#Medical Robotics | Explore Tumblr Posts and Blogs

the-technocracy · 2 years

Video

youtube

Ignore the godawful clickbaity thumbnail, this is actually a genuinely interesting video.

Solutions for medical care and elderly care is going to be a necessity; there's a marked decline in population growth in much of the developed world, and the nursing and care professions are becoming less and less desirable to enter into, for various reasons, so employing artificial intelligence and machines to care for our increasingly elderly and unwell population is going to be crucial, including machine nurses like the lovely Grace.

#youtube #ai #artificial intelligence #medical robots #medical robotics #techno future #hanson robotics #hanson robotics grace #robot nurse grace

6 notes · View notes

credenceresearchdotblog · 2 months

Text

The global demand for Medical Robotics Market was valued at USD 6125.2 Million in 2023 and is expected to reach USD 25554.5 Million in 2032, growing at a CAGR of 17.20% between 2024 and 2032.Medical robotics is revolutionizing the healthcare industry, offering enhanced precision, reduced recovery times, and improved patient outcomes. The integration of robotics in medical procedures has been a game-changer, providing significant advancements in surgeries, diagnostics, and rehabilitation. As technology continues to evolve, the medical robotics market is poised for substantial growth in the coming years.

Browse the full report at https://www.credenceresearch.com/report/medical-robotics-market

Market Overview

The medical robotics market encompasses various types of robotic systems used in healthcare, including surgical robots, rehabilitation robots, hospital robots, and telepresence robots. Surgical robots, such as the da Vinci Surgical System, are the most widely known and utilized, allowing surgeons to perform complex procedures with greater accuracy and minimal invasiveness. Rehabilitation robots assist patients in recovering from strokes and injuries, while hospital robots aid in logistics and telepresence robots facilitate remote consultations and patient monitoring.

Key Drivers of Market Growth

Several factors are driving the rapid growth of the medical robotics market:

1. Technological Advancements: Continuous innovation in robotics technology, including the development of AI and machine learning, has significantly enhanced the capabilities of medical robots. These advancements enable more precise and efficient procedures, reducing the margin of error and improving patient outcomes.

2. Aging Population: With an increasing elderly population worldwide, there is a growing demand for medical services. Medical robots can address this demand by providing efficient and effective healthcare solutions, particularly in surgical and rehabilitation applications.

3. Rising Healthcare Costs: Medical robotics can help reduce healthcare costs by minimizing the length of hospital stays, decreasing the need for follow-up surgeries, and improving overall efficiency. This cost-effectiveness is a major incentive for healthcare providers to adopt robotic systems.

4. Increased Investments: There has been a significant rise in investments in the medical robotics sector from both public and private entities. This influx of capital is fueling research and development, leading to the creation of more advanced and versatile robotic systems.

Market Segmentation

The medical robotics market can be segmented based on product type, application, end-user, and region.

1. Product Type: - Surgical Robots - Rehabilitation Robots - Non-Invasive Radiosurgery Robots - Hospital and Pharmacy Robots - Others

2. Application: - Laparoscopy - Orthopedics - Neurosurgery - Cardiology - Others

3. End-User: - Hospitals - Ambulatory Surgery Centers - Rehabilitation Centers - Clinics

4. Region: - North America - Europe - Asia Pacific - Latin America - Middle East and Africa

Regional Insights

North America holds the largest share of the medical robotics market, driven by the presence of leading market players, advanced healthcare infrastructure, and high adoption rates of innovative technologies. Europe follows closely, with significant growth observed in countries like Germany and the UK.

The Asia Pacific region is expected to witness the highest growth rate during the forecast period. Factors such as increasing healthcare expenditure, rising awareness about robotic-assisted surgeries, and improving healthcare infrastructure in countries like China and India are contributing to this growth.

Challenges and Future Prospects

Despite the promising growth, the medical robotics market faces several challenges. High costs associated with robotic systems and the need for specialized training for healthcare professionals are significant barriers. Additionally, concerns regarding data privacy and security need to be addressed to gain widespread acceptance.

However, the future of the medical robotics market looks bright. Continued advancements in AI and machine learning, coupled with the integration of IoT and 5G technology, are expected to further enhance the capabilities and applications of medical robots. Moreover, as the cost of technology decreases and training programs become more widespread, the adoption of medical robotics is likely to accelerate.

Key Players

iRobot Corporation (U.S.)

