learning. As healthcare providers continue to seek innovative solutions to improve patient care and operational efficiency, the demand for IoT in healthcare is expected to rise, presenting significant opportunities for market players over the next decade.

Wearable Injectors Market: Key Type Insights

The global wearable injectors market was estimated at USD 8.80 billion in 2023 and is projected to grow at a compound annual growth rate (CAGR) of 18.11% from 2024 to 2030. Several key factors are driving this market, including the increasing prevalence of chronic illnesses, the growing geriatric population, and heightened concerns regarding needle stick injuries. Wearable injectors offer a more cost-effective alternative compared to other medication delivery methods. Additionally, the desire to reduce healthcare expenditures and the rising demand for continuous monitoring and home-based treatments are expected to further boost the adoption of wearable injectors.

A strong healthcare infrastructure and a rise in lifestyle-related disorders are also contributing to market expansion. However, challenges remain, such as low demand in developing economies and the high cost of wearable injectors, which could hinder growth in the coming years. Needle stick injuries (NSIs) are a significant occupational hazard for healthcare workers. According to a study by the World Health Organization (WHO) published in 2021, nearly 2 million out of 35 million healthcare professionals globally experience occupational injuries each year. Needle stick injuries increase the risk of transmitting infectious diseases, including HIV, hepatitis B, and hepatitis C.

Reports from the Centers for Disease Control and Prevention (CDC) and the European Agency for Safety and Health at Work (EU-OSHA) highlight that healthcare workers in the U.S. and Europe experience approximately 385,000 and 1,000,000 needle stick injuries, respectively. Moreover, the WHO estimates that NSIs lead to annual cases of 16,000 for hepatitis C virus (HCV), 66,000 for hepatitis B virus (HBV), and 1,000 for HIV among healthcare workers.

Gather more insights about the market drivers, restrains and growth of the Wearable Injectors Market

Type Insights

In 2023, on-body wearable injectors emerged as the dominant segment in the wearable injectors market, accounting for the largest revenue share. This surge in demand can be attributed to several factors, primarily their user-friendly design and enhanced functionality. On-body injectors are designed to be worn comfortably on the skin, typically on areas like the stomach, making them an ideal solution for continuous medication delivery. Their water-resistant nature further adds to their appeal, allowing users to maintain their daily activities without the concern of damaging the device. This convenience makes on-body injectors particularly attractive for home use, where patients can self-administer medication without frequent hospital visits.

The advantages of on-body wearable injectors extend beyond comfort. By reducing the number of necessary hospital visits, these devices can significantly decrease overall healthcare costs. This is especially important in managing chronic conditions that require ongoing treatment, as patients can administer their medication at home, promoting independence and improving their quality of life. Additionally, these injectors offer enhanced lifecycle management, allowing healthcare providers to monitor the usage and effectiveness of medication delivery over time.

Flexible dosing is another critical benefit of on-body wearable injectors. These devices can be programmed to deliver varying doses as required, catering to the specific needs of patients throughout the day. Furthermore, the automatic warming feature for refrigerated medications ensures that drugs are administered at the optimal temperature, enhancing their efficacy.

A notable innovation in this segment is the infusion set introduced by Medtronic (Ireland) in April 2021. This system allows for the continuous transport of insulin from a pump to the body over a span of up to seven days, revolutionizing diabetes management for patients by providing a more stable and consistent insulin delivery method. This advancement exemplifies the growing trend toward integrating technology with healthcare solutions to improve patient outcomes.

Conversely, off-body wearable injectors are expected to experience substantial growth, projected at a CAGR of 18.74% during the forecast period. These devices offer unique advantages that address some of the common concerns associated with wearable technology. For instance, off-body injectors eliminate the discomfort linked with the painful removal of devices, a frequent complaint among users of on-body solutions. They also tackle issues related to adhesive fitting on the skin, which can lead to skin irritation or sensitivity.

