Clinching a Gleam of Optimism in Pharma Domain during Pre and Post Covid-19 era; Silver Lining in Dark Cloud

 Prologues 

The shadowy coronavirus eruption in the Chinese city Wuhan by December 2019, now called as COVID-19, and its reckless blowout to several other countries, jeopardizes thousands of lives, led to a medical emergency all over the world. The pandemic has catalysed the development of novel coronavirus drugs or vaccines across pharmaceutical, biotech companies and research organisations. Currently, there are no definite vaccines or treatments. However, there are numerous clinical trials by several pharmaceutical companies is ongoing to achieve a potential treatment. 

Outbursts 

From an economic perspective, the key issue is not just the number of cases of COVID-19, but the level of disruption to economies from containment measures 

-Ben May, Head of Global Macro Research at Oxford Economics. 

The virus outburst has transformed as one of the prime threats to the worldwide economy and financial markets. Several outbreak effects are: 

  • Global stocks of hit 
  • Declining crash of oil prices   
  • High recession risk 
  • Turn to advanced and fruitful technology 
  • Hardest hit in tourism throughout the world 
  • Visibility of lockdowns mere consequence 
  • Unemployment of a large section of common people 

Governments around the world have admonished workforces to continue from home whereas possible. The travel industry has been dreadfully damaged. Stockholders dread that the outbreak of the coronavirus will extinguish the economic growth and that governmental authority may not be enough to halt the decline. 

Pharmacists and Pharmacies; the Frontline of Public Health  

As an increasing number of countries and towns are in lockdown condition, millions of public are in isolation and are maintaining social distancing inside their homes. It has indeed observed all over the globe that the pharmacy professionals are acting frontline roles enormously. Pharmacists are a fundamental element of healthcare providing extraordinary services in the earlier pandemics and health calamity also. 

Community pharmacists and their teams remain on the front of public health during the outbreak by serving as direct access for patients, keen-sighted patients and reducing the patients’ load on health practices. Community pharmacists also endure to play their uninterrupted action for consistent supplies of medication as well as other needful supporting. The International Pharmaceutical Federation (FIP) has dispensed a pack of 10 synopses for guidance on COVID-19. Other pharmaceutical association has also providing guidelines and needful documents for the solidification and attentiveness of the community pharmacies as front line health care workers in the global health crisis. 

Pharmacies around the world are one of the few places that are kept open for public service even during the strict lockdowns. 

A Wakeup Call for Pharma Industry Globally 

As economies around the world are suffering from the impact of Covid-19 and many business faces the challenges but pharmaceutical businesses captivating step in the Covid-19 fight. Such as Eli Lilly and Gilead are farsighted growth on the market and a novel torrent of invention in the communicable disease scenery as the treatment approval for a Covid-19 cure takes off. Other pharmaceutical companies also following ensemble during the Covid-19 pandemic and using their individual proficiencies to alleviate the cargo of coronavirus. As more clinical trials are performing, novel therapies may achieve. However, during this financial regression and global health fears, the contribution of pharmaceutical firms is on the mark and their impression on the competition against the virus will not be simply forgotten. The perception of large revenues coming from newly established drugs will face amplified inspection in a time of global pandemic as an outcome of communal and competitive pressures. 

 Pharmaceutical scenario in India 

India is a chief provider of low-priced drugs all over the world and is truly recognized as the ‘Pharmacy of the World’.  It ranks 3rd, worldwide for pharmaceutical production by volume, 13th by value and accounts for about 10% of the world’s production by volume and 1.5% by value. 50% of the United States’ generic drug needs are met by India. The Indian pharma industry aspires to become the world’s largest supplier of drugs by 2030. All major pharma industries have come all together to aid with knowledge and sharing information to safeguard production of medications critical to tackle coronavirus. Alembic is operating at 80% formulation capacity and its API plant is operational at around 60-70% capacity. Similarly, Zydus, a foremost manufacturer of hydroxychloroquine (HCQ) has already augmented its capacity to produce both the API and the other formulation manifold. Additionally, other reputed and other companies is also prioritising the manufacturing of drugs that are in high demand now, like azithromycin.  A few weeks ago, Prime Minister Narendra Modi cleared HCQ supplies from India to countries like the US, Brazil and Israel. 

Rays of Hope Amidst 

The role and necessity of pharmacist is reshaping its approach towards society. Now Their true value is exposed due to their services towards masses including utmost care, psychological support etc. 

There are substantial global exertions proceeding to diagnose, cure and avert infections from the virus. Pharmaceutical firms are working universally to battle Covid-19 from scientific data gained from eras of knowledge with comparable viruses and undertaking novel inventories of research to identify additional potential treatments for R&D. 

References: 

  1. https://www.who.int/emergencies/diseases/novel-coronavirus-2019 
  2. https://thebluecircle.co/2020/05/04/covid-19-a-wakeup-call-for-indias-pharma-industry/ 
  3. https://www.bbc.com/news/business-51706225 Bukhari, Nadia, Huma Rasheed, and Bismah Nayyer. “Pharmacists at the frontline beating the COVID-19 pandemic.” (2020): 1-4 
  4. https://www.pharmaceutical-technology.com/comment/covid-19-pharmaceutical-companies-impact/ 

Millennials Studying Political Science/International relations from a Liberal Arts perspective

Critical thinking and understanding a wide array of subjects is a necessity for the millennials due to the ever changing world scenario. As rightly stated by Jan Ludert, the ‘liberal arts skills’, ‘serve as stepping-stones … for a wide range of possible careers’ (Lüdert 2020).

