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Introduction
Sudipto Datta currently works at the AIIMS New Delhi as a research scientist. Earlier, he worked at IISc Bangalore as an NPDF. Sudipto does research in bioprinting and biomaterials. He completed his doctorate in engineering from IIEST, Shibpur. He did his Bachelor's in Electrical and Electronics Engineering from WBUT and Master's in Materials Engineering from IIEST, Shibpur, Howrah.
Current institution
Education
August 2016 - February 2022
August 2014 - August 2016
August 2009 - August 2013
Field of study
- Electrical and Electronics Engineering
Publications
Publications (115)
Shape memory polymers (SMPs) and shape memory composites have gained tremendous attention in recent times due to their unique ability to switch physical shapes and properties upon external stimulation. Electrospinning SMPs into three-dimensional nanofibrous mats renders them useful for a variety of applications, spanning textiles, smart wearables,...
The advent of specialized manufacturing methods, including 3D bioprinting, organ engineering, and regenerative medicine has witnessed a paradigm shift. This chapter compiles the different types of 3D bioprinting techniques, such as extrusion, light-assisted, etc., focusing on bioink development, their respective advantages and limitations. Next, th...
Metallic biomaterials are predominantly used in human medical devices compared to other material types. The corrosion resistance of implant materials significantly impacts their utility and longevity, serving as a crucial factor in determining biocompatibility. Except for biodegradable metals, the foundational principle for metallic biomaterials is...
Artificial Neural Networks (ANNs) have brought a great advance in biomedical engineering with their enhanced features in data analysis, pattern recognition, and data modeling systems. Taking advantage of the computational capabilities of ANNs, scientists and engineers have designed new approaches to address some of the most difficult tasks in medic...
Post-Traumatic Stress Disorder (PTSD) is a mental health condition that can develop after exposure to a traumatic event, such as combat, sexual assault, natural disasters, or serious accidents. Individuals with PTSD often experience intrusive memories, nightmares, hyperarousal, and avoidance of stimuli associated with the trauma, leading to signifi...
![Figure 6: Challenges in Additive Manufacturing [96].](profile/Sudipto-Datta/publication/385283969/figure/fig2/AS:11431281286510431@1730118373047/Challenges-in-Additive-Manufacturing-96_Q320.jpg)
The biomedical industries have constraints that prevent them from having any form of proper and efficient structuring of patient-specific biomedical products since health issues tend to advance with time, much as was realized with the growing personnel's ages or incidence of traffic accidents, among others. In the last two decades, a focus has been...
Creating customized applications for the biological domains has made designing nanomaterials a high research priority. Indeed, existing patterns in the literature indicate an absence of comprehensive evaluations that explicitly highlight the state of knowledge about the design and manufacturing of nanomaterials. The performance of nanoparticles (NP...
An extensive variety of etiologies, including trauma and chronic health issues, can result in peripheral nerve injuries. These injuries provide significant hurdles regarding clinical care and the eventual restoration of usual ability. In response to these obstacles, nanoparticles have become a viable therapeutic approach that has the potential to a...
Different hydrogels produced from the extracellular matrix have been used in tissue engineering and regenerative medicine to create implantable scaffolds and tissues. Even though these hydrogels have a lot of potential for the healthcare industry, typical bioinks made of ECM hydrogels have several drawbacks, most notably the inability to have the m...
This paper focuses on how to apply new technologies and computing intelligence in interaction with medical science in order to advance customer care, targeting on prognosis and treatment. With the help of AI, large amounts of data can be analyzed to identify new patterns, which will allow for correct and timely actions. Detailing about principles o...
Mechanotransduction is a collection of pathways in which the cells reprogram themselves by sensing mechanical stimuli. Cells use biological cues to interpret the physiological stresses and respond to changing conditions by modifying the cellular and ECM architecture. This feedback loop regulates a variety of cellular processes, including migration,...
By enhancing specific experiences, simplifying healthcare services, and guaranteeing patient and travel safety, AI integration has completely changed these industries. Artificial intelligence (AI)-powered virtual assistants and recommendation systems in experiential tourism respond to individual preferences by providing personalized recommendations...
In the Biomedical engineering domain, the use of smart biomaterials has a huge impact. These biomaterials own different features that respond to the surrounding changes, allowing them to be used in various biomedical therapeutic applications. They are sensitive to external stimulations like temperature, light, pH, magnetic and electric fields, etc....