As the industry continues to innovate, significant investments are being channeled into the development of improved off-body injectors. This focus on innovation is likely to enhance the performance and user experience of these devices, making them a more attractive option for patients. Furthermore, the ongoing research and development efforts aim to address any lingering concerns associated with off-body solutions, thereby facilitating broader adoption in the market.

Order a free sample PDF of the Wearable Injectors Market Intelligence Study, published by Grand View Research.

Global Blood Market Analysis 2024: Size Forecast and Growth Prospects

The blood global market report 2024 from The Business Research Company provides comprehensive market statistics, including global market size, regional shares, competitor market share, detailed segments, trends, and opportunities. This report offers an in-depth analysis of current and future industry scenarios, delivering a complete perspective for thriving in the industrial automation software market.

Blood Market, 2024 report by The Business Research Company offers comprehensive insights into the current state of the market and highlights future growth opportunities.

Market Size - The blood market size has grown strongly in recent years. It will grow from $7.83 billion in 2023 to $8.32 billion in 2024 at a compound annual growth rate (CAGR) of 6.2%. The growth in the historic period can be attributed to the surge in demand for blood and plasma, an increase in the number of surgeries, a growing global population, increasing incidence of chronic diseases, rising number of blood banks.

The blood market size is expected to see strong growth in the next few years. It will grow to $10.62 billion in 2028 at a compound annual growth rate (CAGR) of 6.3%. The growth in the forecast period can be attributed to favorable government regulations, a rise in the geriatric population, rising awareness about blood donation, increase in blood transfusion, increasing number of ambulatory surgical centers (ASCS). Major trends in the forecast period include advancements in blood transfusion and blood screening instruments, computerized immunoassays, smart blood bank inventory control systems, technological innovations, precise temperature monitoring and control.

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Scope Of Blood Market The Business Research Company's reports encompass a wide range of information, including:

Market Size (Historic and Forecast): Analysis of the market's historical performance and projections for future growth.

Drivers: Examination of the key factors propelling market growth.

Trends: Identification of emerging trends and patterns shaping the market landscape.

Key Segments: Breakdown of the market into its primary segments and their respective performance.

Focus Regions and Geographies: Insight into the most critical regions and geographical areas influencing the market.

Macro Economic Factors: Assessment of broader economic elements impacting the market.

Blood Market Overview

Market Drivers - The increase in the number of surgeries is expected to propel the growth of the blood market. The rise in the number of surgeries is driven by improvements in medical technology, an aging demographic, and more chronic disease cases. Blood is essential in surgery to supply oxygen and nutrients, aiding clotting to control bleeding and enhance the immune response to combat infections. For instance, in December 2023, according to the Australian Institute of Health and Welfare, an Australia-based government administration, in 2022–2023, 735,500 patients were admitted for surgery from public hospital elective surgery waiting lists, marking an 18% rise compared to 2021–2022. Therefore, the increase in the number of surgeries is driving the blood market going forward.

Market Trends - Major companies operating in the blood market are developing advanced blood transfusion instruments, such as plasma collection systems, to improve efficiency, enhance donor safety, and increase the overall quality of blood products. A plasma collection system is a device that extracts plasma from a donor's blood by separating it from other components and returning the rest to the donor through plasmapheresis. For instance, in March 2022, Terumo Blood and Cell Technologies, a US-based blood component and cellular technology company, received Food and Drug Administration approval for the Rika Plasma Donation System (Rika). It is a next-generation plasma collection system that focuses on improving the experience for plasma center employees and donors, featuring safety measures to reduce operator errors and completing plasma collection in 35 minutes or less. Rika ensures no more than 200 milliliters of blood are outside the donor's body at any time and includes an advanced control system for operators.

The blood market covered in this report is segmented –

1) By Product: Whole Blood Collection And Processing, Source Plasma Collection, Blood Typing Products, Blood Screening Products 2) By Mode of Delivery: Infusion Solutions, Gels, Sprays, Biomedical Sealants 3) By End User: Blood And Blood Component Bank, Diagnostic Laboratories, Ambulatory Surgical Centers, Hospitals, Other End Users

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Regional Insights - North America was the largest region in the blood market in 2023. Asia-Pacific is expected to be the fastest-growing region in the forecast period. The regions covered in the blood market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa.