What is Liberal Studies? An area that encompasses knowledge from a wide array of disciplines be it core subjects of Humanities and Social Sciences, this includes disciplines like Philosophy, Sociology, Psychology, Creative Arts, History, Literature, etc. A knowledge in such varied field had proven to be a boon for the experts and for the International representative at national and international forum and committees. Similarly, “A discipline in International Relations has grown over the years and so are the opportunities. Varied professions such as Area Studies, Peace Studies, Conflict resolution, think tanks etc. have also emerged and the need for skilled professionals with expertise in international politics is on a rise,”

Understanding Political Science/International Relations:

The interconnectedness between Political Science and International Relations explore the concept of sharing and shaping of power at different levels. An understanding of these liberal disciplines provides an edge over the systematic understanding of the world scenario and provide a better solution to the world problems. Students learning and exploring the subject from an interdisciplinary perspective provide them a holistic approach of the subject. These sort of knowledge gathering and learning at college and university level provide them to become more pragmatic and problem solvers at a very early stage of their academic career. They tend to become an effective and ‘ignited’ minds to contribute towards policymaking/suggestions for issues pertaining to national and International issues.

Interconnectedness of the Liberal disciplines:

Subjects like Political Sociology, Political Economy, Political Psychology, Geo-psychology or Psephology have evolved over the period of time and gaining expertise in these fields along with the core papers of Political Science and International relations are opening up news avenues for a secured and better career prospects. These areas of expertise provide a better working environment as a policy think tank representative, decision makers for national and International bodies, NGO’s, NPO’s, Government institutions, etc.

‘The subject knowledge of these Liberal disciplines not only gives an insight into world politics but also enhances their critical thinking. A better understanding of international relation helps to mitigate world problems’.

What next?

Be the problem solver, and become the part of the world which is going through tremendous world problems, be it fight for land and resources for national interest, struggle to keep the environment clean and from understanding of economic issue with cross boarder challenges. You can learn the world and can provide a better solution for a better future. You join the process to Learn more, unlearn a few and to relearn Political Science and International relations from a liberal perspective that will make the world a better place and to solve ‘wicked problems’.

Post-pandemic professions in Cyber Security

The epidemic caused significant employment losses and layoffs across a variety of sectors, with few or no new positions being filled. However, recruiting has started up again in some industries, which is a sign that the world has moved on from the pandemic.

“The pandemic helped us understand how important it is to digitise our records. Everything, from the job roles itself to the hiring process itself, has been shifted into the virtual platform. According to Ashutosh Seth, founder of Risebird, an edtech company that assists recruiting teams in completing the technical interviewing process, as a consequence, positions have evolved to deal and manage the enormous amount of data that has transferred on cloud platforms.

“There is a significant shortage of qualified candidates for tech positions such as artificial intelligence (AI), machine learning (ML), cyber security (CS), data analyst (DA), and coding developers (coders).” In addition to this, there is also an increase in the demand for people who work in the medical field as well as pharmacists, says he.

During the epidemic, there was a halt to any new employment, and there were even reductions in workforce size and layoffs. It was anticipated that once the pandemic was declared over, there would be an increase in the number of people getting jobs. According to Kamlesh Vyas, Partner at Deloitte India, “unfortunately, we have not seen that happening.” [Citation needed]

“This could be due to a number of factors since a number of businesses have incurred damages that are beyond repair and are unable to backfill their positions.” There aren’t many sectors that are still operating in the watch-and-wait mentality before investing in people. Because of the epidemic, many organisations have gained the ability to function with fewer employees as a result of automation, rationalisation, restructuring, multi-skilling, and other such practises, and thus do not see the need for aggressive hiring. However, according to Vyas, occupations in high-end technologies, such as artificial intelligence, analytics, cyber security, augmented reality/virtual reality, robots, cloud computing, and so on, would continue to be in demand during this period.

The epidemic has also brought to light the significance of developing automated systems. As a direct consequence of this, there is a greater demand for hardware engineers to automate the gear and devices that are already in use. According to Balasubramanian A, Business Head, Consumer and Healthcare, TeamLease Services, the professionals who will be working in the world after the pandemic would need to get themselves ready for the digital world and the more automated sector.

In addition to the obvious desire for IT expertise or occupations driven by technology, he notes that there is a demand for entry-level positions in field sales. These individuals are responsible for bringing the meal to the table. During the shutdown, a large number of businesses were severely disrupted, and many found it difficult to reach their ultimate goals. Now that a lot of businesses are attempting to get back on their feet, make up for any losses, and enhance their market share, those businesses are placing a strong emphasis on employing frontline sales employees.

According to a survey compiled by TeamLease, the average growth in salaries for sales profiles was found to be 7.41 percent, while the growth in salaries for R & D Analyst positions in the Healthcare & Pharmaceuticals industry was reported as 9.39 percent. The report went on to state that the increase in pay for the position of Automation Engineer in Information Technology and Knowledge Services was registered at 10.71 percent.

According to Balasubramanian A., in the world that has been left behind by the epidemic, businesses are now delivering professionals concrete benefits in the form of flexibility in regard to both time and location. Compared to a couple of years ago, when it came to giving in to the expectations of the employers, the businesses have been a lot more accommodating in recent times.

MA Education as a Career Option in Post pandemic era

Education the word has a different meaning. To a saint, it is to feel the presence of God, to an artist, it is to excel in the field of art, to a student it is the acquisition of knowledge. This is how it has been taken by the common man. But to the people from the stream, Education, it is somehow different from that. A thorough analysis of the Western and Indian concepts of Education says that it is a man-making process. It aims to develop the whole personality of the individual.

In the present context when everyone is running after excellence, the system of Education becomes more and more specific. So there are different streams, different subjects, and different specialties. Nowadays “Education” is being considered an independent subject. The students from the humanities stream can choose it as either a Honours or a Pass subject at their graduation level. After passing out graduation level with more than 50% in the subject, students are eligible to take admission to MA in Education.

MA in Education is a specialized Master’s Degree program that deals with the different aspects of Teaching and Learning. It equips the students with the necessary skills and techniques which are essential to know the learner and the learning process. It provides an opportunity to do research work to supplement and solve as well as to enhance the process of learning. It also provides scope to get direct experience by involving students in different field visits and project works.

School of Education, Adamas University, provides different types of student engagement plans to the MA, Education students.

Covid-19 has destroyed the general lifestyle of the people. It has a drastic impact on each and every sector of society. Many people became homeless and jobless and many have lost their lives so also the Educational system and the organizations. The students suffer a lot. Some institutions changed to the virtual approach immediately and some shifted gradually. So staying indoors with all kinds of social breakups developed depression among the young learners. Now anyhow society became stabilized. All are trying to be normal.