In this book chapter, we will discuss the significance of tribology in various surgical and medical devices and instruments like dental implants, contact lenses, cardiovascular devices, surgical instruments, orthodontic and dental implants, artificial joints, and teeth. Also, we have briefly discussed the present condition and the future progress o...
Metallic internal fixation devices have a lot of limitations; however, it has been considered the gold standard for fixation devices. The limitations of metallic fixation are the leaching of metallic ions, stress shielding, underlying bone damage, and heavyweight. The other problems associated are surgery after bone fracture healing. Polymeric comp...
The technology of additive manufacturing is used in various sectors like construction, biomedical engineering, healthcare, aerospace, and many more. Because of the many advantages of this technology, this is being widely used in the healthcare industry. For example this is used in organ printing, disease modeling, surgery, tissue engineering, veter...
Extending reality technology will be a common tool in the future. Virtual reality (VR) and augmented reality (AR) technology will be used by people for work, leisure, and a variety of other purposes. Utilizing pictures to aid surgery as well as medical education, medical augmented reality has developed throughout time. Furthermore, the majority of...
In November 2022, OpenAI introduced ChatGPT, an AI chatbot tool built upon the generative pre-trained transformer (GPT) architecture. ChatGPT swiftly gained prominence on the internet, providing users with a platform to engage in conversations with an AI system, leveraging OpenAI's sophisticated language model. While ChatGPT exhibits remarkable cap...
Bio-printed hydrogels have evolved as one of the best regenerative medicine and tissue engineering platforms due to their outstanding cell-friendly microenvironment. A correct hydrogel ink formulation is critical for creating desired scaffolds that have better fidelity after printing. Gelatin and its derivatives have sparked intense interest in var...
Among the various manufacturing processes currently in use by the industry, 3D printing stands out as a unique additive technique. It enables the creation of three-dimensional solid objects of virtually any shape from a digital model. Initially considered an ambitious concept, medical 3D printing has become a reality thanks to substantial time and...
Carbon dots (CDs) represent a next-generation class of materials with immense potential for various biomedical applications. Their unique combination of optical properties, biocompatibility, and tunable surface chemistry positions them as versatile tools for bioimaging, drug delivery, biosensing, and photothermal therapy. As researchers continue to...
Nanomaterials like nanowires, carbon nanotubes, quantum dots, and nanoparticles have breakthrough applications in various engineering domains including the various sensor applications in biomedical engineering. Because of its huge ratio of surface area to volume compared to the macro materials, it is widely used. In this chapter, the authors descri...
The electric power sector directly depends on the development and economic growth of every country in the world. For developing and underdeveloped countries, the utility and demand for electric power are increasing yearly. To reduce carbon emission, global warming, and the harmful climate changes, renewable energy for electric power generation is n...
Advanced robotics has revolutionized modern minimally invasive surgery, offering unprecedented precision, dexterity, and control to surgeons. These robotic systems, such as the da Vinci Surgical System, have become integral tools in various surgical disciplines, including urology, gynecology, and general surgery. One key advantage of advanced robot...
The World Health Organization (WHO) proclaimed the coronavirus of 2019 (COVID-19) a global pandemic in March 2020. Effective testing is essential to stop the epidemic from spreading. Using various clinical symptom data, artificial intelligence and machine learning approaches can aid in COVID-19 detection. While the federated learning (FL) strategy...
SMA (shape memory alloys) materials are a kind of smart material that undergoes shape changes with respect to temperature variations. In this chapter, the authors focus on the microstructure, classifications, fabrication, and future applications of these materials in brief. They discuss the four main types of SMA processing techniques, which includ...
Materials play a vital role in every field of applications. The demand for advance materials has always been in increasing mode in order to complete its intended applications. There are various types of materials which has now been utilized and researched by various researchers to give its best performance with low input. Self-healing materials, bi...
The COVID-19 pandemic has caused havoc in the world's healthcare systems. Acute coronary syndrome (ACS) admission rates have varied considerably during the pandemic. Even though the coronavirus disease 2019 (COVID-19) pandemic has resulted in fewer acute coronary syndromes (ACS) patients being admitted to hospitals worldwide, clinical characteristi...
Understanding how nanomaterials (NMs) and biological systems interact at the interface is of great research interest. Nanoparticles (NPs) such as carbon nanotubes, graphene oxides, carbon dots, graphite nanopowders, and others are included in NMs. Through organic layers, medicinal compounds, proteins, DNA, and cellular matrices, these NPs exhibit a...
