NATIONAL: INVESTMENTS IN MEDICAL & HEALTH SERVICES: Philips Launches Innovation Campus in Bengaluru; gen AI provides more Opportunities, says CEO

The company has over 9,000 employees in India, and of these 5,000 employees in Bengaluru will be working on innovative health technologies. The company employs over 70,700 employees globally.

Generative AI (Artificial Intelligence) provides a lot of opportunities, and it is the next wave of new technology that can help solve the problems of customers, said Roy Jakobs, CEO of Royal Philips.

The company launched its new innovation campus in Bengaluru that can accommodate 5,000 employees. Speaking on the sidelines of the launch in the city on Thursday, Jakobs said if you look at healthcare, our customers are asking how we can serve more patients.

“So, we are looking at how technology can help them process more patients,” he said, explaining the significant role that AI plays in innovation.

The company has over 9,000 employees in India, and of these 5,000 employees in Bengaluru will be working on innovative health technologies. The company employs over 70,700 employees globally.

It also has a Healthcare Innovation Centre in Pune, Global Business Services in Chennai, and commercial teams in Gurugram.

For the Netherlands-headquartered Philips, India plays a significant role and it is a major hub for innovation.

“Philips has been innovating for more than 130 years and started doing business in India some 92 years ago. In the last 27 years, the Philips Innovation Campus in Bengaluru has grown to represent almost all our business categories and supporting roles,” the CEO said.

 “In India, we not only want to speed up access to care but also locally develop and contribute to solutions for the rest of the world,” he added.

Last year, with an investment of Rs 400 crore under the PLI scheme, the company’s healthcare innovation centre in Chakan, Pune, started manufacturing radio frequency coils for MRI machines. The company also plans expansions in Pune. It spends yearly over $1.7 billion on innovation, of which 50% goes into software development. Philips also sees growth opportunities in the beauty and grooming verticals of its business in India.

The company’s group sales increased 11% to euro 4.5 billion for the third quarter of this year, and it also raised its full-year guidance to 6-7% comparable sales growth and an Adjusted EBITA margin of 10-11%.

source/content: newindianexpress.com (headline edited)

NATIONAL / KARNATAKA: MEDICAL & HEALTH CARE SERVICES: Mangaluru’s ‘First Neuro, Brain & Spine Speciality Hospital’ Conferred with ‘Best Emerging Stroke Unit in India’ Award

First Neuro, Brain & Spine Super Speciality Hospital, Mangaluru is proud to announce that it has been honoured with the prestigious award for Best Emerging Stroke Unit in India. This recognition comes in light of the hospital’s unwavering commitment to excellence in stroke care and its continuous efforts to enhance patient outcomes.

The VOH (Voice of Healthcare) in association with ISA (Indian Stroke Association) recognized First Neuro, Brain & Spine Super Speciality Hospital for its outstanding contributions to stroke care, particularly in the areas of rapid response, advanced treatments and patient-focused care and presented The Best Emerging Stroke Unit award. This acknowledgement reaffirms the hospital’s dedication to providing high-quality stroke care services to the community. Dr Mohammed Shameem K A, consultant neurologist, received the award at the event, which took place on October 27 at the Taj Skyline in Ahmedabad.

“We are deeply honoured to receive the Best Emerging Stroke Unit award,” said Dr Rajesh Shetty, managing director at First Neuro Brain & Spine Super Speciality Hospital. “This recognition is a testament to the hard work and dedication of our entire team who strive relentlessly to deliver exceptional care to our stroke patients. We remain committed to advancing our stroke care services and ensuring the best possible outcomes for our patients.”

Stroke is a leading cause of disability and death worldwide. First Neuro Brain & Spine Super Speciality Hospital is committed to raising awareness about stroke prevention, symptoms, and treatments. The hospital’s multidisciplinary team of experts, employ the latest technologies and evidence-based practices to provide comprehensive stroke care to patients, including emergency interventions, rehabilitation, and ongoing support for stroke survivors and their families.
This award serves as a validation of First Neuro Brain & Spine Super Speciality Hospital’s efforts to continuously improve its stroke care services. The hospital remains dedicated to investing in training, research, and state-of-the-art facilities to ensure that patients receive the best possible care when it matters the most.

