August 28, 2020

CSIR-CMERI has developed the World's Largest Solar Tree, which is installed at CSIR-CMERI Residential Colony, Durgapur. Prof.(Dr.) Harish Hirani, Director, CSIR-CMERI, while elaborating about the technology stated that, "The installed capacity of the Solar Tree is above 11.5 kWp. It has the annual capacity to generate 12,000-14,000 units of Clean and Green Power".

The Solar Tree has been designed in a manner to ensure maximum exposure of each Solar PV Panel to Sunlight and also creation of the least amount of shadow area beneath. There are a total of 35 Solar PV Panels in each tree with a capacity of 330 wp each. The inclination of the arms holding the Solar PV Panels are flexible and can be adjusted as per requirement, this feature is not available in Roof-Mounted Solar facilities. The energy generation data can be monitored either real-time or on daily basis.

Prof.(Dr.) Harish Hirani explained, "The CSIR-CMERI developed Solar Tree besides being the World's Largest Solar Tree also has certain customizable features for application at diverse sites. The Solar Trees were designed in a manner to ensure minimum Shadow Area, thus potentially making these Solar Trees available for widespread usage in Agricultural activities such as High Capacity Pumps, e-Tractors and e-Power Tillers.

These Solar Trees can be aligned with Agriculture for substituting price-volatile fossil fuels. Each Solar Tree has the potential to save 10-12 tons of CO2 emissions being released into the atmosphere as Greenhouse Gases when compared with fossil fuel fired energy generation.Besides, the surplus generated power can be fed into an Energy Grid.

This Agricultural Model can provide a consistent economic return and help the farmers counter the effects of the uncertain variations in Agriculture related activities, thus, making farming an Economic and Energy Sustainable practice."

Each Solar Tree will cost Rs 7.5 lakhs and the interested MSMEs can align their Business Model with the Pradhan Mantri Kisan Urja Suraksha evem Utthan Mahabhiyan (PM KUSUM) Scheme for farmers, for developing a Renewable Energy based Energy Grid.

The solar tree has the capability to incorporate IOT based features, i.e. round-the-clock CCTV surveillance in agricultural fields, real-time humidity, wind speed, rainfall prediction and soil analytics sensors. The CSIR-CMERI developed solar powered e-Suvidha Kiosks may also be connected to the Solar Trees for real-time access to the vast majority of agricultural database as well as to the eNAM i.e. National Agricultural MarketPlace for instant and real-time access to an unified online market.This Solar Tree is a Quantum Leap towards making an Energy Reliant and Carbon Negative India.

August 1, 2020 (N. Delhi)

Dr. Harsh Vardhan, Minister for Science & Technology, Health & Family Welfare and Earth Sciences announced the successful completion of PAN-India 1000 Genome sequencing of SARS-CoV-2 here today. He took a meeting with Department of Biotechnology (DBT) and reviewed the COVID-19 activities of DBT, Biotechnology Industry Research Assistance Council (BIRAC) and DBT-Autonomous Institutions (AIs).

During the meeting, Dr. Harsh Vardhan also launched and dedicated to the nation the largest network of five dedicated COVID-19 Biorepositories established by Department of Biotechnology in record time. These are at Translational Health Science and Technology Institute (THSTI) Faridabad, Institute of Life Science (ILS) Bhubaneshwar, Institute of Liver and Biliary Sciences (ILBS) New Delhi, National Centre for Cell Science (NCCS) Pune and Institute for Stem Cell Science and Regenerative Medicine (InStem) Bangalore. He complemented the efforts of DBT in "the relentless war for mitigation of this Pandemic".

Dr Harsh Vardhan said, "Given the importance of this information for public health response initiatives requiring investigation into the transmission of COVID-19, the sequence data will soon be released in Global Initiative on Sharing All Influenza Data (GISAID) for use by researchers across the Globe". "The information in the database will improve our understanding on how the virus is spreading, ultimately helping to interrupt the transmission chains, prevent new cases of infection, and provide impetus to research on intervention measures", he added. The Minister also pointed out, "The data analysis, which is ongoing, may bring out some interesting conclusions to help in our fight against COVID-19."

