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199 results on '"Harshit Agarwal"'

1. Application of machine learning in ensuring viral safety of biotherapeutics: Case study demonstrating prediction and optimization of viral clearance performance of anion exchange chromatography

Author

Harshit Agarwal, Xiaozhou Wang, Nikki Raju Kulkarni, Sile Tao, and Chris Demers

Subjects
Machine learning, Viral clearance, Chromatography, Biopharma 4.0, Anion exchange, Biotechnology, TP248.13-248.65
Abstract

This study establishes the applicability of various machine learning (ML) algorithms for creating in silico models based on data from historical bioprocess development and manufacturing activities. We demonstrate this by developing ML-based models for a particular case of predicting viral clearance performance of anion exchange (AEX) chromatography operated in flow-through (FT) mode, a processing step that is essential for ensuring viral safety of biotherapeutics and that requires significant resources due to a large number of expensive wet lab design and characterization experiments. Using these ML-based models, we then evaluate the impact of various feed-, virus-, and process-related parameters (such as the molecular attributes of the product, the type of chromatography matrix, loading capacity, equilibration/wash buffer pH and conductivity, virus type and load, etc.) on the viral clearance performance and hence generate process understanding essential for developing FT-AEX chromatography processes with robust viral clearance performance. Finally, we show that ML-based optimization methods can be used to determine process operating ranges for improved viral clearance performance. These results are significant as they provide approaches and understanding necessary for faster and cheaper development of robust FT-AEX chromatography-based viral clearance processes and generally provide guidance on the implementation of ML-based prediction and optimization approaches in bioprocessing - crucial to reducing costs and time associated with the design and manufacturing of biotherapeutics and making these treatments widely accessible.

Published
2023
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2. Suprarenal inferior vena cava ligation: All is not lost

Author

Vignesh Kumar, Vijayan Purushothaman, Dinesh Bagaria, and Harshit Agarwal

Subjects
inferior vena cava, ligation, polytetrafluoroethylene, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Inferior vena cava (IVC) injuries account for about 25%–40% of abdominal vascular injuries. Blunt vena cava injury has a lower survival rate than penetrating injury. They may present with torrential bleed. In extreme cases, ligation of the IVC may have to be done as a damage control procedure. However, it is associated with significant morbidity and mortality, especially when the suprarenal IVC is ligated. It can lead to acute kidney injury and lower limb compartment syndrome. Suprarenal IVC ligation has been done in oncological resections, as it is a chronic disease that allows collateral vessel formation. However, there is a paucity of data on the ligation of the suprarenal IVC in acute trauma. We present a case of penetrating injury to the IVC which was managed initially by suprarenal IVC ligation, followed by synthetic interposition graft placement once the patient stabilized hemodynamically. The case highlights that this approach can be viable as a damage control procedure in exsanguinating patients.

Published
2021
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3. An overview of pancreatic trauma

Author

Harshit Agarwal, MS, MCh, Amit Gupta, MS, FRCS, and Subodh Kumar, MS, FRCS

Subjects
Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Abstract. Pancreatic trauma remains a challenge to a trauma surgeon even with extensive advancement in medicine. The mortality and morbidity associated with this injury remain high. A high index of suspicion, mechanism of injury, and early identification hold key in the final outcome. The management of pancreatic injury should involve a multidisciplinary team comprising of trauma surgeons, radiologists, and gastroenterologists. This review highlights the burden of the pancreatic injury and its management.

Published
2020
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5. Innocuous wound with occult central vascular injury: A case report

Author

Abhinav Kumar, Narendra Choudhary, Soumya Ghoshal, and Harshit Agarwal

Subjects
Medicine (General), R5-920
Abstract

Penetrating trauma is one of the most common cause of occult vascular injury, especially in low velocity penetrating injury. This is usually in pretext of an innocuous looking small external wound. It is important for clinician to have high index of suspicion for such types of injuries, as the clinical examination with presenting signs and symptoms may be deceptive. Radiological evaluation is of paramount importance and essential to rule out any occult vascular insult. Conventional open surgical exploration is the gold standard for vascular injuries in neck. Minimal invasive endovascular stenting has selective role based on zone of neck, mechanism of injury, hemodynamic stability, neurological status and resource availability at treating centre. Early diagnosis and referral to an appropriate higher centre, preferably a trauma centre with expertise in handling major vascular injuries, improve the outcome. We present a case report of small innocuous looking external wound harbouring major central vessel injury underneath following low-velocity penetrating injury.