Key Companies - Major companies operating in the blood market are Cardinal Health Inc., Roche Holding AG, Thermo Fisher Scientific Inc., Abbott Laboratories, Medtronic Plc, Danaher Corp., Merck KGaA, Asahi Kasei Medical Co. Ltd., Henry Schein Inc., Medline Industries Inc., B. Braun Melsungen AG, Grifols SA, Terumo Corp., Nipro Corp., QuidelOrtho Corp., Bio Rad Laboratories Inc., LivaNova PLC, Haemonetics Corp., Macopharma, DIAGAST SAS, BAG Health Care GmbH, Kawasumi Laboratories America Inc

Table of Contents

Executive Summary

Blood Market Report Structure

Blood Market Trends And Strategies

Blood Market – Macro Economic Scenario

Blood Market Size And Growth …..

Blood Market Competitor Landscape And Company Profiles

Key Mergers And Acquisitions

Future Outlook and Potential Analysis

Appendix

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Smart Sleep Monitor Market 2024 : Industry Analysis, Trends, Segmentation, Regional Overview And Forecast 2033

The smart sleep monitor global market report 2024from The Business Research Company provides comprehensive market statistics, including global market size, regional shares, competitor market share, detailed segments, trends, and opportunities. This report offers an in-depth analysis of current and future industry scenarios, delivering a complete perspective for thriving in the industrial automation software market.

Smart Sleep Monitor Market, 2024The smart sleep monitor global market report 2024

Market Size -

The smart sleep monitor market size has grown rapidly in recent years. It will grow from $22.25 billion in 2023 to $25.41 billion in 2024 at a compound annual growth rate (CAGR) of 14.2%. The growth in the historic period can be attributed to wearable technology popularity, the convenience of home monitoring, patient monitoring applications, customized sleep solutions, and the affordability of sleep apps. The smart sleep monitor market size is expected to see rapid growth in the next few years. It will grow to $43.42 billion in 2028 at a compound annual growth rate (CAGR) of 14.3%. The growth in the forecast period can be attributed to a focus on mental health, regulatory support for sleep health initiatives, consumer demand for data-driven insights, a growing range of non-wearables, and increasing demand for smart sleep monitors. Major trends in the forecast period include integration with fitness devices, growing partnerships in the industry, increased investment in sleep research, advanced sensing technologies, and data analytics and AI.

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The Business Research Company's reports encompass a wide range of information, including:

1. Market Size (Historic and Forecast): Analysis of the market's historical performance and projections for future growth.

2. Drivers: Examination of the key factors propelling market growth.

3. Trends: Identification of emerging trends and patterns shaping the market landscape.

4. Key Segments: Breakdown of the market into its primary segments and their respective performance.

5. Focus Regions and Geographies: Insight into the most critical regions and geographical areas influencing the market.

6. Macro Economic Factors: Assessment of broader economic elements impacting the market.

Market Drivers -

The rising incidence of sleep-related ailments is anticipated to drive the growth of the smart sleep monitor market in the future. Sleep-related ailments disrupt the ability to achieve quality sleep, impacting its quantity, quality, or timing, and may result in excessive daytime sleepiness. The increasing prevalence of sleep-related ailments is mainly driven by socioeconomic stress, lifestyle shifts, and an aging population. Smart sleep monitors are designed to track various metrics, such as heart rate, fluctuations in heart rate, breathing patterns, snoring, body temperature, and periods of wakefulness, in order to analyze sleep patterns and detect potential health issues. For instance, in May 2023, according to SleepFoundation.org, a US-based non-profit organization dedicated to sleep health, it was reported that between 50 million and 70 million individuals experienced persistent sleep disorders, with a notable increase linked to post-traumatic stress disorder (PTSD). Additionally, 70% of adults are affected by seasonal affective disorder (SAD). Therefore, the rising incidence of sleep-related ailments is driving the growth of the smart sleep monitor market.