Dr. Harsh Vardhan also highlighted that "16 Vaccine Candidates are in different stages of development. The BCG Vaccine is undergoing phase 3 trial, Zydus Cadila DNA Vaccine is in phase I / II trial and 4 Vaccine candidates are in advanced stages of pre-clinical study". "5 Good clinical laboratory practice (GCLP) clinical trial sites have been developed and 6 animal models for Vaccine Development Studies are also ready", he said.

The Department of Biotechnology had launched a Pan India 1000 SARS-CoV-2 RNA Genome Sequencing programme in May this year to be done by Autonomous Institutes of DBT, collaborating with national laboratories and clinical organizations.

The consortium coordinated by National Institute of Biomedical Genomics (NIBMG-Kalyani), West Bengal and Five other National clusters, ILS-Bhubaneswar, Centre for DNA Fingerprinting and Diagnostics (CDFD)-Hyderabad, InStem- National Centre for Biological Sciences (NCBS)-IISc-Bangalore, and NCCS-Pune are actively participating in sequencing and analysis. Collaborating National Institutes and clinical organizations involved are ICMR - National Institute of Cholera and Enteric Diseases, Institute of Post-Graduate Medical Education and Research (IPGMER)-Kolkata, IISc-Bangalore, AIIMS- Rishikesh (Uttarakhand), Maulana Azad Medical College (MAMC)-Delhi, THSTI-Faridabad, Grant Medical College (GMC)-Aurangabad, Mahatma Gandhi Institute of Medical Sciences (MGIMS)-Wardha, Armed Forces Medical College (AFMC) and Byramjee Jeejeebhoy Government Medical College (BJMC)-Pune, and other hospitals.

The Consortium has achieved its initial goal of completing the sequencing of 1000 SARS-CoV-2 genomes from nasopharyngeal and oropharyngeal swabs collected from individuals testing positive for COVID19 by Real Time PCR. The samples were collected across 10 states covering different zones within India.

DBT is supporting COVID-19 Bio Repositories through a well strategized plan so that novel technological interventions can be developed in due course of time. The main purpose of these biorepositories are archival of inactivated virus and clinical samples, including naso-oropharyngeal swabs, stool, urine, saliva, serum, plasma, PBMC and Serum.

These designated bio repositories will use the clinical samples for R&D purpose and are authorized to share the samples with academia, industry and commercial entities involved in development of diagnostics, therapeutics, vaccines etc., after scrutinising the purpose of the request and ensuring benefit to the country. Standard Operating Procedures (SoPs) for sample collection, transportation, aliquoting, storage and sharing have been developed. As on date, 44452 clinical samples have been collected and stored in these five centres. More than 5,000 samples have been shared.

During the meeting which was attended by Dr Renu Swarup Secretary DBT, and joined through video-links by Senior officers of DBT and its Autonomous Institutes and Public Sectors BIRAC and BIBCOL,the Minister was presented an update on the DBT?BIRAC COVID 19 Research Consortia under which more than 150 Research Groups have been supported involving nearly 80 Industry /Academia collaborations, 40 Academic Research Institutes and more than 25 Startup Research Groups.

The consortium has successfully developed 100 percent self-reliance for producing more than 5 lakh RTPCR diagnostic kits per day. 4 technologies of DBT AI's have been transferred to the Industry for commercial manufacturing of diagnostic kits. DBT AI's are also providing services for Diagnostic Testing, Kit Validation and Antiviral testing.

July 2, 2020 (N. Delhi)

Government launches Drug Discovery Hackathon 2020 (DDH2020), a first of its kind National Initiative for supporting drug discovery process

The Union Government launched Drug Discovery Hackathon here today in the presence of Union Minister for Science and Technology Dr. Harsh Vardhanand Union Minister for Human Resource Development Shri Ramesh Pokhriyal 'Nishank'. This Drug Discovery Hackathon is a joint initiative of MHRD's Innovation Cell (MIC), All India Council for Technical Education (AICTE) and Council of Scientific and Industrial Research (CSIR) and supported by Centre for Development of Advanced Computing (CDAC), MyGov as well as private players.

Minister of State for HRD Shri Sanjay Dhotre, Principal Scientific Advisor Prof. VijayRaghavan, DG CSIR, Dr.ShekharMande, Chairman AICTE, Prof. Anil Sahasrabudhe, President, Pharmacy Council of India (PCI) Prof. B Suresh and Chief Innovation Officer, MHRD, Dr. Abhay Jere were also present during the online launch program. This Hackathon is first of its kind National initiative for supporting drug discovery process and will see participation from professionals, faculty, researchers and students from varied fields like Computer Science, Chemistry, Pharmacy, Medical Sciences, Basic Sciences and Biotechnology.