Published
2020
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6. Analytical Modeling and Experimental Validation of Threshold Voltage in BSIM6 MOSFET Model

Author

Harshit Agarwal, Chetan Gupta, Pragya Kushwaha, Chandan Yadav, Juan P. Duarte, Sourabh Khandelwal, Chenming Hu, and Yogesh S. Chauhan

Subjects
BSIM6, MOSFET, SPICE, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

In this paper, an analytical model of threshold voltage for bulk MOSFET is developed. The model is derived from the physical charge-based core of BSIM6 MOSFET model, taking into account short channel effects, and is intended to be used in commercial SPICE simulators for operating point information. The model is validated with measurement data from IBM 90-nm technology node using various popular threshold voltage extraction techniques, and good agreement is obtained.

Published
2015
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7. Analytical Modeling of Flicker Noise in Halo Implanted MOSFETs

Author

Harshit Agarwal, Sourabh Khandelwal, Sagnik Dey, Chenming Hu, and Yogesh Singh Chauhan

Subjects
BSIM6, Halo Doping, Flicker Noise, Compact Model, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

An improved analytical model for flicker noise (1/f noise) in MOSFETs is presented. Current models do not capture the effect of high-trap density in the halo regions of the devices, which leads to significantly different bias dependence of flicker noise across device geometry. The proposed model is the first compact model implementation capturing such effect and show distinct improvements over other existing noise models. The model is compatible with BSIM6, the latest industry standard model for bulk MOSFET, and is validated with measurements from 45-nm low-power CMOS technology node.

Published
2015
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8. Implementing Cepstral Filtering Technique using Gabor Filters

Author

Sheena Sharma, Harshit Agarwal, and C.M. Markan

Subjects
3D and Stereo, Scene Understanding, Colour and Texture, Separation and Segmentation, Machine Vision, Computer engineering. Computer hardware, TK7885-7895, Electronic computers. Computer science, QA75.5-76.95
Abstract

Cepstral filtering technique is applied on an interlaced image, the pattern similar to that which is found in layer IV of Primate Visual Cortex. It involves Power spectrum in computation, which is square of absolute of Fast Fourier Transform (FFT), is a complicated and hardware unfriendly. We propose an algorithm in which Gabor filters, instead of Power Spectrum, are applied to an interlaced image in the Cepstral algorithm. This scheme makes it hardware friendly as it gives the flexibility of working with modules which can be imitated in hardware. Building a FFT module is a tough task in analog circuit but determining Gabor energy, an alternative to it, can be achieved by elementary circuits. The Phase, Energy Models and other methods, use multi-lambda Gabor filters to compute disparity. The proposed method uses sum of absolute difference to choose a single Gabor filter of appropriate lambda that fits to find the disparity. The algorithm inherits the quality of both Gabor filter and Ocular Dominance Pattern and hence a biologically inspired and suitable for hardware realization. The proposed algorithm has been implemented on the test data image. A hardware scheme has also been proposed that can be used to estimate disparity and the idea can be extended in building complex modules that can perform real time - real image operations with a handful of resources as compared to employing complex digital FPGAs and CPLDs.

Published
2012
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16. Repair by Primary Closure of Traumatic Blunt Duodenal Injuries: Simple is Not Always Safe

Author

Dinesh Bagaria, Harshit Agarwal, Abhishek Jaiswal, Anand Katiyar, Shivam Pandey, Narendra Choudhary, Junaid Alam, Biplab Mishra, Sushma Sagar, Subodh Kumar, and Amit Gupta

Subjects
Duodenum, Humans, Surgery, Abdominal Injuries, Vascular System Injuries, Hypotension, Wounds, Nonpenetrating
Abstract

Recent literature on managing traumatic duodenal injuries suggests the superiority of primary repair. We hypothesized that duodenal trauma repair by primary closure might not be a safe strategy in an environment dealing predominantly blunt injuries with limited resources.Data analysis was done from the prospectively maintained trauma registry. The study period chosen was from January 1, 2014 to December 31, 2018. Data of 63 patients were analyzed for demographics, injuries, management, and outcome. Logistic regression was used to identify mortality predictors.The most common mechanism of injury was blunt (56/63, 88.9%). Forty (63.5%) patients had associated intraabdominal injuries. The most common American Association for the Surgery of Trauma grade of injury to the duodenum was three in 21 patients. Univariate analysis showed that mortality was associated with hypotension on presentation, higher duodenal grade, associated abdominal vascular injuries, primary closure, and duodenal leak. Logistic regression showed associated associated abdominal vascular injuries, primary closure, and leak remained significant predictors of mortality.Primary repair was found to be an independent predictor of mortality. A patient's physiology is a critical determinant of the outcome. Liberal use of tube duodenostomy over primary repair seems reasonable for blunt duodenal injury management.