Just a few of the ways that climate change has influenced human lives and health over the past several decades include changes in extreme weather and climatic events, changes in the labor force, changes in food security, and changes in the prevalence and geographic distribution of infectious diseases. Indicators for climate change and health were d...
Percutaneous nephrolithotomy or PCNL is a standard renal microsurgery method in modern urology. However, this is a challenging discipline for urologists throughout the surgical procedure. They should accomplish a manner with limited sensible and flexibility of invasive apparatuses. Presently in modern medical science especially in surgery, minimall...
Artificial intelligence (AI) is altering the healthcare industry. By analyzing and interpreting data from clinical trials and research initiatives, it can improve medical research by spotting small but important trends that go beyond the human eye. By analyzing vast volumes of data to assist in making better-educated decisions regarding treatments,...
Additive manufacturing, often called 3D printing, is widely employed in all engineering sectors. Many researchers also refer to 3D printing in the biomedical field as bioprinting. Therefore, the 3D bioprinting methods are used to create patient-specific implants or devices for several tissue engineering needs. In addition, this method is also famou...
Polymeric materials have gained too much attention in the past few decades because of their suitable properties that makes these materials applicable for various biomedical applications. More specifically, biopolymers have gained main attraction because of their properties like inexpensiveness, renewability, biocompatibility, and biodegradability....
Bone grafting is a type of surgery for reconstructing damaged and defective bones by medical professionals. But the surgery is very complex and challenging as it needs precise and accurate skills of the medical professionals, and it is costly and time-consuming. The grafted bone size and shape should match the targeted area. To overcome these chall...
Medical technology powered by artificial intelligence is quickly developing into useful clinical practice solutions. Deep learning algorithms can handle the growing volumes of data produced by mobile monitoring sensors found in wearables, smartphones, and other medical devices. Currently, only a very limited number of clinical practice settings, su...
The unexpected increase of the global SARS-CoV-2 or COVID-19 pandemic in early 2020 has required exceptional methods to accomplish instant detection and decrease the spread rate. This chapter highlights the advance of lab-on-chip biosensing devices for the identification of COVID-19 infection. In this chapter, the authors study the roles of using l...
Modern medical technological signs of progress in surgical procedures have resulted in the improvement of a variety of innovative performances that have concentrated patient trauma, reduced hospitalization, and better diagnostic correctness and remedial result. In spite of the numerous esteemed reimbursement of MIS (minimally invasive surgery) eval...
Currently, in the field of biomedical engineering and biological applications, the use of soft florescent nanomaterials has increased because of their excellent biocompatibility, easy biofunctionalization, and high brightness properties. This chapter summarizes the current developments of nano-sized fluorescent soft biological imaging agents. Many...
Bioprinting is fast emerging as a viable technique for organ fabrication. Though various types of bioprinting methods have been developed, the most commonly used bioprinting is extrusion-based bioprinting (EBB). Bioinks are extruded layer-by-layer forming a 3D multicellular construct and scaled up to dimensions depending upon the specific tissue to...
Tissue damage and degeneration are common pathological phenomena in higher organisms, specifically in mammalians. However, the traditional method of organ transplantation is a gold standard treatment option for life-saving, dependent upon a donor's availability. The scarcity of organ donors and the risk of graft rejection is mainly associated with...
Congenital heart defect interventions may benefit from the fabrication of patient-specific vascular grafts because of the wide array of anatomies present in children with cardiovascular defects. Three-dimensional (3D) bioprinting is used to establish a platform to produce custom vascular grafts, which are biodegradable , mechanically compatible wit...
Surgical needle insertion is generally used in the current advanced surgery process, particularly in the area of biopsy, MIS or minimally invasive surgery, brachytherapy, etc. During the needle insertion performance into the soft tissue, one of the most important issues is the tissue deformation that affects the needle engagement inside the tissue...
The insertion of the surgical needle in soft tissue has involved significant interest in the current time because of its purpose in minimally invasive surgery (MIS) and percutaneous events like biopsies, PCNL, and brachytherapy. This study represents a review of the existing condition of investigation on insertion of a surgical needle in biological...
Extrusion-based bioprinting is an enabling biofabrication technique that is used to create heterogeneous tissue constructs according to patient-specific geometries and compositions. The optimization of bioinks as per requirements for specific tissue applications is an essential exercise in ensuring clinical translation of the bioprinting technologi...