During this time there is a big question among the students regarding the career option. Which course they will choose? Which organization they would like to enter? What are the prospects in the present career?

In this situation, the students who will choose MA in Education, moreover in School of Education, Adamas University, will have greater career prospects.

MA in Education leads to Post Graduate degree in Education. So it is a door to enter higher education. The students after passing out MA in Education will have the following career options-

  • After completing the course the students will be able to appear for the NET/ SET examination in Education.
  • NET/SET examination will help them to try for Assistant Professor in any Government or Private Colleges or Universities
  • NET with JRF will help the students to do innovative and creative research work in the field of Education and to contribute various areas of theory and practices.
  • MA in Education with B.Ed. will help the students to appear School Service Examination for the Post Graduate Teachers.
  • Students with MA (Education), and a B.Ed degree can be a Post Graduate teacher in any Private Higher Secondary school under the West Bengal Board of Higher Secondary Education.
  • MA in Education with B.Ed. can appear for the School Inspector Service Examination under West Bengal Public Service Commission (Education Service)
  • MA Education and B.Ed. students can act as career counsellors in the Educational domain. They may start their own counselling service or they may attach themselves to any educational organizations.
  • As a start-up the students may start playschools of their own.

In a post-pandemic era, when everybody is running after to settle themselves and to grow and choose a perfect career according to their abilities, aptitudes, interest, and intelligence. It is a great challenge for them. So, for those who want to join MA in Education, there is an exciting career ahead of them. A number of facilities are open. More specifically School of Education, Adamas University along with providing a good teaching-learning atmosphere, course content, and faculty support, also provides international exposure through different faculty exchange programs, peer teaching different fall programs, and spring programs in collaboration with foreign universities, to boost students’ self-confidence and upgrade their knowledge. It also provides remedial teaching for slow learners.

So MA Education in School of education, Adamas University is a good career option for the students.

Biochemistry: An Integral Part of Drug Discovery

The on-going pandemic situation gave humanity a hard lesson- life is uncertain. Before the pandemic, we never seriously thought about this type of disease which could lead to such a global health crisis. Now, Covid-19 is a reality and it taught us that as the virus changed itself we must constantly change ourselves and be prepared for sudden battles. Humanity has a long history of fighting against deadly diseases like plague, malaria, polio, cholera, etc. and in all those battles our greatest weapons are drugs. In this article, we will see how biochemistry is an integral part of a drug discovery process.

Biochemistry is the amalgamation of chemistry and biological sciences. It brings together all of the sciences to study the chemical and physical processes that occur in living organisms. It truly is the science of life. Students of biochemistry learn various classical as well as modern subjects like stem cell biology, immunology, bioinformatics, genetic engineering, and many more. These subjects give them ample knowledge about the basic processes of life and that gives them the scope to explore properly a particular phenomenon in a living system. The mixture of chemistry and biology is a tremendous weapon for students for understanding the complex design of a disease-causing bacteria or virus. Applying these knowledge life-saving drugs can be developed by biochemistry professionals.

A drug is a chemical substance that, when administered to a living organism produces a biological effect. Drugs are also called medicine as it is used for treatment, cure, prevent disease, and promote good health. Drugs can be taken via different modes like inhalation, injection, ingestion, absorption via a patch on the skin, suppository, or dissolution under the tongue. So, recently discovered vaccines against Covid-19 are also part of modern-day drugs.

There are several phases of drug discovery and its commercialization; 1) Basic research for lead development 2) Preclinical studies 3) Clinical studies (different phases) 4) Review by regulatory authorities and approval 5) Pre and post marketing monitoring. In all these phases major roles are played by biochemistry people.

The first step of basic research consists of lead molecule discovery and its target identification which is totally done by biomedical scientists. During lead discovery, an intensive search ensues to find a drug-like small molecule or biological therapeutic, typically termed a development candidate, that will progress into preclinical, and if successful, into clinical development and ultimately be a marketed medicine. Generally, drugs are very specific in nature, i.e., they work in a specific manner on a specific type of cell or exo or endotoxins. So, first, to discover the lead, one has to find the type of cell or chemical substances on which the drug is going to affect, what’s the nature of the target.

The next step is the preclinical trial, which is a stage of research that begins before clinical trials (testing in humans) and during which important feasibility, iterative testing, and drug safety data are collected, typically in laboratory animals. This step requires multiple types of studies/tests like screening, tests on isolated organs and bacterial cultures, tests on animal models, general observational tests, confirmatory tests and analogous activities, mechanism of action, systemic pharmacology, quantitative tests etc. that are all done by Biochemistry people. The main purpose of preclinical studies is to accurately model the desired biological effect of a drug in animals [non-human primates] in order to predict treatment outcomes in patients (efficacy), and to identify and characterize all toxicities associated with a drug in order to predict adverse events in people (safety) for informed—preclinical testing analyses the bioactivity, safety, and efficacy of the formulated drug product.

After a proposed drug has gone through premedical trials, the next step is clinical trials. The main difference is while preclinical research answers basic questions about a drug’s safety, it is not a substitute for studies of ways the drug will interact with the human body. The biomedical persons design clinical trials, develop a study plan or protocol and follow them to answer specific research questions related to medical products. Before the trial begins, they decide who qualifies to participate (selection criteria), how many people will be part of the study, how long the study will last, whether there will be a control group and other ways to limit research bias, how the drug will be given to patients and at what dosage, what assessments will be conducted, when, and what data will be collected, how the data will be reviewed and analysed. Clinical trials follow a typical series of early, small-scale, Phase 1 studies [20-100 healthy/diseased volunteers], Phase 3 studies [Several hundred people with the disease], Phase 3 studies [300-3000 volunteers with the disease], and lastly, late-stage, large scale Phase 4 studies [Several thousand volunteers with the disease].