Published
2022

20. Learning Pattern of Two-Dimensional, Three-Dimensional, and Ultra-High-Definition Endovision System on Standardized Phantom Tasks: An Ex Vivo Randomized Study

Author

Harshit Agarwal, Shafneed Chaliyadan, Ashwani Kumar Mishra, Vitish Singla, Hemanga K. Bhattacharjee, Mohit Kumar Joshi, Suhani Suhani, and Rajinder Parshad

Subjects
Laparoscopic surgery, medicine.medical_specialty, business.industry, medicine.medical_treatment, Imaging phantom, Surgery, law.invention, Randomized controlled trial, law, medicine, High definition, Nuclear medicine, business, Ex vivo, Laparoscopic training
Abstract

Introduction: Three-dimensional (3D), high-definition (HD), and ultra-high-definition (4K HD) are recent additions over regular HD technology for laparoscopic surgery. The aim of this study was to ...

Published
2022

21. Slippery Antifouling Polymer Coatings Fabricated Entirely from Biodegradable and Biocompatible Components

Author

Harshit Agarwal, La’Darious J. Quinn, Sahana C. Walter, Thomas J. Polaske, Douglas H. Chang, Sean P. Palecek, Helen E. Blackwell, and David M. Lynn

Subjects
Excipients, Biofouling, Polymers, Plant Oils, General Materials Science, Porosity, Article, Lubricants
Abstract

We report on the design of slippery liquid-infused porous surfaces (SLIPS) fabricated entirely from building blocks that are biodegradable, edible, or generally regarded to be biocompatible. Our approach involves infusion of lubricating oils, including food oils, into nanofiber-based mats fabricated by electrospinning or blow spinning of poly(ε-caprolactone), a hydrophobic biodegradable polymer used widely in medical implants and drug delivery devices. This approach leads to durable and biodegradable SLIPS that prevent fouling by liquids and other materials, including microbial pathogens, on objects of arbitrary shape, size, and topography. This degradable polymer approach also provides practical means to design ‘controlled release’ SLIPS that release molecular cargo at rates that can be manipulated by the properties of the infused oils (e.g., viscosity or chemical structure). Together, our results provide new designs and introduce useful properties and behaviors to anti-fouling SLIPS, address important issues related to biocompatibility and environmental persistence, and thus advance new potential applications, including the use of slippery materials for food packaging, industrial and marine coatings, and biomedical implants.

Published
2023

29. Noise and RF Modeling

Author

Harshit Agarwal, Chetan Gupta, Yogesh Singh Chauhan, and Chenming Hu

Published
2023

32. Leakage Current

Author

Harshit Agarwal, Chetan Gupta, Yogesh Singh Chauhan, and Chenming Hu

Published
2023

35. Parameter Extraction

Author

Harshit Agarwal, Chetan Gupta, Yogesh Singh Chauhan, and Chenming Hu

Published
2023

38. BSIM-BULK Core Model

Author

Harshit Agarwal, Chetan Gupta, Yogesh Singh Chauhan, and Chenming Hu

Published
2023

41. Validation of the adapted clavien dindo in trauma (ACDiT) scale to grade management related complications at a level I trauma center

Author

Niladri Banerjee, Dinesh Bagaria, Harshit Agarwal, Anand Kumar Katiyar, Subodh Kumar, Sushma Sagar, Biplab Mishra, and Amit Gupta

Subjects
General Earth and Planetary Sciences, Original Article, General Environmental Science
Abstract