Needle insertion practice is needed in numerous medical and analysis techniques, for example, micro-surgery of kidney stone, brachytherapy, neurosurgery, biopsy. The main intention of this research is to study the different phenomenon (force, material properties, deflection, vibrational effects, etc.) of the surgical needle-tissue interaction proce...
Soft tissue modeling of surgical events is essential for both considering tissue reactions to surgical instru-mentation, in addition, to conducting the design of the surgical instrument. Mainly with observes to surgical needle insertion for minimally invasive surgery (MIS) into soft biological tissue, one of the regularly performed surgical events,...
A novel modelling technique using finite element analysis to mimic the mechanoresponse of cell-laden biomaterial is proposed for the use in bioinks and other tissue engineering applications. Here, a hydrogel-based composite biomaterial specimen was used consisting of 5% (V/V) HeLa cells added to alginate solution (4% W/V) and another specimen with...
At present, computational methods are highly utilized by modern healthcare science. This modern technology gradually solves the complex area of healthcare science, and therefore, the upcoming treatments become more effective. Presently, in bone tissue engineering, the mechanism and different features of bone tissue are being discussed. The finite e...
Additive manufacturing (AM) makes simpler the manufacturing of difficult geometric structures. Its possibility has quickly prolonged from the manufacture of pre-fabrication conception replicas to the making of finish practice portions driving the essential for superior part feature guarantee in the additively fabricated products. Machine learning (...
In December 2019, there was a health emergency worldwide named novel coronavirus or COVID-19 by the world health organization (WHO). It originated from the Wuhan seafood market, Hubei Province, China. Till now Severe Acute Respiratory Syndrome Coronavirus-2 or SARS-CoV-2 spread over 216 countries with 177,108,695 confirmed cases and 3,840,223 confi...
![Figure 1. Active COVID-19 report by WHO [January 14th, 2021; 11:49 am CET].](profile/Ranjit-Barua/publication/354636379/figure/fig1/AS:1076144795316225@1633584321357/Active-COVID-19-report-by-WHO-January-14th-2021-1149-am-CET_Q320.jpg)
![Figure 4. SIR model for predicting the COVID-19 cases in India [22].](profile/Ranjit-Barua/publication/354636379/figure/fig3/AS:1076144795312128@1633584321500/SIR-model-for-predicting-the-COVID-19-cases-in-India-22_Q320.jpg)
A novel coronavirus, also known as SARS-CoV-2, first spread in Wuhan city China in late 2019 from a seafood market and is spreading worldwide. WHO, i.e., World Health Organization, on January 30th, 2020, mentioned and declared this novel coronavirus outbreak as an emergency of public health at the international level. In the current situation, scie...
SARS-CoV-2 is a novel virus communicable disease affected by serious acute respiratory condition coronavirus 2 (SARS-CoV-2) which goes to the family of coronavirus. In December 2019, in Wuhan, China,
the first case of novel coronavirus was reported, and this widespread virus globally became a pandemic.
Various studies show that drug applicants are...
The needle insertion process of tissue engineering is one the most significant process in biomedical and tissue engineering. Tissue deformation will occur when the needle tries to puncture the tissue's upper surface, it is an important issue of the needle insertion process, which results from the needle's exact location into the tissue. In this stu...
Bioprinting is an enabling biofabrication technique to create heterogeneous tissue constructs according to patient-specific geometries and compositions. Optimization of bioinks as per requirements for specific tissue applications is a critical exercise in ensuring clinical translation of the bioprinting technologies. Most notably, optimum hydrogel...
A novel modelling technique using finite element analysis to mimic the mechanoresponse of cell-laden biomaterial is proposed for the use in bioinks and other tissue engineering applications. Here a hydrogel-based composite biomaterial specimen was used consisting of 5% (V/V) HeLa cells added to alginate solution (4% W/V) and another specimen with n...
There are lots of social media tools that are accessible for medical or healthcare professionals, which include different social networking blogs, microblogs, media-sharing sites, wikis, virtual reality. All these different media tools can be utilized to develop or improve specialized networking and organizational promotion, education, patient educ...
Successful outcomes in the management of many clinical conditions depend to a large extent on the efficiency of drug administration and the efficiency of lab-on-chip (LOC) microfluidic device and micropumps. Over the years, it has been realized that efficient drug administration depends upon the preferential temporospatial presentation of drug to t...