The next step is, review by regulatory authorities and approval of the drug. Drug approval processes are designed to allow safe and effective drugs to be marketed. Drug regulatory agencies in various countries attempt to rely on premarketing scientific studies of the effects of drugs in animals and humans in order to determine if new drugs have a favourable risk-to-benefit ratio. The manufacturer must provide the concerned authority review of all the test and study reports with detailed information about the proposed drug including usage of the drug to be effective, all the possible risks, and how to use it. Physicians and scientists of the concerned authority then review the drug research and the labelling information on how to use the drug. If the findings show the drug’s benefits outweigh its known risks — and that the drug can be manufactured in a way that ensures a quality product.

After the drug gets all the certification, the last step is Post-marketing monitoring. Post marketing drug surveillance refers to the monitoring of drugs once they reach the market after clinical trials. It evaluates drugs taken by individuals under a wide range of circumstances over an extended period of time. Such surveillance is much more likely to detect previously unrecognized positive or negative effects that may be associated with a drug. The majority of post-marketing surveillance concern adverse drug reactions (ADRs) monitoring and evaluation. Therefore, biochemistry people always get an edge in these type of drug developmental industry.

Career as a Machine Learning Engineer in the post-pandemic world

The entire globe has been facing an unprecedented challenge from the Novel Coronavirus, which has made the physical world come to a standstill and the world economy has been holding onto a thread due to this fatal pandemic. But the brighter side of this gloomy situation is that companies are finally appreciating and understanding the significance of Machine Learning and Artificial Intelligence in the practical world. More and more brands are now taking up Machine Learning solutions for their business problems. Not only Machine Learning is used to combat the global pandemic but it has also come out as an important tool in constructing a better world post-COVID. Machine Learning has the capability of providing an understanding and early analysis of problems and prompt resolutions. This technology is used by the doctors and health practitioners to track the virus, identify potential threat to patients and predict the possible cure from disease. These reasons indicate that Machine Learning and Artificial Intelligence, both are here to rule and this can be an interesting career option for the aspirants who are passionate about data and numbers. Machine Learning has been at the forefront for all the advanced programmers who intend to develop intelligent systems that learn and apply knowledge. These programmers, better known as Machine Learning (ML) engineers, train systems with the help of complex datasets and algorithms.

Machine learning brief explanation

Machine Learning is a subset of Artificial Intelligence, which combines Statistics and Computer Science to predict using different mathematical models. The predictive model can be based on like whether an image contains cat or dog, predicting credit card fraud detection etc. The main objective of Machine Learning is to take decisions based on predictive modelling. Hidden patterns across the datasets are extracted and useful insights about data are found out to drive important decisions, improve customer relationship based on feedback patterns or launch new business.

What are the pre-requisites for becoming a Machine Learning engineer?

A Machine Learning engineer requires to be proficient in a bunch of technical skills for building predictive models.

Below are given some of the primary components of the Machine Learning engineer role:

  • Data: The Machine Learning engineer has to understand the importance of data in predictive modelling. The data pre-processing is one of the important steps for constructing a Machine Learning model. Data has to be analysed and described in terms of the problem requirement. Good quality data is a necessary requirement in building efficient Machine Learning model.
  • Predictive Models: Machine Learning engineers need to construct the models designed by the data scientists, understand the model validation in order to get an essence of the estimation of value addition to the business and understand how to fine-tune these models to optimize them for the consumption by end users.
  • Software Engineering: They need to be efficient in coding back-end so that the models can be made available to users through a user-friendly API.
  • Efficient Scaling of Infrastructure: They need to keep the system prepared for scaling of infrastructure so that the system may not collapse when multiple number of users start operating their models.

Where is Machine Learning used in real life?

Machine Learning is being used in real life in many fields, industries or domains. Some of the application areas of Machine Learning are listed below:

  • Image Recognition: It is a popular and widely used application area of Machine Learning. This is used to identify an object from a digital image.

Some of the use-cases of Image Recognition:

  • Photograph-tagging in social media
  • Hand-writing recognition by segregating a single letter into component images
  • Speech Recognition: Machine Learning has the capability of translating speech into text.

Some of the use-cases of Speech Recognition:

  • Voice-based digital assistants like Amazon Alexa or Google Home etc.
  • Search based on voice
  • Dialling based on voice
  • Symptom analysis in healthcare domain: Machine Learning can help the medical practitioners to ascertain symptoms in diseases by leveraging the capability of chat bots. This is called symptom analysis which utilises the power of Natural Language Processing and text mining etc. to analyse the disease symptoms and predict the next steps to be taken as precautionary measures or remedial measures.

Primary objectives of a Machine Learning Engineer

Primary responsibilities of a Machine Learning engineer lies in creation of Machine Learning models and re-training models as and when required. Some of the common responsibilities of the role relate to:

  • Machine Learning system design
  • Implementation of Machine Learning algorithms and tools
  • Dataset selection and dataset representation methods
  • Verification of data quality
  • Accomplishing statistical analysis
  • Executing Machine Learning tests
  • Improving Machine Learning models by tuning of models by proper selection of hyper-parameters
  • Constructing Machine Learning apps as per requirement

Now, let us see the skill sets that are important for a Machine Learning Engineer.

Skill set of a Machine Learning Engineer

For becoming a Machine Learning Engineer, an aspirant should have the following skills:

  • Mathematical and statistical skills relating to subjects such as Calculus, Linear Algebra, Statistics etc.
  • Advanced degree in Computer Science, Mathematics, Statistics or a related degree
  • Master’s degree is desirable in Machine Learning, Deep Learning or related fields
  • Coding in programming languages like Python, R etc.
  • Skills pertaining to Software Engineering, Computer Architecture, Data Science and the like
  • Working experience with Machine Learning packages and libraries etc.