Titan Medical Inc. (Canada)

Hansen Technologies (Australia)

Renishaw plc (U.K.)

Intuitive Surgical (U.S.)

Medtronic (Ireland)

DENSO Products and Services Americas, Inc. (U.S.)

Accuray Incorporated (U.S.)

Stryker (U.S.)

Varian Medical Systems, Inc. (U.K.)

Stereotaxis, Inc. (U.S.)

Ekso Bionics (U.S.)

CYBERDYNE INC. (Japan)

BIONIK (U.S.)

Smith+Nephew (U.K.)

Zimmer Biomet (U.S.)

Omnicell. Inc. (U.S.)

ARxIUM (Canada)

Segmentation

By Product Type:

Surgical Robots

Rehabilitation Robots

Telepresence Robots

Assistive Robots

Pharmacy and Hospital Automation Robots

Others

By Application:

Minimally Invasive Surgery

Rehabilitation Therapy

Pharmacy Automation

Radiosurgery

Telepresence Surgery

Others

By Surgical Robots by Type:

Robotic Systems

Instruments and Accessories

By End-User:

Hospitals and Clinics

Rehabilitation Centers

Pharmacies

Ambulatory Surgical Centers

Others

By Control Type:

Direct Telemanipulation

Telepresence

By Surgical Robots by Application:

Gynecological Surgery

Orthopedic Surgery

Neurological Surgery

Cardiovascular Surgery

General Surgery

Others

By Rehabilitation Robots by Type:

Exoskeleton Robots

Mobile Robots

Others

By Pharmacy and Hospital Automation Robots by Type:

Medication Dispensing Robots

Robotic Prescription Dispensing Systems

Others

By Assistive Robots by Type:

Socially Assistive Robots

Cognitive Orthoses

Others

By Region

North America

The U.S.

Canada

Mexico

Europe

Germany

France

The U.K.

Italy

Spain

Rest of Europe

Asia Pacific

China

Japan

India

South Korea

South-east Asia

Rest of Asia Pacific

Latin America

Brazil

Argentina

Rest of Latin America

Middle East & Africa

GCC Countries

South Africa

Rest of Middle East and Africa

Browse the full report at https://www.credenceresearch.com/report/medical-robotics-market

About Us:

Credence Research is committed to employee well-being and productivity. Following the COVID-19 pandemic, we have implemented a permanent work-from-home policy for all employees.

Contact:

Credence Research

Please contact us at +91 6232 49 3207

Email: [email protected]

Website: www.credenceresearch.com

#Medical Robotics

0 notes

trendtrackershq · 3 months

Text

Robotic Exoskeletons: Transforming Rehabilitation and Physical Therapy in Medical Robotics Market

Introduction:

The world of physical therapy is on the cusp of a revolution. Robotic exoskeletons, once the stuff of science fiction, are rapidly becoming a reality in rehabilitation clinics, offering new hope for patients recovering from injuries, strokes, and neurological conditions. This article explores the exciting potential of robotic exoskeletons in physical therapy, delving into how they are transforming rehabilitation and empowering patients on their road to recovery.

According to Next Move Strategy Consulting, the global Medical Robotics Market is predicted to reach USD 45.04 billion by 2030, with a CAGR of 17.1% from 2024 to 2030.

Download FREE Sample: https://www.nextmsc.com/medical-robotics-market/request-sample

The Challenges of Traditional Rehabilitation

Traditional physical therapy relies on therapists guiding patients through exercises and providing manual assistance. While effective, this approach has limitations:

Limited Therapist Time: Therapists often have limited time with each patient, restricting the intensity and frequency of therapy sessions.

Variability in Assistance: Manual assistance from therapists can be subjective and vary depending on the therapist's strength and fatigue levels.

Patient Motivation: Repetitive exercises can become monotonous, leading to decreased patient motivation and adherence to therapy plans.

These challenges can hinder a patient's progress and recovery time.

Enter the Robotic Exoskeleton: A Powerful Rehabilitation Tool

Robotic exoskeletons are wearable robotic devices that provide controlled support and assistance to a patient's limbs. They offer several advantages over traditional therapy methods:

Intensified Therapy: Exoskeletons can provide consistent and objective assistance, allowing for longer and more intensive therapy sessions.

Improved Movement Patterns: Robotic exoskeletons can guide a patient's limbs through precise movement patterns, promoting proper motor re-learning.