First Neuro Brain and Spine Super-Specialty Hospital in Mangaluru is indeed a significant development in the healthcare sector for the coastal city. Neurological issues related to the brain and spine are complex and often require specialized expertise and state-of-the-art facilities for diagnosis and treatment.

Here are some potential benefits and highlights of having such a dedicated neuro hospital in the region:

Specialized Care: With a team of highly professional and specialized doctors and healthcare staff, the hospital can provide focused care for patients dealing with neurological disorders. This includes conditions such as brain tumors, spinal injuries, epilepsy, stroke, and more.
Advanced Technology: Specialized neuro hospitals typically invest in advanced medical equipment and technology to ensure accurate diagnosis and treatment. This ensures that patients have access to cutting-edge medical care.
Comprehensive Services: Neuro hospitals often offer a wide range of services, including neurosurgery, neurology, neuro-rehabilitation, and pain management. This comprehensive approach to neurological healthcare can greatly benefit patients in need.
Improving Healthcare Standards: The presence of a specialized neuro hospital can also lead to an overall improvement in healthcare standards in the region. It may encourage other medical facilities to enhance their services and competencies.
Patient Convenience: Having a dedicated neuro hospital means that patients can access specialized care in a single location, which can make the healthcare journey more convenient and less stressful.

In summary, the introduction of First Neuro Brain and Spine Super-Specialty Hospital in Mangaluru is a significant development that can enhance the region’s healthcare services, particularly in the field of neurosciences. It represents a commitment to improving patient care, advancing medical knowledge, and offering specialized treatments for neurological conditions, ultimately benefiting the local community.

For more information about First Neuro Brain & Spine Super Speciality Hospital and its stroke care services, please visit www.firstneuro.in

Email: info@firstneuro.in
Ph: 0824 2276633/0824 4293333, Mob: 9343442488

source/content: daijiworld.com (headline edited)

NATIONAL / KARNATAKA: BIOLOGICAL SCIENCE: How a Space for Biological Sciences shaped up in Bengaluru

An event at National Centre for Biological Sciences traced the premier institute’s genesis and growth over the last two and a half decades.

U.B. Poornima, the first resident architect of the National Centre for Biological Sciences (NCBS), remembers what the campus was like in 1994 when she first landed there.

“The compound wall construction was already done, and a sump was being laid,” she recalls. But the land, back then, was barren, a far cry from today’s bustling, verdant campus. “Only snakes were seen crawling around,” she says at “Building (for) Biology: The NCBS Campus”, an event that consisted of a historical campus walk, followed by a talk that delved into the genesis of the institute and its campus.

Nostalgia and memory, often tinctured with humour, repeatedly made their way into this event, part of a public lecture series regularly held by the Archives at NCBS that sought to “understand the environment built for doing science, how space shapes the culture of science, and how science, too, is shaped by the space it inhabits,” as the event’s invitation put it, adding that the campus walkthrough is an experiment in seeing the space as a historical site.

Insights and changes

Peppered with insights from these campus members and enlivened by questions from curious audience members, the walk ended up becoming a freewheeling discussion on various aspects of the campus, ranging from the rationale behind the lovely view of the lawns at the Simons Centre for the Study of Living Machines to how the pond on campus became one, about the first set of buildings designed by the Delhi-based architect Raj Rewal and the curious case of how the Godrej locks in campus housing could once be opened with a single key (a mistake that was rectified).

“A lot of changes have happened since we moved into the campus … people grew, space grew, a lot more occupants in the building,” says Poornima, while T.M. Sahadevan, who served as the first administrative officer at NCBS, lingers on the somewhat serendipitous origins of the campus.

“There were a lot of problems,” he says, recalling how when the Tata Institute of Fundamental Research (TIFR) first approached the government of Karnataka, wanting to set up NCBS in Bengaluru, they were told that no more expansion in Bengaluru was possible since Hosur was already putting a load on Bangalore back then.

“Then someone suggested that we ask GKVK,” he says, adding that this came through. “We got 20 acres of land and took over in February,” remembers Sahadevan, the first TIFR person to set foot on campus back in 1991.

Admittedly, the event was somewhat unstructured, unearthing the memories and lived experiences of some of its past and present campus members rather than a linear building biography. Still, it succeeded in leaving attendees more enlightened (and often amused) by the end.