References:

  1. Rise in the demand for Machine Learning & AI skills in the post-COVID world, https://timesofindia.indiatimes.com/spotlight/rise-in-the-demand-for-machine-learning-ai-skills-in-the-post-covid-world/articleshow/75464397.cms
  2. Machine learning engineer (ML engineer), https://www.techtarget.com/searchenterpriseai/definition/machine-learning-engineer-ML-engineer#:~:text=Machine%20learning%20engineers%20design%20and,data%20engineers%20and%20data%20architects.
  3. AI/ML Remains The Most In-Demand Tech Skill Post COVID, https://analyticsindiamag.com/ai-ml-remains-the-most-in-demand-tech-skill-post-covid/
  4. AI, Automation and In-Demand Skills for a Post-Pandemic World, https://www.sigconsult.com/blog/2021/03/ai-automation-and-in-demand-skills-for-a-post-pandemic-world?source=google.co.in
  5. Artificial Intelligence in a post-pandemic world of work and skills, https://www.cedefop.europa.eu/en/news/artificial-intelligence-post-pandemic-world-work-and-skills

Career Prospects in New-Age Journalism: Deconstructing the Need for News Content in the Post-Pandemic Era

Over the past one decade or so, we have been hearing about it, talking about it and experiencing it as well. Indeed, digital is the way forward in journalism. Even before the Covid-19 pandemic arrived, new media had emphatically established itself as the primary journalistic platform. If at all there was a tinge of doubt vis-à-vis the primacy of online news content, the pandemic sealed it for once and all.

However, we are not here to talk about digital journalism. Enough has been said about it and to the extent that anything in the given domain would prove unabashedly repetitive. Instead, what would be an infinitesimally better discourse is to talk about the changes that we are experiencing in the world of digital journalism over the past two years and how the changes have uncovered newer opportunities for prospective journalists. More particularly, we are talking about journalism career opportunities. Without any further ado, let us take a closer look:

  1. YouTube Journalism: Many reputed and mainstream journalists including the likes of Barkha Dutt and Faye D’Souza have opened their YouTube channels that are constantly streaming news and views. In fact, going by the sheer content quality, it would not be an overstatement if we were to say that these YouTube channels are likely to replace the mainstream news channels very shortly. Owing to the fact that these YouTube channels are largely independent, the news that are being transmitted through these channels are largely unbiased and censorship-free. Given the scenario, young and bright journalists can think about opening their own YouTube channels instead of following the beaten track. One also needs to consider that the amount of investment that one needs to make to open such a channel is minimal.
  2. Vlog and Podcast Journalism: Industry veterans often talk about how vlogs and podcasts are gaining in popularity with each passing day. Topical vlogs and independent podcast sites could be a great way for an upcoming journalist to leverage their knowledge and expertise. As alternative media is pushing its envelope, the content quality of these vlogs and podcast sites is improving at an exponential rate.
  3. Freelance Mobile Journalism (MoJo): There have been umpteen discussions on mobile journalism or MoJo and the discussions keep getting intense. However, what everybody seems to have forgotten is the growth potential for freelance mobile journalism. Mobile news content has the capacity to make journalism a lot more encompassing that what is currently the case. As we are trudging through an economically depressed post-pandemic time, journalism of tomorrow will be largely mobile. Cheap technology and easy navigability of content will create all the difference.
  4. Data Journalism: Moving ahead, data is set to be the key. Surfing through data and making sense out of it will become the most important skill for a journalist. Therefore, technology and numerical skills would distinguish a successful journalist from a not so successful one. When we talk about data, we also talk about the seamless and palatable representation of data.
  5. Journalism through Infographics and Animation: In a world that has seen the unbelievable growth of technology, it is only natural that the traditional modes of news content delivery would cease to be effective. Therefore, text, photographs and videos are no longer enough to impress and hold audiences. One also needs infographics and animation clips to make a news package more incisive and consumable. Journalists who can create meaningful and impactful infographics and animation would be in high demand in the next few years.
  6. Spatial Journalism: Before we discuss the possibilities in spatial journalism, we need to understand what it exactly is. Spatial journalism can be loosely defined as a novel form of journalism that juxtaposes the concepts of place, space and location into traditional journalistic practices. The location can be physical, augmented or virtual. It involves new storytelling formats such as the ones that include Augmented Realities (AR), Virtual Realities (VR) and Mixed Realities (MR). What is clear though is the primordial role of technology in the entire process. Subject to the fact that immersive storytelling has better chances of retaining news consumers, spatial journalism can be safely considered to be biggest thing in journalism.
  7. Modular Journalism: Modular journalism is the practice of looking at a story not as a monolith but as a collection of bits and parts. The process of crafting a story by including only those parts that are consumable and interesting is called modular journalism. At a time when the attention time among news consumers is consistently shrinking and content creation is becoming increasingly difficult, modular journalism is set to be a panacea. Therefore, journalists who know the pulse of their audience and can accordingly create a story without bothering much about the older traditions in journalism are destined to be more successful than the rest.
  8. Human Interest Journalism: Over a period of time, young and aspiring journalists have been made to believe that stories that encapsulate the pulse of the common people do not create much public interest. However, recent trends in journalism has proved it wrong. Therefore, empathetic storytellers who understand the finer nuances of humanity would be in demand. The pandemic has shown the vulnerability of the human race in the face of natural adversity and hence people throughout the world have started understanding the importance of documenting human frailties. This is a marked opportunity for young and sharp minds in journalism to explore storytelling with humanity at the core of it.
  9. Health Journalism: With the pandemic having changed the dominant global discourse, health journalism and health journalists would continue to become increasingly more relevant. Therefore, young scribes who are interested in health journalism can ride the tide and become successful in practically no time.
  10. Technology Journalism: With technology set to become even more encompassing in the days to come, journalists who understand technology have a greater chance of making it big in the news content market. In very simple terms, reportages that concern technology would become the norm.

Journalism, as we know it today, would significantly transform in the next few years. The most important thing is to comprehend the pulse of this change and act accordingly. If a prospective journalist can do that, there will be no looking back for her/ him.

This blog encompasses the changing lens of digital journalism and tries to provide information pertaining to career prospects in the broader domain of journalism for upcoming and aspiring scribes. Just in case you find this blog useful and relevant, please make it a point to share it with as many people as you like for them to know the contemporary nuances in journalism and related career opportunities.