Dr. Harsh Vardhan, Minister for S&T said, "We need to establish the culture of Computational Drug Discovery in our country. In this initiative, MHRD's Innovation cell and AICTE will focus on identifying potential drug molecules through the Hackathon while CSIR will take these identified molecules forward for synthesis and laboratory testing for efficacy, toxicity, sensitivity and specificity." Pointing out that drug discovery is a complex, expensive, arduous and time-consuming process, Dr. Harsh Vardhan said, "While we pursue clinical trials of few repurposed drugs for COVID-19, as they are faster and can quickly be launched, it is also important that we find other suitable repurposed drugs while at the same time continue working on new drug discovery to develop specific drugs against COVID-19". He added, "in-silico drug discovery which utilizes Computational methods such as Machine Learning (ML), AI and Big Data will help in accelerating this process".

Shri Ramesh Pokhriyal 'Nishank', HRD Minister said, "MHRD and AICTE have huge experience in organizing Hackathons but for the first time, we are using hackathon model for tackling a great scientific challenge. More importantly, this initiative is open for researchers/faculty across the globe as we are keen on attracting international talent to join and support our efforts."

Minister of State for HRD Shri Sanjay Dhotre also appreciated the concept and said, "Our government has kick-started Hackathon culture in this country which is very critical for challenging our youngsters to solve some of the daunting problems faced by our nation."

Prof K. Vijay Raghavan, PSA, Govt. of India said, "I wish to thank MHRD, AICTE and CSIR and all our partners for supporting this Hackathon which will help India establish new model for expediting drug discovery process. The Hackathon consists of challenges that are posted as problem statements and, are based on specific drug discovery topics which, are open to the participants to solve. It will have three phases of three months each and the whole exercise is to be completed by April-May 2021. At the end of each phase, successful teams will be rewarded. The 'lead' compounds identified at the end of phase 3 will be taken forward for experimental level at CSIR and other interested organizations.

During the launch function, Dr.Abhay Jere, Chief Innovation Officer explained the concept of Drug Discovery Hackathon, while Prof. Anil Sahasrabudhe extended all the support from AICTE and appealed all technical institutions to participate in this initiative in big numbers. Dr.Shekhar Mande extended all the required commitment from CSIR's side for this initiative. He also expressed satisfaction on the quality and variety of problem statements released today.

Background Information and Methodology of Hackathon

• The Hackathon consists of challenges that are posted as problem statements and, are based on specific drug discovery topics which, are open to the participants to solve. A total of 29 Problem Statements (PS) have been identified.
• MyGov portal is being used and any Indian student can participate.
• Professionals and researchers from anywhere in the world can participate.
• TheHackathon will have three Tracks.Track 1 will primarily deal with drug design for anti-COVID-19 hit/lead generation: this is done using tools such as molecular modelling, pharmacophore optimization, molecular docking, hit/lead optimization, etc.
• Track 2 will deal with designing/optimizing new tools and algorithms which will have an immense impact on expediting the process of in silico drug discovery.
• There is also a third track called "Moon shot" which allows for working on problems which are 'out of the box' nature.

June 18, 2020 (N. delhi)

Expressing his happiness to launch the I-Lab, infectious disease diagnostic laboratory-a mobile testing facility, Dr. Harsh Vardhan dedicated this facility to provide Covid testing access to rural India. This mobile testing facility will be deployed through the DBT testing hubs to remote regions of the country for Covid testing. He congratulated and appreciated the efforts of the DBT in tackling the Covid pandemic, and added that DBT coordinated in scaling-up testing for Covid by reorienting premiere laboratories as Covid testing centers in a hub and spoke model. There are now over 20 hubs in the country with 100 testing laboratories and these have tested more than 2,60,000 samples.