Reduced Therapist Burden: Exoskeletons can partially offload the therapist's physical workload, allowing them to focus on guiding the patient and providing personalized feedback.

Enhanced Patient Engagement: The interactive nature of exoskeleton therapy can increase patient motivation and adherence to therapy programs.

Here's a glimpse into how robotic exoskeletons are being used in different rehabilitation applications:

Stroke Rehabilitation: Exoskeletons can assist patients with regaining arm and leg movement after a stroke, promoting neuroplasticity and motor function recovery.

Spinal Cord Injury Rehabilitation: Exoskeletons can help patients with spinal cord injuries regain some leg function, allowing them to stand, practice walking patterns, and improve mobility.

Sports Injury Rehabilitation: Exoskeletons can aid in faster recovery from sports injuries by providing targeted support and controlled movement during rehabilitation exercises.

Neurological Conditions: Exoskeletons are being explored for rehabilitation in conditions like Parkinson's disease and Multiple Sclerosis, helping patients manage tremors and improve gait.

The applications of robotic exoskeletons in physical therapy are constantly expanding, with the potential to benefit a wider range of patients in the future.

Inquire before buying: https://www.nextmsc.com/medical-robotics-market/inquire-before-buying

The Road Ahead: A Future of Personalized Rehabilitation

The integration of robotic exoskeletons with other rehabilitation technologies holds immense promise for the future of physical therapy:

Virtual Reality (VR): VR can be integrated with exoskeletons to create immersive training environments, further enhancing patient engagement and motivation.

Biofeedback Sensors: Real-time data from biofeedback sensors incorporated into exoskeletons can provide valuable insights into a patient's progress and help tailor therapy programs.

Artificial Intelligence (AI): AI algorithms could analyze patient data and personalize exoskeleton therapy based on individual needs and recovery goals.

These advancements point towards a future of personalized rehabilitation with robotic exoskeletons at the forefront, offering patients a more effective, engaging, and data-driven path to recovery.

Challenges and Considerations for Widespread Adoption

Despite the undeniable benefits of robotic exoskeletons, there are still challenges to overcome for widespread adoption:

Cost: The initial cost of robotic exoskeletons can be high, limiting accessibility for some physical therapy clinics.

Customization: Exoskeletons need to be adjustable to accommodate patients of various sizes and body types.

Integration with Therapy Programs: Effective use of exoskeletons requires seamless integration with existing physical therapy protocols and therapist expertise.

Reimbursement Policies: Clearer reimbursement policies from insurance companies are needed to incentivize wider adoption of this technology in rehabilitation settings.

Addressing these challenges through ongoing research, development, and collaboration between healthcare providers, technology developers, and policymakers will be crucial for maximizing the potential of robotic exoskeletons in transforming physical therapy.

Conclusion: A Brighter Future for Rehabilitation

Robotic exoskeletons are revolutionizing the field of physical therapy, offering a powerful tool to enhance patient outcomes and accelerate recovery. With continued advancements in technology, affordability, and integration with existing therapy practices, robotic exoskeletons hold the promise of a future where personalized rehabilitation is accessible and effective for a wider range of patients.

#medical robotics #healthcare #medical #technology #innovation #AI #market research #business insights #market trends

0 notes

pddparthi · 1 year

Text

10 Futuristic Robots That Will Blow Your Mind

Introduction Welcome to our comprehensive guide to the most mind-blowing futuristic robots currently in development. At BlogMech.com, we believe in providing cutting-edge content that surpasses expectations and caters to your thirst for technological marvels. In this article, we will take you on an exhilarating journey, exploring ten groundbreaking robots that will revolutionize the way we live,…

View On WordPress

#Autonomous Delivery Drones #Futuristic Robots #Medical Robotics #Robotic Assistant Companions

0 notes

aho-bot · 7 months

Text

The fact that these 9 can be reduced to basic shapes and still be recognized by anyone is baffling yet amazing to me. (edit for Spy's eye shapes)

#team fortress 2 #tf2 #tf2 scout #tf2 soldier #tf2 pyro #tf2 demoman #tf2 heavy #tf2 engineer #tf2 medic #tf2 sniper #tf2 spy #aho art #tf2 fanart #someone remind me to do the robots and other misc tf2 characters too at some point

911 notes · View notes

fexjam · 1 month

Text

#art #tf2 #team fortress 2 #tf2 fanart #tf2 medic #I've been thinking about Asuka Medic a lot lately...#Robot Heavy is his Eva