COVID impact, new trends and research in Civil Engineering and Construction

For the last two and half years, people of this planet have experienced a pandemic situation due to outbreak of Novel Corona virus. As per the situation, there is scarcely any country that   has remained unchanged by the harshness of this virus. Our country is not an exception from this pandemic. Sometimes positivity rate of Corona Virus came down but suddenly it has started a reverse flow towards higher positivity during the last three waves happened till date. Not only the human lives but most of the commercial activities also had been suffering by the pandemic. Some industries might had overcome the pandemic situation but most of them faced much difficulties and obviously construction engineering sector was also in the list.

The construction industry and civil engineering add mainly to the Indian economy. The unfavourable situation due to pandemic has caused all construction projects to come to an end suddenly but the jobs in design sectors were managed by work from home. Construction  industry,  the  main  pillar  of  the  national  economy had  faced  a  long  challenge  like  regulatory  burden  under environmental laws which  had  coupled  with  the pandemic. Subsequently lockdown   imposed to deal with the situation restricting the movement of people, gatherings and strictly   maintaining social distance.  All  these  had  made  a  tremendous  effect  in  Indian  economy  and  construction  industry  has  been  halted  throughout  the  country.

In India, the dilemma for the Civil engineering sector is high and it is infuriated and hard to treat with as there is no standard format of contracts for construction sector. There could be immense variations in particular state of affairs of a Construction and Engineering contract. Although, there is standard forms of construction and engineering contracts by International Federation of Consulting Engineers, Institution of Civil Engineers and Indian Institute of Architects but at that times they are eagerly settled and hence it lost uniformity.

In most of the construction and engineering, contracts parties generally mention the time of   completion of works. Due  to  Novel  Corona Virus,  workers  did not  feel  safe  to  work  in the construction  site  and  they  returned  to  their   home  leaving  their  job. So,  many of the  projects were not completed  in  stipulated  period  and  the  contractor  became  a  defaulter. In some cases, contractors had to pay compensation for delay in completing the project.

Government of India declared closing of all universities, colleges and schools. The whole education system suffered a lot due to the situation and came to a worst situation. To  Cope  with the  situation, online classes were started but by the method, teacher was unable to identify the effective attendance of a particular  student for the entire class session but one good  thing  is  that  there is no loss of time for to and fro during  online  classes and  as most  of  the time  students  remain  at  home, they  can  easily  join  some  other  online  activities like attending in Webinar, others Professional course etc. to  improve  their  knowledge  and  skill . In case of  normal  situation  when the  students  would attend classes  physically, it  would not be possible for  them to attend such  courses which even conducting from abroad also.

But online system had disadvantage also. It was not possible exactly to evaluate a student in the online examination as some of students took help of open book, open study materials, internet search and help from friends during examination time. Some students received participation certificate of Webinar without attending attentively.                                                                        

As a result, some changes happened in Civil Engineering and Construction sector to adopt the situation. Earlier contractors in the sites would to hire many labours to complete the project. But due to pandemic, contractors hired less number of labours and used many machineries in construction works. Ready mix concrete was brought from Batching plant instead of producing concrete at site. Digital system, like Building Information Modelling and integrated project management platforms were already recognized as digital building blocks for the construction industry. Also, repetitive and dangerous works that people want to avoid means implementation of automation can support the industry’s labour and skills crisis. At that moment, robotic automation deals enormous possibility to increase output, efficiency and flexibility of construction process throughout the construction industry, as well as to automate the fabrication of modular houses, robotic welding and material handling on construction sites, robot 3D printing of structures. As well as building the industry safer and more cost efficient, robots are recuperating sustainability and dropping environmental impact by enhancing recycling by means of cutting waste. Robots can produce safer construction by managing heavy loads, working in unsafe locations and enabling safer ways of construction. With the industry producing increased environmental pollution and the need for more cost-effective structures, robotic automation reduces waste by improving quality, which is important when it’s approximated that up to a quarter of materials out of total materials  transported to a construction site leaves as waste. With automation and digital technology, Engineers can also design waste out at the beginning of a project through effective Building Information Modelling and construction processes.

Very renowned Universities like us designed Smart Lab by which student can watch a live demonstration of all parts of a particular experiment. Virtual Internship was also arranged for the student. In Virtual Internship, the video of Construction site works were shown to students by the Senior executives of the company. The conduction of recruitment drive was also easier as it was done online. Students had not missed even any event as all were organised by online mode. By using of digital library, students were able to view and download books, journals. Research activities were not stopped also during the pandemic situation. Researcher provided priority on Analytical research than Descriptive research in the current situation and also changed the area of research to suit Analytical research.

In a concluding remark, Every problem has a best solution; you just need to discover it.

Further Studies

Genetics: A field to excavate for futuristic potentials

According to Edwin Grant Conklin, “what molecules and atoms and electrons are to physicists and chemists, chromosome and genes are to biologists”.

At the end of school days, as the students are at the verge of initiating their higher education, they develop a fairly vivid idea about their inclination towards a particular subject of interest. This decision is the most crucial stepping stone in the budding path of their career. If the science of life fascinates a student, then the curriculum of biology provides a basic introduction to different fields of biological science like botany, zoology, physiology, microbiology, genetics, etc. Some of these fields are classical while the others are contemporary with continuous addition of recent technologies and novel findings.

When a young scientific mind intends to unravel the mystery underlying the behaviour and characteristic features of the living world, the interrogation should be triggered at the level of DNA. DNA is an astonishing molecule that stores every possible information of all life forms: How they look like? Do they resemble their parents? How they function? Whether a person is more inclined to have a disease or whether a person can have some power to avoid a disease? How to increase yield of a crop? And many other questions find their answer in this central molecule of biology. In short, DNA is the language that writes the story of genes according to which the life forms enact.

What is Genetics all about?

Genetics, as a key field of biological science, is the blend of classical concepts of hereditary passage of genetic information from parent to offspring or of a population as a whole together with recent advancements of applied science as in genetic engineering, recombinant DNA technology, forensics and pharmacogenomics. The advancement in this field is now prompting the use of genetic information in designing disease treatment in an individualistic manner – the very essence of personalized medicine or “precision medicine” that may provide life-saving cues for ailments that are hard to treat. Using the concept of genomics and transcriptomics we can also increase sustainability of agriculture, improve crop production (genetically modified crops) to solve the global problem of food scarcity. As a major component of forensic science it is indispensable for solving cases of criminology, dubious parenthood and other issues of biological relevance under legal surveillance. Even the most complex form of genetic information is opening up through high throughput advancements like human genome project.