Dr. Harsh Vardhan said, "This has been possible through the DBT-AMTZ COVID Command Consortia (COVID Medtech Manufacturing Development] Consortia)" to cope-up with the current situation in the country and move progressively towards a stage of self-sufficiency. The I-lab will be deployed through these hubs into remote and interior places". The Minister appreciated the "Andhra med-tech zone team for building this unique, innovative facility for the country at the period of lock-down through tireless, dedicated and committed efforts". He informed that AMTZ through the support of DBT has also established manufacturing facility for indigenous manufacturing of kits and reagents for various testing kits which were initially imported thereby helping us realise the vision of Pradhan mantriji on- Make-in India, Make for India". He pointed out that today there are 953 testing laboratories in all corners of the country and elaborated on "Various steps taken by the ministry and departments towards achieving research components indigenization and their in-house manufacturing." Dr. Harsh Vardhan emphasised that "In the near future with all these collective and cooperative efforts, India will achieve self-sufficiency in healthcare technologies leading towards Atma Nirbhar Bharat."

Dr. Renu Swarup said on the occasion that through the concerted efforts Indian scientists, the country has achieved a capacity of producing nearly 5 lakh testing kits per day, exceeding the target of having one lakh test kits by May 31, 2020. She pointed out that this I-Lab has been created in a record time of 8 days by the Andhra Pradesh Med-tech Zone team with the support of DBT under the National Biopharma Mission being implemented by the Public Sector BIRAC. She highlighted that the unit has biosafety facility and is capable of performing RT-PCR as well as ELISA tests.

DBT-AMTZ COMManD

The Department of Biotechnology (DBT), Ministry of Science & Technology along with Andhra Pradesh Med-tech Zone (AMTZ) has initiated the DBT-AMTZ COMManD [COVID Medtech Manufacturing Development] Consortia to address the shortage of critical healthcare technologies in India and move progressively towards a stage of self-sufficiency.

Under this Consortia, India's first I- lab (infectious disease diagnostic lab) has been built at AMTZ in record time of 8 days from the date of receipt of Automotive Chassis, from Bharat Benz. This is a mobile diagnostic unit with biosafety facility. The I- lab is a BSL-2 facility with on-site ELISA, RT-PCR, Bio chemistry analysers. It can run 50 RT-PCR reactions and about 200 ELISA in a day.Double set of Machines can help increase the capacity to about 500 per day in 8 hours shift.It can be deployed in remote areas and can be lifted from Automotive Chassis and can be put on goods train for sending to any location in the country.The BSL-2 Lab is as per NABL specifications and is being attached to DBT's certified Testing centres.

The Department of Biotechnology (DBT), under the Ministry of Science & Technology, promotes and accelerates the development of biotechnology in India, including growth and application of biotechnology in the areas of agriculture, healthcare, animal sciences, environment and industry.

AMTZ is Asia's first medical equipment manufacturing ecosystem, uniquely dedicated for Medtech and supported by various Ministries.

INFECTIOUS DISEASE DIAGNOSTIC LABORATORY (I-LAB)

• To promote last mile access of testing to rural India, DBT under the Covid-Command strategy has supported building of mobile testing labs through AMTZ.

• The unique feature of these mobile testing labs is their utility in diagnosing other infectious diseases beyond the Covid period

Specifications

• Automotive Chassis, Diagnostic Equipment, Clean Room, BSL-2 lab, bio-safety cabinets
• 25 Tests (RT-PCR) per I-Lab per Day
• 300 ELISA tests/day
• Additional test for other diseases for TB, HIV etc. tol be costed as per CGHS rates.

Deployment

• The first I- lab was launched in New Delhi on 18th Jun, 2020 by Dr Harsh Vardhan, Minister for Science & Technology, Earth Sciences and Health & Family Welfare.
• The labs will be provided to the regional/City hubs and they will deploy it further in the interior, inaccessible parts of the region.


Source Link : https://pib.gov.in/
Date : 2020-06-25

June 13, 2020 (N. Delhi)

A CSIR National Healthcare Supply Chain Portal that aims to provide real-time availability of critical healthcare supplies https://www.aarogyapath.in has been launched on June 12,2020. AarogyaPath would serve manufacturers, suppliers and customers. During the present national health emergency arising out of the COVID-19 pandemic, where in there is severe disruption in supply chain,the ability to produce and deliver the critical items may be compromised due to a variety of reasons. The information platform named AarogyaPath with a vision of "providing a path which leads one on a journey towards Aarogya (healthy life)" was developed to address these challenges.