Market Trends -

Major companies operating in the smart sleep monitor market are focusing on developing advanced solutions, such as artificial intelligence-based integrated smart sleep monitor devices, to enhance accuracy, provide personalized insights, and improve the overall user experience. Artificial intelligence-based integrated smart sleep monitor devices refer to advanced sleep tracking systems that utilize AI algorithms to analyze sleep patterns, predict sleep quality, and offer personalized recommendations for improving sleep. For instance, in July 2024, Samsung Electronics Co. Ltd., a South Korea-based electronic appliances company, launched the Galaxy Ring, which features extensive health tracking capabilities, including metrics for sleep such as movement, sleep latency, heart rate, and respiratory rate. It also tracks menstrual cycles through overnight skin temperature monitoring. Additionally, the ring offers continuous heart rate monitoring, alerting users to any unusual fluctuations, automatically detecting and tracking different exercises, and sending inactivity alerts to promote movement.

The smart sleep monitor market covered in this report is segmented –

1) By Type: Wearable Devices, Non-Wearable Devices 2) By Technology: Sensing Technology, Computing Technology, Display Technology 3) By Application: Online Sales, Offline Sales

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Regional Insights -

North America was the largest region in the smart sleep monitor market in 2023. The regions covered in the smart sleep monitor market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa.

Key Companies -

Major companies in the market are Apple Inc., Samsung Electronics Co. Ltd, Xiaomi Corporation, Nokia Inc., Koninklijke Philips NV, Garmin Ltd, ResMed Inc., Sleep Number Corporation, Fitbit LLC, Misfit Inc., Withings Corporation, Owlet Inc., Empatica Inc., Sibel Health Inc., Sleepiz AG, Eight Sleep, Early Sense Inc., Beddit Inc., Emfit Inc., Knownwell Corporation, Ultrahuman Inc., Onera Health Inc., Xsensio Inc.

Table of Contents

1. Executive Summary 2. Smart Sleep Monitor Market Report Structure 3. Smart Sleep Monitor Market Trends And Strategies 4. Smart Sleep Monitor Market – Macro Economic Scenario 5. Smart Sleep Monitor Market Size And Growth ….. 27. Smart Sleep Monitor Market Competitor Landscape And Company Profiles 28. Key Mergers And Acquisitions 29. Future Outlook and Potential Analysis 30. Appendix

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Samsung Health Research Stack 2.0 Beta Version By Samsung

Samsung Health Research Stack

Precise data measurement and analysis are becoming more and more crucial as the wearables and digital health sectors expand. To support data-driven digital health research, Samsung Electronics unveiled Samsung Health Research Stack.

The open-source Samsung Health Research Stack project from Samsung Electronics facilitates digital health research employing wearables and mobile devices in Wear OS and Android environments. The platform offers a software environment for medical researchers and IT developers to easily and securely arrange services utilizing pertinent data.

Samsung Health Research Stack attempts to assist researchers in putting their desired features into practice because clinical research necessitates apps and services that continuously monitor, share, and analyze health-related data from users’ everyday life.

Samsung has revealed the most recent version, Samsung Health Research Stack 2.0 Beta, which follows the releases of Samsung Health Stack Alpha in 2022 and Samsung Health Stack 1.0 in 2023. With a focus on supporting the research ecosystem as part of the recently released Samsung Health SDK Suite, a complete collection of software development tools for healthcare solutions, the open-source project has relaunched as Samsung Health Research Stack.

Samsung Health SDK Suite

A brand-new Samsung Health Software Development Kit (SDK) Suite was unveiled by Samsung Electronics. The SDK Suite uses Samsung’s sophisticated sensor technology and extensive Samsung Health platform to better assist developers and researchers in developing cutting-edge healthcare solutions. A wider range of partners, developers, and researchers can now easily access the new comprehensive set of sensor, data, accessory, and research stack components.