Components of the subject worth mentioning:

Classical genetics: Classical Genetics is the oldest discipline of genetics based on Mendelian inheritance that provided many insights into inherited traits and elucidated many inherited human disorders that were known to follow Mendel’s law of inheritance and were useful to explain the reappearance of disease within families.

Population genetics: Population genetics deals with genetic differences within and among populations, and the dynamics of how populations evolve as a result of the propagation of genetic mutations occurring within the germlines of individuals together with contribution of evolutionary attributes.

Conservation Genetics: Conservation genetics is an interdisciplinary extension of population genetics for conservation and restoration of biodiversity through comprehension of the dynamics of genes in populations.

Quantitative Genetics: Quantitative genetics deals with the genetics of traits that are continually fluctuating on the basis of alterations in the frequency distribution of traits that are difficult to assign in discrete phenotypic classes.

Ecological Genetics: It deals with features associated with fitness that are involved in interactions between/ within species, and between an organism and its environment.

Medical genetics: In the field of medicine it deals with application of genetics for diagnosis and management of genetic diseases apart from investigating the causes and inheritance of the disorders.

Immunogenetics: It refers to the scientific discipline that studies the molecular and genetic basis of the immune response with emphasis on immunological pathways as well as genetic variations that result in immune defects. It is a subfield of medical genetics.

Molecular genetics: Molecular genetics is concerned with the structure and function of genes at the molecular level and utilizes molecular biology tools and technique of genetic engineering to manipulate organism’s genome that gets translated through protein function to health and disease.

Human genetics: It involves the study of the human genome and the gene transmission from one generation to the next. It is an interdisciplinary field contributed by classical genetics, cytogenetics, molecular genetics, biochemical genetics, genomics, population genetics, developmental genetics, clinical genetics, and genetic counselling.

 Combining the concepts derived from the above mentioned subfields of genetics, every now and then, new areas of scientific knowledge and research are coming up to find the answers of countless questions that are unaddressed till date in living world and its complexity. The new fields with immense potential for research activity that are worth mentioning are Genomics, Epigenomics, Metagenomics, Phramacogenomics, and many others.

Career options:

  1. Genetic Counsellors –Due to increase in gene-based therapies and wellness treatments, there is a rise in demand for Genetic counsellors for Pedigree analysis, identification of risk factors, etc. 

  2. Forensic Science Research Associates/ Scientist – Law enforcement firms recruit geneticists to identify and analyze the evidences from DNA samples, tissue samples, etc. from potential crime scenes.
  3. Genetic Scientist in Agriculture & Food – For food and agriculture based industries, new varieties of genetically modified crops are being generated by manipulating plant genes. The resultant varieties are generated for increased yield, resistance to pests and plant pathogens or for increasing tolerance of the plants for adverse environmental conditions. It is not limited to plants, the scientist work on animal breeds also to get a better variety.

  4. Scientific Researcher – With a doctoral degree a student of genetics can work on a scientific project involving the study of various genes and their regulations to pave the way towards new discoveries like CRISPR gene editing. The Human Genome Project or the 1000 genome project is a hallmark achieved by genetic scientist.

  5. Academic researcher: As an academic researcher one can apply his/her expertise and skills developed through study and research: as a teacher as well as a researcher. And contribute to journals and books with research articles and new findings.

  6. Medical Scientist –The medical scientist can use sequence information to understand genetic disorders especially those with hereditary conditions and find a solution for them. They can address not only diseases of population in general but also at level of individuals based on response of his genome towards medication – the very essence of precision medicine or personalized medicine.
  7. Scientific Content Writer –Scientific writing is a very lucrative career at present and in the coming years as it offers you to learn in the field of one’s mother subject as well as earn.

Genetics is the science of future. As all aspects of life are being questioned for improvisation or for addressing errors or deficiencies, the molecules regulating life are now and will always be in limelight and those molecules are indeed the DNA, RNA and proteins. Therefore innumerable DNA and RNA analysis are awaiting technical knowledge of upcoming geneticists. So the job and research prospect of genetics students are broadening day by day for the young people who aspires to do something new, something different. To open up the prospects of such promising career for our future students, Department of Microbiology from School of Life Science and Biotechnology, Adamas University is opening a new three year undergraduate course BSc with Honours in Genetics.

Curriculum: Addressing all the components in the field of genetics the courses offered include the following:

  • Fundamental Courses: Principles of Transmission genetics, Population and Evolutionary Genetics, Biochemistry, etc.
  • Advanced Courses: Immunology, Molecular Biology, Microbial genetics, Genomics & Proteomics, Nanotechnology, etc.
  • Applied Courses: Bioanalytical tools, Genetic modification in agriculture, food and medicine, Tools for gene expression analysis, Genetic disorder and gene therapy, etc.
  • Skill Enhancement Courses: Molecular diagnostics & genetic counselling, Basics of Forensic Science, Bioinformatics, Intellectual Property Right (IPR) etc.

With all technologically advanced laboratory facilities available and highly qualified faculty members who excel in their respective fields of expertise, our department presents a perfect ambience for the students to undertake BSc Honours in Genetics as a choice to begin their career.

Microbiologist: A prominent career choice for biology students

Biology aspirants at School level:

While the interest in studying biology at School level starts with understanding cells, both plants and animals, it takes a peak during the study of human system. While traditional zoology, botany and physiology creates the base for understanding biology, advancements in the form of microbiology, immunology, biotechnology, recombinant DNA technology etc. paves the path of inquisitiveness among the biology lovers at the school level. This lead to the selection of medical or non-medical biological subjects as career option for the aspirant biologists.

Exploring the less known world:

Microbiology has always been frontrunner among the choice of such biology-aspirants for their studies at undergraduate level beyond medical education (Refer: https://adamasuniversity.ac.in/microbiologyplus-the-most-promising-career-path-beyond-medical-education/ ).