A 25-year-old history

According to the NCBS website, the Tata Institute of Fundamental Research (TIFR) has been directly or indirectly responsible for forming at least six research institutions in the country, of which NCBS is one.

While the initial proposal made in 1982, following a suggestion made by Prof. S. Ramaseshan, the then Director of the Indian Institute of Science, was to have a joint TIFR-IISc Centre on the IISc campus, this did not reach fruition. Then, in 1984, the Planning Commission agreed to fund a centre for fundamental research in biological sciences at Bangalore, functioning as “an autonomous unit under the aegis of TIFR and conduct fundamental research and teaching in areas of biology at the frontiers of knowledge,” as the website notes. The next few years were spent scouting for an appropriate place to set up, culminating in this 20-odd-acre campus leased from the University of Agricultural Sciences, with an MOU signed in 1991.

While NCBS technically celebrated its 25th anniversary in October 2016 since it spent its first few years at the TIFR Centre at the Indian Institute of Science Campus before moving to its current location, people began trickling in by 1998 or so.

“Depending on who you speak to, people have been living in this space for around 25 years,” says Venkat Srinivasan, who heads the Archives at NCBS, at the talk that followed the campus walk. Though he agrees it is only a rough estimate, he adds, “It is a good moment to reflect on the physical space that you inhabit daily.”

Extraordinarily particular

In this talk, augmented by audio interviews, old photographs, documents and interjections by the faculty members who were also part of the audience, Srinivasan traced the institute’s genesis and growth over the last two and a half decades. From an audio clip of an interview with Obaid Siddiqi, the co-founder and first director of NCBS, that reflects on the idea of NCBS to documents detailing the nitty-gritty aspects of lease and construction and old photographs reflecting the barrenness of the land before the institute came into being, the talk’s biggest takeaway was this. “How extraordinarily particular this group of individuals were at getting what they wanted,” he puts it.

Poornima, who was deeply entrenched in the construction process right from the start, is wont to agree. In most government institutions, she points out, the final users of the buildings, too busy with their research, give the architects instructions in one go, which goes on to be developed by the latter. In this case, however, the users were deeply involved in the process from the start to the finish. “They took away time from research and were involved at every stage,” she remembers. “They knew what they wanted.”

source/content: thehindu.com (headline edited)

KARNATAKA: POWER & ENERGY / GREEN : How Bengaluru start-ups Biome, Boson Whitewater, Tankerwala & Bluecred turn Wastewater into a Resource

Experts and start-ups alike are working on new dynamics of water management and distribution in a mission to save groundwater and leave enough for lakes and water bodies to be recharged .

Welcome to the new sustainable world where one man’s waste is another’s resource. And welcome to Bengaluru where all kinds of experiments in urban water are taking place. Focus first on S Vishwanath of Biome, the man who followed rules, collected rainwater and rooftop runoffs, stored it in tanks and reused it. Then the grey water was recycled and used for horticulture and growing vegetables on rooftops. Then he met with a number of residents’ bodies and the Bruhat Bengaluru Mahanagara Palike (BBMP) to foster partnerships which would revive not just lakes but wells and any aquifers which would save the water in the city. Today he teaches a water management course at Shiv Nadar University and is also a consultant to the BBMP.

Sewage treatment plants (STPs) are mandatory in the city for multi-storey apartment living. Today many are able to release their treated water into bio-remediation segments of the lakes where water islands and select plants clean the quality of water such that it can be released into the lake. Periodic checks are done to ensure that water quality in the lakes is of the required standards. As a result, about 100 of the 210-odd surviving lakes are in a state of reasonably good health, says Vishwanath.

Income from Wastewater

But managing lakes is a resource-intensive job and it needs more money. Here arrived the entrepreneurs who created start-ups which would address various parts of the water chain. Consider for instance Vikas Brahmavar of Boson Whitewater who works with RWAs of housing societies helping manage the excess water that comes out of the treatment. Brahmavar treats it to the right quality and sells it to bulk users such as developers and other bulk users in Bengaluru who need large quantities of clean water for construction .