App SDK

Research on digital health is made more effective by Samsung Health Research Stack. Features include an online site to help with research design and data analysis, an app SDK for simple application construction, and a back-end service to manage data acquired by the app. The most recent version has more practical features in response to researcher feedback.

The app SDK is a development tool that lowers the time and expense needed to create digital health apps. It also facilitates the creation of wristwatch apps that use wearable sensor data in addition to research mobile apps. Researchers may now develop watch apps that measure and use body composition, blood oxygen level, and EKG data from the cutting-edge Galaxy Watch sensors thanks to improved support for the Sensor SDK. Researchers can use sleep data from the Galaxy Watch or Galaxy Ring to design applications with the help of the new Data SDK integration.

Additionally, the online portal and back-end service have been made more user-friendly and performant. With additional functionality to organize studies, the back-end architecture has been strengthened to handle data from large clinical trials. The web portal facilitates all aspects of the research process, including data analysis, progress monitoring, patient recruiting, and questionnaires.

Sensor SDK

Driving Health Service Development with Advanced Sensor Technology

With the help of the Sensor SDK, developers can leverage Samsung’s robust BioActive Sensor algorithm on the Galaxy Watch, enabling them to investigate uncharted territory in the health services industry and produce cutting-edge new products. The BioActive Sensor measures skin temperature, heart rate, ECG, and BIA. The first continuous access to Red LED and IR photoplethysmogram (PPG) sensor data is significant.

This development will contribute to the improvement of blood oxygen level (SpO2)-related health services, improving sleep quality, and more. In addition to the eight indications that were already available, such as body fat mass and skeletal muscle mass, the enhanced BIA now offers two more measurements: magnitude and degree. This allows for a more accurate examination of body composition and deeper insights into general physical health.

Data SDK

As of October, developers may leverage integrated health data from a variety of devices, including smartphones, wearables like the Galaxy Watch and Galaxy Ring, and third-party devices, by utilizing the recently added Data SDK to produce creative digital health solutions. Data SDK gives users access to the Samsung Health app’s powerful algorithm-analyzed health data, such as blood pressure, food intake, activity, sleep patterns, and blood glucose levels. Developers may work more productively when creating healthcare services to Samsung Health’s streamlined insights.

Accessory SDK

The Accessory SDK lets developers connect compatible third-party health gadgets into the Samsung Health app. Blood pressure, heart rate, glucose, and cycling sensors are examples. This allows users to examine health status data in one place without activating many third-party apps, improving user experience and expanding the health management ecosystem.

Research Stack

Allowing Research Organizations to Help Healthcare

An open-source initiative called Research Stack seeks to grow the ecosystem for digital health research. By offering the online portal, backend services, mobile and wearable app SDK, and recruiting and survey assistance, in addition to progress tracking and outcomes monitoring, Research Stack establishes an adaptable and diverse research environment. The most recent version of the Research Stack offers an extensive toolkit that was created using insightful input from research institutes and their practical experience executing intricate, large-scale projects.

The Samsung Health Research Stack 2.0 Beta version will also incorporate the Health SDK Suite’s Sensor SDK and Data SDK natively. Prominent academic institutions have already included Research Stack into their research and discovery procedures, demonstrating Samsung’s proactive involvement in the healthcare sector and offering researchers more productive investigations and significant findings.

SDC24

Any business or medical facility in the digital healthcare industry creating products that make use of wearable technology and biomarkers is welcome to apply for Samsung Health Research Stack.

On October 3 in San Jose, California, Samsung Developer Conference 2024 (SDC24) will include Samsung Health Research Stack. During the event, developers can attend a Code Lab session to get a firsthand look at the newest features.

According to Yunsu Lee, Head of Samsung Research’s Data Intelligence Team, “Samsung Health Research Stack is already being used in multiple domestic and international clinical studies that utilize Galaxy Watch.” “It want to help grow the digital health ecosystem and be a valuable partner to IT and medical professionals in accomplishing research breakthroughs with its cutting-edge wearable technology.”

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