214 notes · View notes

l-prx · 9 days

Text

Heavymedic bot making fun of u for dying the first wave

304 notes · View notes

sicc-nasti · 4 months

Text

Please feel free to dm me here! Would love to take on a slew of these! ^_^ And feel free to ask questions! Paypal only, prices are USD <:3 I will draw just about anything - feel free to inquire! TF2 ocs, Fursonas, Cyberpunk ocs, TTRPG ocs, anything's on my list to try :> ! Last two characters pictured belong to duskgryphon and ottosbigtop

232 notes · View notes

glyphalodon · 1 month

Text

finally decided to draw him.. honestly it's surprisingly fun

#tf2 #tf2 art #tf2 fanart #tf2 medic #tf2 robots #tf2 medic robot #medic tf2

161 notes · View notes

another-delta-lover · 3 months

Text

TF2 ROBOT HEAVYMEDIC ART DUMP 🩵🩵

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

ROBOT BURLY BEAST‼️‼️‼️‼️‼️‼️‼️

I lov em so much...

#deltas yappin #deltas men obssesion #Deltas random pencil grabbin #Deltas serious pencil grabbin #tf2 #tf2 medic #tf2 heavy #heavymedic #tf2 robots #tf2 medicbot #tf2 heavybot #red Oktoberfest #medicbot #heavybot #art dump #traditonal art

151 notes · View notes

hazyaltcare · 5 months

Text

Typing Quirk Suggestions for a Robot kin

I hope it gives you a wonderful uptime! :3

Mod Vintage (⭐)

Letter replacements:

Replace "O" with zeroes "0"

Replace "i" or "L" with ones "1"

Replace "one" with "1", including "one" sounds like "any1", or "we 1 = we won" (the past tense of "win")

Replace "zero" with "0"

Frankly, you can just replace all sorts of letters with numbers, such as

R = 12

N = 17

B = 8

A = 4

E = 3

etc.

or maybe make all "A"s and "i"s capitalized, cause "A.I." (artificial intelligence

Prefixes and Suffixes:

Get inspired by programming languages!

Begin your text with "//" like a comment on C++

If you prefer other languages comment tags, you can use "< !--your text-- >"

Or maybe begin it with " int main () { std::cout << "your text"" and end with "return 0; }" like C++ too

Greet people with the classic "Hello world!"

Or greet people with "beep boop!" honestly, I have no idea where this comes from, but it's cute.

Or write down html stuff, like sandwiching your italicized text with "< em> "

The possibilities are endless!

Robot Lingo:

(under the cut because there's a LOT! maybe terabytes! ...just kidding >;3c)

.

some of these are from the machinesoul.net robot server! (not sponsored) (we're not in there anymore, but we saw the robot lingo shared there when we were)

Fronting = logged in, connected

Not fronting = logged out, disconnected

Conscious = activated

Dormant = deactivated

Blurry = no signal

Upset, angry = hacked

Small = bits, bytes

Bite = byte

Huge = gigabytes, terabytes, etc.

Your intake of food, medicine, etc. = input

Your artwork, cooking, handiwork, handwriting, etc. = output

Body = chassis, unit

Brain = CPU, processor

Mind = program, code

Imagination = simulation

Purpose = directive

Nerves = wires

Skin = plating

Organs = (function) units

Limbs = actuators

Eyes = ocular sensors

Glasses = HUD (head's up display)

Hair = wires

Ears = antennae, audio sensors

Nose = olfactory sensors

Heart = core

Liver = detoxification unit

Circulatory system = circuits

Voice = speaker, voice module, voice box

Mouth = face port

Name = designation

Sleep = sleep mode, low power mode, charging

Eat = fuel, batteries

Energy = batteries

Tired = low on batteries

Translate = compile

Memory = data, database

Bed = recharge pod/charger

Dreaming = simulation

Birthday = day of manufacture

Talking = communicating

Thinking = processing

Transitioning = modifying your chassis

Depression = downtime

Joy = uptime

Trash = scrap metal

Fresh/Clean = polished

Keysmashing = random 1s and 0s

Self-care = system maintenance

Going to the doctor = trip to the mechanic

Group = network

Anyone = anybot

#typing quirk suggestions #robotkin #otherkin #robot kin #robot #robots #mod vintage #⭐#tw medical #tw dormancy mention #our system actually uses the lingo in daily conversations with other plurals n alterhumans because we're robot/machine/AI/etc.-dominant #which is pretty funny cause our mod name is Vintage and robots are Futuristic #typing quirk #typing quirks #typing quirk suggestion