Now take the case of Shravanth Donthi, co-founder and CEO of Tankerwala. Former owner of an airline in South Africa, he sold his stock and came to India to work in the water and sustainability space. When his wife and he saw tankers delivering water every other day, they built tankerwala, an app to aggregate all the water tankers on an app, during COVID. Borewells were tested and reports of the water being supplied by the tankers were issued. When real estate companies started buying 2-3 lakh litres of water a day, a quest for other sources of water started, so that groundwater could be protected. STPs in the city were generating water. Tankerwala started picking up this water and delivering it to construction companies and metro sites at Shivaji Nagar and Cantonment to contractor Afcons. They used this water for tunnel boring. For every metre, it uses 70,000-1 lakh litres of water, and for the metro network, they needed to dig tunnels of 40-50 km in the city. The first mission of using treated water was met.

For concrete applications, the water was cleaned up and met IS 456-2000 standards. Tankerwala identified the STP, deployed vehicles and supplied water. Monthly testing became the norm for RCC projects. This accounted for 3-5 lakh litres from 6-7 STPs. The challenge now was that the STP network of the city was not mapped, and water had to be supplied in a 5 km radius to remain carbon neutral on different sites.

This led to a new app called Bluecred which allowed suppliers and users to register and sell or seek water. The system matches the STP, buys water from the generators and provides the residents with enough money to manage the STP. They use 30 per cent of the water for flushing and horticulture. This dynamic grid has been very successful in those pockets where there are occupied projects and a lot of new construction taking place.

Water for the Lakes

But Dhonti and Brahmavar’s solutions became Vishwanath’s problem. Will lakes get enough water if commercial users corner the cleaned water? There was even a power plant that helped water management if a certain quantity went to them. Now an arrangement has been made to ensure the lake gets its supply and the rest is sold to the power plant.

Ultimately, the network will only grow if the sewage is treated as a resource and noat as waste. For the RWAs, it is important to find the right start-ups that would pay them the operating cost to source the excess water. For start-ups, there needs to be a documented network of STPs that they can source water from. City managers simply need to map the STPs. For the suppliers, the water volumes have to be planned area-wise so that demand can be matched to local supply to reduce carbon footprint. The lake warriors need their regular supplies to keep the lakes up and running with vibrant fish and bird populations.

Ultimately, as Vishwanath says, the plethora of organisations need to synchronise to achieve the final goal — to unlock the value of wastewater and purify it to the requirements of different user groups. As lakes recharge the water aquifers, the depletion of underground water can also be contained. This can only be a win-win situation.

source/content: moneycontrol.com (headline edited)

KARNATAKA: EDUCATION / CYBER SECURITY: National Cybersecurity Centre of Excellence set up at SJB Institute of Technology (SJBIT) in Bengaluru

Dr K V Mahendra Prashanth, Principal of SJBIT, said that the partnership with NICC will prepare students in the digital age.

Aimed at reaching a significant milestone in the field of cybersecurity education and research in India, the National Information and Cybersecurity Council (NICC) announced the establishment of the National Cybersecurity Centre of Excellence at SJB Institute of Technology (Autonomous) (SJBIT).  

Stating that the centre, which is said to be the first-of-its-kind in Karnataka, will play a pivotal role in fighting cyber threats and improving the nation’s cybersecurity capabilities, Dr Prakashnath Swamiji, Managing Director, BGS and SJB Group of Institutions, said, “The centre will provide advanced cybersecurity training to students, professionals and different organisations. It will provide cutting-edge research which will strengthen national cybersecurity.”

He said that the centre will also have partnerships with various industries and have a community outreach to raise awareness about cybersecurity and also help students in job placement.

Dr K V Mahendra Prashanth, Principal of SJBIT, said that the partnership with NICC will prepare students in the digital age.

The programmes under this initiative will benefit students from various educational institutions from Karnataka and other states. “This partnership with SJBIT reflects our collective dedication to nurturing cybersecurity expertise and enhancing the nation’s cybersecurity posture,” said P Arjun, head of research and operations at NICC. 

source/content: newindianexpress.com (headline edited)

KARNATAKA: HEALTH & MEDICAL SERVICES / AMAZING SURGERIES :Bhagwan Mahaveer Jain Hospital Celebrates 750 Successful Scoliosis Surgeries on World Spine Day

Bhagwan Mahaveer Jain Hospital recently held a special event on World Spine Day to celebrate the achievements of the doctors in their Department of Spine and Joint Surgery. The event marked the completion of 750 successful scoliosis surgeries by the hospital.