This integrated public platform that provides single-point availability of key healthcare goodscan be helpful to customers in tackling a number of routinely experienced issues. These issues include dependence on limited suppliers, time-consuming processes to identify good quality products, limited access to suppliers who can supply standardized products at reasonable prices within desired timelines, lack of awareness about the latest product launches, etc.

It also helps manufacturers and suppliers to reach a wide network of customers efficiently, overcoming gaps in connectivity between them and potential demand centers like nearby pathological laboratories, medical stores, hospitals, etc. It will also create opportunities for business expansion due to an expanded slate of buyers and visibility of new requirements for products. Over time, analytics from this platform is expected to generate early signals to manufacturers on over capacity as well as on looming shortages. This would help to reduce wastage of resources due to inefficient forecasting and excess manufacturing, generate awareness about the demand for new technologies.

CSIR expects AarogyaPath to become the national healthcare information platform of choice in the years to come, filling a critical gap in last-mile delivery of patient care within India through improved availability and affordability of healthcare supplies.

It was launched by Shri Rajesh Bhushan Officer on Special Duty, Ministry of Health and Family Welfare in presence of DG CSIR, Dr Shekhar C. Mande. Shri Sudhir Garg Joint Secretary, Ministry of MSME and Dr. Vijay Chauthiawale Pharma Sector Expert were guests of honour at this event. Dr Shekhar Mande complemented the CSIR team involved in development of the portal, which was led by Dr Anjan Ray, Director CSIR-IIP. The portal was developed in partnership with Sarvodaya Infotech and institutional users and manufacturers / authorized suppliers of healthcare essentials are encouraged to register and participate actively.

June 8, 2020 (N. Delhi)

The proposed clinical trial is aimed to assess the safety, tolerability and exposure of the compound in humans along with the early efficacy indicators in pancreatic cancer patients

CSIR constituent lab CSIR-Indian Institute of Integrative Medicine (IIIM) Jammu, has received Investigational New Drug (IND) approval from New Drugs Division of Central Drugs Standard Control Organization (CDSCO) for a potent anti-cancer, New Chemical Entity (NCE) effective against pancreatic cancer after successful completion of preclinical development and IND submission.

This will pave way for CSIR- IIIM for conducting the clinical trial of this important drug candidate IIIM-290 in pancreatic cancer patients. The proposed clinical trial is aimed to assess the safety, tolerability and exposure of the compound in humans along with the early efficacy indicators in pancreatic cancer patients. This drug was discovered and developed at the natural-products driven drug discovery programme of CSIR-IIIM.

Dr Shekhar Mande, DG, CSIR complemented the team of scientists Sandip Bharate, Sonali Bharate, Dilip Mondhe, Shashi Bhushan and Sumit Gandhi who were led by Dr Ram Vishwakarma, Director, CSIR-IIIM, on this significant milestone. They conducted close to a decade of high-end research as a prelude to grant of regulatory approval for clinical trials against pancreatic cancer.

Dr Ram Vishwakarma, highlighting the R&D carried out, informed that the anti-cancer screening against NCI-60 cancer cell lines panel and clinically validated protein kinase enzymes involved in cancer provided in 2011, provided an initial potent hit (rohitukine, a pure molecule natural product from the leaves of a tree from the Western Ghats Dysoxylum binectariferum,commonly known as Indian white cedar). Further medicinal chemistry designed to address efficacy/selectivity against a class of cell-cycle regulatory kinases (i.e. cyclin-dependent kinases) identified this preclinical candidate IIIM-290 showing excellent pharmacokinetics, oral bioavailability and potent anticancer activity in a number of animal xenograft models, with the best activity against the pancreatic cancer model.

In the last three years, researchers completed all the preclinical safety, regulatory and other IND enabling studies, obtained global patents and published in the Journal of Medicinal Chemistry in 2018.

Pertinently, pancreatic cancer currently ranks 12th among most common cancers in the world but has the notorious distinction of being the 4th leading cause of cancer-related deaths. The incidence of pancreatic cancer in India is 0.5?2.4 per 100,000 men and 0.2?1.8 per 100,000 women.

Globally, it causes more than a quarter of a million deaths annually. This cancer is considered as one of the untreatable cancer types, because of its very late diagnosis and therefore there is a huge scarcity of drugs for the treatment of this cancer. This indigenous drug discovery program based on natural products opens potential therapeutic options for pancreatic cancer.