192 notes · View notes

scarecrow-bill · 1 year

Text

I got a new iPad :) !!!!!!! Yippee,😁

#medic x heavy #heavy metal #fanart #digatal art #digital art #my art <3 #tf2 #tf2 fanart #team fortress two #my art #heavy tf2 #heavymedic #heavy x medic #tf2 medic #medic tf2 #team fortress medic #robot tf2

494 notes · View notes

larrypuppet · 2 months

Note

Heard u... Needed drawin requests🥰

Doing this request i understood i cant draw robots....well...kinda....

#tf2 #tf2 medic #tf2 fanart #drawing #digital art #tf2 heavy #tf2 heavymedic #tf2 memes #tf2 shitpost #tf2 robots

104 notes · View notes

repcnt · 7 days

Text

I am madly in love w the mvm medic bot

Blood warning under the cut >_<

#tf2 #repcnt #team fortress 2 #scout tf2 #blu scout #repcnt ocs #medic tf2 #tf2 mvm #medic robot #belehhehehehe #mediscout #blunt trauma

68 notes · View notes

lesflaya · 6 months

Text

Synapse - Interactive fiction game where you play as a curious ai bot shuffling around a decaying cryogenics facility, set far in the future with glimpses into the past. My first twine work I actually finished, choose to do your work or to find out more about yourself and this strange decrepit facility.

TW; for depictions of medical horror, existentialism, body horror

154 notes · View notes

lynxfrost13 · 2 months

Text

EULR-S2313 “Holt”

Awesome artfight attack of her by archivebottles on twitter ^^

Holt time let’s go!!

- she’s an old EULR unit that works in Sierpinski-23’s medical wing, she takes care of both replika repairs and patching up gestalts. She’s known throughout the facility as one of the better medical units due to her experience and patients often request her not only for her skills but her company (she’s a terrible gossip even by Eule standards!).

- Holt was given her name from her tendency for hand holding both professionally to comfort her patients, and to generally show affection! Those who know her well also know that her name comes from her stubbornness for a EULR. When she sets her mind to something she refuses to let it go!! She does not take no for an answer! Especially when she’s caring for patients!

- She has a petty grudge against Storch Sieben. No one knows why, but the two of them don’t like each other and can’t be in the same room for very long unless someone wants a shouting match

- When a certain Kolibri unit had an accident in the mines, Holt fixed her face and then after learning that the Kolibri had lost her bioresonance and was being considered for decommission, pulled some strings and kept the decomm request at bay. This initially caused some friction between her and Kolibri, with Holt wanting to keep her alive and well, but Kolibri feeling purposeless without being able to hear her cadre. Although they got off on the wrong foot they grew close and spent a good deal of their spare time together (cue much teasing in the Eule dorms)

- Holt and Kolibri eventually became lovers, Holt had had a crush on her for a while and finally worked up the nerve to confess it. Kolibri felt the same and the two kept their relationship under wraps due to the already tense situation Holt had created in preventing her Kolibug’s decommission request. They still had each other and were happy for a few more years at least (there was much teasing and even more kisses in that time, they loved each other dearly)

- The mysterious illness infecting the replikas of Sierpinski-23 eventually claimed Holt though. During the infection she worked hard to try to treat ailing replikas, or at least bring them some comfort before they had to be put out of their misery. When Holt began showing signs of sickness, Kolibri stayed by her side in the medical office as her condition worsened to the point that she couldn’t recognize her lover at all.

- Holt couldn’t control herself and was confused and scared, she attacked Kolibug when she came to check on her that last day. Kolibug killed her in self defense and remained by her beloved’s side afterwards.

#holt #blorbo tag #signalis oc #signalis #Eule #rip holt sorry I killed you babygirl you deserve better #I do have an AU where Holt basically says fuck it and performs grand theft kobibi and gets the hell outta dodge way before the sickness #but yeah that’s holt!! her and Kolibug are the self indulgent sierpinski babes #for fun I like to think you could run into Kolibri holding Holt’s body in the lower medical wing #holt my beautiful old robot who probably has contraband in her dorm and definitely knows more than she should about sierpinski things

76 notes · View notes