The purpose of the event was to not only acknowledge the patients and their families, but also to recognize the medical professionals who have contributed to the success. It served as an opportunity to raise awareness about scoliosis and highlight the importance of early diagnosis and timely intervention. The hospital emphasized the fact that with the right treatment, scoliosis patients can overcome the limitations imposed by the condition.

The Chief Guest at the event, Minister for Health and Family Welfare Dinesh Gundu Rao, praised the hospital for their dedication to excellence in spinal surgeries. He stated that each successful surgery represents a life transformed from suffering to a life free from the limitations of scoliosis.

Scoliosis is a medical condition characterized by an abnormal curvature of the spine. It can cause physical deformity, pain, and discomfort. Early diagnosis and timely intervention are crucial in managing the condition effectively. The Department of Spine and Joint Surgery at Bhagwan Mahaveer Jain Hospital has been at the forefront of providing high-quality care to scoliosis patients.

The celebration of 750 successful scoliosis surgeries is a testament to the hospital’s commitment to improving the lives of individuals living with this condition. Through their expertise and dedication, the medical professionals at Bhagwan Mahaveer Jain Hospital have made a significant impact in the field of spine and joint surgeries.

Sources:
– Bhagwan Mahaveer Jain Hospital
– Minister for Health and Family Welfare Dinesh Gundu Rao

source/content: expresshealthcaremgmt.com (headline edited)

INTERNATIONAL / NATIONAL / KARNATAKA: TECHNOLOGY TRANSFER OF MEDICAL RESEARCH: Sepsis Treatment SUR-101 Developed by Researchers in Bengaluru and Bhubaneswar licensed to Dutch Biotech firm SurvivX

The development of the treatment was announced by C-CAMP director Dr Taslimarif Saiyed at an event with Netherlands PM Mark Rutte last month.

A novel sepsis treatment, called SUR-101, developed collaboratively by the Centre for Cellular and Molecular Platforms (C-CAMP), Bengaluru, and the Institute of Life Sciences, Bhubaneswar, was licensed to Dutch biotech firm SurvivX in the presence of Netherlands Prime Minister Mark Rutte on Thursday.

The development of the technology, presently at the preclinical stage, was announced by Dr Taslimarif Saiyed, director-CEO of C-CAMP, at an event with Rutte on the latter’s visit to Bengaluru on the sidelines of the G20 summit last month.

Sepsis is a life-threatening medical emergency. It happens when an infection that a patient already has triggers a chain reaction throughout the body. According to C-CAMP, existing interventions for sepsis are found to be effective only at the very early onset of sepsis. By modulating the immune response, the current technology allows a longer time window for administering targeted interventions for sepsis.

“Sepsis is a worldwide challenge, with approximately 50 million cases and 11 million sepsis-related deaths worldwide, accounting for 20 per cent of all global deaths. The new compound, called SUR-101, is an immune-stimulating therapeutic in sepsis patients with signs of immune suppression. It could be the first step towards personalization and precision in sepsis medicine that has thus far been treated as a drug discovery problem. The technology presently at the preclinical stage is a discovery by a team of scientists led by Prof Ravindran Balachandran from ILS. It has been translated and co-developed by the translational research group of Dr Saiyed at C-CAMP,” said a media release from the Bengaluru centre, which is an initiative of the Department of Biotechnology, Ministry of Science, Technology and Earth Sciences.

Speaking on the licensing effort, the Dutch ambassador to India, Marisa Gerards, said, “Life sciences & health remains a priority sector for the bilateral cooperation between the Netherlands and India. We have successfully been working in this field for many years, and this new partnership is a great example of what India and the Netherlands can do together. Sepsis is an important global societal challenge, and it is in need of innovative solutions.”

“This is one of the first global technology transfers by C-CAMP of an academic invention developed exclusively in India. We are excited about the partnership with SurvivX, a biotech company in the Netherlands, in the antimicrobial resistance domain. This agreement will be a model in innovation-focused bilateral partnerships that addresses global issues together,” Dr Saiyed said.