‘Knowing the unknown and seeing the unseen” has been the trend of human acumen since the inception of human race. Microbiology stimulates this, with the challenge of finding novel microorganism (bacteria, virus, protozoa, algae etc.) and a plethora of their magnificent properties. Till date the share of known microorganisms has not even reached 1% posing immense prospect for the future. The microbial world extends from the hottest region of the world to the coolest, from the top of the Everest to the Mariana trench and from the gut of human to the solar panel. Diversity of microorganisms holds the key and charm to study the subject.

Knowledge, Skill and Competency development:

Striking balance between diversity as well as specialization is important during the selection of stream/ subject to be opted for career. The three major focus on the 3-4 year undergraduate degree as well as 1-2 years of post-graduate degree lies in the development of theoretical knowledge, technical skills and more importantly competency as life-long learner. Studies in microbiology provides a well-balanced blending of these enhancing theoretical knowledge to strive for innovation, hands-on skills to work in an industry/ research as well as gain like skills and competency to remain relevant and updated despite rapid technological evolution.

Curriculum:

Studies in microbiology at undergraduate as well as post graduate level is generally divided into several courses as mentioned in the following:

  • Fundamental Courses: Bacteriology, Virology, Biochemistry etc.
  • Advanced Courses: Immunology, molecular Biology, microbial genetics etc.
  • Applied Courses: Food and Dairy Microbiology, Medical Microbiology, Agricultural Microbiology, Industrial Microbiology etc.
  • Skill Enhancement Courses: Quality Control & Quality Assurance, Vaccine Technology, Bioinformatics, Intellectual Property Right (IPR) etc.

Most academic institutions follow a Choice Based Credit System (CBCS) to design their curriculum of Microbiology. However, a few institutions also offer ‘Outcome Based Education’, a student centric educational model employed to maximize learning outcome of the enrolled students.

Infrastructure, facility and Instructors:

Studies in microbiology require sophisticated instruments, well-equipped laboratories and well trained instructors to create a strong base for the students. Unfortunately, many institutions lack these facilities and treat it alongside other conventional subjects. The major requirements in supporting all round development of a microbiologists includes (not limited to):

  • Laboratory Facility (Basic): Laboratory with Bio-Safety Level: I (BSL-I)
  • Instruments (Basic): Microscope, Autoclave, Laminar Air Flow, Centrifuge etc.
  • Instruments (Sophisticated): -80°C freezer, Phase contrast microscope, UV-Vis Spectrophotometer, HPLC etc.
  • Facility: Animal Cell Culture, Plant Tissue Culture, Animal House etc.
  • Co curricular Facility: Tinkering Lab, Incubation Centre, Fabrication Lab etc.

technicians trained in microbiology. However, most of the institutes run the UG and PG program in microbiology employing faculty members from other domain of biology (e.g. botany, zoology etc.) not having requisite exposure and expertise in the core domains of microbiology. The emergence of microbiology as a specialized field of biology also demands the involvement and guidance of personnel from the field of microbiology for proper dissemination of knowledge and skill of aspirant microbiologists. People having relevant industrial exposure adds on significant weightage in terms of leveraging benefit to the students.

Career path:

Despite of the abundance of open source information and higher digital access/ literacy, career path remains unclear to most students at the entry level to graduation. Over rated courses, glorified outcome and rationalizing odd success stories make students a victim during admissions. The following career path of microbiologists are stated to uncover the potential strength as well as challenges to be faced:

  • Teaching: ‘Teacher shapes the future of the coming generation’ This still motivates a lot of students to take up teaching at various level viz. school, college or university as their preferred profession. Microbiology graduates are not only eligible to appear for most of the school level recruitment process (e.g. School Service Commission, WB) they find it ease during exam and highly relevant during teaching. Joining colleges (both govt. or private) after the completion of M.Sc. in Microbiology is a lucrative option while clearing NET (National Eligibility Test)is highly competitive. Teaching at university level having independent research career, guiding Ph.D. students is also highly sought after career.
  • Researcher/Scientists: Most of the students of microbiology aspire to pursue Ph.D. on completion of their M.Sc. and conduct research for creation of knowledge towards human and societal development. There are plenty of research institutes, universities offering position of Junior Research Fellow (JRF), Senior Research Fellow (SRF) in the domain of microbiology (e.g. IISER, IIT, Bose Institute, NIBMG, IACS, IICB etc.). Research funding is mostly obtained from government through Department of Science & Technology (DST), Department of Biotechnology (DBT) Indian Council of Medical Research (ICMR), Indian Council of Agricultural Research (ICAR) etc. The researchers receive good amount of fellowship during the PhD tenure, through these schemes. After completion of PhD, students join institutes as senior researchers or scientists. Alternatively, they continue their research as Post-Doctoral Fellow in India or Abroad. The offer of fellowship at this level is attractive and often higher than the salary offered through regular employment.
  • Industry: While knowledge is created at the university level, its implementation is seen in the industry. There is a boom of biotechnology and allied industries that require trained microbiologists at various level. UG level students are employed as Trainee, laboratory technicians etc. in the Quality Control, production department. While students completing M.Sc. are recruited as QC executive, microbiologists etc. Students having Ph.D. are mostly employed in the R&D division. It is to be emphasized that all pharmaceutical, food, biotech industries have definite requirements of microbiologists as a part of regulatory compliances. Hence, there lies a constant need of microbiologists at various industries.
  • Entrepreneurship: The present generation of students have found a suitable solution to the problem of unemployment by the creation of start-up employing their domain knowledge or interest. Several innovative ideas in the form of product or service has led to the development of enterprise making the students ‘job creators rather than job seekers’. Microbiology has enough scope of developing products related to medical, agricultural and also of inter-disciplinary nature that can be nurtured in the incubation facility in creating a start-up. The Govt. is constantly encouraging such activities with various financial and regulatory support through creation of proper start-up ecosystem at the higher educational institutions.

Thus, Microbiology offers enough scope of quenching thirst for knowledge, ignition towards innovation and having a successful career. However, the success highly depends on the quality of training obtained during academic tenure and perseverance.

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