The 3D bioprinting technology is getting innovative day to day although this technology is very old. By this technology we can print and fabricate many desired precise biological scaffolds, aligned tissues etc. Various biopolymers like PDMS, alginate, gelatin are being used as the bioinks for printing these scaffolds. As because of good degradation...
Epidemiology is the technique used to detect the origins of health outcomes and diseases in inhabitants. In epidemiology, the patient, the individual, and community are viewed mutually. Epidemiology is not only the analysis of health in inhabitants; it also includes applying the information enlarged by the analysis of public-based practice. In case...
3D bio-printing is a revolutionary manufacturing process that is widely used in medical fields especially in preparing bone scaffolds and tissue engineering. With the help of new biocompatible material like polymers, bio-gels, ceramics, this technology has created a new site in advanced tissue engineering and scaffolds manufacturing area. Another i...
Three-dimensional or 3D printing technology is a growing interest in medical fields like tissue engineering, dental, drug delivery, prosthetics, and implants. It is also known as the additive manufacturing (AM) process because the objects are done by extruding or depositing the material layer by layer, and the material may be like biomaterials, pla...
Three dimensional printing (3DP) is an additive manufacturing (AM) method that has rapidly disrupted conventional design and manufacturing policies. Different structures can be manufactured that could not be fabricated by other techniques. In this paper, we discuss the rapid development and extensive concepts of a bioprinting technology and scaffol...
This research also describes that the force and the deformation can be diminished with the faster effort of needle and minimum energy is needed at this moment.
presently there is a demand for vehicle robot in automated industry, military and hospital areas etc. Three omnidirectional wheel robots (TODWR) is basically a holonomic mobile vehicle which can achieve rotational and translational motions simultaneously and autonomously. This study exhibits the analysis of kinematics and dynamic motion of the thre...
The subject of robotics cover ups many diverse areas. Robots are very potent elements of today's manufacturing industry. Robots are simultaneously with other devices, equipment's, peripherals and manufacturing machines, basically robots are integrated in system. Robots are proficient of performing many difficult tasks and operation accurately and d...
The main objects of this paper are to find out the effects of copper addition on porosity of eutectic Al-12 Si powder metallurgy alloy. This alloy is extensively used due to their unique properties in automobiles area such as pistons, rotary engine housings, liners etc. to reduce weight of the components and fuel consumption. In this experiment six...
The technology of electro-rheological fluids is old, but now it is being used in market at high speed. In the near future, ER fluids may be used for structure design where accuracy, density and power density are primarily the main criteria. For minimizing the costs and maximizing the functionality of the products, like where the viscosity of the fl...
Bioprinting has emerged as a potential technique to fabricate tissue engineering constructs and in vitro models directly using living cells as a raw material for fabrication, conforming to the heterogeneity and architectural complexity of the tissues. In several of tissue engineering and in vitro disease modelling or surgical planning applications,...
Artificial vascular network analysis is most important for tissue engineering. It is important to study the tissue like material characteristic. Basically these are the nonlinear character. In this presentation above topic are discussed in detail.
The output data established the rationality of used Taguchi method for improving welding procedure as well as enhancing the welding parameter in the process of resistance arc process of welding. The validation experiment showed that this it is feasible to rise tensile shear strength considerably.
The time dependence of a viscoelastic material could be better understood by considering it as composed by an elastic solid and a viscous fluid. Fabrication of viscoelastic materials with internal channels of user-defined geometries is required for certain biomedical applications.
3D bioprinting is faster and more accurate than ever it has been in biomedical and tissue engineering. The facility to quickly generate multiple iterations of a physical evaluation model through 3D ptinting can dramatically reduce product development times, allowing medical designers to explore more variations and eliminate failures faster. These t...
Nanotechnology basically means any kind of technology in a nanoscale, which can be applied in the existent world. It is a comparatively new research field, but it is not a completely new area and the research draws insights from many other research areas. It is generally considered that nanotechnology makes possible the coming of the new Industrial...
Questions
Questions (19)
IOLs are used as an implant after cataract surgery. The material is very precise and small. PDMS hydrophobic materials are used for making this lens. Mainly micro molding is used for the fabrication of IOLs. What about bioprinting? Is it possible by bioprinting? If so how? And what should be the resolution of the bioprinter to accurately print the desired IOL?