SurvivX CEO Remko van Leeuwen said, “Our technology is based on a specific protein excreted by a tropical parasite: the filarial roundworm. The team in India made the remarkable observation that people infected by this parasite typically do not end up at an ICU unit when they develop sepsis. They started studies to find the cause of this protective effect that an infection with this worm seems to have.”

According to Leeuwen, the researchers discovered that a specific protein secreted by the worm was responsible for the effect. “We have already shown that the protein leads to a much better survival of mice with sepsis, confirming the protective effect seen in filaria patients. But mice are not human, Thus, SurvivX needs to show the safety and activity of the protein in humans before it can be tested as a novel therapeutic approach,” he added.

source/content: indianexpress.com (headline edited)

KARNATAKA : SCIENCE & TECHNOLOGH: C-CAMP announces Centre of Excellence in Antimicrobial Resistance Innovation with SBI Foundation

According to C-CAMP, AMR has been identified by World Health Organisation (WHO) as one of the top ten global health threats claiming 7,00,000 lives per year globally with a projected fatality rate of 10 million per year by 2050.

The Centre for Cellular and Molecular Platforms (C-CAMP), a biotech research and innovation hub in Bengaluru, Friday announced the establishment of a Centre of Excellence (CoE) in Antimicrobial Resistance (AMR) innovations with SBI Foundation, a CSR subsidiary of the State of India.

This project is aimed at addressing global health threats by providing a structured platform for support systems that include funding and frameworks to advance the development, translation and scale-up of indigenous deep science entrepreneurships in the AMR domain.

According to C-CAMP, AMR has been identified by World Health Organisation (WHO) as one of the top ten global health threats claiming 7,00,000 lives per year globally with a projected fatality rate of 10 million per year by 2050.

“While India is one of the leading nations from the Global South in research towards AMR mitigation, deep science entrepreneurial efforts to deliver these emerging solutions from bench to bedside have shown a serious lacuna. This unaddressed gap is now the focus of a new partnership between C-CAMP and SBI Foundation. The project will establish a CoE in AMR innovation by providing a structured platform for support systems and frameworks to advance the development, translation and scale-up of indigenous deep science entrepreneurships in the AMR domain,” C-CAMP said in a release.

Prof Ajay Sood, Principal Scientific Adviser to the Government of India, said, “The AMR poses a grave challenge to public health systems across the world and is a WHO priority. Paradoxically, AMR is one of the least funded domains in biotechnology due to its skewed market economics. Funding and handholding support for this deep science sector by the C-CAMP-SBIF CoE will be a tremendous boost for AMR innovation development.”

C-CAMP Director-CEO Dr Taslimarif Saiyed said, “We are excited to ring in our latest partnership with SBI Foundation. This is a crucial PPP collaboration through which we will address AMR by supporting ventures that develop and commercialise scientific breakthroughs and innovations for on-field impact. As the latest ICMR study on AMR showed, last-resort antibiotics like carbapenems are beginning to fail in hospital-acquired infections in ICUs with signs of locally resistant strains emerging. This implies a dire need for indigenous solutions tailored for Indian conditions which this CoE will help identify and support.”

Sanjay Prakash, Managing Director, SBI Foundation, said he is confident that the CoE for AMR Innovation will be the cornerstone in identifying, funding and nurturing startups leading the AMR Innovations.

The CoE will be under the aegis of the global India AMR Innovation hub (IAIH) also anchored by C-CAMP and chaired by the Office of the Principal Scientific Adviser. The focus of the CoE will be on identifying and supporting through funding and other means, a 360 degree portfolio of cutting-edge deep-science solutions, across AMR and the larger One Health domain spanning Food and Agriculture, Environment and Healthcare.

The CoE plans to kick off its operations by identifying and nurturing up to 12 innovations in the next two years.

source/content: indianexpress.com (headline edited)

INTERNATIONAL, NATIONAL & KARANATAKA / HEALTH & MEDICAL SERVICES : Bengaluru-based Dr Sandeep Nayak among 3 Winners of top ‘KS International Robotic Surgery Innovation Competition’ by Michigan based Foundation

Bengaluru-based robotic surgeon Dr Sandeep Nayak has been named among the three surgeons from the US and India who won top honours at the ‘KS International Robotic Surgery Innovation competition’ by Michigan-based Robotic Surgery evangelist Vattikuti Foundation.