Objective: Complications during trauma management are the main factor responsible for the overall increase in treatment cost. There are very few grading systems to measure the burden of complications in trauma patients. A prospective study was conducted using the Adapted Clavien Dindo in Trauma (ACDiT) scale, with the primary aim of validating it at our center. As a secondary aim, it was also wanted to measure the mortality burden among our admitted patients. Material and Methods: The study was conducted at a dedicated trauma center. All patients with acute injuries, who were admitted, were included. An initial treatment plan was made within 24 hours of admission. Any deviation from this was recorded and graded according to the ACDiT. The grading was correlated with hospital-free days and ICU-free days within 30 days. Results: A total of 505 patients were included in this study, with a mean age of 31 years. The most common mechanism of injury was road traffic injury, with a median ISS and NISS of 13 and 14, respectively. Two hundred and forty-eight out of 505 patients had some grade of complication as determined by the ACDiT scale. Hospital-free days (13.5 vs. 25; p< 0.001) were significantly lower in patients with complications than those without complications, and so were ICU-free days (29 vs. 30; p< 0.001). Significant differences were also observed when comparing mean hospital free and ICU free days across various ACDiT grades. Overall mortality of the population was 8.3 %, the majority of whom were hypotensive on arrival and required ICU care. Conclusion: We successfully validated the ACDiT scale at our center. We recommend using this scale to objectively measure in-hospital complications and improve trauma management quality. ACDiT scale should be one of the data points in any trauma database/registry.

Published
2022

45. BSIM compact MOSFET models for SPICE simulation.

Author

Yogesh Singh Chauhan, Sriramkumar Venugopalan, Navid Paydavosi, Pragya Kushwaha, Srivatsava Jandhyala, Juan Pablo Duarte, Shantanu Agnihotri, Chandan Yadav, Harshit Agarwal, Ali M. Niknejad, and Chenming Calvin Hu

Published
2013

48. STUDENT ATTENDANCE SYSTEM BASED ON THE FACE RECOGNITION

Author

Lakshya Gupta, Govinda Verma, and Harshit Agarwal

Subjects
Information Systems and Management, Multimedia, business.industry, Computer science, Attendance, computer.software_genre, Facial recognition system, Motion (physics), Software, Institution (computer science), Student attendance, Train, business, computer, Information Systems, Graphical user interface
Abstract

Attendance system is very important in schools and colleges' The student attendance program has many problems such as it may not be accurate and critical to maintain. Therefore, an existing system that uses a face recognition system increases accuracy and also requires less time than other methods. There are many systems available such as face recognition using IoT, PIR sensors and so on. With face recognition, hardware devices are helpful. But the challenge is to keep all the nerves properly without getting hurt. After learning all the techniques and techniques we try to use the system with Haar Cascade Algorithm with the highest accuracy among them all. It can take pictures from 50- 70cm. We create a graphical interface that takes pictures, builds a database and trains the database with a single click. After seeing the face it will show the student's name and roll number. That information is stored on an automatic attendance sheet by time and date.

Published
2021

50. Thermoacoustic and DFT Analysis of N,N-Dimethylacetamide (DMA) with 1-Propanol and Methanol at 293.15, 303.15, and 313.15 K

Author

Laxmi Kumari, Onkar Prasad, Leena Sinha, Harshit Agarwal, and Manisha Gupta

Subjects
Physics, 010308 nuclear & particles physics, Intermolecular force, General Physics and Astronomy, Binary number, Thermodynamics, 01 natural sciences, Dimethylacetamide, chemistry.chemical_compound, 1-Propanol, chemistry, Ultrasonic velocity, 0103 physical sciences, Methanol, Statistical theory, 010306 general physics, Acoustic impedance
Abstract

In the present communication, we report molecular interaction studies in binary systems of N,N-dimethylacetamide (DMA) with 1-propanol and methanol. The density (ρm) and ultrasonic velocity (um) have been measured experimentally for binary solutions of DMA with 1-propanol and methanol at varying concentrations and temperatures. The intermolecular interactions present in the mixtures have been investigated through deviation in ultrasonic velocity (Δu), excess acoustic impedance (ZE), and excess intermolecular free length (LfE). Various semi-empirical mixing rules and theories were proposed by Nomoto, Vandeal, Junjie, collision factor theory (CFT), and Flory’s statistical theory (FST) to estimate the ultrasonic velocity of liquid mixtures. Hankinson-Brobst-Thomson (HBT) and Rackett density models have been used to compare the experimental and theoretically calculated density values. The experimental data are in good agreement with the calculated data as obtained by the DFT (B3LYP and CAM-B3LYP) method.

Published
2021

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