The video entry by eminent robotic surgeon from MACS Clinic and Fortis Cancer Institute, Bengaluru was placed at the third spot for devising a novel approach for removal of thyroid tumours using minimally invasive robotic surgery.

Dr Nayak presented results of over 50 surgeries conducted over five years using this method with better patient outcomes and negligible scarring.

Robotic surgeons Dr Somashekhar SP, Aster Hospitals, Bengaluru, and Dr Aditya Kulkarni, Ruby Hall Clinic, Pune were among the top 10 vying for KS international robotic surgery award, the foundation said in a statement during the awards ceremony at Orsi Academy, Ghent, Belgium over the weekend.

“By focusing on robotic technology and surgeon education, the Vattikuti Foundation has proven the transformative power of innovative technology in revitalizing patients’ health at the hands of inventive humans,” said Raj Vattikuti, Founder, the Vattikuti Foundation.

Dr David Neal, Professor Emeritus, University of Cambridge and Oxford, Cambridge, UK; Dr Rajeev Kumar, Professor of Urology and Associate Dean (Academics), AIIMS, New Delhi; and Dr Sherry M Wren, Professor of Surgery, Stanford University, US were in the final jury that chose the top 3 from among the 141 submissions.

The video entry of Dr Adeel Khan, Washington University School of Medicine, St. Louis, demonstrating the first Robotic Liver Transplant (RLT) in the US using a deceased donor in the world was judged No 1.

The video entry of Dr Ahmed Ghazi, director of minimal invasive and robotic surgery and director of simulation training at Johns Hopkins University, US was adjudged No 2 for devising a novel patient specific simulation platform before complex robotic renal cancer surgeries.

Video submission on robot-assisted total knee transplant by Orthopaedic Surgeon Dr Suhas Masilamani, Sunshine Bone & Joint Institute and KIMS-Sunshine Hospital, Hyderabad won the people’s choice award based on rankings by surgeons from 63 countries.

Entries from procedures in 10 specialties, including urology, gynaecology, gastro-intestinal, organ transplant and head and neck, from 14 countries were received in the global competition.

source/content: daijiworld.com (headline edited)

KARNATAKA: SCIENCE & TECHNOLOGY: RESEARCH / NANOENZYMES: Scientists of Indian Institute of Science (IISc) Develop Enzyme Mimetic with potential applications in Wastewater Treatment, Healthcare

The nanozyme can degrade pollutants in wastewater by oxidising them in the presence of sunlight, thereby reducing the toxicity of wastewater.

Scientists at the Materials Research Centre (MRC), Indian Institute of Science (IISc), have developed a new type of enzyme mimetic that can degrade toxic chemicals in industrial wastewater effectively in the presence of sunlight. 

Enzymes are proteins that catalyse a majority of biological reactions in living systems. However, the practical use of natural enzymes is hindered by inherent limitations such as sensitivity to denaturation (breakdown/damage), complex production procedures, high costs, and difficulties in recycling, says Subinoy Rana, Assistant Professor at MRC and corresponding author of the paper published in Nanoscale

Mass producing these enzymes is an expensive and time-consuming process. Another problem is storage – most of the natural enzymes are temperature-sensitive and require storage at cooler temperatures, often as low as -20°C. 

Nano-sized enzyme mimetics or “nanozymes” manufactured in the lab can mimic such natural enzymes and overcome these practical challenges.  

In the current study, the IISc team synthesised a platinum-containing nanozyme called NanoPtA, which can be converted into powder form for industrial use. 

When the NanoPtA comes in contact with wastewater, the benzene rings and long alkyl chains present in the molecule form multiple non-covalent interactions. Individual NanoPtA molecules connect together to form tape-like structures that start emitting light, which is the origin of its oxidising capacity. The nanozyme can then degrade pollutants present in wastewater by oxidising them in the presence of sunlight, thereby reducing the toxicity of wastewater. 

The team found that the nanozyme could degrade even small (micromolar) quantities of common effluents like phenols and dyes within ten minutes when placed under sunlight. The researchers also found that the NanoPtA complex was quite stable, lasting for up to 75 days at room temperature.  

The team believes that the nanozyme can also have applications in healthcare and could be a potentially useful diagnostic tool for neurological and neurodegenerative diseases. 

source/content: thehindu.com (headline edited)